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Overview
Comment:Merge the latest trunk and wal2 enhancements.
Downloads: Tarball | ZIP archive | SQL archive
Timelines: family | ancestors | descendants | both | begin-concurrent-pnu-wal2
Files: files | file ages | folders
SHA3-256: 3deaa6e23b2e7f90f91f48435a9a7bfa124b488cd8498d57d8c71a9419cee5db
User & Date: drh 2019-05-14 22:07:36
Wiki:begin-concurrent-pnu-wal2
Context
2019-07-08
21:25
Merge enhancments from wal2, which also merges trunk enhancements. check-in: 08dcb4593d user: drh tags: begin-concurrent-pnu-wal2
2019-05-14
22:07
Merge the latest trunk and wal2 enhancements. check-in: 3deaa6e23b user: drh tags: begin-concurrent-pnu-wal2
22:02
Merge the latest trunk enhancements into the wal2 branch. check-in: 23ec34e4f6 user: drh tags: wal2
2019-04-15
15:28
Merge all recent enhancements. check-in: 1cd536ecc8 user: drh tags: begin-concurrent-pnu-wal2
Changes
Hide Diffs Unified Diffs Ignore Whitespace Patch

Changes to VERSION.

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|
1
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#! /bin/sh
# Guess values for system-dependent variables and create Makefiles.
# Generated by GNU Autoconf 2.69 for sqlite 3.28.0.
#
#
# Copyright (C) 1992-1996, 1998-2012 Free Software Foundation, Inc.
#
#
# This configure script is free software; the Free Software Foundation
# gives unlimited permission to copy, distribute and modify it.
................................................................................
subdirs=
MFLAGS=
MAKEFLAGS=

# Identity of this package.
PACKAGE_NAME='sqlite'
PACKAGE_TARNAME='sqlite'
PACKAGE_VERSION='3.28.0'
PACKAGE_STRING='sqlite 3.28.0'
PACKAGE_BUGREPORT=''
PACKAGE_URL=''

# Factoring default headers for most tests.
ac_includes_default="\
#include <stdio.h>
#ifdef HAVE_SYS_TYPES_H
................................................................................
pdfdir
dvidir
htmldir
infodir
docdir
oldincludedir
includedir
runstatedir
localstatedir
sharedstatedir
sysconfdir
datadir
datarootdir
libexecdir
sbindir
................................................................................
sbindir='${exec_prefix}/sbin'
libexecdir='${exec_prefix}/libexec'
datarootdir='${prefix}/share'
datadir='${datarootdir}'
sysconfdir='${prefix}/etc'
sharedstatedir='${prefix}/com'
localstatedir='${prefix}/var'
runstatedir='${localstatedir}/run'
includedir='${prefix}/include'
oldincludedir='/usr/include'
docdir='${datarootdir}/doc/${PACKAGE_TARNAME}'
infodir='${datarootdir}/info'
htmldir='${docdir}'
dvidir='${docdir}'
pdfdir='${docdir}'
................................................................................
  -psdir=* | --psdir=* | --psdi=* | --psd=* | --ps=*)
    psdir=$ac_optarg ;;

  -q | -quiet | --quiet | --quie | --qui | --qu | --q \
  | -silent | --silent | --silen | --sile | --sil)
    silent=yes ;;

  -runstatedir | --runstatedir | --runstatedi | --runstated \
  | --runstate | --runstat | --runsta | --runst | --runs \
  | --run | --ru | --r)
    ac_prev=runstatedir ;;
  -runstatedir=* | --runstatedir=* | --runstatedi=* | --runstated=* \
  | --runstate=* | --runstat=* | --runsta=* | --runst=* | --runs=* \
  | --run=* | --ru=* | --r=*)
    runstatedir=$ac_optarg ;;

  -sbindir | --sbindir | --sbindi | --sbind | --sbin | --sbi | --sb)
    ac_prev=sbindir ;;
  -sbindir=* | --sbindir=* | --sbindi=* | --sbind=* | --sbin=* \
  | --sbi=* | --sb=*)
    sbindir=$ac_optarg ;;

  -sharedstatedir | --sharedstatedir | --sharedstatedi \
................................................................................
  esac
fi

# Check all directory arguments for consistency.
for ac_var in	exec_prefix prefix bindir sbindir libexecdir datarootdir \
		datadir sysconfdir sharedstatedir localstatedir includedir \
		oldincludedir docdir infodir htmldir dvidir pdfdir psdir \
		libdir localedir mandir runstatedir
do
  eval ac_val=\$$ac_var
  # Remove trailing slashes.
  case $ac_val in
    */ )
      ac_val=`expr "X$ac_val" : 'X\(.*[^/]\)' \| "X$ac_val" : 'X\(.*\)'`
      eval $ac_var=\$ac_val;;
................................................................................
#
# Report the --help message.
#
if test "$ac_init_help" = "long"; then
  # Omit some internal or obsolete options to make the list less imposing.
  # This message is too long to be a string in the A/UX 3.1 sh.
  cat <<_ACEOF
\`configure' configures sqlite 3.28.0 to adapt to many kinds of systems.

Usage: $0 [OPTION]... [VAR=VALUE]...

To assign environment variables (e.g., CC, CFLAGS...), specify them as
VAR=VALUE.  See below for descriptions of some of the useful variables.

Defaults for the options are specified in brackets.
................................................................................
Fine tuning of the installation directories:
  --bindir=DIR            user executables [EPREFIX/bin]
  --sbindir=DIR           system admin executables [EPREFIX/sbin]
  --libexecdir=DIR        program executables [EPREFIX/libexec]
  --sysconfdir=DIR        read-only single-machine data [PREFIX/etc]
  --sharedstatedir=DIR    modifiable architecture-independent data [PREFIX/com]
  --localstatedir=DIR     modifiable single-machine data [PREFIX/var]
  --runstatedir=DIR       modifiable per-process data [LOCALSTATEDIR/run]
  --libdir=DIR            object code libraries [EPREFIX/lib]
  --includedir=DIR        C header files [PREFIX/include]
  --oldincludedir=DIR     C header files for non-gcc [/usr/include]
  --datarootdir=DIR       read-only arch.-independent data root [PREFIX/share]
  --datadir=DIR           read-only architecture-independent data [DATAROOTDIR]
  --infodir=DIR           info documentation [DATAROOTDIR/info]
  --localedir=DIR         locale-dependent data [DATAROOTDIR/locale]
................................................................................
  --build=BUILD     configure for building on BUILD [guessed]
  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
_ACEOF
fi

if test -n "$ac_init_help"; then
  case $ac_init_help in
     short | recursive ) echo "Configuration of sqlite 3.28.0:";;
   esac
  cat <<\_ACEOF

Optional Features:
  --disable-option-checking  ignore unrecognized --enable/--with options
  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
................................................................................
    cd "$ac_pwd" || { ac_status=$?; break; }
  done
fi

test -n "$ac_init_help" && exit $ac_status
if $ac_init_version; then
  cat <<\_ACEOF
sqlite configure 3.28.0
generated by GNU Autoconf 2.69

Copyright (C) 2012 Free Software Foundation, Inc.
This configure script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it.
_ACEOF
  exit
................................................................................
  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno

} # ac_fn_c_check_header_mongrel
cat >config.log <<_ACEOF
This file contains any messages produced by compilers while
running configure, to aid debugging if configure makes a mistake.

It was created by sqlite $as_me 3.28.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  $ $0 $@

_ACEOF
exec 5>>config.log
{
................................................................................
{ $as_echo "$as_me:${as_lineno-$LINENO}: checking the name lister ($NM) interface" >&5
$as_echo_n "checking the name lister ($NM) interface... " >&6; }
if ${lt_cv_nm_interface+:} false; then :
  $as_echo_n "(cached) " >&6
else
  lt_cv_nm_interface="BSD nm"
  echo "int some_variable = 0;" > conftest.$ac_ext
  (eval echo "\"\$as_me:3949: $ac_compile\"" >&5)
  (eval "$ac_compile" 2>conftest.err)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3952: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
  (eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3955: output\"" >&5)
  cat conftest.out >&5
  if $GREP 'External.*some_variable' conftest.out > /dev/null; then
    lt_cv_nm_interface="MS dumpbin"
  fi
  rm -f conftest*
fi
{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_nm_interface" >&5
................................................................................
	;;
    esac
  fi
  rm -rf conftest*
  ;;
*-*-irix6*)
  # Find out which ABI we are using.
  echo '#line 5161 "configure"' > conftest.$ac_ext
  if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5
  (eval $ac_compile) 2>&5
  ac_status=$?
  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
  test $ac_status = 0; }; then
    if test "$lt_cv_prog_gnu_ld" = yes; then
      case `/usr/bin/file conftest.$ac_objext` in
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:6686: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:6690: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_rtti_exceptions=yes
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7025: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:7029: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_pic_works=yes
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7130: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7134: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7185: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7189: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9565 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self_static=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9661 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................
	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
/* end confdefs.h.  */
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T ((((off_t) 1 << 31) << 31) - 1 + (((off_t) 1 << 31) << 31))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
/* end confdefs.h.  */
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T ((((off_t) 1 << 31) << 31) - 1 + (((off_t) 1 << 31) << 31))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
/* end confdefs.h.  */
#define _FILE_OFFSET_BITS 64
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T ((((off_t) 1 << 31) << 31) - 1 + (((off_t) 1 << 31) << 31))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
/* end confdefs.h.  */
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T ((((off_t) 1 << 31) << 31) - 1 + (((off_t) 1 << 31) << 31))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
/* end confdefs.h.  */
#define _LARGE_FILES 1
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T ((((off_t) 1 << 31) << 31) - 1 + (((off_t) 1 << 31) << 31))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1

cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
# Save the log message, to keep $0 and so on meaningful, and to
# report actual input values of CONFIG_FILES etc. instead of their
# values after options handling.
ac_log="
This file was extended by sqlite $as_me 3.28.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  CONFIG_FILES    = $CONFIG_FILES
  CONFIG_HEADERS  = $CONFIG_HEADERS
  CONFIG_LINKS    = $CONFIG_LINKS
  CONFIG_COMMANDS = $CONFIG_COMMANDS
  $ $0 $@
................................................................................

Report bugs to the package provider."

_ACEOF
cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
ac_cs_version="\\
sqlite config.status 3.28.0
configured by $0, generated by GNU Autoconf 2.69,
  with options \\"\$ac_cs_config\\"

Copyright (C) 2012 Free Software Foundation, Inc.
This config.status script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it."



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#! /bin/sh
# Guess values for system-dependent variables and create Makefiles.
# Generated by GNU Autoconf 2.69 for sqlite 3.29.0.
#
#
# Copyright (C) 1992-1996, 1998-2012 Free Software Foundation, Inc.
#
#
# This configure script is free software; the Free Software Foundation
# gives unlimited permission to copy, distribute and modify it.
................................................................................
subdirs=
MFLAGS=
MAKEFLAGS=

# Identity of this package.
PACKAGE_NAME='sqlite'
PACKAGE_TARNAME='sqlite'
PACKAGE_VERSION='3.29.0'
PACKAGE_STRING='sqlite 3.29.0'
PACKAGE_BUGREPORT=''
PACKAGE_URL=''

# Factoring default headers for most tests.
ac_includes_default="\
#include <stdio.h>
#ifdef HAVE_SYS_TYPES_H
................................................................................
pdfdir
dvidir
htmldir
infodir
docdir
oldincludedir
includedir

localstatedir
sharedstatedir
sysconfdir
datadir
datarootdir
libexecdir
sbindir
................................................................................
sbindir='${exec_prefix}/sbin'
libexecdir='${exec_prefix}/libexec'
datarootdir='${prefix}/share'
datadir='${datarootdir}'
sysconfdir='${prefix}/etc'
sharedstatedir='${prefix}/com'
localstatedir='${prefix}/var'

includedir='${prefix}/include'
oldincludedir='/usr/include'
docdir='${datarootdir}/doc/${PACKAGE_TARNAME}'
infodir='${datarootdir}/info'
htmldir='${docdir}'
dvidir='${docdir}'
pdfdir='${docdir}'
................................................................................
  -psdir=* | --psdir=* | --psdi=* | --psd=* | --ps=*)
    psdir=$ac_optarg ;;

  -q | -quiet | --quiet | --quie | --qui | --qu | --q \
  | -silent | --silent | --silen | --sile | --sil)
    silent=yes ;;










  -sbindir | --sbindir | --sbindi | --sbind | --sbin | --sbi | --sb)
    ac_prev=sbindir ;;
  -sbindir=* | --sbindir=* | --sbindi=* | --sbind=* | --sbin=* \
  | --sbi=* | --sb=*)
    sbindir=$ac_optarg ;;

  -sharedstatedir | --sharedstatedir | --sharedstatedi \
................................................................................
  esac
fi

# Check all directory arguments for consistency.
for ac_var in	exec_prefix prefix bindir sbindir libexecdir datarootdir \
		datadir sysconfdir sharedstatedir localstatedir includedir \
		oldincludedir docdir infodir htmldir dvidir pdfdir psdir \
		libdir localedir mandir
do
  eval ac_val=\$$ac_var
  # Remove trailing slashes.
  case $ac_val in
    */ )
      ac_val=`expr "X$ac_val" : 'X\(.*[^/]\)' \| "X$ac_val" : 'X\(.*\)'`
      eval $ac_var=\$ac_val;;
................................................................................
#
# Report the --help message.
#
if test "$ac_init_help" = "long"; then
  # Omit some internal or obsolete options to make the list less imposing.
  # This message is too long to be a string in the A/UX 3.1 sh.
  cat <<_ACEOF
\`configure' configures sqlite 3.29.0 to adapt to many kinds of systems.

Usage: $0 [OPTION]... [VAR=VALUE]...

To assign environment variables (e.g., CC, CFLAGS...), specify them as
VAR=VALUE.  See below for descriptions of some of the useful variables.

Defaults for the options are specified in brackets.
................................................................................
Fine tuning of the installation directories:
  --bindir=DIR            user executables [EPREFIX/bin]
  --sbindir=DIR           system admin executables [EPREFIX/sbin]
  --libexecdir=DIR        program executables [EPREFIX/libexec]
  --sysconfdir=DIR        read-only single-machine data [PREFIX/etc]
  --sharedstatedir=DIR    modifiable architecture-independent data [PREFIX/com]
  --localstatedir=DIR     modifiable single-machine data [PREFIX/var]

  --libdir=DIR            object code libraries [EPREFIX/lib]
  --includedir=DIR        C header files [PREFIX/include]
  --oldincludedir=DIR     C header files for non-gcc [/usr/include]
  --datarootdir=DIR       read-only arch.-independent data root [PREFIX/share]
  --datadir=DIR           read-only architecture-independent data [DATAROOTDIR]
  --infodir=DIR           info documentation [DATAROOTDIR/info]
  --localedir=DIR         locale-dependent data [DATAROOTDIR/locale]
................................................................................
  --build=BUILD     configure for building on BUILD [guessed]
  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
_ACEOF
fi

if test -n "$ac_init_help"; then
  case $ac_init_help in
     short | recursive ) echo "Configuration of sqlite 3.29.0:";;
   esac
  cat <<\_ACEOF

Optional Features:
  --disable-option-checking  ignore unrecognized --enable/--with options
  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
................................................................................
    cd "$ac_pwd" || { ac_status=$?; break; }
  done
fi

test -n "$ac_init_help" && exit $ac_status
if $ac_init_version; then
  cat <<\_ACEOF
sqlite configure 3.29.0
generated by GNU Autoconf 2.69

Copyright (C) 2012 Free Software Foundation, Inc.
This configure script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it.
_ACEOF
  exit
................................................................................
  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno

} # ac_fn_c_check_header_mongrel
cat >config.log <<_ACEOF
This file contains any messages produced by compilers while
running configure, to aid debugging if configure makes a mistake.

It was created by sqlite $as_me 3.29.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  $ $0 $@

_ACEOF
exec 5>>config.log
{
................................................................................
{ $as_echo "$as_me:${as_lineno-$LINENO}: checking the name lister ($NM) interface" >&5
$as_echo_n "checking the name lister ($NM) interface... " >&6; }
if ${lt_cv_nm_interface+:} false; then :
  $as_echo_n "(cached) " >&6
else
  lt_cv_nm_interface="BSD nm"
  echo "int some_variable = 0;" > conftest.$ac_ext
  (eval echo "\"\$as_me:3937: $ac_compile\"" >&5)
  (eval "$ac_compile" 2>conftest.err)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3940: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
  (eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3943: output\"" >&5)
  cat conftest.out >&5
  if $GREP 'External.*some_variable' conftest.out > /dev/null; then
    lt_cv_nm_interface="MS dumpbin"
  fi
  rm -f conftest*
fi
{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_nm_interface" >&5
................................................................................
	;;
    esac
  fi
  rm -rf conftest*
  ;;
*-*-irix6*)
  # Find out which ABI we are using.
  echo '#line 5149 "configure"' > conftest.$ac_ext
  if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5
  (eval $ac_compile) 2>&5
  ac_status=$?
  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
  test $ac_status = 0; }; then
    if test "$lt_cv_prog_gnu_ld" = yes; then
      case `/usr/bin/file conftest.$ac_objext` in
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:6674: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:6678: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_rtti_exceptions=yes
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7013: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:7017: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_pic_works=yes
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7118: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7122: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7173: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7177: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9553 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self_static=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9649 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................
	 cat confdefs.h - <<_ACEOF >conftest.$ac_ext
/* end confdefs.h.  */
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
/* end confdefs.h.  */
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
/* end confdefs.h.  */
#define _FILE_OFFSET_BITS 64
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
  cat confdefs.h - <<_ACEOF >conftest.$ac_ext
/* end confdefs.h.  */
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
/* end confdefs.h.  */
#define _LARGE_FILES 1
#include <sys/types.h>
 /* Check that off_t can represent 2**63 - 1 correctly.
    We can't simply define LARGE_OFF_T to be 9223372036854775807,
    since some C++ compilers masquerading as C compilers
    incorrectly reject 9223372036854775807.  */
#define LARGE_OFF_T (((off_t) 1 << 62) - 1 + ((off_t) 1 << 62))
  int off_t_is_large[(LARGE_OFF_T % 2147483629 == 721
		       && LARGE_OFF_T % 2147483647 == 1)
		      ? 1 : -1];
int
main ()
{

................................................................................
test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1

cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
# Save the log message, to keep $0 and so on meaningful, and to
# report actual input values of CONFIG_FILES etc. instead of their
# values after options handling.
ac_log="
This file was extended by sqlite $as_me 3.29.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  CONFIG_FILES    = $CONFIG_FILES
  CONFIG_HEADERS  = $CONFIG_HEADERS
  CONFIG_LINKS    = $CONFIG_LINKS
  CONFIG_COMMANDS = $CONFIG_COMMANDS
  $ $0 $@
................................................................................

Report bugs to the package provider."

_ACEOF
cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
ac_cs_version="\\
sqlite config.status 3.29.0
configured by $0, generated by GNU Autoconf 2.69,
  with options \\"\$ac_cs_config\\"

Copyright (C) 2012 Free Software Foundation, Inc.
This config.status script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it."

Changes to ext/fts3/fts3_write.c.

3750
3751
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3753
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3755
3756
3757
3758
3759
3760
3761
3762
3763
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....
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3771
3772
3773
3774
3775
3776
3777
3778
3779
3780
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3782
3783
    p->aNode = 0;
  }else{
    if( bFirst==0 ){
      p->iOff += fts3GetVarint32(&p->aNode[p->iOff], &nPrefix);
    }
    p->iOff += fts3GetVarint32(&p->aNode[p->iOff], &nSuffix);

    if( nPrefix>p->iOff || nSuffix>p->nNode-p->iOff ){
      return FTS_CORRUPT_VTAB;
    }
    blobGrowBuffer(&p->term, nPrefix+nSuffix, &rc);
    if( rc==SQLITE_OK ){
      memcpy(&p->term.a[nPrefix], &p->aNode[p->iOff], nSuffix);
      p->term.n = nPrefix+nSuffix;
      p->iOff += nSuffix;
................................................................................
        }
        p->aDoclist = &p->aNode[p->iOff];
        p->iOff += p->nDoclist;
      }
    }
  }

  assert( p->iOff<=p->nNode );
  return rc;
}

/*
** Release all dynamic resources held by node-reader object *p.
*/
static void nodeReaderRelease(NodeReader *p){







|







 







|







3750
3751
3752
3753
3754
3755
3756
3757
3758
3759
3760
3761
3762
3763
3764
....
3769
3770
3771
3772
3773
3774
3775
3776
3777
3778
3779
3780
3781
3782
3783
    p->aNode = 0;
  }else{
    if( bFirst==0 ){
      p->iOff += fts3GetVarint32(&p->aNode[p->iOff], &nPrefix);
    }
    p->iOff += fts3GetVarint32(&p->aNode[p->iOff], &nSuffix);

    if( nPrefix>p->term.n || nSuffix>p->nNode-p->iOff || nSuffix==0 ){
      return FTS_CORRUPT_VTAB;
    }
    blobGrowBuffer(&p->term, nPrefix+nSuffix, &rc);
    if( rc==SQLITE_OK ){
      memcpy(&p->term.a[nPrefix], &p->aNode[p->iOff], nSuffix);
      p->term.n = nPrefix+nSuffix;
      p->iOff += nSuffix;
................................................................................
        }
        p->aDoclist = &p->aNode[p->iOff];
        p->iOff += p->nDoclist;
      }
    }
  }

  assert_fts3_nc( p->iOff<=p->nNode );
  return rc;
}

/*
** Release all dynamic resources held by node-reader object *p.
*/
static void nodeReaderRelease(NodeReader *p){

Changes to ext/fts5/fts5_buffer.c.

174
175
176
177
178
179
180

181



182
183
184





185
186
187
188
189
190
191
    /* EOF */
    *piOff = -1;
    return 1;  
  }else{
    i64 iOff = *piOff;
    int iVal;
    fts5FastGetVarint32(a, i, iVal);

    if( iVal==1 ){



      fts5FastGetVarint32(a, i, iVal);
      iOff = ((i64)iVal) << 32;
      fts5FastGetVarint32(a, i, iVal);





    }
    *piOff = iOff + ((iVal-2) & 0x7FFFFFFF);
    *pi = i;
    return 0;
  }
}








>
|
>
>
>



>
>
>
>
>







174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
    /* EOF */
    *piOff = -1;
    return 1;  
  }else{
    i64 iOff = *piOff;
    int iVal;
    fts5FastGetVarint32(a, i, iVal);
    if( iVal<=1 ){
      if( iVal==0 ){
        *pi = i;
        return 0;
      }
      fts5FastGetVarint32(a, i, iVal);
      iOff = ((i64)iVal) << 32;
      fts5FastGetVarint32(a, i, iVal);
      if( iVal<2 ){
        /* This is a corrupt record. So stop parsing it here. */
        *piOff = -1;
        return 1;
      }
    }
    *piOff = iOff + ((iVal-2) & 0x7FFFFFFF);
    *pi = i;
    return 0;
  }
}

Changes to ext/fts5/fts5_index.c.

4949
4950
4951
4952
4953
4954
4955
4956






4957
4958
4959
4960
4961
4962
4963
4964
4965
4966
4967

4968
4969
4970
4971
4972
4973
4974

4975
4976
4977
4978
4979
4980
4981
....
4991
4992
4993
4994
4995
4996
4997
4998
4999
5000
5001
5002
5003
5004
5005
5006
5007
5008
5009
5010
5011
5012
5013
5014
....
5025
5026
5027
5028
5029
5030
5031
5032
5033
5034
5035
5036
5037
5038
5039
5040
5041
5042
5043
5044
5045
5046
5047

5048
5049
5050
5051
5052
5053
5054
5055
5056
5057
5058
5059
5060
5061
5062
5063
5064
5065
5066
    Fts5Buffer tmp = {0, 0, 0};

    /* The maximum size of the output is equal to the sum of the two 
    ** input sizes + 1 varint (9 bytes). The extra varint is because if the
    ** first rowid in one input is a large negative number, and the first in
    ** the other a non-negative number, the delta for the non-negative
    ** number will be larger on disk than the literal integer value
    ** was.  */






    if( sqlite3Fts5BufferSize(&p->rc, &out, p1->n + p2->n + 9) ) return;
    fts5DoclistIterInit(p1, &i1);
    fts5DoclistIterInit(p2, &i2);

    while( 1 ){
      if( i1.iRowid<i2.iRowid ){
        /* Copy entry from i1 */
        fts5MergeAppendDocid(&out, iLastRowid, i1.iRowid);
        fts5BufferSafeAppendBlob(&out, i1.aPoslist, i1.nPoslist+i1.nSize);
        fts5DoclistIterNext(&i1);
        if( i1.aPoslist==0 ) break;

      }
      else if( i2.iRowid!=i1.iRowid ){
        /* Copy entry from i2 */
        fts5MergeAppendDocid(&out, iLastRowid, i2.iRowid);
        fts5BufferSafeAppendBlob(&out, i2.aPoslist, i2.nPoslist+i2.nSize);
        fts5DoclistIterNext(&i2);
        if( i2.aPoslist==0 ) break;

      }
      else{
        /* Merge the two position lists. */ 
        i64 iPos1 = 0;
        i64 iPos2 = 0;
        int iOff1 = 0;
        int iOff2 = 0;
................................................................................
        fts5MergeAppendDocid(&out, iLastRowid, i2.iRowid);
        fts5BufferZero(&tmp);
        sqlite3Fts5BufferSize(&p->rc, &tmp, i1.nPoslist + i2.nPoslist);
        if( p->rc ) break;

        sqlite3Fts5PoslistNext64(a1, i1.nPoslist, &iOff1, &iPos1);
        sqlite3Fts5PoslistNext64(a2, i2.nPoslist, &iOff2, &iPos2);
        assert( iPos1>=0 && iPos2>=0 );

        if( iPos1<iPos2 ){
          sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos1);
          sqlite3Fts5PoslistNext64(a1, i1.nPoslist, &iOff1, &iPos1);
        }else{
          sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos2);
          sqlite3Fts5PoslistNext64(a2, i2.nPoslist, &iOff2, &iPos2);
        }

        if( iPos1>=0 && iPos2>=0 ){
          while( 1 ){
            if( iPos1<iPos2 ){
              if( iPos1!=iPrev ){
                sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos1);
              }
              sqlite3Fts5PoslistNext64(a1, i1.nPoslist, &iOff1, &iPos1);
................................................................................
        if( iPos1>=0 ){
          if( iPos1!=iPrev ){
            sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos1);
          }
          aCopy = &a1[iOff1];
          nCopy = i1.nPoslist - iOff1;
        }else{
          assert( iPos2>=0 && iPos2!=iPrev );
          sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos2);
          aCopy = &a2[iOff2];
          nCopy = i2.nPoslist - iOff2;
        }
        if( nCopy>0 ){
          fts5BufferSafeAppendBlob(&tmp, aCopy, nCopy);
        }

        /* WRITEPOSLISTSIZE */
        fts5BufferSafeAppendVarint(&out, tmp.n * 2);
        fts5BufferSafeAppendBlob(&out, tmp.p, tmp.n);
        fts5DoclistIterNext(&i1);
        fts5DoclistIterNext(&i2);
        assert( out.n<=(p1->n+p2->n+9) );
        if( i1.aPoslist==0 || i2.aPoslist==0 ) break;

      }
    }

    if( i1.aPoslist ){
      fts5MergeAppendDocid(&out, iLastRowid, i1.iRowid);
      fts5BufferSafeAppendBlob(&out, i1.aPoslist, i1.aEof - i1.aPoslist);
    }
    else if( i2.aPoslist ){
      fts5MergeAppendDocid(&out, iLastRowid, i2.iRowid);
      fts5BufferSafeAppendBlob(&out, i2.aPoslist, i2.aEof - i2.aPoslist);
    }
    assert( out.n<=(p1->n+p2->n+9) );

    fts5BufferSet(&p->rc, p1, out.n, out.p);
    fts5BufferFree(&tmp);
    fts5BufferFree(&out);
  }
}








|
>
>
>
>
>
>
|










>







>







 







|








<







 







|













|

>











|







4949
4950
4951
4952
4953
4954
4955
4956
4957
4958
4959
4960
4961
4962
4963
4964
4965
4966
4967
4968
4969
4970
4971
4972
4973
4974
4975
4976
4977
4978
4979
4980
4981
4982
4983
4984
4985
4986
4987
4988
4989
....
4999
5000
5001
5002
5003
5004
5005
5006
5007
5008
5009
5010
5011
5012
5013
5014

5015
5016
5017
5018
5019
5020
5021
....
5032
5033
5034
5035
5036
5037
5038
5039
5040
5041
5042
5043
5044
5045
5046
5047
5048
5049
5050
5051
5052
5053
5054
5055
5056
5057
5058
5059
5060
5061
5062
5063
5064
5065
5066
5067
5068
5069
5070
5071
5072
5073
5074
    Fts5Buffer tmp = {0, 0, 0};

    /* The maximum size of the output is equal to the sum of the two 
    ** input sizes + 1 varint (9 bytes). The extra varint is because if the
    ** first rowid in one input is a large negative number, and the first in
    ** the other a non-negative number, the delta for the non-negative
    ** number will be larger on disk than the literal integer value
    ** was.  
    **
    ** Or, if the input position-lists are corrupt, then the output might
    ** include up to 2 extra 10-byte positions created by interpreting -1
    ** (the value PoslistNext64() uses for EOF) as a position and appending
    ** it to the output. This can happen at most once for each input 
    ** position-list, hence two 10 byte paddings.  */
    if( sqlite3Fts5BufferSize(&p->rc, &out, p1->n + p2->n + 9+10+10) ) return;
    fts5DoclistIterInit(p1, &i1);
    fts5DoclistIterInit(p2, &i2);

    while( 1 ){
      if( i1.iRowid<i2.iRowid ){
        /* Copy entry from i1 */
        fts5MergeAppendDocid(&out, iLastRowid, i1.iRowid);
        fts5BufferSafeAppendBlob(&out, i1.aPoslist, i1.nPoslist+i1.nSize);
        fts5DoclistIterNext(&i1);
        if( i1.aPoslist==0 ) break;
        assert( out.n<=((i1.aPoslist-p1->p) + (i2.aPoslist-p2->p)+9+10+10) );
      }
      else if( i2.iRowid!=i1.iRowid ){
        /* Copy entry from i2 */
        fts5MergeAppendDocid(&out, iLastRowid, i2.iRowid);
        fts5BufferSafeAppendBlob(&out, i2.aPoslist, i2.nPoslist+i2.nSize);
        fts5DoclistIterNext(&i2);
        if( i2.aPoslist==0 ) break;
        assert( out.n<=((i1.aPoslist-p1->p) + (i2.aPoslist-p2->p)+9+10+10) );
      }
      else{
        /* Merge the two position lists. */ 
        i64 iPos1 = 0;
        i64 iPos2 = 0;
        int iOff1 = 0;
        int iOff2 = 0;
................................................................................
        fts5MergeAppendDocid(&out, iLastRowid, i2.iRowid);
        fts5BufferZero(&tmp);
        sqlite3Fts5BufferSize(&p->rc, &tmp, i1.nPoslist + i2.nPoslist);
        if( p->rc ) break;

        sqlite3Fts5PoslistNext64(a1, i1.nPoslist, &iOff1, &iPos1);
        sqlite3Fts5PoslistNext64(a2, i2.nPoslist, &iOff2, &iPos2);
        assert_nc( iPos1>=0 && iPos2>=0 );

        if( iPos1<iPos2 ){
          sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos1);
          sqlite3Fts5PoslistNext64(a1, i1.nPoslist, &iOff1, &iPos1);
        }else{
          sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos2);
          sqlite3Fts5PoslistNext64(a2, i2.nPoslist, &iOff2, &iPos2);
        }

        if( iPos1>=0 && iPos2>=0 ){
          while( 1 ){
            if( iPos1<iPos2 ){
              if( iPos1!=iPrev ){
                sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos1);
              }
              sqlite3Fts5PoslistNext64(a1, i1.nPoslist, &iOff1, &iPos1);
................................................................................
        if( iPos1>=0 ){
          if( iPos1!=iPrev ){
            sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos1);
          }
          aCopy = &a1[iOff1];
          nCopy = i1.nPoslist - iOff1;
        }else{
          assert_nc( iPos2>=0 && iPos2!=iPrev );
          sqlite3Fts5PoslistSafeAppend(&tmp, &iPrev, iPos2);
          aCopy = &a2[iOff2];
          nCopy = i2.nPoslist - iOff2;
        }
        if( nCopy>0 ){
          fts5BufferSafeAppendBlob(&tmp, aCopy, nCopy);
        }

        /* WRITEPOSLISTSIZE */
        fts5BufferSafeAppendVarint(&out, tmp.n * 2);
        fts5BufferSafeAppendBlob(&out, tmp.p, tmp.n);
        fts5DoclistIterNext(&i1);
        fts5DoclistIterNext(&i2);
        assert_nc( out.n<=(p1->n+p2->n+9) );
        if( i1.aPoslist==0 || i2.aPoslist==0 ) break;
        assert( out.n<=((i1.aPoslist-p1->p) + (i2.aPoslist-p2->p)+9+10+10) );
      }
    }

    if( i1.aPoslist ){
      fts5MergeAppendDocid(&out, iLastRowid, i1.iRowid);
      fts5BufferSafeAppendBlob(&out, i1.aPoslist, i1.aEof - i1.aPoslist);
    }
    else if( i2.aPoslist ){
      fts5MergeAppendDocid(&out, iLastRowid, i2.iRowid);
      fts5BufferSafeAppendBlob(&out, i2.aPoslist, i2.aEof - i2.aPoslist);
    }
    assert_nc( out.n<=(p1->n+p2->n+9) );

    fts5BufferSet(&p->rc, p1, out.n, out.p);
    fts5BufferFree(&tmp);
    fts5BufferFree(&out);
  }
}

Changes to ext/fts5/fts5_vocab.c.

569
570
571
572
573
574
575
576
577


578
579
580
581
582
583
584
          if( sqlite3Fts5IterEof(pCsr->pIter) ) break;
        }
      }
    }
  }

  if( rc==SQLITE_OK && pCsr->bEof==0 && pTab->eType==FTS5_VOCAB_COL ){
    while( pCsr->aDoc[pCsr->iCol]==0 ) pCsr->iCol++;
    assert( pCsr->iCol<pCsr->pFts5->pConfig->nCol );


  }
  return rc;
}

/*
** This is the xFilter implementation for the virtual table.
*/







|
|
>
>







569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
          if( sqlite3Fts5IterEof(pCsr->pIter) ) break;
        }
      }
    }
  }

  if( rc==SQLITE_OK && pCsr->bEof==0 && pTab->eType==FTS5_VOCAB_COL ){
    for(/* noop */; pCsr->iCol<nCol && pCsr->aDoc[pCsr->iCol]==0; pCsr->iCol++);
    if( pCsr->iCol==nCol ){
      rc = FTS5_CORRUPT;
    }
  }
  return rc;
}

/*
** This is the xFilter implementation for the virtual table.
*/

Changes to ext/fts5/test/fts5corrupt3.test.

5809
5810
5811
5812
5813
5814
5815
5816
5817
5818
5819
5820
5821
5822
5823
5824
5825
5826
5827
5828
....
6414
6415
6416
6417
6418
6419
6420





6421
6422
6423
6424


6425
6426
6427
6428
6429
6430
6431
....
8123
8124
8125
8126
8127
8128
8129
8130













































































































































































































8131










































































































































































































































































































































































































































































































































































































































8132
8133
8134
  INSERT INTO t1_content VALUES(3,'a b c','g h i','g h i');
  INSERT INTO t1_docsize VALUES(1,X'030003');
  INSERT INTO t1_docsize VALUES(2,X'030003');
  INSERT INTO t1_docsize VALUES(3,X'030003');
} {}

do_catchsql_test 44.2 {
INSERT INTO t1(t1) VALUES('integrity-check');
} {1 {database disk image is malformed}}

do_catchsql_test 44.2 {
  SELECT snippet(t1, -1, '.', '..', '', 2 ) FROM t1('g h') ORDER BY rank; 
} {1 {database disk image is malformed}}

#--------------------------------------------------------------------------
reset_db
do_test 45.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
| size 24576 pagesize 4096 filename crash-0b162c9e69b999.db
................................................................................
| page 10 offset 36864
|      0: 0a 00 00 00 01 0f f4 00 0f f4 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 0b 03 1b 01 76 65 72 73 69 6f 6e 04   ........version.
| end 4b6fc659283f2735616c.db
}]} {}

do_catchsql_test 47.1 {





  SELECT snippet(t1, -1, '.', '..', '[', 50), 
         highlight(t1, 2, '[', ']') FROM t1('g h') 
  WHERE rank MATCH 'bm25(1.0, 1.0)' ORDER BY rank;
} {1 {database disk image is malformed}}



#--------------------------------------------------------------------------
reset_db
do_test 48.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
| size 32768 pagesize 4096 filename crash-44a8305b4bd86f.db
................................................................................
|   4080: 68 65 63 6b 0a 01 02 1d 6f 70 74 69 6d 69 7a 65   heck....optimize
| end x.db
}]} {}

do_catchsql_test 57.1 {
  INSERT INTO t1(t1) VALUES('optimize')
} {1 {database disk image is malformed}}

























































































































































































































































































































































































































































































































































































































































































































































































































































sqlite3_fts5_may_be_corrupt 0
finish_test








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  INSERT INTO t1_content VALUES(3,'a b c','g h i','g h i');
  INSERT INTO t1_docsize VALUES(1,X'030003');
  INSERT INTO t1_docsize VALUES(2,X'030003');
  INSERT INTO t1_docsize VALUES(3,X'030003');
} {}

do_catchsql_test 44.2 {
  INSERT INTO t1(t1) VALUES('integrity-check');
} {1 {database disk image is malformed}}

do_catchsql_test 44.3 {
  SELECT snippet(t1, -1, '.', '..', '', 2 ) FROM t1('g h') ORDER BY rank; 
} {0 {{.g.. .h..} {.g.. h} {.g.. .h..}}}

#--------------------------------------------------------------------------
reset_db
do_test 45.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
| size 24576 pagesize 4096 filename crash-0b162c9e69b999.db
................................................................................
| page 10 offset 36864
|      0: 0a 00 00 00 01 0f f4 00 0f f4 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 0b 03 1b 01 76 65 72 73 69 6f 6e 04   ........version.
| end 4b6fc659283f2735616c.db
}]} {}

do_catchsql_test 47.1 {
  INSERT INTO t1(t1) VALUES('integrity-check');
} {1 {database disk image is malformed}}

do_catchsql_test 47.2 {
  SELECT count(*) FROM (
      SELECT snippet(t1, -1, '.', '..', '[', 50), 
      highlight(t1, 2, '[', ']') FROM t1('g h') 
      WHERE rank MATCH 'bm25(1.0, 1.0)' ORDER BY rank

  )
} {0 3}

#--------------------------------------------------------------------------
reset_db
do_test 48.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
| size 32768 pagesize 4096 filename crash-44a8305b4bd86f.db
................................................................................
|   4080: 68 65 63 6b 0a 01 02 1d 6f 70 74 69 6d 69 7a 65   heck....optimize
| end x.db
}]} {}

do_catchsql_test 57.1 {
  INSERT INTO t1(t1) VALUES('optimize')
} {1 {database disk image is malformed}}

#-------------------------------------------------------------------------
reset_db
do_test 58.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
.open --hexdb
| size 24576 pagesize 4096 filename crash-5a5acd0ab42d31.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 00 00 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 00 00 00 06 0e 0f 00 0f aa 0f 53   ...............S
|    112: 0e e8 0e 8b 0e 33 0e 0f 00 00 00 00 00 00 00 00   .....3..........
|   3584: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 22   ................
|   3600: 06 06 17 11 11 01 31 74 61 62 6c 65 62 62 62 62   ......1tablebbbb
|   3616: 06 43 52 45 41 54 45 20 54 41 42 4c 45 20 62 62   .CREATE TABLE bb
|   3632: 28 61 29 56 05 06 17 1f 1f 01 7d 74 61 62 6c 65   (a)V.......table
|   3648: 74 31 5f 63 2a 6e 66 69 68 74 31 5f 63 6f 6e 66   t1_c*nfiht1_conf
|   3664: 69 67 05 43 52 45 41 54 45 20 54 41 42 4c 45 20   ig.CREATE TABLE 
|   3680: 27 74 31 5f 63 6f 6e 66 69 67 27 28 6b 20 50 52   't1_config'(k PR
|   3696: 49 4d 41 52 59 20 4b 45 59 2c 20 76 29 20 57 49   IMARY KEY, v) WI
|   3712: 54 48 4f 55 54 20 52 4f 57 49 44 5b 04 07 17 21   THOUT ROWID[...!
|   3728: 21 01 81 01 74 61 62 6c 65 74 31 5f 64 6f 73 73   !...tablet1_doss
|   3744: 69 7a 65 74 31 5f 64 6f 63 73 69 7a 65 04 43 52   izet1_docsize.CR
|   3760: 45 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 64   EATE TABLE 't1_d
|   3776: 6f 63 73 69 7a 65 27 28 69 64 20 49 4e 54 45 47   ocsize'(id INTEG
|   3792: 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20   ER PRIMARY KEY, 
|   3808: 73 7a 20 42 4c 4f 42 29 69 03 07 17 19 19 01 81   sz BLOB)i.......
|   3824: 2d 74 61 62 6c 65 74 31 5f 69 64 78 74 31 5f 69   -tablet1_idxt1_i
|   3840: 64 78 03 43 52 45 41 54 45 20 54 41 42 4c 45 20   dx.CREATE TABLE 
|   3856: 27 74 31 5f 69 64 78 27 28 73 65 67 69 64 2c 20   't1_idx'(segid, 
|   3872: 74 65 72 6d 2c 20 70 67 6e 6f 2c 20 50 52 49 4d   term, pgno, PRIM
|   3888: 41 52 59 20 4b 45 59 28 73 65 67 69 64 2c 20 74   ARY KEY(segid, t
|   3904: 65 72 6d 29 29 20 57 49 54 48 4f 55 54 20 52 4f   erm)) WITHOUT RO
|   3920: 57 49 44 55 02 07 17 1b 1b 01 81 01 74 61 62 6c   WIDU........tabl
|   3936: 65 74 31 5f 64 61 74 61 74 31 5f 64 61 74 61 02   et1_datat1_data.
|   3952: 43 52 45 41 54 45 20 54 41 42 4c 45 20 27 74 31   CREATE TABLE 't1
|   3968: 5f 64 61 74 61 27 28 69 64 20 49 4e 54 45 47 45   _data'(id INTEGE
|   3984: 52 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20 62   R PRIMARY KEY, b
|   4000: 6c 6f 63 6b 20 42 4c 4f 42 29 54 01 07 17 11 11   lock BLOB)T.....
|   4016: 08 81 15 74 61 62 6c 65 74 31 74 31 43 52 45 41   ...tablet1t1CREA
|   4032: 54 45 20 56 49 52 54 55 41 4c 20 54 41 42 4c 45   TE VIRTUAL TABLE
|   4048: 20 74 31 20 55 53 49 4e 47 20 66 74 73 35 28 61    t1 USING fts5(a
|   4064: 2c 62 2c 70 72 65 66 69 78 3d 22 32 2c 32 2c 33   ,b,prefix=.2,2,3
|   4080: 2c 34 22 2c 20 63 6f 6e 74 65 6e 74 3d 22 22 29   ,4., content=..)
| page 2 offset 4096
|      0: 0d 0b 6a 00 37 09 4c 02 0f e7 09 4c 0f c6 0f a4   ..j.7.L....L....
|     16: 0f 88 0f 6d 0f 4b 0f 2c 0f 0e 0e ec 0e cd 0e ae   ...m.K.,........
|     32: 0e 8e 0e 6c 0e 4b 0e 29 0e 08 0d e6 0d c4 0d b5   ...l.K.)........
|     48: 0d 97 0d 76 0d 54 0d 30 fd 15 0c f3 0c d3 0c b5   ...v.T.0........
|     64: 0c 95 0c 73 0c 54 0c 32 0c 10 0b ee 0b cc 0b b0   ...s.T.2........
|     80: 0b 8d 0b 7e 0b 48 0b 2e 0b 0b 0a ef 0a cc 0a ad   ...~.H..........
|     96: 0a 8c 0a 6d 0a 4d 0a 2b 0a 0c 00 00 00 00 00 00   ...m.M.+........
|   2368: 00 00 00 00 00 00 00 00 00 00 00 00 15 0a 03 00   ................
|   2384: 30 00 00 00 9c 01 03 35 00 03 01 01 12 02 01 12   0......5........
|   2400: 03 01 11 1c 8c 80 80 80 80 10 03 00 3e 00 00 00   ............>...
|   2416: 17 01 05 05 34 74 61 62 6c 03 02 03 01 04 77 68   ....4tabl.....wh
|   2432: 65 72 03 02 06 09 1b 8c 80 80 80 80 0f 03 00 3c   er.............<
|   2448: 00 00 00 16 05 34 66 74 73 34 03 02 02 01 04 6e   .....4fts4.....n
|   2464: 75 6d 62 03 06 01 04 09 1b 8c 80 80 80 80 0e 03   umb.............
|   2480: 00 3c 00 00 00 16 04 33 74 68 65 03 06 01 01 04   .<.....3the.....
|   2496: 01 03 77 68 65 03 02 04 04 0a 1b 8c 80 80 80 80   ..whe...........
|   2512: 0d 03 00 3c 00 00 00 16 04 33 6e 75 6d 03 06 01   ...<.....3num...
|   2528: 01 05 01 03 74 61 62 05 62 03 04 0a 19 8c 80 80   ....tab.b.......
|   2544: 80 80 0c 03 00 38 00 00 00 14 03 39 a7 68 03 02   .....8.....9.h..
|   2560: 04 10 04 33 66 74 73 03 02 02 04 07 18 8c 80 80   ...3fts.........
|   2576: 80 80 0b 03 00 36 00 00 00 13 03 32 74 61 03 02   .....6.....2ta..
|   2592: 03 02 01 68 03 06 01 01 04 04 07 1b 8c 80 80 80   ...h............
|   2608: 80 0a 03 00 3c 00 00 00 16 03 32 6e 75 03 06 01   ....<.....2nu...
|   2624: 01 05 01 02 6f 66 03 06 01 01 06 04 09 19 8c 80   ....of..........
|   2640: 80 80 80 09 03 00 38 00 00 00 14 03 32 66 74 03   ......8.....2ft.
|   2656: 02 02 01 02 69 73 03 06 01 01 03 04 07 18 8c 80   ....is..........
|   2672: 80 80 80 08 03 00 36 00 00 00 13 02 31 74 03 08   ......6.....1t..
|   2688: 03 01 01 04 01 01 77 03 02 04 04 09 1a 8c 80 80   ......w.........
|   2704: 80 80 07 03 00 3a ff 00 00 15 02 31 6e 03 08 01   .....:.....1n...
|   2720: 01 02 05 01 01 6f 03 06 01 01 06 04 09 18 8c 80   .....o..........
|   2736: 80 80 80 06 03 00 36 00 00 00 13 04 02 31 66 03   ......6......1f.
|   2752: 02 01 f1 01 69 03 06 01 01 03 05 06 1c 8c 80 80   ....i...........
|   2768: 80 80 05 03 00 3e 00 00 00 17 04 30 74 68 65 03   .....>.....0the.
|   2784: 06 01 01 14 01 05 77 68 65 72 65 03 02 04 0a 15   ......where.....
|   2800: 8c 80 80 80 80 04 03 00 30 00 00 00 11 01 01 06   ........0.......
|   2816: 06 30 74 61 62 6c cc 03 02 03 07 1c 8c 80 80 80   .0tabl..........
|   2832: 80 03 03 00 3e 00 00 00 17 07 30 6e 75 6d 62 65   ....>.....0numbe
|   2848: 72 03 06 01 01 05 01 02 6f 66 02 06 04 0d 13 8c   r.......of......
|   2864: 80 80 80 80 02 03 00 2c 00 00 00 0f 01 01 03 02   .......,........
|   2880: 30 6e 03 06 01 01 02 07 1b 8c 80 80 80 80 01 03   0n..............
|   2896: 00 3c 00 00 00 16 08 30 66 74 73 34 61 75 78 03   .<.....0fts4aux.
|   2912: 02 02 01 02 69 73 03 06 04 0c 00 00 00 14 2a 00   ....is........*.
|   2928: 00 00 01 01 02 24 00 02 01 01 12 02 01 12 08 88   .....$..........
|   2944: 80 80 80 80 12 03 00 16 00 00 00 05 02 1c 88 80   ................
|   2960: 80 80 80 11 03 00 3e 00 00 00 17 05 34 72 6f 77   ......>.....4row
|   2976: 73 02 06 01 01 05 01 04 74 68 65 72 02 02 04 0b   s.......ther....
|   2992: 15 88 80 80 80 80 10 03 00 3e 10 00 00 11 02 01   .........>......
|   3008: 01 07 05 34 62 65 74 77 02 02 04 08 1b 88 80 80   ...4betw........
|   3024: 80 80 0f 03 00 3c 00 00 00 16 04 04 33 72 6f 77   .....<......3row
|   3040: 02 06 01 01 05 01 03 74 68 65 02 08 05 0a 1b 88   .......the......
|   3056: 80 80 80 80 0e 03 05 0c 00 00 00 16 01 01 02 04   ................
|   3072: 33 61 72 65 02 02 03 01 03 62 65 74 02 02 07 08   3are.....bet....
|   3088: 1b 88 80 80 80 80 0d 03 00 3c 00 00 00 16 03 32   .........<.....2
|   3104: 74 68 02 08 02 01 01 07 00 04 33 61 6e 64 02 06   th........3and..
|   3120: 04 01 1b 88 80 80 80 80 0c 03 00 3c 00 00 00 16   ...........<....
|   3136: 03 32 69 6e 02 06 01 01 06 01 02 72 6f 02 06 01   .2in.......ro...
|   3152: 01 05 04 09 18 88 80 80 80 80 0b 03 00 36 00 00   .............6..
|   3168: 00 13 02 03 32 61 72 02 02 03 01 02 62 65 02 02   ....2ar.....be..
|   3184: 04 05 07 1b 88 80 bf 80 80 0a 03 00 3c 00 00 00   ............<...
|   3200: 16 02 31 74 02 08 02 01 01 07 00 03 32 61 6e 02   ..1t........2an.
|   3216: 06 01 01 04 09 19 88 80 80 80 80 09 03 00 38 00   ..............8.
|   3232: 00 00 14 02 31 6e 02 06 01 01 03 01 01 72 02 06   ....1n.......r..
|   3248: 01 01 05 03 08 17 88 80 80 80 80 08 03 00 34 00   ..............4.
|   3264: 01 00 12 02 31 62 02 02 04 01 01 69 02 06 01 01   ....1b.....i....
|   3280: 06 04 06 19 88 80 80 80 80 07 03 00 38 00 00 00   ............8...
|   3296: 14 04 02 31 32 02 02 05 01 01 61 02 08 03 01 01   ...12.....a.....
|   3312: 02 05 06 1b 88 80 80 80 80 06 03 00 3c 00 00 00   ............<...
|   3328: 16 06 30 74 68 65 72 65 02 12 02 00 02 31 31 02   ..0there.....11.
|   3344: 06 01 01 04 0a 15 88 80 80 80 80 05 03 00 30 00   ..............0.
|   3360: 00 00 11 01 01 05 04 30 74 68 65 02 06 71 01 07   .......0the..q..
|   3376: 07 1c 88 80 80 80 80 04 03 00 3e 00 00 00 17 01   ..........>.....
|   3392: 01 06 02 30 6e 02 06 01 01 03 01 04 72 6f 77 73   ...0n.......rows
|   3408: 02 06 07 08 1b 88 80 80 80 80 03 03 00 3c 00 00   .............<..
|   3424: 00 16 08 30 62 65 74 77 65 65 6e 02 02 04 01 02   ...0between.....
|   3440: 69 6e 02 06 04 0c 1a 88 80 80 80 80 02 03 00 3a   in.............:
|   3456: 08 f0 00 15 04 30 61 6e 64 02 06 01 01 02 02 02   .....0and.......
|   3472: 72 65 02 02 03 04 0a 17 88 80 80 80 80 01 03 00   re..............
|   3488: 34 00 00 00 12 02 30 31 02 06 01 01 04 01 01 32   4.....01.......2
|   3504: 02 02 07 04 08 08 84 80 80 80 80 12 03 00 16 00   ................
|   3520: 00 00 05 04 1b 84 80 80 80 80 11 03 00 3c 00 00   .............<..
|   3536: 00 16 05 34 74 61 62 6c 01 06 01 01 05 02 03 65   ...4tabl.......e
|   3552: 72 6d 01 02 04 0b 1b 84 80 80 80 80 10 03 00 3c   rm.............<
|   3568: 00 00 00 16 05 34 65 61 63 68 01 02 03 01 04 70   .....4each.....p
|   3584: 72 65 73 01 02 05 04 09 1a 84 80 80 80 80 0f 03   res.............
|   3600: 00 3a 00 00 00 15 04 33 74 65 72 01 02 04 02 02   .:.....3ter.....
|   3616: 68 65 01 06 01 01 03 04 08 1b 84 80 80 80 80 0e   he..............
|   3632: 03 00 3c 00 00 00 16 04 33 70 72 65 01 02 05 01   ..<.....3pre....
|   3648: 03 74 61 62 01 06 01 01 05 04 08 1a 84 80 80 80   .tab............
|   3664: 80 0d 03 00 3a 00 00 00 15 04 33 66 6f 72 01 02   ....:.....3for..
|   3680: 02 02 02 74 73 01 06 01 01 04 03 f8 1b 84 80 80   ...ts...........
|   3696: 80 80 0c 03 00 3c 00 00 00 16 03 32 74 68 01 06   .....<.....2th..
|   3712: 01 01 03 00 04 33 65 61 63 01 02 03 04 09 18 84   .....3eac.......
|   3728: 80 80 80 80 0b 03 00 36 00 00 00 13 03 32 74 61   .......6.....2ta
|   3744: 01 06 01 01 05 02 01 65 00 02 04 04 09 19 84 80   .......e........
|   3760: 80 80 80 0a 03 10 38 00 00 00 14 03 32 69 6e 01   ......8.....2in.
|   3776: 06 01 01 02 01 02 70 72 01 02 05 04 09 18 84 80   ......pr........
|   3792: 80 80 80 09 03 00 36 00 00 00 13 03 32 66 6f 01   ......6.....2fo.
|   3808: 02 02 02 01 74 01 06 01 01 04 04 07 1b 84 80 80   ....t...........
|   3824: 80 80 08 03 00 3c 00 00 00 16 02 31 74 01 0a 04   .....<.....1t...
|   3840: 01 00 03 04 00 03 32 65 61 01 02 03 04 0a 17 84   ......2ea.......
|   3856: 80 80 80 80 07 03 00 34 00 00 00 12 02 31 69 01   .......4.....1i.
|   3872: 06 01 01 02 de 01 70 01 02 05 04 08 18 84 80 80   ......p.........
|   3888: 80 80 06 03 00 36 00 00 00 13 02 31 65 01 02 03   .....6.....1e...
|   3904: 01 01 66 01 08 02 01 01 04 04 06 1b 84 80 80 80   ..f.............
|   3920: 80 05 03 00 3c 00 00 00 16 05 30 74 65 72 6d 01   ....<.....0term.
|   3936: 02 04 02 02 68 65 01 06 01 01 03 04 09 14 84 80   ....he..........
|   3952: 80 80 80 04 03 00 2e 00 00 00 10 06 30 74 61 62   ............0tab
|   3968: 6c 65 01 06 01 01 05 04 15 84 80 80 80 80 03 03   le..............
|   3984: 00 30 00 00 00 11 02 08 30 70 72 65 73 65 6e 74   .0......0present
|   4000: 01 02 05 05 1b 84 80 80 80 80 02 03 00 3c 00 00   .............<..
|   4016: 00 16 04 30 66 74 73 01 06 01 01 04 01 02 69 6e   ...0fts.......in
|   4032: 01 06 01 01 04 0a 1a 84 80 80 80 80 01 03 00 3a   ...............:
|   4048: 00 00 00 15 05 30 65 61 63 68 00 f2 03 01 03 66   .....0each.....f
|   4064: 6f 72 01 02 02 04 09 06 01 03 00 12 03 0b 0f 00   or..............
|   4080: 00 08 8c 80 80 80 80 11 03 00 16 00 00 00 05 04   ................
| page 3 offset 8192
|      0: 0a 00 00 00 32 0e 4f 00 0f fa 0f f1 0f e9 0f e1   ....2.O.........
|     16: 0f d8 0f d1 0f c9 0f c1 0f b9 0f c1 0f a9 0f a0   ................
|     32: 0f 98 0f 90 0f 87 0f 80 0f 78 0f 71 0f 68 0f 5f   .........x.q.h._
|     48: 0f 56 0f 4d 0f 41 0f 38 0f 2f 0f 26 0f 1d 0f 13   .V.M.A.8./.&....
|     64: 0f 0a 0f 01 0e f7 0e ee 0e e6 0e dd 0e d7 0e cd   ................
|     80: 0e c3 0e ba 0e b0 0e a8 0e 9f 0e 96 0e 8e 0e 85   ................
|   3648: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 08   ................
|   3664: 04 01 10 01 03 34 74 20 07 04 01 0e 01 03 34 1e   .....4t ......4.
|   3680: 09 04 01 12 34 03 33 74 68 1c 08 04 01 10 01 03   ....4.3th.......
|   3696: 33 6e 1a 08 04 01 10 01 03 32 77 18 08 04 01 10   3n.......2w.....
|   3712: 01 03 32 74 16 08 04 01 10 01 03 32 6e 14 07 04   ..2t.......2n...
|   3728: 01 0e 01 03 32 12 08 04 01 0f f1 03 31 74 10 08   ....2.......1t..
|   3744: 04 01 10 01 03 31 6e 0e 07 04 01 0e 01 03 30 fc   .....1n.......0.
|   3760: 09 04 01 12 01 03 30 74 68 0a 08 04 01 10 01 03   ......0th.......
|   3776: 30 74 08 09 04 01 12 01 03 30 6e 75 06 08 04 01   0t.......0nu....
|   3792: 10 01 03 30 6e 04 06 04 01 0c 01 05 52 08 04 01   ...0n.......R...
|   3808: 10 01 02 34 72 22 07 04 01 0e 01 02 34 20 08 04   ...4r.......4 ..
|   3824: 01 10 01 02 33 72 1e 09 04 01 12 01 02 33 61 72   ....3r.......3ar
|   3840: 1c 08 04 01 10 01 02 32 74 1a 08 04 01 10 b3 02   .......2t.......
|   3856: 32 69 18 09 04 01 12 01 02 32 61 72 16 08 04 01   2i.......2ar....
|   3872: 10 01 02 31 74 14 08 04 01 10 01 02 31 6e 12 08   ...1t.......1n..
|   3888: 04 01 10 01 02 31 62 10 08 04 01 10 01 02 31 32   .....1b.......12
|   3904: 0e 0b 04 01 16 01 02 30 74 68 65 72 0c 08 04 01   .......0ther....
|   3920: 10 01 02 30 74 0a 08 04 01 10 01 02 30 6e 08 08   ...0t.......0n..
|   3936: 04 01 10 01 02 30 62 06 09 04 01 10 01 02 30 61   .....0b.......0a
|   3952: 04 06 04 01 0c 01 02 02 07 04 09 10 01 34 74 22   .............4t.
|   3968: 06 04 09 0e 01 34 20 08 04 09 12 01 33 74 65 1e   .....4 .....3te.
|   3984: 07 04 09 10 01 33 70 1c 07 f4 09 11 01 33 66 1a   .....3p......3f.
|   4000: 08 04 09 12 01 32 74 68 18 07 04 09 10 01 32 e4   .....2th......2.
|   4016: 16 07 04 09 10 01 32 69 14 07 04 09 10 01 32 66   ......2i......2f
|   4032: 12 07 04 09 10 01 31 74 10 07 04 09 10 01 31 69   ......1t......1i
|   4048: 0e 06 04 09 0e 01 31 0c 08 04 09 12 01 30 74 65   ......1......0te
|   4064: 0a 07 04 09 10 01 30 74 08 00 00 00 00 00 00 00   ......0t........
| page 4 offset 12288
|   4064: 00 00 00 00 00 00 00 00 00 00 00 05 03 03 00 10   ................
|   4080: 03 05 05 02 03 00 10 04 06 05 01 03 00 10 04 04   ................
| page 5 offset 16384
|      0: 0a 00 00 00 02 0f eb 00 0f eb 0f f4 00 00 00 00   ................
|   4064: 00 00 00 00 00 00 00 00 00 00 00 08 03 15 01 70   ...............p
|   4080: 67 73 7a 18 0b 03 1b 01 76 65 72 73 69 6f 6e 04   gsz.....version.
| page 6 offset 20480
|   4080: 00 00 23 03 02 01 03 03 02 00 00 00 00 00 00 00   ..#.............
| end crash-5a5acd0ab42d31.db
}]} {}

do_execsql_test 58.1 {
  SELECT * FROM t1('t*');
} {{} {} {} {} {} {}}

#-------------------------------------------------------------------------
do_test 59.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
.open --hexdb
| size 32768 pagesize 4096 filename crash-96b136358d01ec.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 00 00 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 0f c7 00 07 0d 92 00 0f 8d 0f 36   ...............6
|    112: 0e cb 0e 6b 0e 0e 0d b6 0d 92 00 00 00 00 00 00   ...k............
|   3472: 00 00 22 08 06 17 11 11 01 31 74 61 62 6c 65 74   .........1tablet
|   3488: 32 74 32 08 43 52 45 41 54 45 20 54 41 42 4c 45   2t2.CREATE TABLE
|   3504: 20 74 32 28 78 29 56 07 06 17 1f 1f 01 7d 74 61    t2(x)V.......ta
|   3520: 62 6c 65 74 31 5f 63 6f 6e 66 69 67 74 31 5f 63   blet1_configt1_c
|   3536: 6f 6e 66 69 67 07 43 52 45 41 54 45 20 54 41 42   onfig.CREATE TAB
|   3552: 4c 45 20 27 74 31 5f 63 6f 6e 66 69 67 27 28 6b   LE 't1_config'(k
|   3568: 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20 76 29    PRIMARY KEY, v)
|   3584: 20 57 49 54 48 4f 55 54 20 52 4f 57 49 44 5b 06    WITHOUT ROWID[.
|   3600: 07 17 21 21 01 81 01 74 61 62 6c 65 74 31 5f 64   ..!!...tablet1_d
|   3616: 6f 63 73 69 7a 65 74 31 5f 64 6f 63 73 69 7a 65   ocsizet1_docsize
|   3632: 06 43 52 45 41 54 45 20 54 41 42 4c 45 20 27 74   .CREATE TABLE 't
|   3648: 31 5f 64 6f 63 73 69 7a 65 27 28 69 64 20 49 4e   1_docsize'(id IN
|   3664: 54 45 47 45 52 20 50 52 49 4d 41 52 59 20 4b 45   TEGER PRIMARY KE
|   3680: 59 2c 20 73 7a 20 42 4c 4f 42 29 5e 05 07 17 21   Y, sz BLOB)^...!
|   3696: 21 01 81 07 74 61 62 6c 65 74 31 5f 63 6f 6e 74   !...tablet1_cont
|   3712: 65 6e 74 74 31 5f 63 6f 6e 74 65 6e 74 05 43 52   entt1_content.CR
|   3728: 45 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 63   EATE TABLE 't1_c
|   3744: 6f 6e 74 65 6e 74 27 28 69 64 20 49 4e 54 45 47   ontent'(id INTEG
|   3760: 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20   ER PRIMARY KEY, 
|   3776: 63 30 2c 20 63 31 2c d6 63 32 29 69 04 07 17 19   c0, c1,.c2)i....
|   3792: 19 01 81 2d 74 61 62 6c 65 74 31 5f 69 64 78 74   ...-tablet1_idxt
|   3808: 31 5f 69 64 78 04 43 52 45 41 54 45 20 54 41 42   1_idx.CREATE TAB
|   3824: 4c 45 20 27 74 31 5f 69 64 78 27 28 73 65 67 69   LE 't1_idx'(segi
|   3840: 64 2c 20 74 65 72 6d 2c 20 70 67 6e 6f 2c 20 50   d, term, pgno, P
|   3856: 52 49 4d 41 52 59 20 4b 45 59 28 73 65 67 69 64   RIMARY KEY(segid
|   3872: 2c 20 74 65 72 6d 29 29 20 57 49 54 48 4f 55 54   , term)) WITHOUT
|   3888: 20 52 4f 57 49 44 55 03 07 17 1b 1b 01 81 01 74    ROWIDU........t
|   3904: 61 62 6c 65 74 31 5f 64 61 74 61 74 31 5f 64 61   ablet1_datat1_da
|   3920: 74 61 03 43 52 45 41 54 45 20 54 41 42 4c 45 20   ta.CREATE TABLE 
|   3936: 27 74 31 5f 64 61 74 61 27 28 69 64 20 49 4e 54   't1_data'(id INT
|   3952: 45 47 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59   EGER PRIMARY KEY
|   3968: 2c 20 62 6c 6f 63 6b 20 42 4c 4f 42 29 38 02 06   , block BLOB)8..
|   3984: 17 11 11 08 5f 74 61 62 6c 65 74 31 74 31 43 52   ...._tablet1t1CR
|   4000: 45 41 54 45 20 56 49 52 54 55 41 4c 20 54 41 42   EATE VIRTUAL TAB
|   4016: 4c 45 20 74 31 20 55 53 49 4e 47 20 66 74 73 35   LE t1 USING fts5
|   4032: 28 61 2c 62 2c 63 29 00 00 00 00 00 00 00 00 00   (a,b,c).........
| page 3 offset 8192
|      0: 0d 00 00 00 03 0c 93 ff 0f e6 0f ef 0c 94 00 00   ................
|   3216: 00 00 00 00 86 4a 84 80 80 80 80 01 04 00 8d 18   .....J..........
|   3232: 00 00 03 2b 02 30 30 01 02 06 01 02 06 01 02 06   ...+.00.........
|   3248: 1f 02 03 01 02 03 01 02 03 01 08 32 31 31 36 30   ...........21160
|   3264: 36 30 39 01 02 07 01 02 07 01 02 07 01 01 33 f1   609...........3.
|   3280: 02 05 01 02 05 01 02 05 01 01 35 01 02 03 01 02   ..........5.....
|   3296: 04 01 02 04 02 07 30 30 30 30 30 30 30 1c 02 3d   ......0000000..=
|   3312: 01 02 04 01 02 04 01 06 62 69 6e 61 72 79 03 06   ........binary..
|   3328: 01 02 02 03 06 01 01 f2 03 06 4e 02 02 03 06 01   ..........N.....
|   3344: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3360: 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02 02   ................
|   3376: 03 06 01 02 02 03 06 01 02 02 01 08 63 6f 6d 70   ............comp
|   3392: 69 6c 65 72 01 02 02 01 02 02 01 02 02 01 06 64   iler...........d
|   3408: 62 73 74 61 74 07 02 03 01 02 13 01 02 03 02 04   bstat...........
|   3424: 65 62 75 67 04 02 02 01 02 02 01 02 02 01 07 65   ebug...........e
|   3440: 6e 61 62 6c 65 07 02 02 01 02 02 01 02 02 01 02   nable...........
|   3456: 02 01 02 02 01 02 02 01 02 02 01 02 02 01 02 02   ................
|   3472: 01 02 02 01 02 02 01 02 01 f1 02 02 01 02 02 01   ................
|   3488: 02 02 01 02 02 01 02 02 01 02 02 01 02 02 01 02   ................
|   3504: 02 01 02 02 02 08 78 74 65 6e 73 69 6f 6e 1f 02   ......xtension..
|   3520: 04 01 02 04 01 02 04 01 04 66 74 73 34 0a 02 03   .........fts4...
|   3536: 01 02 03 01 02 03 04 01 25 0d 02 03 01 02 03 01   ........%.......
|   3552: 02 03 01 03 67 63 63 01 02 03 01 02 03 01 02 03   ....gcc.........
|   3568: 02 06 65 6f 70 6f 6c 79 0f f2 03 01 02 03 01 02   ..eopoly........
|   3584: 03 01 05 6a 73 6f 6e 31 13 02 03 01 02 03 01 02   ...json1........
|   3600: 03 01 04 6c 6f 61 64 1f 02 03 01 02 03 01 02 03   ...load.........
|   3616: 00 03 6d 61 78 1c 02 02 01 02 02 01 02 02 02 05   ..max...........
|   3632: 65 6d 6f 72 79 1c 02 03 01 02 03 01 02 03 04 04   emory...........
|   3648: 73 79 73 35 16 02 03 01 02 03 01 02 03 01 06 6e   sys5...........n
|   3664: 6f 63 61 73 65 02 06 01 02 02 13 06 00 f2 02 03   ocase...........
|   3680: 06 01 02 02 13 06 01 02 02 03 06 01 02 02 03 06   ................
|   3696: 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01   ................
|   3712: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3728: 02 01 04 6f 6d 69 74 1f 02 02 01 02 02 01 02 02   ...omit.........
|   3744: 01 0a 22 74 72 65 65 19 02 03 01 02 03 01 02 03   ...tree.........
|   3760: 04 02 69 6d 01 06 01 02 02 03 06 01 02 02 03 06   ..im............
|   3776: 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01   ................
|   3792: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3808: 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02 02   ................
|   3824: 01 0a 74 68 72 65 61 64 73 61 66 65 22 02 02 01   ..threadsafe....
|   3840: 02 02 01 02 02 01 04 76 74 61 62 07 02 04 01 02   .......vtab.....
|   3856: 04 01 02 04 01 01 78 01 06 01 01 02 01 06 01 01   ......x.........
|   3872: 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01 02   ................
|   3888: 01 06 01 11 02 01 06 01 01 02 01 06 01 01 02 01   ................
|   3904: 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06   ................
|   3920: 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01   ................
|   3936: 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01   ................
|   3952: 02 01 06 01 01 01 f1 06 01 01 02 ad 06 01 01 02   ................
|   3968: 01 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01   ................
|   3984: 06 01 01 01 01 06 01 01 02 01 06 01 01 02 01 06   ................
|   4000: 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01   ................
|   4016: 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01   ................
|   4032: 02 01 06 01 01 02 01 06 01 01 02 04 15 13 0c 0c   ................
|   4048: 12 44 13 11 0f 47 13 0e fc 0e 11 10 0f 0e 10 0f   .D...G..........
|   4064: 44 0f 10 40 15 0f 07 01 03 00 14 24 5a 24 24 0f   D..@.......$Z$$.
|   4080: 0a 03 00 24 00 00 00 00 01 01 01 00 01 01 01 01   ...$............
| page 4 offset 12288
|      0: 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 00 00 00 00 00 00 05 04 09 0c 01 02   ................
| page 5 offset 16384
|      0: 0d 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   3072: 00 00 00 00 00 00 00 00 00 00 18 24 05 00 25 0f   ...........$..%.
|   3088: 19 54 48 52 45 41 44 53 41 46 45 3d 30 58 42 49   .THREADSAFE=0XBI
|   3104: 4e 41 52 59 18 23 05 00 25 0f 19 54 48 52 45 41   NARY.#..%..THREA
|   3120: 44 53 41 46 45 3d 30 58 4e 4f 43 41 53 45 17 8f   DSAFE=0XNOCASE..
|   3136: 05 00 25 0f 17 54 48 52 45 41 44 53 41 46 45 3d   ..%..THREADSAFE=
|   3152: 30 58 52 54 52 49 4d 1f 21 05 00 33 0f 19 45 ed   0XRTRIM.!..3..E.
|   3168: 49 54 20 4c 4f 41 44 21 45 58 54 45 4e 53 49 4f   IT LOAD!EXTENSIO
|   3184: 4e 58 42 49 4e 41 52 59 1f 20 05 00 33 0f 19 4f   NXBINARY. ..3..O
|   3200: 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 5a 29   MIT LOAD EXTENZ)
|   3216: 4f 4e 58 4e 4f 43 41 53 45 1e 1f 05 00 33 0f 17   ONXNOCASE....3..
|   3232: 4f 4d 59 54 20 4c 4f 41 44 20 45 58 54 45 4e 53   OMYT LOAD EXTENS
|   3248: 49 4f 4e 58 52 54 56 a9 4d 1f 1e 05 00 33 0f 19   IONXRTV.M....3..
|   3264: 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30 30   MAX MEMORY=50000
|   3280: 30 30 30 57 42 49 4e 31 52 59 1f 1d 05 00 33 0f   000WBIN1RY....3.
|   3296: 19 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30   .MAX MEMORY=5000
|   3312: 30 30 30 30 58 4e 4f 43 41 53 45 1e 1c 05 00 32   0000XNOCASE....2
|   3328: 0f 17 4e 41 58 20 4d 45 4d 4f 52 59 2d 35 30 30   ..NAX MEMORY-500
|   3344: 30 30 30 30 30 58 52 54 52 49 4d 18 1b 05 00 25   00000XRTRIM....%
|   3360: 0f 19 45 4e 41 42 4c 45 20 52 54 52 45 45 58 42   ..ENABLE RTREEXB
|   3376: 49 4e 41 52 59 18 1a 05 00 25 0f 19 45 4e 41 42   INARY....%..ENAB
|   3392: 4c 45 20 52 54 52 45 45 59 4e 4f 43 41 53 45 17   LE RTREEYNOCASE.
|   3408: 19 66 00 25 0f 17 45 4e 41 42 4c 45 20 52 54 52   .f.%..ENABLE RTR
|   3424: 45 45 58 52 54 52 49 4d 1a 18 05 00 29 0f 19 45   EEXRTRIM....)..E
|   3440: 4e 41 42 4c 45 20 4d 45 4d 53 59 53 35 58 42 49   NABLE MEMSYS5XBI
|   3456: 4e 41 52 59 1a 17 05 00 29 0f 19 45 4e 41 42 4c   NARY....)..ENABL
|   3472: 45 20 4d 45 4d 53 59 53 35 58 4e 4f 43 41 53 45   E MEMSYS5XNOCASE
|   3488: 19 16 05 00 29 0f 17 45 4e 41 42 4c 45 20 4d 45   ....)..ENABLE ME
|   3504: 4d 53 59 76 35 58 52 54 52 49 4d 18 15 05 10 25   MSYv5XRTRIM....%
|   3520: 0f 19 45 4e 40 42 4c 45 20 4a 53 4f 4e 31 58 42   ..EN@BLE JSON1XB
|   3536: 49 4e 41 52 59 18 14 05 00 25 0f 19 45 4e 41 42   INARY....%..ENAB
|   3552: 4c 45 20 4a 53 4f 4e 32 58 4e 4f 43 41 53 45 17   LE JSON2XNOCASE.
|   3568: 13 05 00 25 0f 17 45 4e 41 42 4c 45 20 4a 53 4f   ...%..ENABLE JSO
|   3584: 4e 31 58 52 54 52 49 4d 1a 12 05 00 29 0f 19 45   N1XRTRIM....)..E
|   3600: 4e 41 42 4c 45 20 47 45 4f 50 4f 4c 59 58 42 49   NABLE GEOPOLYXBI
|   3616: 4e 41 52 59 1a 11 05 00 29 0f 19 45 5f 81 42 4c   NARY....)..E_.BL
|   3632: 45 20 47 45 4f 50 4f 4c 59 58 4e 4f 43 51 53 45   E GEOPOLYXNOCQSE
|   3648: 19 10 05 00 29 0f 17 45 4e 41 42 4c 45 20 47 45   ....)..ENABLE GE
|   3664: 4f 50 4f 4c 59 58 52 54 52 49 4d 17 0f 05 00 23   OPOLYXRTRIM....#
|   3680: 0f 1a 45 4e 41 42 4c 45 20 56 54 43 35 58 42 49   ..ENABLE VTC5XBI
|   3696: 4e 41 52 59 17 0e 05 00 23 0f 19 45 4e 41 42 4c   NARY....#..ENABL
|   3712: 45 20 46 54 53 35 48 4e 4f 43 41 53 45 16 1d 05   E FTS5HNOCASE...
|   3728: 00 23 0f a4 45 4e 41 42 4c 45 20 46 54 53 35 58   .#..ENABLE FTS5X
|   3744: 52 54 52 49 4d 17 0c 05 00 23 0f 19 45 4e 41 42   RTRIM....#..ENAB
|   3760: 4c 45 20 46 55 53 34 58 42 49 4e 41 52 59 17 0b   LE FUS4XBINARY..
|   3776: 05 00 23 0f 19 45 4e 41 42 4c 45 20 46 54 53 34   ..#..ENABLE FTS4
|   3792: 57 4e 4f 43 41 53 45 16 0a 05 00 23 0f 17 45 4e   WNOCASE....#..EN
|   3808: 41 42 4c 45 20 46 54 53 34 05 52 54 52 49 4d 1e   ABLE FTS4.RTRIM.
|   3824: 09 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3840: 54 41 54 20 56 54 41 42 58 42 49 4e 41 52 59 1e   TAT VTABXBINARY.
|   3856: 08 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3872: 54 41 54 20 56 54 41 42 58 4e 4f 43 41 53 45 1d   TAT VTABXNOCASE.
|   3888: 07 05 00 31 0f 17 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3904: 54 41 54 20 56 54 41 42 58 52 54 52 49 4d 11 06   TAT VTABXRTRIM..
|   3920: 05 00 17 0f 19 44 45 42 55 47 58 42 49 4e 41 52   .....DEBUGXBINAR
|   3936: 59 11 05 05 00 17 0f 19 44 45 42 55 47 58 4e 4f   Y.......DEBUGXNO
|   3952: 43 41 53 45 10 04 05 00 17 0f 17 44 45 42 55 47   CASE.......DEBUG
|   3968: 58 52 54 52 49 4d 27 03 05 00 43 0f 19 43 4f 4d   XRTRIM'...C..COM
|   3984: 50 49 4c 45 52 3d 67 63 63 2d 35 2e 34 2e 30 20   PILER=gcc-5.4.0 
|   4000: 32 30 31 36 30 36 30 39 58 42 49 4e 41 52 59 27   20160609XBINARY'
|   4016: 02 05 00 43 0f 19 43 4f 4d 50 49 4c 45 52 3f 87   ...C..COMPILER?.
|   4032: 63 63 2d 35 2e 34 2e 30 20 32 30 31 36 30 36 30   cc-5.4.0 2016060
|   4048: 39 58 4e 4f 43 41 53 45 26 01 05 00 43 0f 17 43   9XNOCASE&...C..C
|   4064: 45 0d 60 59 4c 45 52 3d 67 63 63 2d 35 2e 34 00   E.`YLER=gcc-5.4.
| page 6 offset 20480
|   3808: 06 24 03 00 12 02 01 01 06 23 03 00 12 02 01 01   .$.......#......
|   3824: 06 22 03 01 12 02 01 01 06 21 03 00 12 03 01 01   .........!......
|   3840: 06 20 03 00 12 03 01 01 06 1f 03 00 12 03 02 01   . ..............
|   3856: 06 1e 03 00 12 03 01 01 06 1d 03 00 12 03 01 01   ................
|   3872: 06 1c 03 00 12 03 01 01 06 1b 03 00 12 02 01 01   ................
|   3888: 06 1a 03 00 12 02 01 01 06 19 03 00 12 02 01 01   ................
|   3904: 06 18 03 00 12 02 01 01 06 17 03 00 12 02 01 01   ................
|   3920: 06 16 03 00 12 02 01 01 06 15 03 00 12 02 01 01   ................
|   3936: 06 14 03 00 12 02 01 01 06 13 03 00 12 02 01 01   ................
|   3952: 06 12 03 00 12 02 01 01 06 11 03 00 12 02 01 01   ................
|   3968: 06 00 03 00 12 02 01 01 06 0f 03 00 12 02 01 01   ................
|   3984: 06 0e 03 00 12 02 01 01 06 0d 03 00 12 02 01 01   ................
|   4000: 06 0c 03 00 12 02 01 01 06 0b 03 10 12 02 01 01   ................
|   4016: 06 0a 03 00 12 02 01 01 06 09 03 00 12 03 01 01   ................
|   4032: 06 08 03 00 12 03 01 01 06 07 03 00 12 03 01 01   ................
|   4048: 07 06 03 00 12 01 01 01 06 05 03 00 12 01 01 01   ................
|   4064: 06 04 03 00 12 01 01 01 06 03 03 00 12 06 01 01   ................
|   4080: 06 02 03 00 12 06 01 01 06 01 03 00 12 06 01 01   ................
| page 7 offset 24576
|      0: 0a 00 00 00 01 0f f4 00 0f f4 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 0b 03 1b 01 76 65 72 73 69 6f 6e 04   ........version.
| page 8 offset 28672
|   4048: 00 00 00 00 00 00 5d 03 02 2b 69 6e 74 00 00 00   ......]..+int...
| end crash-96b136358d01ec.db
}]} {}

do_catchsql_test 59.1 {
  SELECT (matchinfo(591,t1)) FROM t1 WHERE t1 MATCH 'e*eŸ'
} {0 {}}

#-------------------------------------------------------------------------
do_test 60.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
.open --hexdb
| size 32768 pagesize 4096 filename crash-c77b90b929dc92.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 00 00 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 0f c7 00 07 0d 92 00 0f 8d 0f 36   ...............6
|    112: 0e cb 0e 6b 0e 0e 0d b6 0d 92 00 00 00 00 00 00   ...k............
|   3472: 00 00 22 08 06 17 11 11 01 31 74 61 62 6c 65 74   .........1tablet
|   3488: 32 74 32 08 43 52 45 41 54 45 20 54 41 42 4c 45   2t2.CREATE TABLE
|   3504: 20 74 32 28 78 29 56 07 06 17 1f 1f 01 7d 74 61    t2(x)V.......ta
|   3520: 62 6c 65 74 31 5f 63 6f 6e 66 69 67 74 31 5f 63   blet1_configt1_c
|   3536: 6f 6e 66 69 67 07 43 52 45 41 54 45 20 54 41 42   onfig.CREATE TAB
|   3552: 4c 45 20 27 74 31 5f 63 6f 6e 66 69 67 27 28 6b   LE 't1_config'(k
|   3568: 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20 76 29    PRIMARY KEY, v)
|   3584: 20 57 49 54 48 4f 55 54 20 52 4f 57 49 44 5b 06    WITHOUT ROWID[.
|   3600: 07 17 21 21 01 81 01 74 61 62 6c 65 74 31 5f 64   ..!!...tablet1_d
|   3616: 6f 63 73 69 7a 65 74 31 5f 64 6f 63 73 69 7a 65   ocsizet1_docsize
|   3632: 06 43 52 45 41 54 45 20 54 41 42 4c 45 20 27 74   .CREATE TABLE 't
|   3648: 31 5f 64 6f 63 73 69 7a 65 27 28 69 64 20 49 4e   1_docsize'(id IN
|   3664: 54 45 47 45 52 20 50 52 49 4d 41 52 59 20 4b 45   TEGER PRIMARY KE
|   3680: 59 2c 20 73 7a 20 42 4c 4f 42 29 5e 05 07 17 21   Y, sz BLOB)^...!
|   3696: 21 01 81 07 74 61 62 6c 65 74 31 5f 63 6f 6e 74   !...tablet1_cont
|   3712: 65 6e 74 74 31 5f 63 6f 6e 74 65 6e 74 05 43 52   entt1_content.CR
|   3728: 45 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 63   EATE TABLE 't1_c
|   3744: 6f 6e 74 65 6e 74 27 28 69 64 20 49 4e 54 45 47   ontent'(id INTEG
|   3760: 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20   ER PRIMARY KEY, 
|   3776: 63 30 2c 20 63 31 2c d6 63 32 29 69 04 07 17 19   c0, c1,.c2)i....
|   3792: 19 01 81 2d 74 61 62 6c 65 74 31 5f 69 64 78 74   ...-tablet1_idxt
|   3808: 31 5f 69 64 78 04 43 52 45 41 54 45 20 54 41 42   1_idx.CREATE TAB
|   3824: 4c 45 20 27 74 31 5f 69 64 78 27 28 73 65 67 69   LE 't1_idx'(segi
|   3840: 64 2c 20 74 65 72 6d 2c 20 70 67 6e 6f 2c 20 50   d, term, pgno, P
|   3856: 52 49 4d 41 52 59 20 4b 45 59 28 73 65 67 69 64   RIMARY KEY(segid
|   3872: 2c 20 74 65 72 6d 29 29 20 57 49 54 48 4f 55 54   , term)) WITHOUT
|   3888: 20 52 4f 57 49 44 55 03 07 17 1b 1b 01 81 01 74    ROWIDU........t
|   3904: 61 62 6c 65 74 31 5f 64 61 74 61 74 31 5f 64 61   ablet1_datat1_da
|   3920: 74 61 03 43 52 45 41 54 45 20 54 41 42 4c 45 20   ta.CREATE TABLE 
|   3936: 27 74 31 5f 64 61 74 61 27 28 69 64 20 49 4e 54   't1_data'(id INT
|   3952: 45 47 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59   EGER PRIMARY KEY
|   3968: 2c 20 62 6c 6f 63 6b 20 42 4c 4f 42 29 38 02 06   , block BLOB)8..
|   3984: 17 11 11 08 5f 74 61 62 6c 65 74 31 74 31 43 52   ...._tablet1t1CR
|   4000: 45 41 54 45 20 56 49 52 54 55 41 4c 20 54 41 42   EATE VIRTUAL TAB
|   4016: 4c 45 20 74 31 20 55 53 49 4e 47 20 66 74 73 35   LE t1 USING fts5
|   4032: 28 61 2c 62 2c 63 29 00 00 00 00 00 00 00 00 00   (a,b,c).........
| page 3 offset 8192
|      0: 0d 00 00 00 03 0c 93 ff 0f e6 0f ef 0c 94 00 00   ................
|   3216: 00 00 00 00 86 4a 84 80 80 80 80 01 04 00 8d 18   .....J..........
|   3232: 00 00 03 2b 02 30 30 01 02 06 01 02 06 01 02 06   ...+.00.........
|   3248: 1f 02 03 01 02 03 01 02 03 01 08 32 31 31 36 30   ...........21160
|   3264: 36 30 39 01 02 07 01 02 07 01 02 07 01 01 33 f1   609...........3.
|   3280: 02 05 01 02 05 01 02 05 01 01 35 01 02 03 01 02   ..........5.....
|   3296: 04 01 02 04 02 07 30 30 30 30 30 30 30 1c 02 3d   ......0000000..=
|   3312: 01 02 04 01 02 04 01 06 62 69 6e 61 72 79 03 06   ........binary..
|   3328: 01 02 02 03 06 01 01 f2 03 06 4e 02 02 03 06 01   ..........N.....
|   3344: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3360: 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02 02   ................
|   3376: 03 06 01 02 02 03 06 01 02 02 01 08 63 6f 6d 70   ............comp
|   3392: 69 6c 65 72 01 02 02 01 02 02 01 02 02 01 06 64   iler...........d
|   3408: 62 73 74 61 74 07 02 03 01 02 13 01 02 03 02 04   bstat...........
|   3424: 65 62 75 67 04 02 02 01 02 02 01 02 02 01 07 65   ebug...........e
|   3440: 6e 61 62 6c 65 07 02 02 01 02 02 01 02 02 01 02   nable...........
|   3456: 02 01 02 02 01 02 02 01 02 02 01 02 02 01 02 02   ................
|   3472: 01 02 02 01 02 02 01 02 02 01 02 02 01 02 02 01   ................
|   3488: 02 02 01 02 02 01 02 02 01 02 02 01 02 02 01 02   ................
|   3504: 02 01 02 02 02 08 76 b4 65 6e 73 69 6f 6e 1f 02   ......v.ension..
|   3520: 04 01 02 04 01 02 04 01 04 66 74 73 34 0a 02 03   .........fts4...
|   3536: 01 02 03 01 02 03 04 01 25 0d 02 03 01 02 03 01   ........%.......
|   3552: 02 03 01 03 67 63 63 01 02 03 01 02 03 01 02 03   ....gcc.........
|   3568: 02 06 65 6f 70 6f 6c 79 0f f2 03 01 02 03 01 02   ..eopoly........
|   3584: 03 01 05 6a 73 6f 6e 31 13 02 03 01 02 03 01 02   ...json1........
|   3600: 03 01 04 6c 6f 61 64 1f 02 03 01 02 03 01 02 03   ...load.........
|   3616: 00 03 6d 61 78 1c 02 0c 01 02 02 01 02 02 02 05   ..max...........
|   3632: 65 6d 6f 72 79 1c 02 03 01 02 03 01 02 03 04 04   emory...........
|   3648: 73 79 73 35 16 02 03 01 02 03 01 02 03 01 06 6e   sys5...........n
|   3664: 6f 63 61 73 65 02 06 01 02 02 13 06 00 f2 02 03   ocase...........
|   3680: 06 01 12 02 13 06 01 02 02 03 06 01 02 02 03 06   ................
|   3696: 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01   ................
|   3712: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3728: 02 01 04 6f 6d 69 74 1f 02 02 01 02 02 01 02 02   ...omit.........
|   3744: 01 05 72 74 72 65 65 19 02 03 01 02 03 01 02 03   ..rtree.........
|   3760: 04 02 69 6d 01 06 01 02 02 03 06 01 02 02 03 06   ..im............
|   3776: 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01   ................
|   3792: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3808: 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02 02   ................
|   3824: 01 0a 74 68 72 65 61 64 73 61 66 65 22 02 02 01   ..threadsafe....
|   3840: 02 02 01 02 02 01 04 76 74 61 62 07 02 04 01 02   .......vtab.....
|   3856: 04 01 02 04 01 01 78 01 06 01 01 02 01 06 01 01   ......x.........
|   3872: 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01 02   ................
|   3888: 01 06 01 11 02 01 06 01 01 02 01 06 01 01 02 01   ................
|   3904: 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06   ................
|   3920: 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01   ................
|   3936: 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01   ................
|   3952: 02 01 06 01 01 01 f1 06 01 01 02 ad 06 01 01 02   ................
|   3968: 01 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01   ................
|   3984: 06 01 01 01 01 06 01 01 02 01 06 01 01 02 01 06   ................
|   4000: 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01   ................
|   4016: 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01   ................
|   4032: 02 01 06 01 01 02 01 06 01 01 02 04 15 13 0c 0c   ................
|   4048: 12 44 13 11 0f 47 13 0e fc 0e 11 10 0f 0e 10 0f   .D...G..........
|   4064: 44 0f 10 40 15 0f 07 01 03 00 14 24 5a 24 24 0f   D..@.......$Z$$.
|   4080: 0a 03 00 24 00 00 00 00 01 01 01 00 01 01 01 01   ...$............
| page 4 offset 12288
|      0: 0a 00 00 00 01 0f 00 00 00 00 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 00 00 00 00 00 00 05 04 09 0c 01 02   ................
| page 5 offset 16384
|      0: 0d 00 00 00 24 0c 0a 00 0f 00 00 00 00 00 00 00   ....$...........
|   3072: 00 00 00 00 00 00 00 00 00 00 18 24 05 00 25 0f   ...........$..%.
|   3088: 19 54 48 52 45 41 44 53 41 46 45 3d 30 58 42 49   .THREADSAFE=0XBI
|   3104: 4e 41 52 59 18 23 05 00 25 0f 19 54 48 52 45 41   NARY.#..%..THREA
|   3120: 44 53 41 46 45 3d 30 58 4e 4f 43 41 53 45 17 8f   DSAFE=0XNOCASE..
|   3136: 05 00 25 0f 17 54 48 52 45 41 44 43 41 46 45 3d   ..%..THREADCAFE=
|   3152: 30 58 52 54 52 49 4d 1f 21 05 00 33 0f 19 4f 4d   0XRTRIM.!..3..OM
|   3168: 49 54 20 4b 4f 41 44 21 45 58 54 45 4e 53 49 4f   IT KOAD!EXTENSIO
|   3184: 4e 58 42 49 4e 41 52 59 1f 20 05 00 33 0f 19 4f   NXBINARY. ..3..O
|   3200: 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53 49   MIT LOAD EXTENSI
|   3216: 4f 4e 58 4e 4f 43 41 53 45 1e 1f 05 00 33 0f 17   ONXNOCASE....3..
|   3232: 4f 4d 59 54 20 4c 4f 41 44 20 45 58 54 45 4e 53   OMYT LOAD EXTENS
|   3248: 49 4f 4e 58 52 54 56 a9 4d 1f 1e 05 00 33 0f 19   IONXRTV.M....3..
|   3264: 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30 30   MAX MEMORY=50000
|   3280: 30 30 30 57 42 49 4e 31 52 59 1f 1d 05 00 33 0f   000WBIN1RY....3.
|   3296: 19 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30   .MAX MEMORY=5000
|   3312: 30 30 30 30 58 4e 4f 43 41 53 45 1e 1c 05 00 32   0000XNOCASE....2
|   3328: 0f 17 4e 41 58 20 4d 45 4d 4f 52 59 2d 35 30 30   ..NAX MEMORY-500
|   3344: 30 30 30 30 30 58 52 54 52 49 4d 18 1b 05 00 25   00000XRTRIM....%
|   3360: 0f 19 45 4e 41 42 4c 45 20 52 54 52 45 45 58 42   ..ENABLE RTREEXB
|   3376: 49 4e 41 52 59 18 1a 05 00 25 0f 19 45 4e 41 42   INARY....%..ENAB
|   3392: 4c 45 20 52 54 52 45 45 59 4e 4f 43 41 53 45 17   LE RTREEYNOCASE.
|   3408: 19 66 00 25 0f 17 45 4e 41 42 4c 45 20 52 54 52   .f.%..ENABLE RTR
|   3424: 45 45 58 52 54 52 49 4d 1a 18 05 00 29 0f 19 45   EEXRTRIM....)..E
|   3440: 4e 41 42 4c 45 20 4d 45 4d 53 59 53 35 58 42 49   NABLE MEMSYS5XBI
|   3456: 4e 41 52 59 1a 17 05 00 29 0f 19 45 4e 41 42 4c   NARY....)..ENABL
|   3472: 45 20 4d 45 4d 53 59 53 35 58 4e 4f 43 41 53 45   E MEMSYS5XNOCASE
|   3488: 19 16 05 00 29 0f 17 45 4e 41 42 4c 45 20 4d 45   ....)..ENABLE ME
|   3504: 4d 53 59 53 35 58 52 54 52 49 4d 18 15 05 10 25   MSYS5XRTRIM....%
|   3520: 0f 19 45 4e 40 42 4c 45 20 4a 53 4f 4e 31 58 42   ..EN@BLE JSON1XB
|   3536: 49 4e 41 52 59 18 14 05 00 25 0f 19 45 4e 41 42   INARY....%..ENAB
|   3552: 4c 45 20 4a 53 4f 4e 32 58 4e 4f 43 41 53 45 17   LE JSON2XNOCASE.
|   3568: 13 05 00 25 0f 17 45 4e 41 42 4c 45 20 4a 53 4f   ...%..ENABLE JSO
|   3584: 4e 31 58 52 54 52 49 4d 1a 12 05 00 29 0f 19 45   N1XRTRIM....)..E
|   3600: 4e 41 42 4c 45 20 47 45 4f 50 4f 4c 59 58 42 49   NABLE GEOPOLYXBI
|   3616: 4e 41 52 59 1a 11 05 00 29 0f 19 45 4f 81 42 4c   NARY....)..EO.BL
|   3632: 45 20 47 45 4f 50 4f 4c 59 58 4e 4f 43 51 53 45   E GEOPOLYXNOCQSE
|   3648: 19 10 05 00 29 0f 17 45 4e 41 42 4c 45 20 47 45   ....)..ENABLE GE
|   3664: 4f 50 4f 4c 59 58 52 54 52 49 4d 17 0f 05 00 23   OPOLYXRTRIM....#
|   3680: 0f 1a 45 4e 41 42 4c 45 20 46 54 53 35 58 42 49   ..ENABLE FTS5XBI
|   3696: 4e 41 52 59 17 0e 05 00 23 0f 19 45 4e 41 42 4c   NARY....#..ENABL
|   3712: 45 20 46 54 53 35 48 4e 4f 43 41 53 45 16 1d 05   E FTS5HNOCASE...
|   3728: 00 23 0f a4 45 4e 41 42 4c 45 20 46 54 53 35 58   .#..ENABLE FTS5X
|   3744: 52 54 52 49 4d 17 0c 05 00 23 0f 19 45 4e 41 42   RTRIM....#..ENAB
|   3760: 4c 45 20 46 55 53 34 58 42 49 4e 41 52 59 17 0b   LE FUS4XBINARY..
|   3776: 05 00 23 0f 19 45 4e 41 42 4c 45 20 46 54 53 34   ..#..ENABLE FTS4
|   3792: 57 4e 4f 43 41 53 45 16 0a 05 00 23 0f 17 45 4e   WNOCASE....#..EN
|   3808: 41 42 4c 45 20 46 54 53 34 05 52 54 52 49 4d 1e   ABLE FTS4.RTRIM.
|   3824: 09 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3840: 54 41 54 20 56 54 41 42 58 42 49 4e 41 52 59 1e   TAT VTABXBINARY.
|   3856: 08 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3872: 54 41 54 20 56 54 41 42 58 4e 4f 43 41 53 45 1d   TAT VTABXNOCASE.
|   3888: 07 05 00 31 0f 17 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3904: 54 41 54 20 56 54 41 42 58 52 54 52 49 4d 11 06   TAT VTABXRTRIM..
|   3920: 05 00 17 0f 19 44 45 42 55 47 58 42 8a 4e 41 52   .....DEBUGXB.NAR
|   3936: 59 11 05 05 00 17 0f 19 44 45 42 55 47 58 4e 4f   Y.......DEBUGXNO
|   3952: 43 41 53 45 10 04 05 00 17 0f 17 44 45 42 55 47   CASE.......DEBUG
|   3968: 58 52 54 52 49 4d 27 03 05 00 43 0f 19 43 4f 4d   XRTRIM'...C..COM
|   3984: 50 49 4c 45 52 3d 67 63 63 2d 35 2e 34 2e 30 20   PILER=gcc-5.4.0 
|   4000: 32 30 31 36 30 36 30 39 58 42 49 4e 41 52 59 27   20160609XBINARY'
|   4016: 02 05 00 43 0f 19 43 4f 4d 50 49 4c 45 52 3f 87   ...C..COMPILER?.
|   4032: 63 63 2d 35 2e 34 2e 30 20 32 30 31 36 30 36 30   cc-5.4.0 2016060
|   4048: 39 58 4e 4f 43 41 53 45 26 01 05 00 43 0f 17 43   9XNOCASE&...C..C
|   4064: 45 0d 60 59 4c 45 52 3d 67 63 63 2d 35 2e 34 2e   E.`YLER=gcc-5.4.
|   4080: 30 20 32 30 31 36 30 36 30 39 68 52 54 52 49 4d   0 20160609hRTRIM
| page 6 offset 20480
|      0: 0d 00 00 00 24 0e 00 00 00 00 00 00 00 00 00 00   ....$...........
|   3808: 06 24 03 00 12 02 01 01 06 23 03 00 12 02 01 01   .$.......#......
|   3824: 06 22 03 01 12 02 01 01 06 21 03 00 12 03 01 01   .........!......
|   3840: 06 20 03 00 12 03 01 01 06 1f 03 00 12 03 02 01   . ..............
|   3856: 06 1e 03 00 12 03 01 01 06 1d 03 00 12 03 01 01   ................
|   3872: 06 1c 03 00 12 03 01 01 06 1b 03 00 12 02 01 01   ................
|   3888: 06 1a 03 00 12 02 01 01 06 19 03 00 12 02 01 01   ................
|   3904: 06 18 03 00 12 02 01 01 06 17 03 00 12 02 01 01   ................
|   3920: 06 16 03 00 12 02 01 01 06 15 03 00 12 02 01 01   ................
|   3936: 06 14 03 00 12 02 01 01 06 13 03 00 12 02 01 01   ................
|   3952: 06 12 03 00 12 02 01 01 06 11 03 00 12 02 01 01   ................
|   3968: 06 00 03 00 12 02 01 01 06 0f 03 00 12 02 01 01   ................
|   3984: 06 0e 03 00 12 02 01 01 06 0d 03 00 12 02 01 01   ................
|   4000: 06 0c 03 00 12 02 01 01 06 0b 03 00 12 02 01 01   ................
|   4016: 06 0a 03 00 12 02 01 01 06 09 03 00 12 03 01 01   ................
|   4032: 06 08 03 00 12 03 01 01 06 07 03 00 12 03 01 01   ................
|   4048: 06 06 03 00 12 01 01 01 06 05 03 00 12 01 01 01   ................
|   4064: 06 04 03 00 12 01 01 01 06 03 03 00 12 06 01 01   ................
|   4080: 06 02 03 00 12 06 01 01 06 01 03 00 12 06 01 01   ................
| page 7 offset 24576
|      0: 0a 00 00 00 01 0f f4 00 0f f4 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 0b 03 1b 01 76 65 72 73 69 6f 6e 04   ........version.
| page 8 offset 28672
|   4048: 00 00 00 00 00 00 5d 03 00 00 00 00 00 00 00 00   ......].........
| end crash-c77b90b929dc92.db
}]} {}


do_catchsql_test 60.2 {
  SELECT (matchinfo(t1,591)) FROM t1 WHERE t1 MATCH 'e*eŸ'
} {0 {}}

#-------------------------------------------------------------------------
do_test 61.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
.open --hexdb
| size 28672 pagesize 4096 filename crash-e5fa281edabddf.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 00 00 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 0f c7 00 06 0d b6 00 0f 8d 0f 36   ...............6
|    112: 0e cb 0e 6b 0e 0e 0d b6 00 00 00 00 00 00 00 00   ...k............
|   3504: 00 00 00 00 00 00 56 07 06 17 1f 1f 01 7d 74 61   ......V.......ta
|   3520: 62 6c 65 74 31 5f 63 6f 6e 66 69 67 74 31 5f 63   blet1_configt1_c
|   3536: 6f 6e 66 69 67 07 43 52 45 41 54 45 20 54 41 42   onfig.CREATE TAB
|   3552: 4c 45 20 27 74 31 5f 63 6f 6e 66 69 67 27 28 6b   LE 't1_config'(k
|   3568: 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20 76 29    PRIMARY KEY, v)
|   3584: 20 57 49 54 48 4f 55 54 20 52 4f 57 49 44 5b 06    WITHOUT ROWID[.
|   3600: 07 17 21 21 01 81 01 74 51 62 6c 65 74 31 5f 64   ..!!...tQblet1_d
|   3616: 6f 63 73 69 7a 65 74 31 5f 63 6f 63 73 69 7a 65   ocsizet1_cocsize
|   3632: 06 43 52 45 41 54 45 20 54 41 42 4c 45 20 27 74   .CREATE TABLE 't
|   3648: 31 5f 64 6f 63 73 69 7a 65 27 28 69 64 20 49 4e   1_docsize'(id IN
|   3664: 54 45 47 45 52 20 50 52 49 4d 41 52 59 20 4b 45   TEGER PRIMARY KE
|   3680: 59 2c 20 73 7a 20 42 4c 4f 42 29 5e 05 07 17 21   Y, sz BLOB)^...!
|   3696: 21 01 81 07 74 61 62 6c 65 74 31 5f 63 6f 6e 74   !...tablet1_cont
|   3712: 65 6e 74 74 31 5f 63 6f 6e 74 65 6e 74 05 43 52   entt1_content.CR
|   3728: 45 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 63   EATE TABLE 't1_c
|   3744: 6f 6e 74 65 6e 74 27 28 69 64 20 49 4e 54 45 47   ontent'(id INTEG
|   3760: 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59 2c 20   ER PRIMARY KEY, 
|   3776: 63 30 2c 20 63 31 2c 20 63 32 29 69 04 07 17 19   c0, c1, c2)i....
|   3792: 19 01 81 2d 74 61 62 6c 65 74 31 5f 69 64 78 74   ...-tablet1_idxt
|   3808: 31 5f 69 64 78 04 43 52 45 41 54 45 20 54 41 42   1_idx.CREATE TAB
|   3824: 4c 45 20 27 74 31 5f 69 64 78 27 28 73 65 67 69   LE 't1_idx'(segi
|   3840: 64 2c 20 74 65 72 6d 2c 20 70 67 6e 6f 2c 20 50   d, term, pgno, P
|   3856: 52 49 4d 41 52 59 20 4b 45 59 28 73 65 67 69 64   RIMARY KEY(segid
|   3872: 2c 20 74 65 72 6d 29 29 20 57 49 54 48 4f 55 54   , term)) WITHOUT
|   3888: 20 52 4f 57 49 44 55 03 07 17 1b 1b 01 81 01 74    ROWIDU........t
|   3904: 61 62 6c 65 74 31 5f 64 61 74 61 74 31 5f 64 61   ablet1_datat1_da
|   3920: 74 61 03 43 52 45 41 54 45 20 54 41 42 4c 45 20   ta.CREATE TABLE 
|   3936: 27 74 31 5f 64 61 74 61 27 28 69 64 20 49 4e 54   't1_data'(id INT
|   3952: 45 47 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59   EGER PRIMARY KEY
|   3968: 2c 20 62 6c 6f 63 6b 20 42 4c 4f 42 29 38 02 06   , block BLOB)8..
|   3984: 17 11 11 08 5f 74 61 62 6c 65 74 ea 74 31 43 52   ...._tablet.t1CR
|   4000: 45 41 54 45 20 56 49 52 54 55 41 4c 20 54 41 42   EATE VIRTUAL TAB
|   4016: 4c 45 20 74 31 20 55 53 49 4e 47 20 66 74 73 35   LE t1 USING fts5
|   4032: 28 61 2c 62 2c 63 29 00 00 00 00 00 00 00 00 00   (a,b,c).........
| page 3 offset 8192
|      0: 0d 00 00 00 03 0c 94 00 0f e6 0f ef 0c 94 00 00   ................
|   3216: 00 00 00 00 86 4a 84 80 80 80 80 01 04 00 8d 18   .....J..........
|   3232: 00 00 03 2b 02 30 30 01 02 06 01 02 06 01 02 06   ...+.00.........
|   3248: 1f 02 13 01 02 03 01 02 03 01 08 32 30 31 36 30   ...........20160
|   3264: 36 30 39 01 02 07 01 02 07 01 02 07 01 01 34 01   609...........4.
|   3280: 02 05 01 02 05 01 02 05 01 01 35 01 02 04 01 02   ..........5.....
|   3296: 04 01 02 04 02 07 30 30 30 30 30 30 30 1c 02 04   ......0000000...
|   3312: 01 02 04 01 02 04 01 06 62 69 6e 61 72 79 03 06   ........binary..
|   3328: 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01   ................
|   3344: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3360: 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02 02   ................
|   3376: 03 06 01 02 02 03 06 01 02 02 01 08 63 6f 6d 70   ............comp
|   3392: 69 6c 65 72 01 02 02 01 02 02 01 02 02 01 06 64   iler...........d
|   3408: 62 73 74 61 74 07 02 03 01 02 03 01 02 03 02 04   bstat...........
|   3424: 65 62 75 67 04 02 02 01 02 02 01 02 02 01 06 65   ebug...........e
|   3440: 6e 61 62 6c 65 07 02 02 01 02 02 01 02 02 01 02   nable...........
|   3456: 02 01 02 02 01 02 02 01 02 02 01 02 02 01 02 02   ................
|   3472: 01 02 02 01 02 02 01 02 02 01 02 02 01 02 02 01   ................
|   3488: 02 02 01 02 02 01 02 02 01 02 02 01 02 02 01 02   ................
|   3504: 02 01 02 02 02 08 78 74 65 6e 73 69 6f 6e 1f 02   ......xtension..
|   3520: 04 01 02 04 01 02 04 01 04 66 74 73 34 0a 02 03   .........fts4...
|   3536: 01 02 03 01 02 03 04 01 35 0d 02 03 01 02 03 01   ........5.......
|   3552: 02 03 01 03 67 63 63 01 02 03 01 02 03 01 02 03   ....gcc.........
|   3568: 02 06 65 6f 70 6f 6c 79 10 02 03 01 02 03 01 02   ..eopoly........
|   3584: 03 01 05 6a 73 6f 6e 31 13 02 03 01 02 03 01 02   ...json1........
|   3600: 03 01 04 6c 6f 61 64 1f 02 03 01 02 03 01 02 03   ...load.........
|   3616: 01 03 6d 61 78 1c 02 02 01 02 02 01 02 02 02 05   ..max...........
|   3632: 65 6d 6f 72 79 1c 02 03 01 02 03 01 02 03 04 04   emory...........
|   3648: 73 79 73 35 16 02 03 01 02 03 11 02 03 01 06 6e   sys5...........n
|   3664: 6f 63 61 73 65 02 06 01 02 02 03 06 01 02 02 03   ocase...........
|   3680: 06 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06   ................
|   3696: 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01   ................
|   3712: 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02   ................
|   3728: 02 01 04 6f 6d 69 74 1f 02 02 01 02 02 01 02 02   ...omit.........
|   3744: 01 05 72 74 72 65 65 19 02 03 01 02 03 01 02 03   ..rtree.........
|   3760: 04 02 69 6d 01 06 01 02 02 03 06 01 02 02 03 06   ..im............
|   3776: 01 02 02 03 06 01 02 02 03 06 01 02 02 03 06 01   ................
|   3792: 02 02 03 06 01 02 02 03 06 01 02 01 13 05 01 02   ................
|   3808: 02 03 06 01 02 02 03 06 01 02 02 03 06 01 02 02   ................
|   3824: 01 0a 74 68 72 65 61 64 73 61 66 65 22 02 02 01   ..threadsafe....
|   3840: 02 02 01 01 02 01 04 76 74 61 62 07 02 04 01 02   .......vtab.....
|   3856: 04 01 02 04 01 01 78 01 06 01 01 02 01 06 01 01   ......x.........
|   3872: 02 0e 16 01 01 02 01 06 01 01 02 01 06 01 02 02   ................
|   3888: 01 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01   ................
|   3904: 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06   ................
|   3920: 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01   ................
|   3936: 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01   ................
|   3952: 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01 02   ................
|   3968: 01 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01   ................
|   3984: 06 01 01 02 01 06 01 01 02 01 06 01 01 02 01 06   ................
|   4000: 01 01 02 01 06 01 01 02 01 06 01 01 02 01 07 01   ................
|   4016: 01 02 01 06 01 01 02 01 06 01 01 02 01 06 01 01   ................
|   4032: 02 01 06 01 01 02 01 06 01 01 02 04 15 13 0c 0c   ................
|   4048: 12 44 13 11 0f 47 13 0f 0c 0e 11 10 0f 0e 10 0f   .D...G..........
|   4064: 44 0f 10 40 15 0f 07 01 03 00 14 24 5a 24 24 0f   D..@.......$Z$$.
|   4080: 0a 03 00 24 00 00 00 00 01 01 01 00 01 01 01 01   ...$............
| page 4 offset 12288
|      0: 0a 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 00 00 00 00 00 00 05 04 09 0c 01 02   ................
| page 5 offset 16384
|      0: 0d 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   3072: 00 00 00 00 00 00 00 00 00 00 18 24 05 00 25 0f   ...........$..%.
|   3088: 19 54 48 52 45 41 44 53 41 46 45 3d 30 58 42 49   .THREADSAFE=0XBI
|   3104: 4e 41 52 59 18 e2 05 00 25 0f 19 54 48 52 45 41   NARY....%..THREA
|   3120: 44 53 41 46 45 3d 30 58 4e 4f 43 41 53 45 17 22   DSAFE=0XNOCASE..
|   3136: 05 00 25 0f 17 54 48 52 45 41 44 53 41 46 45 3d   ..%..THREADSAFE=
|   3152: 30 58 52 54 52 49 4d 1f 21 05 00 33 0f 19 4f 4d   0XRTRIM.!..3..OM
|   3168: 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53 49 4f   IT LOAD EXTENSIO
|   3184: 4e 58 42 49 4e 40 52 59 1f 20 05 00 33 0f 19 4f   NXBIN@RY. ..3..O
|   3200: 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53 49   MIT LOAD EXTENSI
|   3216: 4f 4e 58 4e 4f 43 41 53 45 1e 1f 05 00 33 0f 17   ONXNOCASE....3..
|   3232: 4f 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53   OMIT LOAD EXTENS
|   3248: 49 4f 4e 58 52 54 52 49 4d 1f 1e 05 00 33 0f 19   IONXRTRIM....3..
|   3264: 4d 41 58 20 4e 45 4d 4f 52 59 3d 35 30 30 30 30   MAX NEMORY=50000
|   3280: 30 30 30 58 42 49 4e 41 52 59 1f 1d 05 00 33 0f   000XBINARY....3.
|   3296: 19 4d 41 58 20 4d 45 4d 4f 52 59 3d 45 30 30 30   .MAX MEMORY=E000
|   3312: 30 30 30 30 58 4e 4f 43 41 53 45 1e 1c 05 00 33   0000XNOCASE....3
|   3328: 0f 17 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30   ..MAX MEMORY=500
|   3344: 30 30 30 30 30 58 52 54 52 49 4d 18 1b 05 00 25   00000XRTRIM....%
|   3360: 0f 19 45 4e 41 42 4c 45 20 52 54 52 45 45 58 42   ..ENABLE RTREEXB
|   3376: 49 4e 41 52 59 18 1a 05 00 25 0f 19 45 4e 41 42   INARY....%..ENAB
|   3392: 4c 45 20 52 54 52 45 45 58 4e 4f 43 41 53 45 17   LE RTREEXNOCASE.
|   3408: 19 05 00 25 0f 17 45 4e 41 42 4c 45 20 20 54 52   ...%..ENABLE  TR
|   3424: 45 45 58 52 54 52 49 4d 1a 18 05 00 29 0f 19 45   EEXRTRIM....)..E
|   3440: 4e 41 42 4c 45 20 4d 45 4d 53 59 53 35 58 42 49   NABLE MEMSYS5XBI
|   3456: 4e 41 52 59 1a 17 05 00 29 0f 19 45 4e 41 42 4c   NARY....)..ENABL
|   3472: 45 20 4d 45 4d 53 59 53 35 58 4e 4f 43 41 53 45   E MEMSYS5XNOCASE
|   3488: 19 16 05 00 29 0f 17 45 4e 41 42 4c 45 20 4d 45   ....)..ENABLE ME
|   3504: 4d 53 59 53 35 58 52 54 52 49 4d 18 15 05 00 25   MSYS5XRTRIM....%
|   3520: 0f 19 45 4e 41 42 4c 45 20 4a 53 4f 4e 31 58 42   ..ENABLE JSON1XB
|   3536: 49 4e 41 52 59 18 14 05 00 25 0f 19 45 4e 41 42   INARY....%..ENAB
|   3552: 4c 45 20 4a 53 4f 4e 31 58 4e 4f 43 41 53 45 17   LE JSON1XNOCASE.
|   3568: 13 05 00 25 0f 17 45 4e 41 42 4c 45 20 4a 53 4f   ...%..ENABLE JSO
|   3584: 4e 31 58 52 54 52 49 4d 1a 12 05 00 29 0f 19 45   N1XRTRIM....)..E
|   3600: 4e 41 42 4c 45 20 47 45 4f 50 4f 4c 59 58 42 49   NABLE GEOPOLYXBI
|   3616: 4e 41 52 59 1a 11 05 00 29 0f 19 45 4e 41 42 4c   NARY....)..ENABL
|   3632: 45 20 47 45 4f 50 4f 4c 59 58 4e 4f 43 41 53 45   E GEOPOLYXNOCASE
|   3648: 19 10 05 00 29 0f 17 45 4e 41 42 4c 45 20 47 45   ....)..ENABLE GE
|   3664: 4f 50 4f 4c 59 58 52 54 52 49 4d 17 0f 05 00 23   OPOLYXRTRIM....#
|   3680: 0f 19 45 4e 41 42 4c 45 20 e5 54 53 35 58 42 49   ..ENABLE .TS5XBI
|   3696: 4e 41 52 59 17 0e 05 00 23 0f 19 45 4e 41 42 4d   NARY....#..ENABM
|   3712: 45 b5 46 54 53 35 58 4e 4f 43 41 53 45 16 0d 05   E.FTS5XNOCASE...
|   3728: 00 23 0f 17 45 4e 41 42 4c 45 20 46 54 53 35 58   .#..ENABLE FTS5X
|   3744: 52 54 52 49 4d 17 0c 05 00 23 0f 19 45 4e 41 42   RTRIM....#..ENAB
|   3760: 4c 45 20 46 54 53 34 58 42 b7 4e 41 52 59 17 0b   LE FTS4XB.NARY..
|   3776: 05 00 23 0f 19 45 4e 41 42 4c 45 20 46 54 53 34   ..#..ENABLE FTS4
|   3792: 58 4e 4f 43 41 53 45 16 0a 05 00 23 0f 17 45 4e   XNOCASE....#..EN
|   3808: 41 42 4c 45 20 46 54 53 34 58 52 54 52 49 4d 1e   ABLE FTS4XRTRIM.
|   3824: 09 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3840: 54 41 54 20 56 54 41 42 58 42 49 4e 41 52 59 1e   TAT VTABXBINARY.
|   3856: 08 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3872: 54 41 54 20 56 54 41 42 58 4e 4f 43 41 53 45 1d   TAT VTABXNOCASE.
|   3888: 07 05 00 31 0f 17 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3904: 54 41 54 20 56 54 41 42 58 52 54 52 49 4d 11 06   TAT VTABXRTRIM..
|   3920: 05 00 17 0f 19 44 45 42 55 47 58 42 49 4e 41 52   .....DEBUGXBINAR
|   3936: 59 11 05 05 00 17 0f 19 44 45 42 55 47 58 4e 4f   Y.......DEBUGXNO
|   3952: 43 41 53 45 10 04 05 00 17 0f 17 44 45 42 55 47   CASE.......DEBUG
|   3968: 58 52 54 52 49 4d 27 03 05 00 43 0f 19 43 4f 4d   XRTRIM'...C..COM
|   3984: 50 49 4c 45 52 3d 67 63 63 2d 35 2e 34 2e 30 20   PILER=gcc-5.4.0 
|   4000: 32 30 31 36 30 36 30 39 58 42 49 4e 41 52 59 27   20160609XBINARY'
|   4016: 02 05 00 43 0f 19 43 4f 4d 50 49 4c 45 52 3d 67   ...C..COMPILER=g
|   4032: 63 63 2d 35 2e 34 2e 30 20 32 30 31 36 30 36 30   cc-5.4.0 2016060
|   4048: 39 58 4e 4f 43 41 53 45 26 01 05 00 43 0f 17 53   9XNOCASE&...C..S
|   4064: 4f 4d 50 49 4c 45 52 3d 67 63 63 2d 35 2e 34 2e   OMPILER=gcc-5.4.
|   4080: 30 20 32 2f 31 00 00 00 00 00 00 00 00 00 00 00   0 2/1...........
| page 6 offset 20480
|   3808: 06 24 03 00 12 02 01 01 06 23 03 00 12 02 01 01   .$.......#......
|   3824: 06 22 03 00 12 02 01 01 06 21 03 00 12 03 01 01   .........!......
|   3840: 06 20 03 00 12 03 01 01 06 1f 03 00 12 03 01 01   . ..............
|   3856: 06 1e 03 00 12 03 01 01 06 1d 03 00 12 03 01 01   ................
|   3872: 06 1c 03 00 12 03 01 01 06 1b 03 00 12 02 01 01   ................
|   3888: 06 1a 03 00 12 02 01 01 06 19 03 10 12 02 01 01   ................
|   3904: 06 18 03 00 12 02 01 01 06 17 03 00 12 02 01 01   ................
|   3920: 06 16 03 00 12 02 01 01 06 15 03 00 12 02 01 01   ................
|   3936: 06 14 03 00 12 02 01 01 06 13 03 00 12 02 01 01   ................
|   3952: 06 12 03 00 12 02 01 01 06 11 03 00 12 02 01 01   ................
|   3968: 06 10 03 00 12 02 01 01 06 0f 03 00 12 02 01 01   ................
|   3984: 06 0e 03 00 12 02 01 01 06 0d 03 00 12 02 01 01   ................
|   4000: 06 0c 03 00 12 02 01 01 06 0b 03 00 12 02 01 01   ................
|   4016: 06 0a 03 00 12 02 01 01 06 09 03 00 12 03 01 01   ................
|   4032: 06 08 03 00 12 03 01 01 06 07 03 00 12 03 01 01   ................
|   4048: 06 06 03 00 12 01 01 01 06 05 03 01 12 01 01 01   ................
|   4064: 06 04 03 00 12 01 01 01 06 03 03 00 12 06 01 01   ................
|   4080: 06 02 03 00 12 06 01 01 06 01 03 00 12 06 01 01   ................
| page 7 offset 24576
|      0: 0a 00 00 00 01 0f f4 00 0f f4 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 0b 03 1b 01 76 65 72 73 69 6f 6e 04   ........version.
| end crash-e5fa281edabddf.db
}]} {}

do_execsql_test 61.1 {
  CREATE VIRTUAL TABLE t3 USING fts5vocab('t1'(),'col' );
} 

do_catchsql_test 62.2 {
  SELECT * FROM t3 ORDER BY rowid;
} {1 {database disk image is malformed}}


sqlite3_fts5_may_be_corrupt 0
finish_test

Added ext/misc/dbdata.c.







































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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/*
** 2019-04-17
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
******************************************************************************
**
** This file contains an implementation of two eponymous virtual tables,
** "sqlite_dbdata" and "sqlite_dbptr". Both modules require that the
** "sqlite_dbpage" eponymous virtual table be available.
**
** SQLITE_DBDATA:
**   sqlite_dbdata is used to extract data directly from a database b-tree
**   page and its associated overflow pages, bypassing the b-tree layer.
**   The table schema is equivalent to:
**
**     CREATE TABLE sqlite_dbdata(
**       pgno INTEGER,
**       cell INTEGER,
**       field INTEGER,
**       value ANY,
**       schema TEXT HIDDEN
**     );
**
**   IMPORTANT: THE VIRTUAL TABLE SCHEMA ABOVE IS SUBJECT TO CHANGE. IN THE
**   FUTURE NEW NON-HIDDEN COLUMNS MAY BE ADDED BETWEEN "value" AND
**   "schema".
**
**   Each page of the database is inspected. If it cannot be interpreted as
**   a b-tree page, or if it is a b-tree page containing 0 entries, the
**   sqlite_dbdata table contains no rows for that page.  Otherwise, the
**   table contains one row for each field in the record associated with
**   each cell on the page. For intkey b-trees, the key value is stored in
**   field -1.
**
**   For example, for the database:
**
**     CREATE TABLE t1(a, b);     -- root page is page 2
**     INSERT INTO t1(rowid, a, b) VALUES(5, 'v', 'five');
**     INSERT INTO t1(rowid, a, b) VALUES(10, 'x', 'ten');
**
**   the sqlite_dbdata table contains, as well as from entries related to 
**   page 1, content equivalent to:
**
**     INSERT INTO sqlite_dbdata(pgno, cell, field, value) VALUES
**         (2, 0, -1, 5     ),
**         (2, 0,  0, 'v'   ),
**         (2, 0,  1, 'five'),
**         (2, 1, -1, 10    ),
**         (2, 1,  0, 'x'   ),
**         (2, 1,  1, 'ten' );
**
**   If database corruption is encountered, this module does not report an
**   error. Instead, it attempts to extract as much data as possible and
**   ignores the corruption.
**
** SQLITE_DBPTR:
**   The sqlite_dbptr table has the following schema:
**
**     CREATE TABLE sqlite_dbptr(
**       pgno INTEGER,
**       child INTEGER,
**       schema TEXT HIDDEN
**     );
**
**   It contains one entry for each b-tree pointer between a parent and
**   child page in the database.
*/
#if !defined(SQLITEINT_H) 
#include "sqlite3ext.h"

typedef unsigned char u8;

#endif
SQLITE_EXTENSION_INIT1
#include <string.h>
#include <assert.h>

#define DBDATA_PADDING_BYTES 100 

typedef struct DbdataTable DbdataTable;
typedef struct DbdataCursor DbdataCursor;

/* Cursor object */
struct DbdataCursor {
  sqlite3_vtab_cursor base;       /* Base class.  Must be first */
  sqlite3_stmt *pStmt;            /* For fetching database pages */

  int iPgno;                      /* Current page number */
  u8 *aPage;                      /* Buffer containing page */
  int nPage;                      /* Size of aPage[] in bytes */
  int nCell;                      /* Number of cells on aPage[] */
  int iCell;                      /* Current cell number */
  int bOnePage;                   /* True to stop after one page */
  int szDb;
  sqlite3_int64 iRowid;

  /* Only for the sqlite_dbdata table */
  u8 *pRec;                       /* Buffer containing current record */
  int nRec;                       /* Size of pRec[] in bytes */
  int nHdr;                       /* Size of header in bytes */
  int iField;                     /* Current field number */
  u8 *pHdrPtr;
  u8 *pPtr;
  
  sqlite3_int64 iIntkey;          /* Integer key value */
};

/* Table object */
struct DbdataTable {
  sqlite3_vtab base;              /* Base class.  Must be first */
  sqlite3 *db;                    /* The database connection */
  sqlite3_stmt *pStmt;            /* For fetching database pages */
  int bPtr;                       /* True for sqlite3_dbptr table */
};

/* Column and schema definitions for sqlite_dbdata */
#define DBDATA_COLUMN_PGNO        0
#define DBDATA_COLUMN_CELL        1
#define DBDATA_COLUMN_FIELD       2
#define DBDATA_COLUMN_VALUE       3
#define DBDATA_COLUMN_SCHEMA      4
#define DBDATA_SCHEMA             \
      "CREATE TABLE x("           \
      "  pgno INTEGER,"           \
      "  cell INTEGER,"           \
      "  field INTEGER,"          \
      "  value ANY,"              \
      "  schema TEXT HIDDEN"      \
      ")"

/* Column and schema definitions for sqlite_dbptr */
#define DBPTR_COLUMN_PGNO         0
#define DBPTR_COLUMN_CHILD        1
#define DBPTR_COLUMN_SCHEMA       2
#define DBPTR_SCHEMA              \
      "CREATE TABLE x("           \
      "  pgno INTEGER,"           \
      "  child INTEGER,"          \
      "  schema TEXT HIDDEN"      \
      ")"

/*
** Connect to an sqlite_dbdata (pAux==0) or sqlite_dbptr (pAux!=0) virtual 
** table.
*/
static int dbdataConnect(
  sqlite3 *db,
  void *pAux,
  int argc, const char *const*argv,
  sqlite3_vtab **ppVtab,
  char **pzErr
){
  DbdataTable *pTab = 0;
  int rc = sqlite3_declare_vtab(db, pAux ? DBPTR_SCHEMA : DBDATA_SCHEMA);

  if( rc==SQLITE_OK ){
    pTab = (DbdataTable*)sqlite3_malloc64(sizeof(DbdataTable));
    if( pTab==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pTab, 0, sizeof(DbdataTable));
      pTab->db = db;
      pTab->bPtr = (pAux!=0);
    }
  }

  *ppVtab = (sqlite3_vtab*)pTab;
  return rc;
}

/*
** Disconnect from or destroy a sqlite_dbdata or sqlite_dbptr virtual table.
*/
static int dbdataDisconnect(sqlite3_vtab *pVtab){
  DbdataTable *pTab = (DbdataTable*)pVtab;
  if( pTab ){
    sqlite3_finalize(pTab->pStmt);
    sqlite3_free(pVtab);
  }
  return SQLITE_OK;
}

/*
** This function interprets two types of constraints:
**
**       schema=?
**       pgno=?
**
** If neither are present, idxNum is set to 0. If schema=? is present,
** the 0x01 bit in idxNum is set. If pgno=? is present, the 0x02 bit
** in idxNum is set.
**
** If both parameters are present, schema is in position 0 and pgno in
** position 1.
*/
static int dbdataBestIndex(sqlite3_vtab *tab, sqlite3_index_info *pIdx){
  DbdataTable *pTab = (DbdataTable*)tab;
  int i;
  int iSchema = -1;
  int iPgno = -1;
  int colSchema = (pTab->bPtr ? DBPTR_COLUMN_SCHEMA : DBDATA_COLUMN_SCHEMA);

  for(i=0; i<pIdx->nConstraint; i++){
    struct sqlite3_index_constraint *p = &pIdx->aConstraint[i];
    if( p->op==SQLITE_INDEX_CONSTRAINT_EQ ){
      if( p->iColumn==colSchema ){
        if( p->usable==0 ) return SQLITE_CONSTRAINT;
        iSchema = i;
      }
      if( p->iColumn==DBDATA_COLUMN_PGNO && p->usable ){
        iPgno = i;
      }
    }
  }

  if( iSchema>=0 ){
    pIdx->aConstraintUsage[iSchema].argvIndex = 1;
    pIdx->aConstraintUsage[iSchema].omit = 1;
  }
  if( iPgno>=0 ){
    pIdx->aConstraintUsage[iPgno].argvIndex = 1 + (iSchema>=0);
    pIdx->aConstraintUsage[iPgno].omit = 1;
    pIdx->estimatedCost = 100;
    pIdx->estimatedRows =  50;

    if( pTab->bPtr==0 && pIdx->nOrderBy && pIdx->aOrderBy[0].desc==0 ){
      int iCol = pIdx->aOrderBy[0].iColumn;
      if( pIdx->nOrderBy==1 ){
        pIdx->orderByConsumed = (iCol==0 || iCol==1);
      }else if( pIdx->nOrderBy==2 && pIdx->aOrderBy[1].desc==0 && iCol==0 ){
        pIdx->orderByConsumed = (pIdx->aOrderBy[1].iColumn==1);
      }
    }

  }else{
    pIdx->estimatedCost = 100000000;
    pIdx->estimatedRows = 1000000000;
  }
  pIdx->idxNum = (iSchema>=0 ? 0x01 : 0x00) | (iPgno>=0 ? 0x02 : 0x00);
  return SQLITE_OK;
}

/*
** Open a new sqlite_dbdata or sqlite_dbptr cursor.
*/
static int dbdataOpen(sqlite3_vtab *pVTab, sqlite3_vtab_cursor **ppCursor){
  DbdataCursor *pCsr;

  pCsr = (DbdataCursor*)sqlite3_malloc64(sizeof(DbdataCursor));
  if( pCsr==0 ){
    return SQLITE_NOMEM;
  }else{
    memset(pCsr, 0, sizeof(DbdataCursor));
    pCsr->base.pVtab = pVTab;
  }

  *ppCursor = (sqlite3_vtab_cursor *)pCsr;
  return SQLITE_OK;
}

/*
** Restore a cursor object to the state it was in when first allocated 
** by dbdataOpen().
*/
static void dbdataResetCursor(DbdataCursor *pCsr){
  DbdataTable *pTab = (DbdataTable*)(pCsr->base.pVtab);
  if( pTab->pStmt==0 ){
    pTab->pStmt = pCsr->pStmt;
  }else{
    sqlite3_finalize(pCsr->pStmt);
  }
  pCsr->pStmt = 0;
  pCsr->iPgno = 1;
  pCsr->iCell = 0;
  pCsr->iField = 0;
  pCsr->bOnePage = 0;
  sqlite3_free(pCsr->aPage);
  sqlite3_free(pCsr->pRec);
  pCsr->pRec = 0;
  pCsr->aPage = 0;
}

/*
** Close an sqlite_dbdata or sqlite_dbptr cursor.
*/
static int dbdataClose(sqlite3_vtab_cursor *pCursor){
  DbdataCursor *pCsr = (DbdataCursor*)pCursor;
  dbdataResetCursor(pCsr);
  sqlite3_free(pCsr);
  return SQLITE_OK;
}

/* 
** Utility methods to decode 16 and 32-bit big-endian unsigned integers. 
*/
static unsigned int get_uint16(unsigned char *a){
  return (a[0]<<8)|a[1];
}
static unsigned int get_uint32(unsigned char *a){
  return ((unsigned int)a[0]<<24)
       | ((unsigned int)a[1]<<16)
       | ((unsigned int)a[2]<<8)
       | ((unsigned int)a[3]);
}

/*
** Load page pgno from the database via the sqlite_dbpage virtual table.
** If successful, set (*ppPage) to point to a buffer containing the page
** data, (*pnPage) to the size of that buffer in bytes and return
** SQLITE_OK. In this case it is the responsibility of the caller to
** eventually free the buffer using sqlite3_free().
**
** Or, if an error occurs, set both (*ppPage) and (*pnPage) to 0 and
** return an SQLite error code.
*/
static int dbdataLoadPage(
  DbdataCursor *pCsr,             /* Cursor object */
  unsigned int pgno,              /* Page number of page to load */
  u8 **ppPage,                    /* OUT: pointer to page buffer */
  int *pnPage                     /* OUT: Size of (*ppPage) in bytes */
){
  int rc2;
  int rc = SQLITE_OK;
  sqlite3_stmt *pStmt = pCsr->pStmt;

  *ppPage = 0;
  *pnPage = 0;
  sqlite3_bind_int64(pStmt, 2, pgno);
  if( SQLITE_ROW==sqlite3_step(pStmt) ){
    int nCopy = sqlite3_column_bytes(pStmt, 0);
    if( nCopy>0 ){
      u8 *pPage;
      pPage = (u8*)sqlite3_malloc64(nCopy + DBDATA_PADDING_BYTES);
      if( pPage==0 ){
        rc = SQLITE_NOMEM;
      }else{
        const u8 *pCopy = sqlite3_column_blob(pStmt, 0);
        memcpy(pPage, pCopy, nCopy);
        memset(&pPage[nCopy], 0, DBDATA_PADDING_BYTES);
      }
      *ppPage = pPage;
      *pnPage = nCopy;
    }
  }
  rc2 = sqlite3_reset(pStmt);
  if( rc==SQLITE_OK ) rc = rc2;

  return rc;
}

/*
** Read a varint.  Put the value in *pVal and return the number of bytes.
*/
static int dbdataGetVarint(const u8 *z, sqlite3_int64 *pVal){
  sqlite3_int64 v = 0;
  int i;
  for(i=0; i<8; i++){
    v = (v<<7) + (z[i]&0x7f);
    if( (z[i]&0x80)==0 ){ *pVal = v; return i+1; }
  }
  v = (v<<8) + (z[i]&0xff);
  *pVal = v;
  return 9;
}

/*
** Return the number of bytes of space used by an SQLite value of type
** eType.
*/
static int dbdataValueBytes(int eType){
  switch( eType ){
    case 0: case 8: case 9:
    case 10: case 11:
      return 0;
    case 1:
      return 1;
    case 2:
      return 2;
    case 3:
      return 3;
    case 4:
      return 4;
    case 5:
      return 6;
    case 6:
    case 7:
      return 8;
    default:
      if( eType>0 ){
        return ((eType-12) / 2);
      }
      return 0;
  }
}

/*
** Load a value of type eType from buffer pData and use it to set the
** result of context object pCtx.
*/
static void dbdataValue(
  sqlite3_context *pCtx, 
  int eType, 
  u8 *pData,
  int nData
){
  if( eType>=0 && dbdataValueBytes(eType)<=nData ){
    switch( eType ){
      case 0: 
      case 10: 
      case 11: 
        sqlite3_result_null(pCtx);
        break;
      
      case 8: 
        sqlite3_result_int(pCtx, 0);
        break;
      case 9:
        sqlite3_result_int(pCtx, 1);
        break;
  
      case 1: case 2: case 3: case 4: case 5: case 6: case 7: {
        sqlite3_uint64 v = (signed char)pData[0];
        pData++;
        switch( eType ){
          case 7:
          case 6:  v = (v<<16) + (pData[0]<<8) + pData[1];  pData += 2;
          case 5:  v = (v<<16) + (pData[0]<<8) + pData[1];  pData += 2;
          case 4:  v = (v<<8) + pData[0];  pData++;
          case 3:  v = (v<<8) + pData[0];  pData++;
          case 2:  v = (v<<8) + pData[0];  pData++;
        }
  
        if( eType==7 ){
          double r;
          memcpy(&r, &v, sizeof(r));
          sqlite3_result_double(pCtx, r);
        }else{
          sqlite3_result_int64(pCtx, (sqlite3_int64)v);
        }
        break;
      }
  
      default: {
        int n = ((eType-12) / 2);
        if( eType % 2 ){
          sqlite3_result_text(pCtx, (const char*)pData, n, SQLITE_TRANSIENT);
        }else{
          sqlite3_result_blob(pCtx, pData, n, SQLITE_TRANSIENT);
        }
      }
    }
  }
}

/*
** Move an sqlite_dbdata or sqlite_dbptr cursor to the next entry.
*/
static int dbdataNext(sqlite3_vtab_cursor *pCursor){
  DbdataCursor *pCsr = (DbdataCursor*)pCursor;
  DbdataTable *pTab = (DbdataTable*)pCursor->pVtab;

  pCsr->iRowid++;
  while( 1 ){
    int rc;
    int iOff = (pCsr->iPgno==1 ? 100 : 0);
    int bNextPage = 0;

    if( pCsr->aPage==0 ){
      while( 1 ){
        if( pCsr->bOnePage==0 && pCsr->iPgno>pCsr->szDb ) return SQLITE_OK;
        rc = dbdataLoadPage(pCsr, pCsr->iPgno, &pCsr->aPage, &pCsr->nPage);
        if( rc!=SQLITE_OK ) return rc;
        if( pCsr->aPage ) break;
        pCsr->iPgno++;
      }
      pCsr->iCell = pTab->bPtr ? -2 : 0;
      pCsr->nCell = get_uint16(&pCsr->aPage[iOff+3]);
    }

    if( pTab->bPtr ){
      if( pCsr->aPage[iOff]!=0x02 && pCsr->aPage[iOff]!=0x05 ){
        pCsr->iCell = pCsr->nCell;
      }
      pCsr->iCell++;
      if( pCsr->iCell>=pCsr->nCell ){
        sqlite3_free(pCsr->aPage);
        pCsr->aPage = 0;
        if( pCsr->bOnePage ) return SQLITE_OK;
        pCsr->iPgno++;
      }else{
        return SQLITE_OK;
      }
    }else{
      /* If there is no record loaded, load it now. */
      if( pCsr->pRec==0 ){
        int bHasRowid = 0;
        int nPointer = 0;
        sqlite3_int64 nPayload = 0;
        sqlite3_int64 nHdr = 0;
        int iHdr;
        int U, X;
        int nLocal;
  
        switch( pCsr->aPage[iOff] ){
          case 0x02:
            nPointer = 4;
            break;
          case 0x0a:
            break;
          case 0x0d:
            bHasRowid = 1;
            break;
          default:
            /* This is not a b-tree page with records on it. Continue. */
            pCsr->iCell = pCsr->nCell;
            break;
        }

        if( pCsr->iCell>=pCsr->nCell ){
          bNextPage = 1;
        }else{
  
          iOff += 8 + nPointer + pCsr->iCell*2;
          if( iOff>pCsr->nPage ){
            bNextPage = 1;
          }else{
            iOff = get_uint16(&pCsr->aPage[iOff]);
          }
    
          /* For an interior node cell, skip past the child-page number */
          iOff += nPointer;
    
          /* Load the "byte of payload including overflow" field */
          if( bNextPage || iOff>pCsr->nPage ){
            bNextPage = 1;
          }else{
            iOff += dbdataGetVarint(&pCsr->aPage[iOff], &nPayload);
          }
    
          /* If this is a leaf intkey cell, load the rowid */
          if( bHasRowid && !bNextPage && iOff<pCsr->nPage ){
            iOff += dbdataGetVarint(&pCsr->aPage[iOff], &pCsr->iIntkey);
          }
    
          /* Figure out how much data to read from the local page */
          U = pCsr->nPage;
          if( bHasRowid ){
            X = U-35;
          }else{
            X = ((U-12)*64/255)-23;
          }
          if( nPayload<=X ){
            nLocal = nPayload;
          }else{
            int M, K;
            M = ((U-12)*32/255)-23;
            K = M+((nPayload-M)%(U-4));
            if( K<=X ){
              nLocal = K;
            }else{
              nLocal = M;
            }
          }

          if( bNextPage || nLocal+iOff>pCsr->nPage ){
            bNextPage = 1;
          }else{

            /* Allocate space for payload. And a bit more to catch small buffer
            ** overruns caused by attempting to read a varint or similar from 
            ** near the end of a corrupt record.  */
            pCsr->pRec = (u8*)sqlite3_malloc64(nPayload+DBDATA_PADDING_BYTES);
            if( pCsr->pRec==0 ) return SQLITE_NOMEM;
            memset(pCsr->pRec, 0, nPayload+DBDATA_PADDING_BYTES);
            pCsr->nRec = nPayload;

            /* Load the nLocal bytes of payload */
            memcpy(pCsr->pRec, &pCsr->aPage[iOff], nLocal);
            iOff += nLocal;

            /* Load content from overflow pages */
            if( nPayload>nLocal ){
              sqlite3_int64 nRem = nPayload - nLocal;
              unsigned int pgnoOvfl = get_uint32(&pCsr->aPage[iOff]);
              while( nRem>0 ){
                u8 *aOvfl = 0;
                int nOvfl = 0;
                int nCopy;
                rc = dbdataLoadPage(pCsr, pgnoOvfl, &aOvfl, &nOvfl);
                assert( rc!=SQLITE_OK || aOvfl==0 || nOvfl==pCsr->nPage );
                if( rc!=SQLITE_OK ) return rc;
                if( aOvfl==0 ) break;

                nCopy = U-4;
                if( nCopy>nRem ) nCopy = nRem;
                memcpy(&pCsr->pRec[nPayload-nRem], &aOvfl[4], nCopy);
                nRem -= nCopy;

                pgnoOvfl = get_uint32(aOvfl);
                sqlite3_free(aOvfl);
              }
            }
    
            iHdr = dbdataGetVarint(pCsr->pRec, &nHdr);
            pCsr->nHdr = nHdr;
            pCsr->pHdrPtr = &pCsr->pRec[iHdr];
            pCsr->pPtr = &pCsr->pRec[pCsr->nHdr];
            pCsr->iField = (bHasRowid ? -1 : 0);
          }
        }
      }else{
        pCsr->iField++;
        if( pCsr->iField>0 ){
          sqlite3_int64 iType;
          if( pCsr->pHdrPtr>&pCsr->pRec[pCsr->nRec] ){
            bNextPage = 1;
          }else{
            pCsr->pHdrPtr += dbdataGetVarint(pCsr->pHdrPtr, &iType);
            pCsr->pPtr += dbdataValueBytes(iType);
          }
        }
      }

      if( bNextPage ){
        sqlite3_free(pCsr->aPage);
        sqlite3_free(pCsr->pRec);
        pCsr->aPage = 0;
        pCsr->pRec = 0;
        if( pCsr->bOnePage ) return SQLITE_OK;
        pCsr->iPgno++;
      }else{
        if( pCsr->iField<0 || pCsr->pHdrPtr<&pCsr->pRec[pCsr->nHdr] ){
          return SQLITE_OK;
        }

        /* Advance to the next cell. The next iteration of the loop will load
        ** the record and so on. */
        sqlite3_free(pCsr->pRec);
        pCsr->pRec = 0;
        pCsr->iCell++;
      }
    }
  }

  assert( !"can't get here" );
  return SQLITE_OK;
}

/* 
** Return true if the cursor is at EOF.
*/
static int dbdataEof(sqlite3_vtab_cursor *pCursor){
  DbdataCursor *pCsr = (DbdataCursor*)pCursor;
  return pCsr->aPage==0;
}

/* 
** Determine the size in pages of database zSchema (where zSchema is
** "main", "temp" or the name of an attached database) and set 
** pCsr->szDb accordingly. If successful, return SQLITE_OK. Otherwise,
** an SQLite error code.
*/
static int dbdataDbsize(DbdataCursor *pCsr, const char *zSchema){
  DbdataTable *pTab = (DbdataTable*)pCsr->base.pVtab;
  char *zSql = 0;
  int rc, rc2;
  sqlite3_stmt *pStmt = 0;

  zSql = sqlite3_mprintf("PRAGMA %Q.page_count", zSchema);
  if( zSql==0 ) return SQLITE_NOMEM;
  rc = sqlite3_prepare_v2(pTab->db, zSql, -1, &pStmt, 0);
  sqlite3_free(zSql);
  if( rc==SQLITE_OK && sqlite3_step(pStmt)==SQLITE_ROW ){
    pCsr->szDb = sqlite3_column_int(pStmt, 0);
  }
  rc2 = sqlite3_finalize(pStmt);
  if( rc==SQLITE_OK ) rc = rc2;
  return rc;
}

/* 
** xFilter method for sqlite_dbdata and sqlite_dbptr.
*/
static int dbdataFilter(
  sqlite3_vtab_cursor *pCursor, 
  int idxNum, const char *idxStr,
  int argc, sqlite3_value **argv
){
  DbdataCursor *pCsr = (DbdataCursor*)pCursor;
  DbdataTable *pTab = (DbdataTable*)pCursor->pVtab;
  int rc = SQLITE_OK;
  const char *zSchema = "main";

  dbdataResetCursor(pCsr);
  assert( pCsr->iPgno==1 );
  if( idxNum & 0x01 ){
    zSchema = (const char*)sqlite3_value_text(argv[0]);
  }
  if( idxNum & 0x02 ){
    pCsr->iPgno = sqlite3_value_int(argv[(idxNum & 0x01)]);
    pCsr->bOnePage = 1;
  }else{
    pCsr->nPage = dbdataDbsize(pCsr, zSchema);
    rc = dbdataDbsize(pCsr, zSchema);
  }

  if( rc==SQLITE_OK ){
    if( pTab->pStmt ){
      pCsr->pStmt = pTab->pStmt;
      pTab->pStmt = 0;
    }else{
      rc = sqlite3_prepare_v2(pTab->db, 
          "SELECT data FROM sqlite_dbpage(?) WHERE pgno=?", -1,
          &pCsr->pStmt, 0
      );
    }
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3_bind_text(pCsr->pStmt, 1, zSchema, -1, SQLITE_TRANSIENT);
  }else{
    pTab->base.zErrMsg = sqlite3_mprintf("%s", sqlite3_errmsg(pTab->db));
  }
  if( rc==SQLITE_OK ){
    rc = dbdataNext(pCursor);
  }
  return rc;
}

/* 
** Return a column for the sqlite_dbdata or sqlite_dbptr table.
*/
static int dbdataColumn(
  sqlite3_vtab_cursor *pCursor, 
  sqlite3_context *ctx, 
  int i
){
  DbdataCursor *pCsr = (DbdataCursor*)pCursor;
  DbdataTable *pTab = (DbdataTable*)pCursor->pVtab;
  if( pTab->bPtr ){
    switch( i ){
      case DBPTR_COLUMN_PGNO:
        sqlite3_result_int64(ctx, pCsr->iPgno);
        break;
      case DBPTR_COLUMN_CHILD: {
        int iOff = pCsr->iPgno==1 ? 100 : 0;
        if( pCsr->iCell<0 ){
          iOff += 8;
        }else{
          iOff += 12 + pCsr->iCell*2;
          if( iOff>pCsr->nPage ) return SQLITE_OK;
          iOff = get_uint16(&pCsr->aPage[iOff]);
        }
        if( iOff<=pCsr->nPage ){
          sqlite3_result_int64(ctx, get_uint32(&pCsr->aPage[iOff]));
        }
        break;
      }
    }
  }else{
    switch( i ){
      case DBDATA_COLUMN_PGNO:
        sqlite3_result_int64(ctx, pCsr->iPgno);
        break;
      case DBDATA_COLUMN_CELL:
        sqlite3_result_int(ctx, pCsr->iCell);
        break;
      case DBDATA_COLUMN_FIELD:
        sqlite3_result_int(ctx, pCsr->iField);
        break;
      case DBDATA_COLUMN_VALUE: {
        if( pCsr->iField<0 ){
          sqlite3_result_int64(ctx, pCsr->iIntkey);
        }else{
          sqlite3_int64 iType;
          dbdataGetVarint(pCsr->pHdrPtr, &iType);
          dbdataValue(
              ctx, iType, pCsr->pPtr, &pCsr->pRec[pCsr->nRec] - pCsr->pPtr
          );
        }
        break;
      }
    }
  }
  return SQLITE_OK;
}

/* 
** Return the rowid for an sqlite_dbdata or sqlite_dptr table.
*/
static int dbdataRowid(sqlite3_vtab_cursor *pCursor, sqlite_int64 *pRowid){
  DbdataCursor *pCsr = (DbdataCursor*)pCursor;
  *pRowid = pCsr->iRowid;
  return SQLITE_OK;
}


/*
** Invoke this routine to register the "sqlite_dbdata" virtual table module
*/
static int sqlite3DbdataRegister(sqlite3 *db){
  static sqlite3_module dbdata_module = {
    0,                            /* iVersion */
    0,                            /* xCreate */
    dbdataConnect,                /* xConnect */
    dbdataBestIndex,              /* xBestIndex */
    dbdataDisconnect,             /* xDisconnect */
    0,                            /* xDestroy */
    dbdataOpen,                   /* xOpen - open a cursor */
    dbdataClose,                  /* xClose - close a cursor */
    dbdataFilter,                 /* xFilter - configure scan constraints */
    dbdataNext,                   /* xNext - advance a cursor */
    dbdataEof,                    /* xEof - check for end of scan */
    dbdataColumn,                 /* xColumn - read data */
    dbdataRowid,                  /* xRowid - read data */
    0,                            /* xUpdate */
    0,                            /* xBegin */
    0,                            /* xSync */
    0,                            /* xCommit */
    0,                            /* xRollback */
    0,                            /* xFindMethod */
    0,                            /* xRename */
    0,                            /* xSavepoint */
    0,                            /* xRelease */
    0,                            /* xRollbackTo */
    0                             /* xShadowName */
  };

  int rc = sqlite3_create_module(db, "sqlite_dbdata", &dbdata_module, 0);
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_module(db, "sqlite_dbptr", &dbdata_module, (void*)1);
  }
  return rc;
}

#ifdef _WIN32
__declspec(dllexport)
#endif
int sqlite3_dbdata_init(
  sqlite3 *db, 
  char **pzErrMsg, 
  const sqlite3_api_routines *pApi
){
  SQLITE_EXTENSION_INIT2(pApi);
  return sqlite3DbdataRegister(db);
}

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  }
  set rc
}

proc do_rbu_vacuum_test {tn step {statedb state.db}} {
  forcedelete $statedb
  if {$statedb=="" && $step==1} breakpoint
  uplevel [list do_test $tn.1 [string map [list %state% $statedb] {
    if {$step==0} { sqlite3rbu_vacuum rbu test.db {%state%}}
    while 1 {
      if {$step==1} { sqlite3rbu_vacuum rbu test.db {%state%}}
      set state [rbu state]
      check_prestep_state test.db $state
      set rc [rbu step]
      check_poststep_state $rc test.db $state
      if {$rc!="SQLITE_OK"} break
      if {$step==1} { rbu close }
    }
    rbu close
  }] {SQLITE_DONE}]

  uplevel [list do_execsql_test $tn.2 {
    PRAGMA integrity_check
  } ok]
}








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  }
  set rc
}

proc do_rbu_vacuum_test {tn step {statedb state.db}} {
  forcedelete $statedb
  if {$statedb=="" && $step==1} breakpoint
  uplevel [list do_test $tn.1 [string map [list %state% $statedb %step% $step] {
    if {%step%==0} { sqlite3rbu_vacuum rbu test.db {%state%}}
    while 1 {
      if {%step%==1} { sqlite3rbu_vacuum rbu test.db {%state%}}
      set state [rbu state]
      check_prestep_state test.db $state
      set rc [rbu step]
      check_poststep_state $rc test.db $state
      if {$rc!="SQLITE_OK"} break
      if {%step%==1} { rbu close }
    }
    rbu close
  }] {SQLITE_DONE}]

  uplevel [list do_execsql_test $tn.2 {
    PRAGMA integrity_check
  } ok]
}

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      {1 SQLITE_CONSTRAINT} \
      {1 SQLITE_NOMEM} \
      {1 {SQLITE_NOMEM - unable to open a temporary database file for storing temporary tables}} \
      {1 {SQLITE_NOMEM - out of memory}} 
}













finish_test







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      {1 SQLITE_CONSTRAINT} \
      {1 SQLITE_NOMEM} \
      {1 {SQLITE_NOMEM - unable to open a temporary database file for storing temporary tables}} \
      {1 {SQLITE_NOMEM - out of memory}} 
}


sqlite3rbu_create_vfs -default rbu ""
sqlite3 db test.db
set ::vfsname [file_control_vfsname db]
do_faultsim_test 2 -faults oom* -prep {
} -body {
  file_control_vfsname db
} 
db close
sqlite3rbu_destroy_vfs rbu


finish_test

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  sqlite3rbu_vacuum rbu test.db test.db2
  rbu step
  rbu close
  faultsim_save_and_close

  do_faultsim_test 3 -faults $fault -prep {
    faultsim_restore_and_reopen
    forcedelete test.db2
  } -body {
    sqlite3rbu_vacuum rbu test.db test.db2
    rbu step
    rbu close
  } -test {
    eval [list faultsim_test_result {0 SQLITE_OK} {*}$::errlist]
  }

}

finish_test







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  sqlite3rbu_vacuum rbu test.db test.db2
  rbu step
  rbu close
  faultsim_save_and_close

  do_faultsim_test 3 -faults $fault -prep {
    faultsim_restore_and_reopen

  } -body {
    sqlite3rbu_vacuum rbu test.db test.db2
    rbu step
    rbu close
  } -test {
    eval [list faultsim_test_result {0 SQLITE_OK} {*}$::errlist]
  }

}

finish_test

Added ext/rbu/rbumisc.test.









































































































































































































































































































































































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# 2014 August 30
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#

source [file join [file dirname [info script]] rbu_common.tcl]
set ::testprefix rbumisc

db close
sqlite3_shutdown
sqlite3_config_uri 1
reset_db

proc populate_rbu_db {} {
  forcedelete rbu.db
  sqlite3 rbu rbu.db
  rbu eval {
    CREATE TABLE data_x1(a, b, c, rbu_control);
    INSERT INTO data_x1 VALUES(1, 1, 1, 0);
    INSERT INTO data_x1 VALUES(2, 2, 2, 0);

    CREATE TABLE dat(a, b, c, rbu_control);
    CREATE TABLE "data x1"(a, b, c, rbu_control);
    CREATE TABLE datax1(a, b, c, rbu_control);
    CREATE TABLE data_(a, b, c, rbu_control);

    INSERT INTO "data x1" VALUES(3, 3, 3, 0);
    INSERT INTO datax1 VALUES(3, 3, 3, 0);
    INSERT INTO data_ VALUES(3, 3, 3, 0);
    INSERT INTO dat VALUES(3, 3, 3, 0);
  }
  rbu close
}

#-------------------------------------------------------------------------
# Ensure that RBU is not confused by oddly named tables in an RBU 
# database.
#
do_execsql_test 1.0 {
  CREATE TABLE x1(a, b, c INTEGER PRIMARY KEY);
}
do_test 1.1 {
  populate_rbu_db
} {}

do_test 1.2 {
  step_rbu test.db rbu.db
  db eval { SELECT * FROM x1 }
} {1 1 1 2 2 2}

do_test 1.3 {
  db eval { DELETE FROM x1 }
  sqlite3 rbu rbu.db
  rbu eval { DELETE FROM rbu_state }
  rbu close
  step_rbu test.db rbu.db
  db eval { SELECT * FROM x1 }
} {1 1 1 2 2 2}

do_test 1.4 {
  db eval { DELETE FROM x1 }
  populate_rbu_db

  sqlite3rbu rbu test.db rbu.db
  rbu step
  rbu step
  rbu close

  forcecopy test.db-oal test.db-wal
  sqlite3rbu rbu test.db rbu.db
  rbu step
  list [catch { rbu close } msg] $msg
} {1 {SQLITE_ERROR - cannot update wal mode database}}

#-------------------------------------------------------------------------
# Test the effect of a wal file appearing after the target database has
# been opened, but before it has been locked.
#
catch { db close }
testvfs tvfs -default 1

for {set N 1} {$N < 10} {incr N} {
  reset_db
  populate_rbu_db
  do_execsql_test 2.$N.0 {
    CREATE TABLE x1(a, b, c INTEGER PRIMARY KEY);
  }
  
  set nAccessCnt 0
  do_test 2.$N.1 {
    sqlite3rbu rbu test.db rbu.db
    rbu step
    rbu step
    rbu close
  } {SQLITE_OK}
  
  tvfs script xAccess
  tvfs filter xAccess
  set nAccessCnt 0
  proc xAccess {method file args} {
    global nAccessCnt
    if {[file tail $file]=="test.db-wal"} {
      incr nAccessCnt -1
      if {$nAccessCnt==0} {
        set fd [open test.db-wal w]
        puts -nonewline $fd [string repeat 0 2000]
        close $fd
      }
    }
    return SQLITE_OK
  }

  foreach r {
     {1 {SQLITE_ERROR - cannot update wal mode database}}
     {0 SQLITE_OK}
     {1 {SQLITE_CANTOPEN - unable to open database file}}
  } {
    set RES($r) 1
  }
  do_test 2.$N.2 {
    set ::nAccessCnt $N
    set res [list [catch {
      sqlite3rbu rbu test.db rbu.db
      rbu step
      rbu close
    } msg ] $msg]
    set RES($res)
  } {1}
  catch {rbu close}
}
catch {db close}
catch {tvfs delete}

#-------------------------------------------------------------------------
testvfs tvfs -default 1
reset_db
populate_rbu_db
do_execsql_test 3.0 {
  CREATE TABLE x1(a, b, c INTEGER PRIMARY KEY);
}
  
tvfs script xFileControl
tvfs filter xFileControl

proc xFileControl {method file verb args} {
  if {$verb=="ZIPVFS" && [info exists ::zipvfs_filecontrol]} {
    return $::zipvfs_filecontrol 
  }
  return "SQLITE_NOTFOUND"
}

breakpoint
foreach {tn ret err} {
  1 SQLITE_OK           0
  2 SQLITE_ERROR        1
  3 SQLITE_NOTFOUND     0
  4 SQLITE_OMIT         1
} {
  set ::zipvfs_filecontrol $ret
  do_test 3.$tn.1 {
    catch {
      sqlite3rbu rbu test.db rbu.db
      rbu step
      rbu close
    }
  } $err
}
catch {db close}
catch {tvfs delete}

#-------------------------------------------------------------------------

finish_test

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    SELECT * FROM t1 ORDER BY %A%;
  } {
    1 10 {} b   7 8 4 d   10 11 12 e   13 14 {} f
  }

  set step 0
  do_rbu_vacuum_test $tn.1.5 0




  }]
}

finish_test







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    SELECT * FROM t1 ORDER BY %A%;
  } {
    1 10 {} b   7 8 4 d   10 11 12 e   13 14 {} f
  }

  set step 0
  do_rbu_vacuum_test $tn.1.5 0

  do_test $tn.1.6 {
    execsql { PRAGMA integrity_check }
  } {ok}
  }]
}

finish_test

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}

proc step_rbu_cachesize {target rbu stepsize cachesize temp_limit} {
  set res ""
  while 1 {
    sqlite3rbu rbu $target $rbu
    rbu temp_size_limit $temp_limit

    sqlite3_exec_nr [rbu db 1] "PRAGMA cache_size = $cachesize"
    for {set i 0} {$i < $stepsize} {incr i} {
      set rc [rbu step]
      set ::A([rbu temp_size]) 1
      if {$rc!="SQLITE_OK"} break
    }
    set res [list [catch {rbu close} msg] $msg]







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}

proc step_rbu_cachesize {target rbu stepsize cachesize temp_limit} {
  set res ""
  while 1 {
    sqlite3rbu rbu $target $rbu
    rbu temp_size_limit $temp_limit
    if { [rbu temp_size_limit -1]!=$temp_limit } { error "round trip problem!" }
    sqlite3_exec_nr [rbu db 1] "PRAGMA cache_size = $cachesize"
    for {set i 0} {$i < $stepsize} {incr i} {
      set rc [rbu step]
      set ::A([rbu temp_size]) 1
      if {$rc!="SQLITE_OK"} break
    }
    set res [list [catch {rbu close} msg] $msg]

Added ext/rbu/rbuvacuum4.test.









































































































































































































































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# 2019 Jan 3
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file contains tests for the RBU module. More specifically, it
# contains tests to ensure that the sqlite3rbu_vacuum() API works as
# expected.
#

source [file join [file dirname [info script]] rbu_common.tcl]
set testprefix rbuvacuum4

set step 1

do_execsql_test 1.0 {
  CREATE TABLE t1(a PRIMARY KEY, b, c) WITHOUT ROWID;
  INSERT INTO t1 VALUES(1, 2, 3);
  INSERT INTO t1 VALUES(4, 5, 6);
  INSERT INTO t1 VALUES(7, 8, 9);
}
do_rbu_vacuum_test 1.1 1

#-------------------------------------------------------------------------
reset_db

do_execsql_test 2.0 {
  CREATE TABLE t1(a, b, c, PRIMARY KEY(a, b, c)) WITHOUT ROWID;
  INSERT INTO t1 VALUES(1, 2, 3);
  INSERT INTO t1 VALUES(4, 5, 6);
  INSERT INTO t1 VALUES(7, 8, 9);
}
do_rbu_vacuum_test 2.1 1
do_execsql_test 2.2 {
  SELECT * FROM t1;
} {1 2 3 4 5 6 7 8 9}

#-------------------------------------------------------------------------
reset_db

do_execsql_test 3.0 {
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b, c);
  CREATE INDEX i1 oN t1(b, c);
  INSERT INTO t1 VALUES(1, 2, 3);
  INSERT INTO t1 VALUES(4, 5, 6);
  INSERT INTO t1 VALUES(7, 8, 9);

  CREATE TABLE t2(a, b, c INTEGER, PRIMARY KEY(c));
  CREATE INDEX i2 oN t2(b, a);
  INSERT INTO t2 VALUES('a', 'b', -1);
  INSERT INTO t2 VALUES('c', 'd', -2);
  INSERT INTO t2 VALUES('e', 'f', -3);
}

do_rbu_vacuum_test 3.1 1

do_execsql_test 3.2 {
  SELECT * FROM t1;
  SELECT * FROM t2;
} {1 2 3 4 5 6 7 8 9 e f -3 c d -2 a b -1}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 4.0 {
  CREATE TABLE x1(a, b, c, d, PRIMARY KEY(c, b)) WITHOUT ROWID;
  INSERT INTO x1 VALUES(1, 1, 1, 1);
  INSERT INTO x1 VALUES(1, 1, 2, 1);
  INSERT INTO x1 VALUES(1, 2, 2, 1);

  INSERT INTO x1 VALUES(NULL, 2, 3, NULL);
  INSERT INTO x1 VALUES(NULL, 2, 4, NULL);
  INSERT INTO x1 VALUES(NULL, 2, 5, NULL);

  CREATE INDEX x1ad ON x1(d, a);
  CREATE INDEX x1null ON x1(d, a) WHERE d>15;
}

do_rbu_vacuum_test 4.1.1 1

do_execsql_test 4.2 {
  SELECT count(*) fROM x1
} 6

do_rbu_vacuum_test 4.1.2 0

#-------------------------------------------------------------------------
reset_db
do_execsql_test 5.0 {
  CREATE TABLE "a b c"(a, "b b" PRIMARY KEY, "c c");
  CREATE INDEX abc1 ON "a b c"(a, "c c");

  INSERT INTO "a b c" VALUES(NULL, 'a', NULL);
  INSERT INTO "a b c" VALUES(NULL, 'b', NULL);
  INSERT INTO "a b c" VALUES(NULL, 'c', NULL);

  INSERT INTO "a b c" VALUES(1, 2, 3);
  INSERT INTO "a b c" VALUES(3, 9, 1);
  INSERT INTO "a b c" VALUES('aaa', 'bbb', 'ccc');

  CREATE INDEX abc2 ON "a b c"("c c" DESC, a);

  CREATE TABLE x(a);
  INSERT INTO x VALUES('a'), ('b'), ('d');
  CREATE UNIQUE INDEX y ON x(a);
}

do_rbu_vacuum_test 5.1 1

finish_test

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  sqlite3rbu *p = sqlite3_user_data(pCtx);
  const char *zIn;
  assert( argc==1 || argc==2 );

  zIn = (const char*)sqlite3_value_text(argv[0]);
  if( zIn ){
    if( rbuIsVacuum(p) ){

      if( argc==1 || 0==sqlite3_value_int(argv[1]) ){
        sqlite3_result_text(pCtx, zIn, -1, SQLITE_STATIC);
      }
    }else{
      if( strlen(zIn)>4 && memcmp("data", zIn, 4)==0 ){
        int i;
        for(i=4; zIn[i]>='0' && zIn[i]<='9'; i++);
        if( zIn[i]=='_' && zIn[i+1] ){
................................................................................

        if( i!=iOrder ){
          SWAP(int, pIter->aiSrcOrder[i], pIter->aiSrcOrder[iOrder]);
          SWAP(char*, pIter->azTblCol[i], pIter->azTblCol[iOrder]);
        }

        pIter->azTblType[iOrder] = rbuStrndup(zType, &p->rc);

        pIter->abTblPk[iOrder] = (iPk!=0);
        pIter->abNotNull[iOrder] = (u8)bNotNull || (iPk!=0);
        iOrder++;
      }
    }

    rbuFinalize(p, pStmt);
    rbuObjIterCacheIndexedCols(p, pIter);
................................................................................
  for(i=0; i<pIter->nTblCol; i++){
    const char *z = pIter->azTblCol[i];
    zList = rbuMPrintf(p, "%z%s\"%w\"", zList, zSep, z);
    zSep = ", ";
  }
  return zList;
}
















































































































































































































/*
** This function is used to create a SELECT list (the list of SQL 
** expressions that follows a SELECT keyword) for a SELECT statement 
** used to read from an data_xxx or rbu_tmp_xxx table while updating the 
** index object currently indicated by the iterator object passed as the 
** second argument. A "PRAGMA index_xinfo = <idxname>" statement is used 
................................................................................
        );
      }

      /* Create the SELECT statement to read keys in sorted order */
      if( p->rc==SQLITE_OK ){
        char *zSql;
        if( rbuIsVacuum(p) ){









          zSql = sqlite3_mprintf(
              "SELECT %s, 0 AS rbu_control FROM '%q' %s ORDER BY %s%s",
              zCollist, 
              pIter->zDataTbl,


              zPart, zCollist, zLimit
          );

        }else

        if( pIter->eType==RBU_PK_EXTERNAL || pIter->eType==RBU_PK_NONE ){
          zSql = sqlite3_mprintf(
              "SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' %s ORDER BY %s%s",
              zCollist, p->zStateDb, pIter->zDataTbl,
              zPart, zCollist, zLimit
................................................................................
              zCollist, p->zStateDb, pIter->zDataTbl, zPart,
              zCollist, pIter->zDataTbl, 
              zPart,
              (zPart ? "AND" : "WHERE"),
              zCollist, zLimit
          );
        }

        p->rc = prepareFreeAndCollectError(p->dbRbu, &pIter->pSelect, pz, zSql);



      }

      sqlite3_free(zImposterCols);
      sqlite3_free(zImposterPK);
      sqlite3_free(zWhere);
      sqlite3_free(zBind);
      sqlite3_free(zPart);
................................................................................

        rbuObjIterPrepareTmpInsert(p, pIter, zCollist, zRbuRowid);
      }

      /* Create the SELECT statement to read keys from data_xxx */
      if( p->rc==SQLITE_OK ){
        const char *zRbuRowid = "";


        if( bRbuRowid ){
          zRbuRowid = rbuIsVacuum(p) ? ",_rowid_ " : ",rbu_rowid";
        }

















        p->rc = prepareFreeAndCollectError(p->dbRbu, &pIter->pSelect, pz,
            sqlite3_mprintf(
              "SELECT %s,%s rbu_control%s FROM '%q'%s", 
              zCollist, 
              (rbuIsVacuum(p) ? "0 AS " : ""),
              zRbuRowid,
              pIter->zDataTbl, zLimit


            )
        );



      }

      sqlite3_free(zWhere);
      sqlite3_free(zOldlist);
      sqlite3_free(zNewlist);
      sqlite3_free(zBindings);
    }
................................................................................
      rc = xControl(p->pReal, SQLITE_FCNTL_ZIPVFS, &dummy);
      if( rc==SQLITE_OK ){
        rc = SQLITE_ERROR;
        pRbu->zErrmsg = sqlite3_mprintf("rbu/zipvfs setup error");
      }else if( rc==SQLITE_NOTFOUND ){
        pRbu->pTargetFd = p;
        p->pRbu = pRbu;
        if( p->openFlags & SQLITE_OPEN_MAIN_DB ){
          rbuMainlistAdd(p);
        }
        if( p->pWalFd ) p->pWalFd->pRbu = pRbu;
        rc = SQLITE_OK;
      }
    }
    return rc;
  }
  else if( op==SQLITE_FCNTL_RBUCNT ){
................................................................................
    /* Magic number 1 is the WAL_CKPT_LOCK lock. Preventing SQLite from
    ** taking this lock also prevents any checkpoints from occurring. 
    ** todo: really, it's not clear why this might occur, as 
    ** wal_autocheckpoint ought to be turned off.  */
    if( ofst==WAL_LOCK_CKPT && n==1 ) rc = SQLITE_BUSY;
  }else{
    int bCapture = 0;
    if( n==1 && (flags & SQLITE_SHM_EXCLUSIVE)
     && pRbu && pRbu->eStage==RBU_STAGE_CAPTURE
     && (ofst==WAL_LOCK_WRITE || ofst==WAL_LOCK_CKPT || ofst==WAL_LOCK_READ0)
    ){
      bCapture = 1;
    }

    if( bCapture==0 || 0==(flags & SQLITE_SHM_UNLOCK) ){
      rc = p->pReal->pMethods->xShmLock(p->pReal, ofst, n, flags);
      if( bCapture && rc==SQLITE_OK ){
        pRbu->mLock |= (1 << ofst);
................................................................................
  int rc = SQLITE_OK;
  int eStage = (p->pRbu ? p->pRbu->eStage : 0);

  /* If not in RBU_STAGE_OAL, allow this call to pass through. Or, if this
  ** rbu is in the RBU_STAGE_OAL state, use heap memory for *-shm space 
  ** instead of a file on disk.  */
  assert( p->openFlags & (SQLITE_OPEN_MAIN_DB|SQLITE_OPEN_TEMP_DB) );
  if( eStage==RBU_STAGE_OAL || eStage==RBU_STAGE_MOVE ){
    if( iRegion<=p->nShm ){
      sqlite3_int64 nByte = (iRegion+1) * sizeof(char*);
      char **apNew = (char**)sqlite3_realloc64(p->apShm, nByte);






      if( apNew==0 ){
        rc = SQLITE_NOMEM;
      }else{
        memset(&apNew[p->nShm], 0, sizeof(char*) * (1 + iRegion - p->nShm));
        p->apShm = apNew;
        p->nShm = iRegion+1;
      }
    }

    if( rc==SQLITE_OK && p->apShm[iRegion]==0 ){
      char *pNew = (char*)sqlite3_malloc64(szRegion);
      if( pNew==0 ){
        rc = SQLITE_NOMEM;
      }else{
        memset(pNew, 0, szRegion);
        p->apShm[iRegion] = pNew;
      }
................................................................................
  **   b) if the *-wal file does not exist, claim that it does anyway,
  **      causing SQLite to call xOpen() to open it. This call will also
  **      be intercepted (see the rbuVfsOpen() function) and the *-oal
  **      file opened instead.
  */
  if( rc==SQLITE_OK && flags==SQLITE_ACCESS_EXISTS ){
    rbu_file *pDb = rbuFindMaindb(pRbuVfs, zPath, 1);
    if( pDb && pDb->pRbu && pDb->pRbu->eStage==RBU_STAGE_OAL ){

      if( *pResOut ){
        rc = SQLITE_CANTOPEN;
      }else{
        sqlite3_int64 sz = 0;
        rc = rbuVfsFileSize(&pDb->base, &sz);
        *pResOut = (sz>0);
      }







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  sqlite3rbu *p = sqlite3_user_data(pCtx);
  const char *zIn;
  assert( argc==1 || argc==2 );

  zIn = (const char*)sqlite3_value_text(argv[0]);
  if( zIn ){
    if( rbuIsVacuum(p) ){
      assert( argc==2 );
      if( 0==sqlite3_value_int(argv[1]) ){
        sqlite3_result_text(pCtx, zIn, -1, SQLITE_STATIC);
      }
    }else{
      if( strlen(zIn)>4 && memcmp("data", zIn, 4)==0 ){
        int i;
        for(i=4; zIn[i]>='0' && zIn[i]<='9'; i++);
        if( zIn[i]=='_' && zIn[i+1] ){
................................................................................

        if( i!=iOrder ){
          SWAP(int, pIter->aiSrcOrder[i], pIter->aiSrcOrder[iOrder]);
          SWAP(char*, pIter->azTblCol[i], pIter->azTblCol[iOrder]);
        }

        pIter->azTblType[iOrder] = rbuStrndup(zType, &p->rc);
        assert( iPk>=0 );
        pIter->abTblPk[iOrder] = (u8)iPk;
        pIter->abNotNull[iOrder] = (u8)bNotNull || (iPk!=0);
        iOrder++;
      }
    }

    rbuFinalize(p, pStmt);
    rbuObjIterCacheIndexedCols(p, pIter);
................................................................................
  for(i=0; i<pIter->nTblCol; i++){
    const char *z = pIter->azTblCol[i];
    zList = rbuMPrintf(p, "%z%s\"%w\"", zList, zSep, z);
    zSep = ", ";
  }
  return zList;
}

/*
** Return a comma separated list of the quoted PRIMARY KEY column names,
** in order, for the current table. Before each column name, add the text
** zPre. After each column name, add the zPost text. Use zSeparator as
** the separator text (usually ", ").
*/
static char *rbuObjIterGetPkList(
  sqlite3rbu *p,                  /* RBU object */
  RbuObjIter *pIter,              /* Object iterator for column names */
  const char *zPre,               /* Before each quoted column name */
  const char *zSeparator,         /* Separator to use between columns */
  const char *zPost               /* After each quoted column name */
){
  int iPk = 1;
  char *zRet = 0;
  const char *zSep = "";
  while( 1 ){
    int i;
    for(i=0; i<pIter->nTblCol; i++){
      if( (int)pIter->abTblPk[i]==iPk ){
        const char *zCol = pIter->azTblCol[i];
        zRet = rbuMPrintf(p, "%z%s%s\"%w\"%s", zRet, zSep, zPre, zCol, zPost);
        zSep = zSeparator;
        break;
      }
    }
    if( i==pIter->nTblCol ) break;
    iPk++;
  }
  return zRet;
}

/*
** This function is called as part of restarting an RBU vacuum within 
** stage 1 of the process (while the *-oal file is being built) while
** updating a table (not an index). The table may be a rowid table or
** a WITHOUT ROWID table. It queries the target database to find the 
** largest key that has already been written to the target table and
** constructs a WHERE clause that can be used to extract the remaining
** rows from the source table. For a rowid table, the WHERE clause
** is of the form:
**
**     "WHERE _rowid_ > ?"
**
** and for WITHOUT ROWID tables:
**
**     "WHERE (key1, key2) > (?, ?)"
**
** Instead of "?" placeholders, the actual WHERE clauses created by
** this function contain literal SQL values.
*/
static char *rbuVacuumTableStart(
  sqlite3rbu *p,                  /* RBU handle */
  RbuObjIter *pIter,              /* RBU iterator object */
  int bRowid,                     /* True for a rowid table */
  const char *zWrite              /* Target table name prefix */
){
  sqlite3_stmt *pMax = 0;
  char *zRet = 0;
  if( bRowid ){
    p->rc = prepareFreeAndCollectError(p->dbMain, &pMax, &p->zErrmsg, 
        sqlite3_mprintf(
          "SELECT max(_rowid_) FROM \"%s%w\"", zWrite, pIter->zTbl
        )
    );
    if( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pMax) ){
      sqlite3_int64 iMax = sqlite3_column_int64(pMax, 0);
      zRet = rbuMPrintf(p, " WHERE _rowid_ > %lld ", iMax);
    }
    rbuFinalize(p, pMax);
  }else{
    char *zOrder = rbuObjIterGetPkList(p, pIter, "", ", ", " DESC");
    char *zSelect = rbuObjIterGetPkList(p, pIter, "quote(", "||','||", ")");
    char *zList = rbuObjIterGetPkList(p, pIter, "", ", ", "");

    if( p->rc==SQLITE_OK ){
      p->rc = prepareFreeAndCollectError(p->dbMain, &pMax, &p->zErrmsg, 
          sqlite3_mprintf(
            "SELECT %s FROM \"%s%w\" ORDER BY %s LIMIT 1", 
                zSelect, zWrite, pIter->zTbl, zOrder
          )
      );
      if( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pMax) ){
        const char *zVal = (const char*)sqlite3_column_text(pMax, 0);
        zRet = rbuMPrintf(p, " WHERE (%s) > (%s) ", zList, zVal);
      }
      rbuFinalize(p, pMax);
    }

    sqlite3_free(zOrder);
    sqlite3_free(zSelect);
    sqlite3_free(zList);
  }
  return zRet;
}

/*
** This function is called as part of restating an RBU vacuum when the
** current operation is writing content to an index. If possible, it
** queries the target index b-tree for the largest key already written to
** it, then composes and returns an expression that can be used in a WHERE 
** clause to select the remaining required rows from the source table. 
** It is only possible to return such an expression if:
**
**   * The index contains no DESC columns, and
**   * The last key written to the index before the operation was 
**     suspended does not contain any NULL values.
**
** The expression is of the form:
**
**   (index-field1, index-field2, ...) > (?, ?, ...)
**
** except that the "?" placeholders are replaced with literal values.
**
** If the expression cannot be created, NULL is returned. In this case,
** the caller has to use an OFFSET clause to extract only the required 
** rows from the sourct table, just as it does for an RBU update operation.
*/
char *rbuVacuumIndexStart(
  sqlite3rbu *p,                  /* RBU handle */
  RbuObjIter *pIter               /* RBU iterator object */
){
  char *zOrder = 0;
  char *zLhs = 0;
  char *zSelect = 0;
  char *zVector = 0;
  char *zRet = 0;
  int bFailed = 0;
  const char *zSep = "";
  int iCol = 0;
  sqlite3_stmt *pXInfo = 0;

  p->rc = prepareFreeAndCollectError(p->dbMain, &pXInfo, &p->zErrmsg,
      sqlite3_mprintf("PRAGMA main.index_xinfo = %Q", pIter->zIdx)
  );
  while( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pXInfo) ){
    int iCid = sqlite3_column_int(pXInfo, 1);
    const char *zCollate = (const char*)sqlite3_column_text(pXInfo, 4);
    const char *zCol;
    if( sqlite3_column_int(pXInfo, 3) ){
      bFailed = 1;
      break;
    }

    if( iCid<0 ){
      if( pIter->eType==RBU_PK_IPK ){
        int i;
        for(i=0; pIter->abTblPk[i]==0; i++);
        assert( i<pIter->nTblCol );
        zCol = pIter->azTblCol[i];
      }else{
        zCol = "_rowid_";
      }
    }else{
      zCol = pIter->azTblCol[iCid];
    }

    zLhs = rbuMPrintf(p, "%z%s \"%w\" COLLATE %Q",
        zLhs, zSep, zCol, zCollate
        );
    zOrder = rbuMPrintf(p, "%z%s \"rbu_imp_%d%w\" COLLATE %Q DESC",
        zOrder, zSep, iCol, zCol, zCollate
        );
    zSelect = rbuMPrintf(p, "%z%s quote(\"rbu_imp_%d%w\")",
        zSelect, zSep, iCol, zCol
        );
    zSep = ", ";
    iCol++;
  }
  rbuFinalize(p, pXInfo);
  if( bFailed ) goto index_start_out;

  if( p->rc==SQLITE_OK ){
    sqlite3_stmt *pSel = 0;

    p->rc = prepareFreeAndCollectError(p->dbMain, &pSel, &p->zErrmsg,
        sqlite3_mprintf("SELECT %s FROM \"rbu_imp_%w\" ORDER BY %s LIMIT 1",
          zSelect, pIter->zTbl, zOrder
        )
    );
    if( p->rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pSel) ){
      zSep = "";
      for(iCol=0; iCol<pIter->nCol; iCol++){
        const char *zQuoted = (const char*)sqlite3_column_text(pSel, iCol);
        if( zQuoted[0]=='N' ){
          bFailed = 1;
          break;
        }
        zVector = rbuMPrintf(p, "%z%s%s", zVector, zSep, zQuoted);
        zSep = ", ";
      }

      if( !bFailed ){
        zRet = rbuMPrintf(p, "(%s) > (%s)", zLhs, zVector);
      }
    }
    rbuFinalize(p, pSel);
  }

 index_start_out:
  sqlite3_free(zOrder);
  sqlite3_free(zSelect);
  sqlite3_free(zVector);
  sqlite3_free(zLhs);
  return zRet;
}

/*
** This function is used to create a SELECT list (the list of SQL 
** expressions that follows a SELECT keyword) for a SELECT statement 
** used to read from an data_xxx or rbu_tmp_xxx table while updating the 
** index object currently indicated by the iterator object passed as the 
** second argument. A "PRAGMA index_xinfo = <idxname>" statement is used 
................................................................................
        );
      }

      /* Create the SELECT statement to read keys in sorted order */
      if( p->rc==SQLITE_OK ){
        char *zSql;
        if( rbuIsVacuum(p) ){
          char *zStart = 0;
          if( nOffset ){
            zStart = rbuVacuumIndexStart(p, pIter);
            if( zStart ){
              sqlite3_free(zLimit);
              zLimit = 0;
            }
          }

          zSql = sqlite3_mprintf(
              "SELECT %s, 0 AS rbu_control FROM '%q' %s %s %s ORDER BY %s%s",
              zCollist, 
              pIter->zDataTbl,
              zPart, 
              (zStart ? (zPart ? "AND" : "WHERE") : ""), zStart,
              zCollist, zLimit
          );
          sqlite3_free(zStart);
        }else

        if( pIter->eType==RBU_PK_EXTERNAL || pIter->eType==RBU_PK_NONE ){
          zSql = sqlite3_mprintf(
              "SELECT %s, rbu_control FROM %s.'rbu_tmp_%q' %s ORDER BY %s%s",
              zCollist, p->zStateDb, pIter->zDataTbl,
              zPart, zCollist, zLimit
................................................................................
              zCollist, p->zStateDb, pIter->zDataTbl, zPart,
              zCollist, pIter->zDataTbl, 
              zPart,
              (zPart ? "AND" : "WHERE"),
              zCollist, zLimit
          );
        }
        if( p->rc==SQLITE_OK ){
          p->rc = prepareFreeAndCollectError(p->dbRbu,&pIter->pSelect,pz,zSql);
        }else{
          sqlite3_free(zSql);
        }
      }

      sqlite3_free(zImposterCols);
      sqlite3_free(zImposterPK);
      sqlite3_free(zWhere);
      sqlite3_free(zBind);
      sqlite3_free(zPart);
................................................................................

        rbuObjIterPrepareTmpInsert(p, pIter, zCollist, zRbuRowid);
      }

      /* Create the SELECT statement to read keys from data_xxx */
      if( p->rc==SQLITE_OK ){
        const char *zRbuRowid = "";
        char *zStart = 0;
        char *zOrder = 0;
        if( bRbuRowid ){
          zRbuRowid = rbuIsVacuum(p) ? ",_rowid_ " : ",rbu_rowid";
        }

        if( rbuIsVacuum(p) ){
          if( nOffset ){
            zStart = rbuVacuumTableStart(p, pIter, bRbuRowid, zWrite);
            if( zStart ){
              sqlite3_free(zLimit);
              zLimit = 0;
            }
          }
          if( bRbuRowid ){
            zOrder = rbuMPrintf(p, "_rowid_");
          }else{
            zOrder = rbuObjIterGetPkList(p, pIter, "", ", ", "");
          }
        }

        if( p->rc==SQLITE_OK ){
          p->rc = prepareFreeAndCollectError(p->dbRbu, &pIter->pSelect, pz,
              sqlite3_mprintf(
                "SELECT %s,%s rbu_control%s FROM '%q'%s %s %s %s",
                zCollist, 
                (rbuIsVacuum(p) ? "0 AS " : ""),
                zRbuRowid,
                pIter->zDataTbl, (zStart ? zStart : ""), 
                (zOrder ? "ORDER BY" : ""), zOrder,
                zLimit
              )
          );
        }
        sqlite3_free(zStart);
        sqlite3_free(zOrder);
      }

      sqlite3_free(zWhere);
      sqlite3_free(zOldlist);
      sqlite3_free(zNewlist);
      sqlite3_free(zBindings);
    }
................................................................................
      rc = xControl(p->pReal, SQLITE_FCNTL_ZIPVFS, &dummy);
      if( rc==SQLITE_OK ){
        rc = SQLITE_ERROR;
        pRbu->zErrmsg = sqlite3_mprintf("rbu/zipvfs setup error");
      }else if( rc==SQLITE_NOTFOUND ){
        pRbu->pTargetFd = p;
        p->pRbu = pRbu;

        rbuMainlistAdd(p);

        if( p->pWalFd ) p->pWalFd->pRbu = pRbu;
        rc = SQLITE_OK;
      }
    }
    return rc;
  }
  else if( op==SQLITE_FCNTL_RBUCNT ){
................................................................................
    /* Magic number 1 is the WAL_CKPT_LOCK lock. Preventing SQLite from
    ** taking this lock also prevents any checkpoints from occurring. 
    ** todo: really, it's not clear why this might occur, as 
    ** wal_autocheckpoint ought to be turned off.  */
    if( ofst==WAL_LOCK_CKPT && n==1 ) rc = SQLITE_BUSY;
  }else{
    int bCapture = 0;

    if( pRbu && pRbu->eStage==RBU_STAGE_CAPTURE ){


      bCapture = 1;
    }

    if( bCapture==0 || 0==(flags & SQLITE_SHM_UNLOCK) ){
      rc = p->pReal->pMethods->xShmLock(p->pReal, ofst, n, flags);
      if( bCapture && rc==SQLITE_OK ){
        pRbu->mLock |= (1 << ofst);
................................................................................
  int rc = SQLITE_OK;
  int eStage = (p->pRbu ? p->pRbu->eStage : 0);

  /* If not in RBU_STAGE_OAL, allow this call to pass through. Or, if this
  ** rbu is in the RBU_STAGE_OAL state, use heap memory for *-shm space 
  ** instead of a file on disk.  */
  assert( p->openFlags & (SQLITE_OPEN_MAIN_DB|SQLITE_OPEN_TEMP_DB) );
  if( eStage==RBU_STAGE_OAL ){

    sqlite3_int64 nByte = (iRegion+1) * sizeof(char*);
    char **apNew = (char**)sqlite3_realloc64(p->apShm, nByte);

    /* This is an RBU connection that uses its own heap memory for the
    ** pages of the *-shm file. Since no other process can have run
    ** recovery, the connection must request *-shm pages in order
    ** from start to finish.  */
    assert( iRegion==p->nShm );
    if( apNew==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(&apNew[p->nShm], 0, sizeof(char*) * (1 + iRegion - p->nShm));
      p->apShm = apNew;
      p->nShm = iRegion+1;
    }


    if( rc==SQLITE_OK ){
      char *pNew = (char*)sqlite3_malloc64(szRegion);
      if( pNew==0 ){
        rc = SQLITE_NOMEM;
      }else{
        memset(pNew, 0, szRegion);
        p->apShm[iRegion] = pNew;
      }
................................................................................
  **   b) if the *-wal file does not exist, claim that it does anyway,
  **      causing SQLite to call xOpen() to open it. This call will also
  **      be intercepted (see the rbuVfsOpen() function) and the *-oal
  **      file opened instead.
  */
  if( rc==SQLITE_OK && flags==SQLITE_ACCESS_EXISTS ){
    rbu_file *pDb = rbuFindMaindb(pRbuVfs, zPath, 1);
    if( pDb && pDb->pRbu->eStage==RBU_STAGE_OAL ){
      assert( pDb->pRbu );
      if( *pResOut ){
        rc = SQLITE_CANTOPEN;
      }else{
        sqlite3_int64 sz = 0;
        rc = rbuVfsFileSize(&pDb->base, &sz);
        *pResOut = (sz>0);
      }

Changes to main.mk.

736
737
738
739
740
741
742

743
744
745
746
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749
	$(TOP)/ext/misc/fileio.c \
	$(TOP)/ext/misc/completion.c \
	$(TOP)/ext/misc/sqlar.c \
	$(TOP)/ext/expert/sqlite3expert.c \
	$(TOP)/ext/expert/sqlite3expert.h \
	$(TOP)/ext/misc/zipfile.c \
	$(TOP)/ext/misc/memtrace.c \

        $(TOP)/src/test_windirent.c

shell.c:	$(SHELL_SRC) $(TOP)/tool/mkshellc.tcl
	tclsh $(TOP)/tool/mkshellc.tcl >shell.c










>







736
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738
739
740
741
742
743
744
745
746
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750
	$(TOP)/ext/misc/fileio.c \
	$(TOP)/ext/misc/completion.c \
	$(TOP)/ext/misc/sqlar.c \
	$(TOP)/ext/expert/sqlite3expert.c \
	$(TOP)/ext/expert/sqlite3expert.h \
	$(TOP)/ext/misc/zipfile.c \
	$(TOP)/ext/misc/memtrace.c \
	$(TOP)/ext/misc/dbdata.c \
        $(TOP)/src/test_windirent.c

shell.c:	$(SHELL_SRC) $(TOP)/tool/mkshellc.tcl
	tclsh $(TOP)/tool/mkshellc.tcl >shell.c



Changes to src/alter.c.

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** statement to ensure that the operation has not rendered any schema
** objects unusable.
*/
static void renameTestSchema(Parse *pParse, const char *zDb, int bTemp){
  sqlite3NestedParse(pParse, 
      "SELECT 1 "
      "FROM \"%w\".%s "
      "WHERE name NOT LIKE 'sqlite_%%'"
      " AND sql NOT LIKE 'create virtual%%'"
      " AND sqlite_rename_test(%Q, sql, type, name, %d)=NULL ",
      zDb, MASTER_NAME, 
      zDb, bTemp
  );

  if( bTemp==0 ){
    sqlite3NestedParse(pParse, 
        "SELECT 1 "
        "FROM temp.%s "
        "WHERE name NOT LIKE 'sqlite_%%'"
        " AND sql NOT LIKE 'create virtual%%'"
        " AND sqlite_rename_test(%Q, sql, type, name, 1)=NULL ",
        MASTER_NAME, zDb 
    );
  }
}

................................................................................

  /* Rewrite all CREATE TABLE, INDEX, TRIGGER or VIEW statements in
  ** the schema to use the new table name.  */
  sqlite3NestedParse(pParse, 
      "UPDATE \"%w\".%s SET "
      "sql = sqlite_rename_table(%Q, type, name, sql, %Q, %Q, %d) "
      "WHERE (type!='index' OR tbl_name=%Q COLLATE nocase)"
      "AND   name NOT LIKE 'sqlite_%%'"
      , zDb, MASTER_NAME, zDb, zTabName, zName, (iDb==1), zTabName
  );

  /* Update the tbl_name and name columns of the sqlite_master table
  ** as required.  */
  sqlite3NestedParse(pParse,
      "UPDATE %Q.%s SET "
          "tbl_name = %Q, "
          "name = CASE "
            "WHEN type='table' THEN %Q "

            "WHEN name LIKE 'sqlite_autoindex%%' AND type='index' THEN "
             "'sqlite_autoindex_' || %Q || substr(name,%d+18) "
            "ELSE name END "
      "WHERE tbl_name=%Q COLLATE nocase AND "
          "(type='table' OR type='index' OR type='trigger');", 
      zDb, MASTER_NAME, 
      zName, zName, zName, 
      nTabName, zTabName
................................................................................
  zNew = sqlite3NameFromToken(db, pNew);
  if( !zNew ) goto exit_rename_column;
  assert( pNew->n>0 );
  bQuote = sqlite3Isquote(pNew->z[0]);
  sqlite3NestedParse(pParse, 
      "UPDATE \"%w\".%s SET "
      "sql = sqlite_rename_column(sql, type, name, %Q, %Q, %d, %Q, %d, %d) "

      "WHERE name NOT LIKE 'sqlite_%%' AND (type != 'index' OR tbl_name = %Q)"
      " AND sql NOT LIKE 'create virtual%%'",
      zDb, MASTER_NAME, 
      zDb, pTab->zName, iCol, zNew, bQuote, iSchema==1,
      pTab->zName
  );

  sqlite3NestedParse(pParse, 







|










|







 







|










>
|







 







>
|







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582
583
** statement to ensure that the operation has not rendered any schema
** objects unusable.
*/
static void renameTestSchema(Parse *pParse, const char *zDb, int bTemp){
  sqlite3NestedParse(pParse, 
      "SELECT 1 "
      "FROM \"%w\".%s "
      "WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X'"
      " AND sql NOT LIKE 'create virtual%%'"
      " AND sqlite_rename_test(%Q, sql, type, name, %d)=NULL ",
      zDb, MASTER_NAME, 
      zDb, bTemp
  );

  if( bTemp==0 ){
    sqlite3NestedParse(pParse, 
        "SELECT 1 "
        "FROM temp.%s "
        "WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X'"
        " AND sql NOT LIKE 'create virtual%%'"
        " AND sqlite_rename_test(%Q, sql, type, name, 1)=NULL ",
        MASTER_NAME, zDb 
    );
  }
}

................................................................................

  /* Rewrite all CREATE TABLE, INDEX, TRIGGER or VIEW statements in
  ** the schema to use the new table name.  */
  sqlite3NestedParse(pParse, 
      "UPDATE \"%w\".%s SET "
      "sql = sqlite_rename_table(%Q, type, name, sql, %Q, %Q, %d) "
      "WHERE (type!='index' OR tbl_name=%Q COLLATE nocase)"
      "AND   name NOT LIKE 'sqliteX_%%' ESCAPE 'X'"
      , zDb, MASTER_NAME, zDb, zTabName, zName, (iDb==1), zTabName
  );

  /* Update the tbl_name and name columns of the sqlite_master table
  ** as required.  */
  sqlite3NestedParse(pParse,
      "UPDATE %Q.%s SET "
          "tbl_name = %Q, "
          "name = CASE "
            "WHEN type='table' THEN %Q "
            "WHEN name LIKE 'sqliteX_autoindex%%' ESCAPE 'X' "
            "     AND type='index' THEN "
             "'sqlite_autoindex_' || %Q || substr(name,%d+18) "
            "ELSE name END "
      "WHERE tbl_name=%Q COLLATE nocase AND "
          "(type='table' OR type='index' OR type='trigger');", 
      zDb, MASTER_NAME, 
      zName, zName, zName, 
      nTabName, zTabName
................................................................................
  zNew = sqlite3NameFromToken(db, pNew);
  if( !zNew ) goto exit_rename_column;
  assert( pNew->n>0 );
  bQuote = sqlite3Isquote(pNew->z[0]);
  sqlite3NestedParse(pParse, 
      "UPDATE \"%w\".%s SET "
      "sql = sqlite_rename_column(sql, type, name, %Q, %Q, %d, %Q, %d, %d) "
      "WHERE name NOT LIKE 'sqliteX_%%' ESCAPE 'X' "
      " AND (type != 'index' OR tbl_name = %Q)"
      " AND sql NOT LIKE 'create virtual%%'",
      zDb, MASTER_NAME, 
      zDb, pTab->zName, iCol, zNew, bQuote, iSchema==1,
      pTab->zName
  );

  sqlite3NestedParse(pParse, 

Changes to src/attach.c.

237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
    if( !REOPEN_AS_MEMDB(db) ){
      rc = sqlite3Init(db, &zErrDyn);
    }
    sqlite3BtreeLeaveAll(db);
    assert( zErrDyn==0 || rc!=SQLITE_OK );
  }
#ifdef SQLITE_USER_AUTHENTICATION
  if( rc==SQLITE_OK ){
    u8 newAuth = 0;
    rc = sqlite3UserAuthCheckLogin(db, zName, &newAuth);
    if( newAuth<db->auth.authLevel ){
      rc = SQLITE_AUTH_USER;
    }
  }
#endif







|







237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
    if( !REOPEN_AS_MEMDB(db) ){
      rc = sqlite3Init(db, &zErrDyn);
    }
    sqlite3BtreeLeaveAll(db);
    assert( zErrDyn==0 || rc!=SQLITE_OK );
  }
#ifdef SQLITE_USER_AUTHENTICATION
  if( rc==SQLITE_OK && !REOPEN_AS_MEMDB(db) ){
    u8 newAuth = 0;
    rc = sqlite3UserAuthCheckLogin(db, zName, &newAuth);
    if( newAuth<db->auth.authLevel ){
      rc = SQLITE_AUTH_USER;
    }
  }
#endif

Changes to src/backup.c.

270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
  ** between source and destination.  If there is a difference, try to
  ** fix the destination to agree with the source.  If that is not possible,
  ** then the backup cannot proceed.
  */
  if( nSrcReserve!=nDestReserve ){
    u32 newPgsz = nSrcPgsz;
    rc = sqlite3PagerSetPagesize(pDestPager, &newPgsz, nSrcReserve);
    if( rc==SQLITE_OK && newPgsz!=nSrcPgsz ) rc = SQLITE_READONLY;
  }
#endif

  /* This loop runs once for each destination page spanned by the source 
  ** page. For each iteration, variable iOff is set to the byte offset
  ** of the destination page.
  */







|







270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
  ** between source and destination.  If there is a difference, try to
  ** fix the destination to agree with the source.  If that is not possible,
  ** then the backup cannot proceed.
  */
  if( nSrcReserve!=nDestReserve ){
    u32 newPgsz = nSrcPgsz;
    rc = sqlite3PagerSetPagesize(pDestPager, &newPgsz, nSrcReserve);
    if( rc==SQLITE_OK && newPgsz!=(u32)nSrcPgsz ) rc = SQLITE_READONLY;
  }
#endif

  /* This loop runs once for each destination page spanned by the source 
  ** page. For each iteration, variable iOff is set to the byte offset
  ** of the destination page.
  */

Changes to src/btree.c.

1864
1865
1866
1867
1868
1869
1870
1871
1872
1873
1874
1875
1876
1877
1878
....
2161
2162
2163
2164
2165
2166
2167
2168
2169
2170
2171
2172
2173
2174
2175
....
4595
4596
4597
4598
4599
4600
4601












4602
4603
4604
4605
4606
4607
4608
....
4641
4642
4643
4644
4645
4646
4647
4648
4649
4650
4651
4652
4653
4654
4655
4656
4657
4658
4659
....
4729
4730
4731
4732
4733
4734
4735
4736
4737
4738
4739
4740
4741
4742
4743
4744
4745
4746
4747
4748
....
5749
5750
5751
5752
5753
5754
5755

5756
5757
5758
5759
5760
5761
5762
....
8101
8102
8103
8104
8105
8106
8107

8108
8109
8110
8111
8112
8113
8114
....
8129
8130
8131
8132
8133
8134
8135




8136
8137
8138
8139
8140
8141
8142
....
8148
8149
8150
8151
8152
8153
8154

8155
8156
8157
8158
8159
8160
8161
....
8448
8449
8450
8451
8452
8453
8454

8455
8456
8457
8458
8459
8460
8461
  assert( gap<=65536 );
  /* EVIDENCE-OF: R-29356-02391 If the database uses a 65536-byte page size
  ** and the reserved space is zero (the usual value for reserved space)
  ** then the cell content offset of an empty page wants to be 65536.
  ** However, that integer is too large to be stored in a 2-byte unsigned
  ** integer, so a value of 0 is used in its place. */
  top = get2byte(&data[hdr+5]);
  assert( top<=(int)pPage->pBt->usableSize ); /* Prevent by getAndInitPage() */
  if( gap>top ){
    if( top==0 && pPage->pBt->usableSize==65536 ){
      top = 65536;
    }else{
      return SQLITE_CORRUPT_PAGE(pPage);
    }
  }
................................................................................
  /* At this point, nFree contains the sum of the offset to the start
  ** of the cell-content area plus the number of free bytes within
  ** the cell-content area. If this is greater than the usable-size
  ** of the page, then the page must be corrupted. This check also
  ** serves to verify that the offset to the start of the cell-content
  ** area, according to the page header, lies within the page.
  */
  if( nFree>usableSize ){
    return SQLITE_CORRUPT_PAGE(pPage);
  }
  pPage->nFree = (u16)(nFree - iCellFirst);
  return SQLITE_OK;
}

/*
................................................................................
      }
      btreeReleaseAllCursorPages(p);
    }
    sqlite3BtreeLeave(pBtree);
  }
  return rc;
}













/*
** Rollback the transaction in progress.
**
** If tripCode is not SQLITE_OK then cursors will be invalidated (tripped).
** Only write cursors are tripped if writeOnly is true but all cursors are
** tripped if writeOnly is false.  Any attempt to use
................................................................................
      rc = rc2;
    }

    /* The rollback may have destroyed the pPage1->aData value.  So
    ** call btreeGetPage() on page 1 again to make
    ** sure pPage1->aData is set correctly. */
    if( btreeGetPage(pBt, 1, &pPage1, 0)==SQLITE_OK ){
      int nPage = get4byte(28+(u8*)pPage1->aData);
      testcase( nPage==0 );
      if( nPage==0 ) sqlite3PagerPagecount(pBt->pPager, &nPage);
      testcase( pBt->nPage!=nPage );
      pBt->nPage = nPage;
      releasePageOne(pPage1);
    }
    assert( countValidCursors(pBt, 1)==0 );
    pBt->inTransaction = TRANS_READ;
    btreeClearHasContent(pBt);
  }

................................................................................
      rc = sqlite3PagerSavepoint(pBt->pPager, op, iSavepoint);
    }
    if( rc==SQLITE_OK ){
      if( iSavepoint<0 && (pBt->btsFlags & BTS_INITIALLY_EMPTY)!=0 ){
        pBt->nPage = 0;
      }
      rc = newDatabase(pBt);
      pBt->nPage = get4byte(28 + pBt->pPage1->aData);

      /* The database size was written into the offset 28 of the header
      ** when the transaction started, so we know that the value at offset
      ** 28 is nonzero. */
      assert( pBt->nPage>0 );
    }
    sqlite3BtreeLeave(p);
  }
  return rc;
}

/*
................................................................................
    int ii;
    for(ii=0; ii<pCur->iPage; ii++){
      assert( pCur->aiIdx[ii]==pCur->apPage[ii]->nCell );
    }
    assert( pCur->ix==pCur->pPage->nCell-1 );
    assert( pCur->pPage->leaf );
#endif

    return SQLITE_OK;
  }

  rc = moveToRoot(pCur);
  if( rc==SQLITE_OK ){
    assert( pCur->eState==CURSOR_VALID );
    *pRes = 0;
................................................................................
  for(i=0; i<nOld; i++){
    MemPage *pOld = apOld[i];
    int limit = pOld->nCell;
    u8 *aData = pOld->aData;
    u16 maskPage = pOld->maskPage;
    u8 *piCell = aData + pOld->cellOffset;
    u8 *piEnd;


    /* Verify that all sibling pages are of the same "type" (table-leaf,
    ** table-interior, index-leaf, or index-interior).
    */
    if( pOld->aData[0]!=apOld[0]->aData[0] ){
      rc = SQLITE_CORRUPT_BKPT;
      goto balance_cleanup;
................................................................................
    ** This must be done in advance.  Once the balance starts, the cell
    ** offset section of the btree page will be overwritten and we will no
    ** long be able to find the cells if a pointer to each cell is not saved
    ** first.
    */
    memset(&b.szCell[b.nCell], 0, sizeof(b.szCell[0])*(limit+pOld->nOverflow));
    if( pOld->nOverflow>0 ){




      limit = pOld->aiOvfl[0];
      for(j=0; j<limit; j++){
        b.apCell[b.nCell] = aData + (maskPage & get2byteAligned(piCell));
        piCell += 2;
        b.nCell++;
      }
      for(k=0; k<pOld->nOverflow; k++){
................................................................................
    piEnd = aData + pOld->cellOffset + 2*pOld->nCell;
    while( piCell<piEnd ){
      assert( b.nCell<nMaxCells );
      b.apCell[b.nCell] = aData + (maskPage & get2byteAligned(piCell));
      piCell += 2;
      b.nCell++;
    }


    cntOld[i] = b.nCell;
    if( i<nOld-1 && !leafData){
      u16 sz = (u16)szNew[i];
      u8 *pTemp;
      assert( b.nCell<nMaxCells );
      b.szCell[b.nCell] = sz;
................................................................................
    int iOld = 0;

    for(i=0; i<b.nCell; i++){
      u8 *pCell = b.apCell[i];
      while( i==cntOldNext ){
        iOld++;
        assert( iOld<nNew || iOld<nOld );

        pOld = iOld<nNew ? apNew[iOld] : apOld[iOld];
        cntOldNext += pOld->nCell + pOld->nOverflow + !leafData;
      }
      if( i==cntNew[iNew] ){
        pNew = apNew[++iNew];
        if( !leafData ) continue;
      }







|







 







|







 







>
>
>
>
>
>
>
>
>
>
>
>







 







|
<
<
<
<







 







|

|
|
<
|







 







>







 







>







 







>
>
>
>







 







>







 







>







1864
1865
1866
1867
1868
1869
1870
1871
1872
1873
1874
1875
1876
1877
1878
....
2161
2162
2163
2164
2165
2166
2167
2168
2169
2170
2171
2172
2173
2174
2175
....
4595
4596
4597
4598
4599
4600
4601
4602
4603
4604
4605
4606
4607
4608
4609
4610
4611
4612
4613
4614
4615
4616
4617
4618
4619
4620
....
4653
4654
4655
4656
4657
4658
4659
4660




4661
4662
4663
4664
4665
4666
4667
....
4737
4738
4739
4740
4741
4742
4743
4744
4745
4746
4747

4748
4749
4750
4751
4752
4753
4754
4755
....
5756
5757
5758
5759
5760
5761
5762
5763
5764
5765
5766
5767
5768
5769
5770
....
8109
8110
8111
8112
8113
8114
8115
8116
8117
8118
8119
8120
8121
8122
8123
....
8138
8139
8140
8141
8142
8143
8144
8145
8146
8147
8148
8149
8150
8151
8152
8153
8154
8155
....
8161
8162
8163
8164
8165
8166
8167
8168
8169
8170
8171
8172
8173
8174
8175
....
8462
8463
8464
8465
8466
8467
8468
8469
8470
8471
8472
8473
8474
8475
8476
  assert( gap<=65536 );
  /* EVIDENCE-OF: R-29356-02391 If the database uses a 65536-byte page size
  ** and the reserved space is zero (the usual value for reserved space)
  ** then the cell content offset of an empty page wants to be 65536.
  ** However, that integer is too large to be stored in a 2-byte unsigned
  ** integer, so a value of 0 is used in its place. */
  top = get2byte(&data[hdr+5]);
  assert( top<=(int)pPage->pBt->usableSize ); /* by btreeComputeFreeSpace() */
  if( gap>top ){
    if( top==0 && pPage->pBt->usableSize==65536 ){
      top = 65536;
    }else{
      return SQLITE_CORRUPT_PAGE(pPage);
    }
  }
................................................................................
  /* At this point, nFree contains the sum of the offset to the start
  ** of the cell-content area plus the number of free bytes within
  ** the cell-content area. If this is greater than the usable-size
  ** of the page, then the page must be corrupted. This check also
  ** serves to verify that the offset to the start of the cell-content
  ** area, according to the page header, lies within the page.
  */
  if( nFree>usableSize || nFree<iCellFirst ){
    return SQLITE_CORRUPT_PAGE(pPage);
  }
  pPage->nFree = (u16)(nFree - iCellFirst);
  return SQLITE_OK;
}

/*
................................................................................
      }
      btreeReleaseAllCursorPages(p);
    }
    sqlite3BtreeLeave(pBtree);
  }
  return rc;
}

/*
** Set the pBt->nPage field correctly, according to the current
** state of the database.  Assume pBt->pPage1 is valid.
*/
static void btreeSetNPage(BtShared *pBt, MemPage *pPage1){
  int nPage = get4byte(&pPage1->aData[28]);
  testcase( nPage==0 );
  if( nPage==0 ) sqlite3PagerPagecount(pBt->pPager, &nPage);
  testcase( pBt->nPage!=nPage );
  pBt->nPage = nPage;
}

/*
** Rollback the transaction in progress.
**
** If tripCode is not SQLITE_OK then cursors will be invalidated (tripped).
** Only write cursors are tripped if writeOnly is true but all cursors are
** tripped if writeOnly is false.  Any attempt to use
................................................................................
      rc = rc2;
    }

    /* The rollback may have destroyed the pPage1->aData value.  So
    ** call btreeGetPage() on page 1 again to make
    ** sure pPage1->aData is set correctly. */
    if( btreeGetPage(pBt, 1, &pPage1, 0)==SQLITE_OK ){
      btreeSetNPage(pBt, pPage1);




      releasePageOne(pPage1);
    }
    assert( countValidCursors(pBt, 1)==0 );
    pBt->inTransaction = TRANS_READ;
    btreeClearHasContent(pBt);
  }

................................................................................
      rc = sqlite3PagerSavepoint(pBt->pPager, op, iSavepoint);
    }
    if( rc==SQLITE_OK ){
      if( iSavepoint<0 && (pBt->btsFlags & BTS_INITIALLY_EMPTY)!=0 ){
        pBt->nPage = 0;
      }
      rc = newDatabase(pBt);
      btreeSetNPage(pBt, pBt->pPage1);

      /* pBt->nPage might be zero if the database was corrupt when 
      ** the transaction was started. Otherwise, it must be at least 1.  */

      assert( CORRUPT_DB || pBt->nPage>0 );
    }
    sqlite3BtreeLeave(p);
  }
  return rc;
}

/*
................................................................................
    int ii;
    for(ii=0; ii<pCur->iPage; ii++){
      assert( pCur->aiIdx[ii]==pCur->apPage[ii]->nCell );
    }
    assert( pCur->ix==pCur->pPage->nCell-1 );
    assert( pCur->pPage->leaf );
#endif
    *pRes = 0;
    return SQLITE_OK;
  }

  rc = moveToRoot(pCur);
  if( rc==SQLITE_OK ){
    assert( pCur->eState==CURSOR_VALID );
    *pRes = 0;
................................................................................
  for(i=0; i<nOld; i++){
    MemPage *pOld = apOld[i];
    int limit = pOld->nCell;
    u8 *aData = pOld->aData;
    u16 maskPage = pOld->maskPage;
    u8 *piCell = aData + pOld->cellOffset;
    u8 *piEnd;
    VVA_ONLY( int nCellAtStart = b.nCell; )

    /* Verify that all sibling pages are of the same "type" (table-leaf,
    ** table-interior, index-leaf, or index-interior).
    */
    if( pOld->aData[0]!=apOld[0]->aData[0] ){
      rc = SQLITE_CORRUPT_BKPT;
      goto balance_cleanup;
................................................................................
    ** This must be done in advance.  Once the balance starts, the cell
    ** offset section of the btree page will be overwritten and we will no
    ** long be able to find the cells if a pointer to each cell is not saved
    ** first.
    */
    memset(&b.szCell[b.nCell], 0, sizeof(b.szCell[0])*(limit+pOld->nOverflow));
    if( pOld->nOverflow>0 ){
      if( limit<pOld->aiOvfl[0] ){
        rc = SQLITE_CORRUPT_BKPT;
        goto balance_cleanup;
      }
      limit = pOld->aiOvfl[0];
      for(j=0; j<limit; j++){
        b.apCell[b.nCell] = aData + (maskPage & get2byteAligned(piCell));
        piCell += 2;
        b.nCell++;
      }
      for(k=0; k<pOld->nOverflow; k++){
................................................................................
    piEnd = aData + pOld->cellOffset + 2*pOld->nCell;
    while( piCell<piEnd ){
      assert( b.nCell<nMaxCells );
      b.apCell[b.nCell] = aData + (maskPage & get2byteAligned(piCell));
      piCell += 2;
      b.nCell++;
    }
    assert( (b.nCell-nCellAtStart)==(pOld->nCell+pOld->nOverflow) );

    cntOld[i] = b.nCell;
    if( i<nOld-1 && !leafData){
      u16 sz = (u16)szNew[i];
      u8 *pTemp;
      assert( b.nCell<nMaxCells );
      b.szCell[b.nCell] = sz;
................................................................................
    int iOld = 0;

    for(i=0; i<b.nCell; i++){
      u8 *pCell = b.apCell[i];
      while( i==cntOldNext ){
        iOld++;
        assert( iOld<nNew || iOld<nOld );
        assert( iOld>=0 && iOld<NB );
        pOld = iOld<nNew ? apNew[iOld] : apOld[iOld];
        cntOldNext += pOld->nCell + pOld->nOverflow + !leafData;
      }
      if( i==cntNew[iNew] ){
        pNew = apNew[++iNew];
        if( !leafData ) continue;
      }

Changes to src/build.c.

1327
1328
1329
1330
1331
1332
1333
1334
1335
1336
1337
1338
1339
1340
1341
....
1724
1725
1726
1727
1728
1729
1730
1731


1732
1733
1734







































1735
1736
1737
1738
1739
1740
1741
....
1816
1817
1818
1819
1820
1821
1822



1823
1824

1825
1826
1827
1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
1840
1841
1842

1843
1844
1845
1846
1847
1848
1849
....
1865
1866
1867
1868
1869
1870
1871

1872


1873
1874
1875
1876
1877
1878
1879
1880

1881
1882
1883




1884
1885
1886
1887
1888
1889
1890
....
2998
2999
3000
3001
3002
3003
3004








3005

3006
3007
3008
3009
3010
3011
3012
....
3390
3391
3392
3393
3394
3395
3396
3397
3398
3399

3400
3401
3402
3403
3404
3405
3406
**     CREATE TABLE xyz(a,b,c,d,e,PRIMARY KEY('a'),UNIQUE('b','c' COLLATE trim)
**     CREATE INDEX abc ON xyz('c','d' DESC,'e' COLLATE nocase DESC);
**
** This is goofy.  But to preserve backwards compatibility we continue to
** accept it.  This routine does the necessary conversion.  It converts
** the expression given in its argument from a TK_STRING into a TK_ID
** if the expression is just a TK_STRING with an optional COLLATE clause.
** If the epxression is anything other than TK_STRING, the expression is
** unchanged.
*/
static void sqlite3StringToId(Expr *p){
  if( p->op==TK_STRING ){
    p->op = TK_ID;
  }else if( p->op==TK_COLLATE && p->pLeft->op==TK_STRING ){
    p->pLeft->op = TK_ID;
................................................................................
    i16 x = pIdx->aiColumn[i];
    assert( x<pIdx->pTable->nCol );
    wIndex += x<0 ? 1 : aCol[pIdx->aiColumn[i]].szEst;
  }
  pIdx->szIdxRow = sqlite3LogEst(wIndex*4);
}

/* Return true if value x is found any of the first nCol entries of aiCol[]


*/
static int hasColumn(const i16 *aiCol, int nCol, int x){
  while( nCol-- > 0 ) if( x==*(aiCol++) ) return 1;







































  return 0;
}

/* Recompute the colNotIdxed field of the Index.
**
** colNotIdxed is a bitmask that has a 0 bit representing each indexed
** columns that are within the first 63 columns of the table.  The
................................................................................
  if( pTab->iPKey>=0 ){
    ExprList *pList;
    Token ipkToken;
    sqlite3TokenInit(&ipkToken, pTab->aCol[pTab->iPKey].zName);
    pList = sqlite3ExprListAppend(pParse, 0, 
                  sqlite3ExprAlloc(db, TK_ID, &ipkToken, 0));
    if( pList==0 ) return;



    pList->a[0].sortOrder = pParse->iPkSortOrder;
    assert( pParse->pNewTable==pTab );

    sqlite3CreateIndex(pParse, 0, 0, 0, pList, pTab->keyConf, 0, 0, 0, 0,
                       SQLITE_IDXTYPE_PRIMARYKEY);
    if( db->mallocFailed || pParse->nErr ) return;
    pPk = sqlite3PrimaryKeyIndex(pTab);
    pTab->iPKey = -1;
  }else{
    pPk = sqlite3PrimaryKeyIndex(pTab);
    assert( pPk!=0 );

    /*
    ** Remove all redundant columns from the PRIMARY KEY.  For example, change
    ** "PRIMARY KEY(a,b,a,b,c,b,c,d)" into just "PRIMARY KEY(a,b,c,d)".  Later
    ** code assumes the PRIMARY KEY contains no repeated columns.
    */
    for(i=j=1; i<pPk->nKeyCol; i++){
      if( hasColumn(pPk->aiColumn, j, pPk->aiColumn[i]) ){
        pPk->nColumn--;
      }else{

        pPk->aiColumn[j++] = pPk->aiColumn[i];
      }
    }
    pPk->nKeyCol = j;
  }
  assert( pPk!=0 );
  pPk->isCovering = 1;
................................................................................
  /* Update the in-memory representation of all UNIQUE indices by converting
  ** the final rowid column into one or more columns of the PRIMARY KEY.
  */
  for(pIdx=pTab->pIndex; pIdx; pIdx=pIdx->pNext){
    int n;
    if( IsPrimaryKeyIndex(pIdx) ) continue;
    for(i=n=0; i<nPk; i++){

      if( !hasColumn(pIdx->aiColumn, pIdx->nKeyCol, pPk->aiColumn[i]) ) n++;


    }
    if( n==0 ){
      /* This index is a superset of the primary key */
      pIdx->nColumn = pIdx->nKeyCol;
      continue;
    }
    if( resizeIndexObject(db, pIdx, pIdx->nKeyCol+n) ) return;
    for(i=0, j=pIdx->nKeyCol; i<nPk; i++){

      if( !hasColumn(pIdx->aiColumn, pIdx->nKeyCol, pPk->aiColumn[i]) ){
        pIdx->aiColumn[j] = pPk->aiColumn[i];
        pIdx->azColl[j] = pPk->azColl[i];




        j++;
      }
    }
    assert( pIdx->nColumn>=pIdx->nKeyCol+n );
    assert( pIdx->nColumn>=j );
  }

................................................................................
                         pIndex->nKeyCol); VdbeCoverage(v);
    sqlite3UniqueConstraint(pParse, OE_Abort, pIndex);
    sqlite3VdbeJumpHere(v, j2);
  }else{
    addr2 = sqlite3VdbeCurrentAddr(v);
  }
  sqlite3VdbeAddOp3(v, OP_SorterData, iSorter, regRecord, iIdx);








  sqlite3VdbeAddOp1(v, OP_SeekEnd, iIdx);

  sqlite3VdbeAddOp2(v, OP_IdxInsert, iIdx, regRecord);
  sqlite3VdbeChangeP5(v, OPFLAG_USESEEKRESULT);
  sqlite3ReleaseTempReg(pParse, regRecord);
  sqlite3VdbeAddOp2(v, OP_SorterNext, iSorter, addr2); VdbeCoverage(v);
  sqlite3VdbeJumpHere(v, addr1);

  sqlite3VdbeAddOp1(v, OP_Close, iTab);
................................................................................
  ** tables (when pPk!=0) this will be the declared PRIMARY KEY.  For
  ** normal tables (when pPk==0) this will be the rowid.
  */
  if( pPk ){
    for(j=0; j<pPk->nKeyCol; j++){
      int x = pPk->aiColumn[j];
      assert( x>=0 );
      if( hasColumn(pIndex->aiColumn, pIndex->nKeyCol, x) ){
        pIndex->nColumn--; 
      }else{

        pIndex->aiColumn[i] = x;
        pIndex->azColl[i] = pPk->azColl[j];
        pIndex->aSortOrder[i] = pPk->aSortOrder[j];
        i++;
      }
    }
    assert( i==pIndex->nColumn );







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**     CREATE TABLE xyz(a,b,c,d,e,PRIMARY KEY('a'),UNIQUE('b','c' COLLATE trim)
**     CREATE INDEX abc ON xyz('c','d' DESC,'e' COLLATE nocase DESC);
**
** This is goofy.  But to preserve backwards compatibility we continue to
** accept it.  This routine does the necessary conversion.  It converts
** the expression given in its argument from a TK_STRING into a TK_ID
** if the expression is just a TK_STRING with an optional COLLATE clause.
** If the expression is anything other than TK_STRING, the expression is
** unchanged.
*/
static void sqlite3StringToId(Expr *p){
  if( p->op==TK_STRING ){
    p->op = TK_ID;
  }else if( p->op==TK_COLLATE && p->pLeft->op==TK_STRING ){
    p->pLeft->op = TK_ID;
................................................................................
    i16 x = pIdx->aiColumn[i];
    assert( x<pIdx->pTable->nCol );
    wIndex += x<0 ? 1 : aCol[pIdx->aiColumn[i]].szEst;
  }
  pIdx->szIdxRow = sqlite3LogEst(wIndex*4);
}

/* Return true if column number x is any of the first nCol entries of aiCol[].
** This is used to determine if the column number x appears in any of the
** first nCol entries of an index.
*/
static int hasColumn(const i16 *aiCol, int nCol, int x){
  while( nCol-- > 0 ){
    assert( aiCol[0]>=0 );
    if( x==*(aiCol++) ){
      return 1;
    }
  }
  return 0;
}

/*
** Return true if any of the first nKey entries of index pIdx exactly
** match the iCol-th entry of pPk.  pPk is always a WITHOUT ROWID
** PRIMARY KEY index.  pIdx is an index on the same table.  pIdx may
** or may not be the same index as pPk.
**
** The first nKey entries of pIdx are guaranteed to be ordinary columns,
** not a rowid or expression.
**
** This routine differs from hasColumn() in that both the column and the
** collating sequence must match for this routine, but for hasColumn() only
** the column name must match.
*/
static int isDupColumn(Index *pIdx, int nKey, Index *pPk, int iCol){
  int i, j;
  assert( nKey<=pIdx->nColumn );
  assert( iCol<MAX(pPk->nColumn,pPk->nKeyCol) );
  assert( pPk->idxType==SQLITE_IDXTYPE_PRIMARYKEY );
  assert( pPk->pTable->tabFlags & TF_WithoutRowid );
  assert( pPk->pTable==pIdx->pTable );
  testcase( pPk==pIdx );
  j = pPk->aiColumn[iCol];
  assert( j!=XN_ROWID && j!=XN_EXPR );
  for(i=0; i<nKey; i++){
    assert( pIdx->aiColumn[i]>=0 || j>=0 );
    if( pIdx->aiColumn[i]==j 
     && sqlite3StrICmp(pIdx->azColl[i], pPk->azColl[iCol])==0
    ){
      return 1;
    }
  }
  return 0;
}

/* Recompute the colNotIdxed field of the Index.
**
** colNotIdxed is a bitmask that has a 0 bit representing each indexed
** columns that are within the first 63 columns of the table.  The
................................................................................
  if( pTab->iPKey>=0 ){
    ExprList *pList;
    Token ipkToken;
    sqlite3TokenInit(&ipkToken, pTab->aCol[pTab->iPKey].zName);
    pList = sqlite3ExprListAppend(pParse, 0, 
                  sqlite3ExprAlloc(db, TK_ID, &ipkToken, 0));
    if( pList==0 ) return;
    if( IN_RENAME_OBJECT ){
      sqlite3RenameTokenRemap(pParse, pList->a[0].pExpr, &pTab->iPKey);
    }
    pList->a[0].sortOrder = pParse->iPkSortOrder;
    assert( pParse->pNewTable==pTab );
    pTab->iPKey = -1;
    sqlite3CreateIndex(pParse, 0, 0, 0, pList, pTab->keyConf, 0, 0, 0, 0,
                       SQLITE_IDXTYPE_PRIMARYKEY);
    if( db->mallocFailed || pParse->nErr ) return;
    pPk = sqlite3PrimaryKeyIndex(pTab);

  }else{
    pPk = sqlite3PrimaryKeyIndex(pTab);
    assert( pPk!=0 );

    /*
    ** Remove all redundant columns from the PRIMARY KEY.  For example, change
    ** "PRIMARY KEY(a,b,a,b,c,b,c,d)" into just "PRIMARY KEY(a,b,c,d)".  Later
    ** code assumes the PRIMARY KEY contains no repeated columns.
    */
    for(i=j=1; i<pPk->nKeyCol; i++){
      if( isDupColumn(pPk, j, pPk, i) ){
        pPk->nColumn--;
      }else{
        testcase( hasColumn(pPk->aiColumn, j, pPk->aiColumn[i]) );
        pPk->aiColumn[j++] = pPk->aiColumn[i];
      }
    }
    pPk->nKeyCol = j;
  }
  assert( pPk!=0 );
  pPk->isCovering = 1;
................................................................................
  /* Update the in-memory representation of all UNIQUE indices by converting
  ** the final rowid column into one or more columns of the PRIMARY KEY.
  */
  for(pIdx=pTab->pIndex; pIdx; pIdx=pIdx->pNext){
    int n;
    if( IsPrimaryKeyIndex(pIdx) ) continue;
    for(i=n=0; i<nPk; i++){
      if( !isDupColumn(pIdx, pIdx->nKeyCol, pPk, i) ){
        testcase( hasColumn(pIdx->aiColumn, pIdx->nKeyCol, pPk->aiColumn[i]) );
        n++;
      }
    }
    if( n==0 ){
      /* This index is a superset of the primary key */
      pIdx->nColumn = pIdx->nKeyCol;
      continue;
    }
    if( resizeIndexObject(db, pIdx, pIdx->nKeyCol+n) ) return;
    for(i=0, j=pIdx->nKeyCol; i<nPk; i++){
      if( !isDupColumn(pIdx, pIdx->nKeyCol, pPk, i) ){
        testcase( hasColumn(pIdx->aiColumn, pIdx->nKeyCol, pPk->aiColumn[i]) );
        pIdx->aiColumn[j] = pPk->aiColumn[i];
        pIdx->azColl[j] = pPk->azColl[i];
        if( pPk->aSortOrder[i] ){
          /* See ticket https://www.sqlite.org/src/info/bba7b69f9849b5bf */
          pIdx->bAscKeyBug = 1;
        }
        j++;
      }
    }
    assert( pIdx->nColumn>=pIdx->nKeyCol+n );
    assert( pIdx->nColumn>=j );
  }

................................................................................
                         pIndex->nKeyCol); VdbeCoverage(v);
    sqlite3UniqueConstraint(pParse, OE_Abort, pIndex);
    sqlite3VdbeJumpHere(v, j2);
  }else{
    addr2 = sqlite3VdbeCurrentAddr(v);
  }
  sqlite3VdbeAddOp3(v, OP_SorterData, iSorter, regRecord, iIdx);
  if( !pIndex->bAscKeyBug ){
    /* This OP_SeekEnd opcode makes index insert for a REINDEX go much
    ** faster by avoiding unnecessary seeks.  But the optimization does
    ** not work for UNIQUE constraint indexes on WITHOUT ROWID tables
    ** with DESC primary keys, since those indexes have there keys in
    ** a different order from the main table.
    ** See ticket: https://www.sqlite.org/src/info/bba7b69f9849b5bf
    */
    sqlite3VdbeAddOp1(v, OP_SeekEnd, iIdx);
  }
  sqlite3VdbeAddOp2(v, OP_IdxInsert, iIdx, regRecord);
  sqlite3VdbeChangeP5(v, OPFLAG_USESEEKRESULT);
  sqlite3ReleaseTempReg(pParse, regRecord);
  sqlite3VdbeAddOp2(v, OP_SorterNext, iSorter, addr2); VdbeCoverage(v);
  sqlite3VdbeJumpHere(v, addr1);

  sqlite3VdbeAddOp1(v, OP_Close, iTab);
................................................................................
  ** tables (when pPk!=0) this will be the declared PRIMARY KEY.  For
  ** normal tables (when pPk==0) this will be the rowid.
  */
  if( pPk ){
    for(j=0; j<pPk->nKeyCol; j++){
      int x = pPk->aiColumn[j];
      assert( x>=0 );
      if( isDupColumn(pIndex, pIndex->nKeyCol, pPk, j) ){
        pIndex->nColumn--; 
      }else{
        testcase( hasColumn(pIndex->aiColumn,pIndex->nKeyCol,x) );
        pIndex->aiColumn[i] = x;
        pIndex->azColl[i] = pPk->azColl[j];
        pIndex->aSortOrder[i] = pPk->aSortOrder[j];
        i++;
      }
    }
    assert( i==pIndex->nColumn );

Changes to src/expr.c.

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  pNew = sqlite3DbMallocRawNN(db, sizeof(Expr)+nExtra);
  if( pNew ){
    memset(pNew, 0, sizeof(Expr));
    pNew->op = (u8)op;
    pNew->iAgg = -1;
    if( pToken ){
      if( nExtra==0 ){
        pNew->flags |= EP_IntValue|EP_Leaf;
        pNew->u.iValue = iValue;
      }else{
        pNew->u.zToken = (char*)&pNew[1];
        assert( pToken->z!=0 || pToken->n==0 );
        if( pToken->n ) memcpy(pNew->u.zToken, pToken->z, pToken->n);
        pNew->u.zToken[pToken->n] = 0;
        if( dequote && sqlite3Isquote(pNew->u.zToken[0]) ){
................................................................................
Expr *sqlite3PExpr(
  Parse *pParse,          /* Parsing context */
  int op,                 /* Expression opcode */
  Expr *pLeft,            /* Left operand */
  Expr *pRight            /* Right operand */
){
  Expr *p;
  if( op==TK_AND && pParse->nErr==0 && !IN_RENAME_OBJECT ){
    /* Take advantage of short-circuit false optimization for AND */
    p = sqlite3ExprAnd(pParse->db, pLeft, pRight);
  }else{
    p = sqlite3DbMallocRawNN(pParse->db, sizeof(Expr));
    if( p ){
      memset(p, 0, sizeof(Expr));
      p->op = op & 0xff;
      p->iAgg = -1;
    }
    sqlite3ExprAttachSubtrees(pParse->db, p, pLeft, pRight);
  }
  if( p ) {
    sqlite3ExprCheckHeight(pParse, p->nHeight);



  }
  return p;
}

/*
** Add pSelect to the Expr.x.pSelect field.  Or, if pExpr is NULL (due
** do a memory allocation failure) then delete the pSelect object.
................................................................................
  }else{
    assert( pParse->db->mallocFailed );
    sqlite3SelectDelete(pParse->db, pSelect);
  }
}


/*
** If the expression is always either TRUE or FALSE (respectively),
** then return 1.  If one cannot determine the truth value of the
** expression at compile-time return 0.
**
** This is an optimization.  If is OK to return 0 here even if
** the expression really is always false or false (a false negative).
** But it is a bug to return 1 if the expression might have different
** boolean values in different circumstances (a false positive.)
**
** Note that if the expression is part of conditional for a
** LEFT JOIN, then we cannot determine at compile-time whether or not
** is it true or false, so always return 0.
*/
static int exprAlwaysTrue(Expr *p){
  int v = 0;
  if( ExprHasProperty(p, EP_FromJoin) ) return 0;
  if( !sqlite3ExprIsInteger(p, &v) ) return 0;
  return v!=0;
}
static int exprAlwaysFalse(Expr *p){
  int v = 0;
  if( ExprHasProperty(p, EP_FromJoin) ) return 0;
  if( !sqlite3ExprIsInteger(p, &v) ) return 0;
  return v==0;
}

/*
** Join two expressions using an AND operator.  If either expression is
** NULL, then just return the other expression.
**
** If one side or the other of the AND is known to be false, then instead
** of returning an AND expression, just return a constant expression with
** a value of false.
*/
Expr *sqlite3ExprAnd(sqlite3 *db, Expr *pLeft, Expr *pRight){

  if( pLeft==0 ){
    return pRight;
  }else if( pRight==0 ){
    return pLeft;


  }else if( exprAlwaysFalse(pLeft) || exprAlwaysFalse(pRight) ){
    sqlite3ExprDelete(db, pLeft);
    sqlite3ExprDelete(db, pRight);
    return sqlite3ExprAlloc(db, TK_INTEGER, &sqlite3IntTokens[0], 0);
  }else{
    Expr *pNew = sqlite3ExprAlloc(db, TK_AND, 0, 0);
    sqlite3ExprAttachSubtrees(db, pNew, pLeft, pRight);
    return pNew;
  }
}

/*
** Construct a new expression node for a function with multiple
** arguments.
*/
................................................................................
int sqlite3ExprIdToTrueFalse(Expr *pExpr){
  assert( pExpr->op==TK_ID || pExpr->op==TK_STRING );
  if( !ExprHasProperty(pExpr, EP_Quoted)
   && (sqlite3StrICmp(pExpr->u.zToken, "true")==0
       || sqlite3StrICmp(pExpr->u.zToken, "false")==0)
  ){
    pExpr->op = TK_TRUEFALSE;

    return 1;
  }
  return 0;
}

/*
** The argument must be a TK_TRUEFALSE Expr node.  Return 1 if it is TRUE
................................................................................
*/
int sqlite3ExprTruthValue(const Expr *pExpr){
  assert( pExpr->op==TK_TRUEFALSE );
  assert( sqlite3StrICmp(pExpr->u.zToken,"true")==0
       || sqlite3StrICmp(pExpr->u.zToken,"false")==0 );
  return pExpr->u.zToken[4]==0;
}





























/*
** These routines are Walker callbacks used to check expressions to
** see if they are "constant" for some definition of constant.  The
** Walker.eCode value determines the type of "constant" we are looking
** for.
................................................................................
** If the expression p codes a constant integer that is small enough
** to fit in a 32-bit integer, return 1 and put the value of the integer
** in *pValue.  If the expression is not an integer or if it is too big
** to fit in a signed 32-bit integer, return 0 and leave *pValue unchanged.
*/
int sqlite3ExprIsInteger(Expr *p, int *pValue){
  int rc = 0;
  if( p==0 ) return 0;  /* Can only happen following on OOM */

  /* If an expression is an integer literal that fits in a signed 32-bit
  ** integer, then the EP_IntValue flag will have already been set */
  assert( p->op!=TK_INTEGER || (p->flags & EP_IntValue)!=0
           || sqlite3GetInt32(p->u.zToken, &rc)==0 );

  if( p->flags & EP_IntValue ){
................................................................................
  int r1, r2;

  assert( jumpIfNull==SQLITE_JUMPIFNULL || jumpIfNull==0 );
  if( NEVER(v==0) )     return;  /* Existence of VDBE checked by caller */
  if( NEVER(pExpr==0) ) return;  /* No way this can happen */
  op = pExpr->op;
  switch( op ){
    case TK_AND: {





      int d2 = sqlite3VdbeMakeLabel(pParse);
      testcase( jumpIfNull==0 );
      sqlite3ExprIfFalse(pParse, pExpr->pLeft, d2,jumpIfNull^SQLITE_JUMPIFNULL);

      sqlite3ExprIfTrue(pParse, pExpr->pRight, dest, jumpIfNull);
      sqlite3VdbeResolveLabel(v, d2);
      break;
    }
    case TK_OR: {

      testcase( jumpIfNull==0 );
      sqlite3ExprIfTrue(pParse, pExpr->pLeft, dest, jumpIfNull);
      sqlite3ExprIfTrue(pParse, pExpr->pRight, dest, jumpIfNull);

      break;
    }
    case TK_NOT: {
      testcase( jumpIfNull==0 );
      sqlite3ExprIfFalse(pParse, pExpr->pLeft, dest, jumpIfNull);
      break;
    }
................................................................................
      sqlite3VdbeGoto(v, dest);
      sqlite3VdbeResolveLabel(v, destIfFalse);
      break;
    }
#endif
    default: {
    default_expr:
      if( exprAlwaysTrue(pExpr) ){
        sqlite3VdbeGoto(v, dest);
      }else if( exprAlwaysFalse(pExpr) ){
        /* No-op */
      }else{
        r1 = sqlite3ExprCodeTemp(pParse, pExpr, &regFree1);
        sqlite3VdbeAddOp3(v, OP_If, r1, dest, jumpIfNull!=0);
        VdbeCoverage(v);
        testcase( regFree1==0 );
        testcase( jumpIfNull==0 );
................................................................................
  assert( pExpr->op!=TK_EQ || op==OP_Ne );
  assert( pExpr->op!=TK_LT || op==OP_Ge );
  assert( pExpr->op!=TK_LE || op==OP_Gt );
  assert( pExpr->op!=TK_GT || op==OP_Le );
  assert( pExpr->op!=TK_GE || op==OP_Lt );

  switch( pExpr->op ){
    case TK_AND: {





      testcase( jumpIfNull==0 );
      sqlite3ExprIfFalse(pParse, pExpr->pLeft, dest, jumpIfNull);
      sqlite3ExprIfFalse(pParse, pExpr->pRight, dest, jumpIfNull);
      break;
    }
    case TK_OR: {

      int d2 = sqlite3VdbeMakeLabel(pParse);
      testcase( jumpIfNull==0 );
      sqlite3ExprIfTrue(pParse, pExpr->pLeft, d2, jumpIfNull^SQLITE_JUMPIFNULL);

      sqlite3ExprIfFalse(pParse, pExpr->pRight, dest, jumpIfNull);
      sqlite3VdbeResolveLabel(v, d2);

      break;
    }
    case TK_NOT: {
      testcase( jumpIfNull==0 );
      sqlite3ExprIfTrue(pParse, pExpr->pLeft, dest, jumpIfNull);
      break;
    }
................................................................................
        sqlite3VdbeResolveLabel(v, destIfNull);
      }
      break;
    }
#endif
    default: {
    default_expr: 
      if( exprAlwaysFalse(pExpr) ){
        sqlite3VdbeGoto(v, dest);
      }else if( exprAlwaysTrue(pExpr) ){
        /* no-op */
      }else{
        r1 = sqlite3ExprCodeTemp(pParse, pExpr, &regFree1);
        sqlite3VdbeAddOp3(v, OP_IfNot, r1, dest, jumpIfNull!=0);
        VdbeCoverage(v);
        testcase( regFree1==0 );
        testcase( jumpIfNull==0 );
................................................................................
*/
int sqlite3ExprCompareSkip(Expr *pA, Expr *pB, int iTab){
  return sqlite3ExprCompare(0,
             sqlite3ExprSkipCollate(pA),
             sqlite3ExprSkipCollate(pB),
             iTab);
}







































































/*
** Return true if we can prove the pE2 will always be true if pE1 is
** true.  Return false if we cannot complete the proof or if pE2 might
** be false.  Examples:
**
**     pE1: x==5       pE2: x==5             Result: true
................................................................................
  }
  if( pE2->op==TK_OR
   && (sqlite3ExprImpliesExpr(pParse, pE1, pE2->pLeft, iTab)
             || sqlite3ExprImpliesExpr(pParse, pE1, pE2->pRight, iTab) )
  ){
    return 1;
  }
  if( pE2->op==TK_NOTNULL && pE1->op!=TK_ISNULL && pE1->op!=TK_IS ){
    Expr *pX = sqlite3ExprSkipCollate(pE1->pLeft);
    testcase( pX!=pE1->pLeft );
    if( sqlite3ExprCompare(pParse, pX, pE2->pLeft, iTab)==0 ) return 1;
  }
  return 0;
}

/*
** This is the Expr node callback for sqlite3ExprImpliesNotNullRow().
** If the expression node requires that the table at pWalker->iCur







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  pNew = sqlite3DbMallocRawNN(db, sizeof(Expr)+nExtra);
  if( pNew ){
    memset(pNew, 0, sizeof(Expr));
    pNew->op = (u8)op;
    pNew->iAgg = -1;
    if( pToken ){
      if( nExtra==0 ){
        pNew->flags |= EP_IntValue|EP_Leaf|(iValue?EP_IsTrue:EP_IsFalse);
        pNew->u.iValue = iValue;
      }else{
        pNew->u.zToken = (char*)&pNew[1];
        assert( pToken->z!=0 || pToken->n==0 );
        if( pToken->n ) memcpy(pNew->u.zToken, pToken->z, pToken->n);
        pNew->u.zToken[pToken->n] = 0;
        if( dequote && sqlite3Isquote(pNew->u.zToken[0]) ){
................................................................................
Expr *sqlite3PExpr(
  Parse *pParse,          /* Parsing context */
  int op,                 /* Expression opcode */
  Expr *pLeft,            /* Left operand */
  Expr *pRight            /* Right operand */
){
  Expr *p;




  p = sqlite3DbMallocRawNN(pParse->db, sizeof(Expr));
  if( p ){
    memset(p, 0, sizeof(Expr));
    p->op = op & 0xff;
    p->iAgg = -1;

    sqlite3ExprAttachSubtrees(pParse->db, p, pLeft, pRight);


    sqlite3ExprCheckHeight(pParse, p->nHeight);
  }else{
    sqlite3ExprDelete(pParse->db, pLeft);
    sqlite3ExprDelete(pParse->db, pRight);
  }
  return p;
}

/*
** Add pSelect to the Expr.x.pSelect field.  Or, if pExpr is NULL (due
** do a memory allocation failure) then delete the pSelect object.
................................................................................
  }else{
    assert( pParse->db->mallocFailed );
    sqlite3SelectDelete(pParse->db, pSelect);
  }
}





























/*
** Join two expressions using an AND operator.  If either expression is
** NULL, then just return the other expression.
**
** If one side or the other of the AND is known to be false, then instead
** of returning an AND expression, just return a constant expression with
** a value of false.
*/
Expr *sqlite3ExprAnd(Parse *pParse, Expr *pLeft, Expr *pRight){
  sqlite3 *db = pParse->db;
  if( pLeft==0  ){
    return pRight;
  }else if( pRight==0 ){
    return pLeft;
  }else if( pParse->nErr || IN_RENAME_OBJECT ){
    return sqlite3PExpr(pParse, TK_AND, pLeft, pRight);
  }else if( ExprAlwaysFalse(pLeft) || ExprAlwaysFalse(pRight) ){
    sqlite3ExprDelete(db, pLeft);
    sqlite3ExprDelete(db, pRight);
    return sqlite3ExprAlloc(db, TK_INTEGER, &sqlite3IntTokens[0], 0);
  }else{
    return sqlite3PExpr(pParse, TK_AND, pLeft, pRight);


  }
}

/*
** Construct a new expression node for a function with multiple
** arguments.
*/
................................................................................
int sqlite3ExprIdToTrueFalse(Expr *pExpr){
  assert( pExpr->op==TK_ID || pExpr->op==TK_STRING );
  if( !ExprHasProperty(pExpr, EP_Quoted)
   && (sqlite3StrICmp(pExpr->u.zToken, "true")==0
       || sqlite3StrICmp(pExpr->u.zToken, "false")==0)
  ){
    pExpr->op = TK_TRUEFALSE;
    ExprSetProperty(pExpr, pExpr->u.zToken[4]==0 ? EP_IsTrue : EP_IsFalse);
    return 1;
  }
  return 0;
}

/*
** The argument must be a TK_TRUEFALSE Expr node.  Return 1 if it is TRUE
................................................................................
*/
int sqlite3ExprTruthValue(const Expr *pExpr){
  assert( pExpr->op==TK_TRUEFALSE );
  assert( sqlite3StrICmp(pExpr->u.zToken,"true")==0
       || sqlite3StrICmp(pExpr->u.zToken,"false")==0 );
  return pExpr->u.zToken[4]==0;
}

/*
** If pExpr is an AND or OR expression, try to simplify it by eliminating
** terms that are always true or false.  Return the simplified expression.
** Or return the original expression if no simplification is possible.
**
** Examples:
**
**     (x<10) AND true                =>   (x<10)
**     (x<10) AND false               =>   false
**     (x<10) AND (y=22 OR false)     =>   (x<10) AND (y=22)
**     (x<10) AND (y=22 OR true)      =>   (x<10)
**     (y=22) OR true                 =>   true
*/
Expr *sqlite3ExprSimplifiedAndOr(Expr *pExpr){
  assert( pExpr!=0 );
  if( pExpr->op==TK_AND || pExpr->op==TK_OR ){
    Expr *pRight = sqlite3ExprSimplifiedAndOr(pExpr->pRight);
    Expr *pLeft = sqlite3ExprSimplifiedAndOr(pExpr->pLeft);
    if( ExprAlwaysTrue(pLeft) || ExprAlwaysFalse(pRight) ){
      pExpr = pExpr->op==TK_AND ? pRight : pLeft;
    }else if( ExprAlwaysTrue(pRight) || ExprAlwaysFalse(pLeft) ){
      pExpr = pExpr->op==TK_AND ? pLeft : pRight;
    }
  }
  return pExpr;
}


/*
** These routines are Walker callbacks used to check expressions to
** see if they are "constant" for some definition of constant.  The
** Walker.eCode value determines the type of "constant" we are looking
** for.
................................................................................
** If the expression p codes a constant integer that is small enough
** to fit in a 32-bit integer, return 1 and put the value of the integer
** in *pValue.  If the expression is not an integer or if it is too big
** to fit in a signed 32-bit integer, return 0 and leave *pValue unchanged.
*/
int sqlite3ExprIsInteger(Expr *p, int *pValue){
  int rc = 0;
  if( NEVER(p==0) ) return 0;  /* Used to only happen following on OOM */

  /* If an expression is an integer literal that fits in a signed 32-bit
  ** integer, then the EP_IntValue flag will have already been set */
  assert( p->op!=TK_INTEGER || (p->flags & EP_IntValue)!=0
           || sqlite3GetInt32(p->u.zToken, &rc)==0 );

  if( p->flags & EP_IntValue ){
................................................................................
  int r1, r2;

  assert( jumpIfNull==SQLITE_JUMPIFNULL || jumpIfNull==0 );
  if( NEVER(v==0) )     return;  /* Existence of VDBE checked by caller */
  if( NEVER(pExpr==0) ) return;  /* No way this can happen */
  op = pExpr->op;
  switch( op ){
    case TK_AND:
    case TK_OR: {
      Expr *pAlt = sqlite3ExprSimplifiedAndOr(pExpr);
      if( pAlt!=pExpr ){
        sqlite3ExprIfTrue(pParse, pAlt, dest, jumpIfNull);
      }else if( op==TK_AND ){
        int d2 = sqlite3VdbeMakeLabel(pParse);
        testcase( jumpIfNull==0 );
        sqlite3ExprIfFalse(pParse, pExpr->pLeft, d2,
                           jumpIfNull^SQLITE_JUMPIFNULL);
        sqlite3ExprIfTrue(pParse, pExpr->pRight, dest, jumpIfNull);
        sqlite3VdbeResolveLabel(v, d2);



      }else{
        testcase( jumpIfNull==0 );
        sqlite3ExprIfTrue(pParse, pExpr->pLeft, dest, jumpIfNull);
        sqlite3ExprIfTrue(pParse, pExpr->pRight, dest, jumpIfNull);
      }
      break;
    }
    case TK_NOT: {
      testcase( jumpIfNull==0 );
      sqlite3ExprIfFalse(pParse, pExpr->pLeft, dest, jumpIfNull);
      break;
    }
................................................................................
      sqlite3VdbeGoto(v, dest);
      sqlite3VdbeResolveLabel(v, destIfFalse);
      break;
    }
#endif
    default: {
    default_expr:
      if( ExprAlwaysTrue(pExpr) ){
        sqlite3VdbeGoto(v, dest);
      }else if( ExprAlwaysFalse(pExpr) ){
        /* No-op */
      }else{
        r1 = sqlite3ExprCodeTemp(pParse, pExpr, &regFree1);
        sqlite3VdbeAddOp3(v, OP_If, r1, dest, jumpIfNull!=0);
        VdbeCoverage(v);
        testcase( regFree1==0 );
        testcase( jumpIfNull==0 );
................................................................................
  assert( pExpr->op!=TK_EQ || op==OP_Ne );
  assert( pExpr->op!=TK_LT || op==OP_Ge );
  assert( pExpr->op!=TK_LE || op==OP_Gt );
  assert( pExpr->op!=TK_GT || op==OP_Le );
  assert( pExpr->op!=TK_GE || op==OP_Lt );

  switch( pExpr->op ){
    case TK_AND:
    case TK_OR: {
      Expr *pAlt = sqlite3ExprSimplifiedAndOr(pExpr);
      if( pAlt!=pExpr ){
        sqlite3ExprIfFalse(pParse, pAlt, dest, jumpIfNull);
      }else if( pExpr->op==TK_AND ){
        testcase( jumpIfNull==0 );
        sqlite3ExprIfFalse(pParse, pExpr->pLeft, dest, jumpIfNull);
        sqlite3ExprIfFalse(pParse, pExpr->pRight, dest, jumpIfNull);



      }else{
        int d2 = sqlite3VdbeMakeLabel(pParse);
        testcase( jumpIfNull==0 );
        sqlite3ExprIfTrue(pParse, pExpr->pLeft, d2,
                          jumpIfNull^SQLITE_JUMPIFNULL);
        sqlite3ExprIfFalse(pParse, pExpr->pRight, dest, jumpIfNull);
        sqlite3VdbeResolveLabel(v, d2);
      }
      break;
    }
    case TK_NOT: {
      testcase( jumpIfNull==0 );
      sqlite3ExprIfTrue(pParse, pExpr->pLeft, dest, jumpIfNull);
      break;
    }
................................................................................
        sqlite3VdbeResolveLabel(v, destIfNull);
      }
      break;
    }
#endif
    default: {
    default_expr: 
      if( ExprAlwaysFalse(pExpr) ){
        sqlite3VdbeGoto(v, dest);
      }else if( ExprAlwaysTrue(pExpr) ){
        /* no-op */
      }else{
        r1 = sqlite3ExprCodeTemp(pParse, pExpr, &regFree1);
        sqlite3VdbeAddOp3(v, OP_IfNot, r1, dest, jumpIfNull!=0);
        VdbeCoverage(v);
        testcase( regFree1==0 );
        testcase( jumpIfNull==0 );
................................................................................
*/
int sqlite3ExprCompareSkip(Expr *pA, Expr *pB, int iTab){
  return sqlite3ExprCompare(0,
             sqlite3ExprSkipCollate(pA),
             sqlite3ExprSkipCollate(pB),
             iTab);
}

/*
** Return non-zero if Expr p can only be true if pNN is not NULL.
*/
static int exprImpliesNotNull(
  Parse *pParse,      /* Parsing context */
  Expr *p,            /* The expression to be checked */
  Expr *pNN,          /* The expression that is NOT NULL */
  int iTab,           /* Table being evaluated */
  int seenNot         /* True if p is an operand of NOT */
){
  assert( p );
  assert( pNN );
  if( sqlite3ExprCompare(pParse, p, pNN, iTab)==0 ) return 1;
  switch( p->op ){
    case TK_IN: {
      if( seenNot && ExprHasProperty(p, EP_xIsSelect) ) return 0;
      assert( ExprHasProperty(p,EP_xIsSelect)
           || (p->x.pList!=0 && p->x.pList->nExpr>0) );
      return exprImpliesNotNull(pParse, p->pLeft, pNN, iTab, seenNot);
    }
    case TK_BETWEEN: {
      ExprList *pList = p->x.pList;
      assert( pList!=0 );
      assert( pList->nExpr==2 );
      if( seenNot ) return 0;
      if( exprImpliesNotNull(pParse, pList->a[0].pExpr, pNN, iTab, seenNot)
       || exprImpliesNotNull(pParse, pList->a[1].pExpr, pNN, iTab, seenNot)
      ){
        return 1;
      }
      return exprImpliesNotNull(pParse, p->pLeft, pNN, iTab, seenNot);
    }
    case TK_EQ:
    case TK_NE:
    case TK_LT:
    case TK_LE:
    case TK_GT:
    case TK_GE:
    case TK_PLUS:
    case TK_MINUS:
    case TK_STAR:
    case TK_REM:
    case TK_BITAND:
    case TK_BITOR:
    case TK_SLASH:
    case TK_LSHIFT:
    case TK_RSHIFT: 
    case TK_CONCAT: {
      if( exprImpliesNotNull(pParse, p->pRight, pNN, iTab, seenNot) ) return 1;
      /* Fall thru into the next case */
    }
    case TK_SPAN:
    case TK_COLLATE:
    case TK_BITNOT:
    case TK_UPLUS:
    case TK_UMINUS: {
      return exprImpliesNotNull(pParse, p->pLeft, pNN, iTab, seenNot);
    }
    case TK_TRUTH: {
      if( seenNot ) return 0;
      if( p->op2!=TK_IS ) return 0;
      return exprImpliesNotNull(pParse, p->pLeft, pNN, iTab, seenNot);
    }
    case TK_NOT: {
      return exprImpliesNotNull(pParse, p->pLeft, pNN, iTab, 1);
    }
  }
  return 0;
}

/*
** Return true if we can prove the pE2 will always be true if pE1 is
** true.  Return false if we cannot complete the proof or if pE2 might
** be false.  Examples:
**
**     pE1: x==5       pE2: x==5             Result: true
................................................................................
  }
  if( pE2->op==TK_OR
   && (sqlite3ExprImpliesExpr(pParse, pE1, pE2->pLeft, iTab)
             || sqlite3ExprImpliesExpr(pParse, pE1, pE2->pRight, iTab) )
  ){
    return 1;
  }
  if( pE2->op==TK_NOTNULL
   && exprImpliesNotNull(pParse, pE1, pE2->pLeft, iTab, 0)
  ){
    return 1;
  }
  return 0;
}

/*
** This is the Expr node callback for sqlite3ExprImpliesNotNullRow().
** If the expression node requires that the table at pWalker->iCur

Changes to src/fkey.c.

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623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
....
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
....
1247
1248
1249
1250
1251
1252
1253
1254
1255
1256
1257
1258
1259
1260
1261
    iCol = pIdx ? pIdx->aiColumn[i] : -1;
    pLeft = exprTableRegister(pParse, pTab, regData, iCol);
    iCol = aiCol ? aiCol[i] : pFKey->aCol[0].iFrom;
    assert( iCol>=0 );
    zCol = pFKey->pFrom->aCol[iCol].zName;
    pRight = sqlite3Expr(db, TK_ID, zCol);
    pEq = sqlite3PExpr(pParse, TK_EQ, pLeft, pRight);
    pWhere = sqlite3ExprAnd(db, pWhere, pEq);
  }

  /* If the child table is the same as the parent table, then add terms
  ** to the WHERE clause that prevent this entry from being scanned.
  ** The added WHERE clause terms are like this:
  **
  **     $current_rowid!=rowid
................................................................................
      assert( pIdx!=0 );
      for(i=0; i<pIdx->nKeyCol; i++){
        i16 iCol = pIdx->aiColumn[i];
        assert( iCol>=0 );
        pLeft = exprTableRegister(pParse, pTab, regData, iCol);
        pRight = sqlite3Expr(db, TK_ID, pTab->aCol[iCol].zName);
        pEq = sqlite3PExpr(pParse, TK_IS, pLeft, pRight);
        pAll = sqlite3ExprAnd(db, pAll, pEq);
      }
      pNe = sqlite3PExpr(pParse, TK_NOT, pAll, 0);
    }
    pWhere = sqlite3ExprAnd(db, pWhere, pNe);
  }

  /* Resolve the references in the WHERE clause. */
  memset(&sNameContext, 0, sizeof(NameContext));
  sNameContext.pSrcList = pSrc;
  sNameContext.pParse = pParse;
  sqlite3ResolveExprNames(&sNameContext, pWhere);
................................................................................
      ** parent table are used for the comparison. */
      pEq = sqlite3PExpr(pParse, TK_EQ,
          sqlite3PExpr(pParse, TK_DOT, 
            sqlite3ExprAlloc(db, TK_ID, &tOld, 0),
            sqlite3ExprAlloc(db, TK_ID, &tToCol, 0)),
          sqlite3ExprAlloc(db, TK_ID, &tFromCol, 0)
      );
      pWhere = sqlite3ExprAnd(db, pWhere, pEq);

      /* For ON UPDATE, construct the next term of the WHEN clause.
      ** The final WHEN clause will be like this:
      **
      **    WHEN NOT(old.col1 IS new.col1 AND ... AND old.colN IS new.colN)
      */
      if( pChanges ){
................................................................................
            sqlite3PExpr(pParse, TK_DOT, 
              sqlite3ExprAlloc(db, TK_ID, &tOld, 0),
              sqlite3ExprAlloc(db, TK_ID, &tToCol, 0)),
            sqlite3PExpr(pParse, TK_DOT, 
              sqlite3ExprAlloc(db, TK_ID, &tNew, 0),
              sqlite3ExprAlloc(db, TK_ID, &tToCol, 0))
            );
        pWhen = sqlite3ExprAnd(db, pWhen, pEq);
      }
  
      if( action!=OE_Restrict && (action!=OE_Cascade || pChanges) ){
        Expr *pNew;
        if( action==OE_Cascade ){
          pNew = sqlite3PExpr(pParse, TK_DOT, 
            sqlite3ExprAlloc(db, TK_ID, &tNew, 0),







|







 







|



|







 







|







 







|







587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
...
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
....
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
1244
1245
....
1247
1248
1249
1250
1251
1252
1253
1254
1255
1256
1257
1258
1259
1260
1261
    iCol = pIdx ? pIdx->aiColumn[i] : -1;
    pLeft = exprTableRegister(pParse, pTab, regData, iCol);
    iCol = aiCol ? aiCol[i] : pFKey->aCol[0].iFrom;
    assert( iCol>=0 );
    zCol = pFKey->pFrom->aCol[iCol].zName;
    pRight = sqlite3Expr(db, TK_ID, zCol);
    pEq = sqlite3PExpr(pParse, TK_EQ, pLeft, pRight);
    pWhere = sqlite3ExprAnd(pParse, pWhere, pEq);
  }

  /* If the child table is the same as the parent table, then add terms
  ** to the WHERE clause that prevent this entry from being scanned.
  ** The added WHERE clause terms are like this:
  **
  **     $current_rowid!=rowid
................................................................................
      assert( pIdx!=0 );
      for(i=0; i<pIdx->nKeyCol; i++){
        i16 iCol = pIdx->aiColumn[i];
        assert( iCol>=0 );
        pLeft = exprTableRegister(pParse, pTab, regData, iCol);
        pRight = sqlite3Expr(db, TK_ID, pTab->aCol[iCol].zName);
        pEq = sqlite3PExpr(pParse, TK_IS, pLeft, pRight);
        pAll = sqlite3ExprAnd(pParse, pAll, pEq);
      }
      pNe = sqlite3PExpr(pParse, TK_NOT, pAll, 0);
    }
    pWhere = sqlite3ExprAnd(pParse, pWhere, pNe);
  }

  /* Resolve the references in the WHERE clause. */
  memset(&sNameContext, 0, sizeof(NameContext));
  sNameContext.pSrcList = pSrc;
  sNameContext.pParse = pParse;
  sqlite3ResolveExprNames(&sNameContext, pWhere);
................................................................................
      ** parent table are used for the comparison. */
      pEq = sqlite3PExpr(pParse, TK_EQ,
          sqlite3PExpr(pParse, TK_DOT, 
            sqlite3ExprAlloc(db, TK_ID, &tOld, 0),
            sqlite3ExprAlloc(db, TK_ID, &tToCol, 0)),
          sqlite3ExprAlloc(db, TK_ID, &tFromCol, 0)
      );
      pWhere = sqlite3ExprAnd(pParse, pWhere, pEq);

      /* For ON UPDATE, construct the next term of the WHEN clause.
      ** The final WHEN clause will be like this:
      **
      **    WHEN NOT(old.col1 IS new.col1 AND ... AND old.colN IS new.colN)
      */
      if( pChanges ){
................................................................................
            sqlite3PExpr(pParse, TK_DOT, 
              sqlite3ExprAlloc(db, TK_ID, &tOld, 0),
              sqlite3ExprAlloc(db, TK_ID, &tToCol, 0)),
            sqlite3PExpr(pParse, TK_DOT, 
              sqlite3ExprAlloc(db, TK_ID, &tNew, 0),
              sqlite3ExprAlloc(db, TK_ID, &tToCol, 0))
            );
        pWhen = sqlite3ExprAnd(pParse, pWhen, pEq);
      }
  
      if( action!=OE_Restrict && (action!=OE_Cascade || pChanges) ){
        Expr *pNew;
        if( action==OE_Cascade ){
          pNew = sqlite3PExpr(pParse, TK_DOT, 
            sqlite3ExprAlloc(db, TK_ID, &tNew, 0),

Changes to src/func.c.

12
13
14
15
16
17
18

19
20
21
22
23
24
25
...
392
393
394
395
396
397
398
399



400
401
402
403
404
405
406
...
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
...
871
872
873
874
875
876
877


878
879
880
881
882
883
884
....
1796
1797
1798
1799
1800
1801
1802
1803
1804
1805
1806
1807
1808
1809
1810
1811
1812
1813
1814
1815
1816
1817
1818
1819
1820
1821
1822
1823

1824
1825

1826
1827

1828
1829
1830
1831
1832
1833
1834
1835
1836
1837
1838
1839
1840
1841
1842
** This file contains the C-language implementations for many of the SQL
** functions of SQLite.  (Some function, and in particular the date and
** time functions, are implemented separately.)
*/
#include "sqliteInt.h"
#include <stdlib.h>
#include <assert.h>

#include "vdbeInt.h"

/*
** Return the collating function associated with a function.
*/
static CollSeq *sqlite3GetFuncCollSeq(sqlite3_context *context){
  VdbeOp *pOp;
................................................................................
    r = -(double)((sqlite_int64)((-r)+0.5));
  }else{
    zBuf = sqlite3_mprintf("%.*f",n,r);
    if( zBuf==0 ){
      sqlite3_result_error_nomem(context);
      return;
    }
    sqlite3AtoF(zBuf, &r, sqlite3Strlen30(zBuf), SQLITE_UTF8);



    sqlite3_free(zBuf);
  }
  sqlite3_result_double(context, r);
}
#endif

/*
................................................................................
#ifdef SQLITE_TEST
    sqlite3_like_count++;
#endif
    sqlite3_result_int(context, 0);
    return;
  }
#endif
  zB = sqlite3_value_text(argv[0]);
  zA = sqlite3_value_text(argv[1]);

  /* Limit the length of the LIKE or GLOB pattern to avoid problems
  ** of deep recursion and N*N behavior in patternCompare().
  */
  nPat = sqlite3_value_bytes(argv[0]);
  testcase( nPat==db->aLimit[SQLITE_LIMIT_LIKE_PATTERN_LENGTH] );
  testcase( nPat==db->aLimit[SQLITE_LIMIT_LIKE_PATTERN_LENGTH]+1 );
  if( nPat > db->aLimit[SQLITE_LIMIT_LIKE_PATTERN_LENGTH] ){
    sqlite3_result_error(context, "LIKE or GLOB pattern too complex", -1);
    return;
  }
  assert( zB==sqlite3_value_text(argv[0]) );  /* Encoding did not change */

  if( argc==3 ){
    /* The escape character string must consist of a single UTF-8 character.
    ** Otherwise, return an error.
    */
    const unsigned char *zEsc = sqlite3_value_text(argv[2]);
    if( zEsc==0 ) return;
    if( sqlite3Utf8CharLen((char*)zEsc, -1)!=1 ){
................................................................................
          "ESCAPE expression must be a single character", -1);
      return;
    }
    escape = sqlite3Utf8Read(&zEsc);
  }else{
    escape = pInfo->matchSet;
  }


  if( zA && zB ){
#ifdef SQLITE_TEST
    sqlite3_like_count++;
#endif
    sqlite3_result_int(context,
                      patternCompare(zB, zA, pInfo, escape)==SQLITE_MATCH);
  }
................................................................................
  assert( rc==SQLITE_NOMEM || rc==SQLITE_OK );
  if( rc==SQLITE_NOMEM ){
    sqlite3OomFault(db);
  }
}

/*
** Set the LIKEOPT flag on the 2-argument function with the given name.
*/
static void setLikeOptFlag(sqlite3 *db, const char *zName, u8 flagVal){
  FuncDef *pDef;
  pDef = sqlite3FindFunction(db, zName, 2, SQLITE_UTF8, 0);
  if( ALWAYS(pDef) ){
    pDef->funcFlags |= flagVal;
  }
  pDef = sqlite3FindFunction(db, zName, 3, SQLITE_UTF8, 0);
  if( pDef ){
    pDef->funcFlags |= flagVal;
  }
}

/*
** Register the built-in LIKE and GLOB functions.  The caseSensitive
** parameter determines whether or not the LIKE operator is case
** sensitive.  GLOB is always case sensitive.
*/
void sqlite3RegisterLikeFunctions(sqlite3 *db, int caseSensitive){
  struct compareInfo *pInfo;

  if( caseSensitive ){
    pInfo = (struct compareInfo*)&likeInfoAlt;

  }else{
    pInfo = (struct compareInfo*)&likeInfoNorm;

  }
  sqlite3CreateFunc(db, "like", 2, SQLITE_UTF8, pInfo, likeFunc, 0, 0, 0, 0, 0);
  sqlite3CreateFunc(db, "like", 3, SQLITE_UTF8, pInfo, likeFunc, 0, 0, 0, 0, 0);
  sqlite3CreateFunc(db, "glob", 2, SQLITE_UTF8, 
      (struct compareInfo*)&globInfo, likeFunc, 0, 0, 0, 0, 0);
  setLikeOptFlag(db, "glob", SQLITE_FUNC_LIKE | SQLITE_FUNC_CASE);
  setLikeOptFlag(db, "like", 
      caseSensitive ? (SQLITE_FUNC_LIKE | SQLITE_FUNC_CASE) : SQLITE_FUNC_LIKE);
}

/*
** pExpr points to an expression which implements a function.  If
** it is appropriate to apply the LIKE optimization to that function
** then set aWc[0] through aWc[2] to the wildcard characters and the
** escape character and then return TRUE.  If the function is not a 







>







 







|
>
>
>







 







<
<











<
<







 







>
>







 







<
<
<
<
<
<
<
<
<
<
<
<
<
<
<
|

|



>


>


>



|
|
<
<
<







12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
...
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
...
845
846
847
848
849
850
851


852
853
854
855
856
857
858
859
860
861
862


863
864
865
866
867
868
869
...
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
....
1798
1799
1800
1801
1802
1803
1804















1805
1806
1807
1808
1809
1810
1811
1812
1813
1814
1815
1816
1817
1818
1819
1820
1821
1822



1823
1824
1825
1826
1827
1828
1829
** This file contains the C-language implementations for many of the SQL
** functions of SQLite.  (Some function, and in particular the date and
** time functions, are implemented separately.)
*/
#include "sqliteInt.h"
#include <stdlib.h>
#include <assert.h>
#include <math.h>
#include "vdbeInt.h"

/*
** Return the collating function associated with a function.
*/
static CollSeq *sqlite3GetFuncCollSeq(sqlite3_context *context){
  VdbeOp *pOp;
................................................................................
    r = -(double)((sqlite_int64)((-r)+0.5));
  }else{
    zBuf = sqlite3_mprintf("%.*f",n,r);
    if( zBuf==0 ){
      sqlite3_result_error_nomem(context);
      return;
    }
    if( !sqlite3AtoF(zBuf, &r, sqlite3Strlen30(zBuf), SQLITE_UTF8) ){
      assert( sqlite3_strglob("*Inf", zBuf)==0 );
      r = zBuf[0]=='-' ? -HUGE_VAL : +HUGE_VAL;
    } 
    sqlite3_free(zBuf);
  }
  sqlite3_result_double(context, r);
}
#endif

/*
................................................................................
#ifdef SQLITE_TEST
    sqlite3_like_count++;
#endif
    sqlite3_result_int(context, 0);
    return;
  }
#endif



  /* Limit the length of the LIKE or GLOB pattern to avoid problems
  ** of deep recursion and N*N behavior in patternCompare().
  */
  nPat = sqlite3_value_bytes(argv[0]);
  testcase( nPat==db->aLimit[SQLITE_LIMIT_LIKE_PATTERN_LENGTH] );
  testcase( nPat==db->aLimit[SQLITE_LIMIT_LIKE_PATTERN_LENGTH]+1 );
  if( nPat > db->aLimit[SQLITE_LIMIT_LIKE_PATTERN_LENGTH] ){
    sqlite3_result_error(context, "LIKE or GLOB pattern too complex", -1);
    return;
  }


  if( argc==3 ){
    /* The escape character string must consist of a single UTF-8 character.
    ** Otherwise, return an error.
    */
    const unsigned char *zEsc = sqlite3_value_text(argv[2]);
    if( zEsc==0 ) return;
    if( sqlite3Utf8CharLen((char*)zEsc, -1)!=1 ){
................................................................................
          "ESCAPE expression must be a single character", -1);
      return;
    }
    escape = sqlite3Utf8Read(&zEsc);
  }else{
    escape = pInfo->matchSet;
  }
  zB = sqlite3_value_text(argv[0]);
  zA = sqlite3_value_text(argv[1]);
  if( zA && zB ){
#ifdef SQLITE_TEST
    sqlite3_like_count++;
#endif
    sqlite3_result_int(context,
                      patternCompare(zB, zA, pInfo, escape)==SQLITE_MATCH);
  }
................................................................................
  assert( rc==SQLITE_NOMEM || rc==SQLITE_OK );
  if( rc==SQLITE_NOMEM ){
    sqlite3OomFault(db);
  }
}

/*















** Re-register the built-in LIKE functions.  The caseSensitive
** parameter determines whether or not the LIKE operator is case
** sensitive.
*/
void sqlite3RegisterLikeFunctions(sqlite3 *db, int caseSensitive){
  struct compareInfo *pInfo;
  int flags;
  if( caseSensitive ){
    pInfo = (struct compareInfo*)&likeInfoAlt;
    flags = SQLITE_FUNC_LIKE | SQLITE_FUNC_CASE;
  }else{
    pInfo = (struct compareInfo*)&likeInfoNorm;
    flags = SQLITE_FUNC_LIKE;
  }
  sqlite3CreateFunc(db, "like", 2, SQLITE_UTF8, pInfo, likeFunc, 0, 0, 0, 0, 0);
  sqlite3CreateFunc(db, "like", 3, SQLITE_UTF8, pInfo, likeFunc, 0, 0, 0, 0, 0);
  sqlite3FindFunction(db, "like", 2, SQLITE_UTF8, 0)->funcFlags |= flags;
  sqlite3FindFunction(db, "like", 3, SQLITE_UTF8, 0)->funcFlags |= flags;



}

/*
** pExpr points to an expression which implements a function.  If
** it is appropriate to apply the LIKE optimization to that function
** then set aWc[0] through aWc[2] to the wildcard characters and the
** escape character and then return TRUE.  If the function is not a 

Changes to src/insert.c.

810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825

826
827
828
829
830
831
832
....
1221
1222
1223
1224
1225
1226
1227








1228
1229
1230
1231
1232
1233
1234
....
1840
1841
1842
1843
1844
1845
1846










1847
1848
1849
1850
1851
1852
1853
....
1890
1891
1892
1893
1894
1895
1896
1897
1898
1899
1900
1901
1902
1903
1904
1905
1906
1907
1908
1909
1910
1911
1912
1913
1914
1915
1916
1917
1918
1919
....
1933
1934
1935
1936
1937
1938
1939
1940
1941
1942
1943
1944
1945
1946
1947
1948
1949
1950
1951
1952
1953
1954
1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
  }

  /* If this is not a view, open the table and and all indices */
  if( !isView ){
    int nIdx;
    nIdx = sqlite3OpenTableAndIndices(pParse, pTab, OP_OpenWrite, 0, -1, 0,
                                      &iDataCur, &iIdxCur);
    aRegIdx = sqlite3DbMallocRawNN(db, sizeof(int)*(nIdx+1));
    if( aRegIdx==0 ){
      goto insert_cleanup;
    }
    for(i=0, pIdx=pTab->pIndex; i<nIdx; pIdx=pIdx->pNext, i++){
      assert( pIdx );
      aRegIdx[i] = ++pParse->nMem;
      pParse->nMem += pIdx->nColumn;
    }

  }
#ifndef SQLITE_OMIT_UPSERT
  if( pUpsert ){
    if( IsVirtual(pTab) ){
      sqlite3ErrorMsg(pParse, "UPSERT not implemented for virtual table \"%s\"",
              pTab->zName);
      goto insert_cleanup;
................................................................................
** value for either the rowid column or its INTEGER PRIMARY KEY alias.
**
** The code generated by this routine will store new index entries into
** registers identified by aRegIdx[].  No index entry is created for
** indices where aRegIdx[i]==0.  The order of indices in aRegIdx[] is
** the same as the order of indices on the linked list of indices
** at pTab->pIndex.








**
** The caller must have already opened writeable cursors on the main
** table and all applicable indices (that is to say, all indices for which
** aRegIdx[] is not zero).  iDataCur is the cursor for the main table when
** inserting or updating a rowid table, or the cursor for the PRIMARY KEY
** index when operating on a WITHOUT ROWID table.  iIdxCur is the cursor
** for the first index in the pTab->pIndex list.  Cursors for other indices
................................................................................

  /* If the IPK constraint is a REPLACE, run it last */
  if( ipkTop ){
    sqlite3VdbeGoto(v, ipkTop);
    VdbeComment((v, "Do IPK REPLACE"));
    sqlite3VdbeJumpHere(v, ipkBottom);
  }











  *pbMayReplace = seenReplace;
  VdbeModuleComment((v, "END: GenCnstCks(%d)", seenReplace));
}

#ifdef SQLITE_ENABLE_NULL_TRIM
/*
................................................................................
  int update_flags,   /* True for UPDATE, False for INSERT */
  int appendBias,     /* True if this is likely to be an append */
  int useSeekResult   /* True to set the USESEEKRESULT flag on OP_[Idx]Insert */
){
  Vdbe *v;            /* Prepared statements under construction */
  Index *pIdx;        /* An index being inserted or updated */
  u8 pik_flags;       /* flag values passed to the btree insert */
  int regData;        /* Content registers (after the rowid) */
  int regRec;         /* Register holding assembled record for the table */
  int i;              /* Loop counter */
  u8 bAffinityDone = 0; /* True if OP_Affinity has been run already */

  assert( update_flags==0
       || update_flags==OPFLAG_ISUPDATE
       || update_flags==(OPFLAG_ISUPDATE|OPFLAG_SAVEPOSITION)
  );

  v = sqlite3GetVdbe(pParse);
  assert( v!=0 );
  assert( pTab->pSelect==0 );  /* This table is not a VIEW */
  for(i=0, pIdx=pTab->pIndex; pIdx; pIdx=pIdx->pNext, i++){
    if( aRegIdx[i]==0 ) continue;
    bAffinityDone = 1;
    if( pIdx->pPartIdxWhere ){
      sqlite3VdbeAddOp2(v, OP_IsNull, aRegIdx[i], sqlite3VdbeCurrentAddr(v)+2);
      VdbeCoverage(v);
    }
    pik_flags = (useSeekResult ? OPFLAG_USESEEKRESULT : 0);
    if( IsPrimaryKeyIndex(pIdx) && !HasRowid(pTab) ){
      assert( pParse->nested==0 );
................................................................................
    }
    sqlite3VdbeAddOp4Int(v, OP_IdxInsert, iIdxCur+i, aRegIdx[i],
                         aRegIdx[i]+1,
                         pIdx->uniqNotNull ? pIdx->nKeyCol: pIdx->nColumn);
    sqlite3VdbeChangeP5(v, pik_flags);
  }
  if( !HasRowid(pTab) ) return;
  regData = regNewData + 1;
  regRec = sqlite3GetTempReg(pParse);
  sqlite3VdbeAddOp3(v, OP_MakeRecord, regData, pTab->nCol, regRec);
  sqlite3SetMakeRecordP5(v, pTab);
  if( !bAffinityDone ){
    sqlite3TableAffinity(v, pTab, 0);
  }
  if( pParse->nested ){
    pik_flags = 0;
  }else{
    pik_flags = OPFLAG_NCHANGE;
    pik_flags |= (update_flags?update_flags:OPFLAG_LASTROWID);
  }
  if( appendBias ){
    pik_flags |= OPFLAG_APPEND;
  }
  if( useSeekResult ){
    pik_flags |= OPFLAG_USESEEKRESULT;
  }
  sqlite3VdbeAddOp3(v, OP_Insert, iDataCur, regRec, regNewData);
  if( !pParse->nested ){
    sqlite3VdbeAppendP4(v, pTab, P4_TABLE);
  }
  sqlite3VdbeChangeP5(v, pik_flags);
}

/*







|








>







 







>
>
>
>
>
>
>
>







 







>
>
>
>
>
>
>
>
>
>







 







<
<

<











<







 







<
<
<
<
<
<
<












|







810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
....
1222
1223
1224
1225
1226
1227
1228
1229
1230
1231
1232
1233
1234
1235
1236
1237
1238
1239
1240
1241
1242
1243
....
1849
1850
1851
1852
1853
1854
1855
1856
1857
1858
1859
1860
1861
1862
1863
1864
1865
1866
1867
1868
1869
1870
1871
1872
....
1909
1910
1911
1912
1913
1914
1915


1916

1917
1918
1919
1920
1921
1922
1923
1924
1925
1926
1927

1928
1929
1930
1931
1932
1933
1934
....
1948
1949
1950
1951
1952
1953
1954







1955
1956
1957
1958
1959
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
  }

  /* If this is not a view, open the table and and all indices */
  if( !isView ){
    int nIdx;
    nIdx = sqlite3OpenTableAndIndices(pParse, pTab, OP_OpenWrite, 0, -1, 0,
                                      &iDataCur, &iIdxCur);
    aRegIdx = sqlite3DbMallocRawNN(db, sizeof(int)*(nIdx+2));
    if( aRegIdx==0 ){
      goto insert_cleanup;
    }
    for(i=0, pIdx=pTab->pIndex; i<nIdx; pIdx=pIdx->pNext, i++){
      assert( pIdx );
      aRegIdx[i] = ++pParse->nMem;
      pParse->nMem += pIdx->nColumn;
    }
    aRegIdx[i] = ++pParse->nMem;  /* Register to store the table record */
  }
#ifndef SQLITE_OMIT_UPSERT
  if( pUpsert ){
    if( IsVirtual(pTab) ){
      sqlite3ErrorMsg(pParse, "UPSERT not implemented for virtual table \"%s\"",
              pTab->zName);
      goto insert_cleanup;
................................................................................
** value for either the rowid column or its INTEGER PRIMARY KEY alias.
**
** The code generated by this routine will store new index entries into
** registers identified by aRegIdx[].  No index entry is created for
** indices where aRegIdx[i]==0.  The order of indices in aRegIdx[] is
** the same as the order of indices on the linked list of indices
** at pTab->pIndex.
**
** (2019-05-07) The generated code also creates a new record for the
** main table, if pTab is a rowid table, and stores that record in the
** register identified by aRegIdx[nIdx] - in other words in the first
** entry of aRegIdx[] past the last index.  It is important that the
** record be generated during constraint checks to avoid affinity changes
** to the register content that occur after constraint checks but before
** the new record is inserted.
**
** The caller must have already opened writeable cursors on the main
** table and all applicable indices (that is to say, all indices for which
** aRegIdx[] is not zero).  iDataCur is the cursor for the main table when
** inserting or updating a rowid table, or the cursor for the PRIMARY KEY
** index when operating on a WITHOUT ROWID table.  iIdxCur is the cursor
** for the first index in the pTab->pIndex list.  Cursors for other indices
................................................................................

  /* If the IPK constraint is a REPLACE, run it last */
  if( ipkTop ){
    sqlite3VdbeGoto(v, ipkTop);
    VdbeComment((v, "Do IPK REPLACE"));
    sqlite3VdbeJumpHere(v, ipkBottom);
  }

  /* Generate the table record */
  if( HasRowid(pTab) ){
    int regRec = aRegIdx[ix];
    sqlite3VdbeAddOp3(v, OP_MakeRecord, regNewData+1, pTab->nCol, regRec);
    sqlite3SetMakeRecordP5(v, pTab);
    if( !bAffinityDone ){
      sqlite3TableAffinity(v, pTab, 0);
    }
  }

  *pbMayReplace = seenReplace;
  VdbeModuleComment((v, "END: GenCnstCks(%d)", seenReplace));
}

#ifdef SQLITE_ENABLE_NULL_TRIM
/*
................................................................................
  int update_flags,   /* True for UPDATE, False for INSERT */
  int appendBias,     /* True if this is likely to be an append */
  int useSeekResult   /* True to set the USESEEKRESULT flag on OP_[Idx]Insert */
){
  Vdbe *v;            /* Prepared statements under construction */
  Index *pIdx;        /* An index being inserted or updated */
  u8 pik_flags;       /* flag values passed to the btree insert */


  int i;              /* Loop counter */


  assert( update_flags==0
       || update_flags==OPFLAG_ISUPDATE
       || update_flags==(OPFLAG_ISUPDATE|OPFLAG_SAVEPOSITION)
  );

  v = sqlite3GetVdbe(pParse);
  assert( v!=0 );
  assert( pTab->pSelect==0 );  /* This table is not a VIEW */
  for(i=0, pIdx=pTab->pIndex; pIdx; pIdx=pIdx->pNext, i++){
    if( aRegIdx[i]==0 ) continue;

    if( pIdx->pPartIdxWhere ){
      sqlite3VdbeAddOp2(v, OP_IsNull, aRegIdx[i], sqlite3VdbeCurrentAddr(v)+2);
      VdbeCoverage(v);
    }
    pik_flags = (useSeekResult ? OPFLAG_USESEEKRESULT : 0);
    if( IsPrimaryKeyIndex(pIdx) && !HasRowid(pTab) ){
      assert( pParse->nested==0 );
................................................................................
    }
    sqlite3VdbeAddOp4Int(v, OP_IdxInsert, iIdxCur+i, aRegIdx[i],
                         aRegIdx[i]+1,
                         pIdx->uniqNotNull ? pIdx->nKeyCol: pIdx->nColumn);
    sqlite3VdbeChangeP5(v, pik_flags);
  }
  if( !HasRowid(pTab) ) return;







  if( pParse->nested ){
    pik_flags = 0;
  }else{
    pik_flags = OPFLAG_NCHANGE;
    pik_flags |= (update_flags?update_flags:OPFLAG_LASTROWID);
  }
  if( appendBias ){
    pik_flags |= OPFLAG_APPEND;
  }
  if( useSeekResult ){
    pik_flags |= OPFLAG_USESEEKRESULT;
  }
  sqlite3VdbeAddOp3(v, OP_Insert, iDataCur, aRegIdx[i], regNewData);
  if( !pParse->nested ){
    sqlite3VdbeAppendP4(v, pTab, P4_TABLE);
  }
  sqlite3VdbeChangeP5(v, pik_flags);
}

/*

Changes to src/main.c.

4100
4101
4102
4103
4104
4105
4106
















4107
4108
4109
4110
4111
4112
4113
    */
    case SQLITE_TESTCTRL_PARSER_COVERAGE: {
      FILE *out = va_arg(ap, FILE*);
      if( sqlite3ParserCoverage(out) ) rc = SQLITE_ERROR;
      break;
    }
#endif /* defined(YYCOVERAGE) */
















  }
  va_end(ap);
#endif /* SQLITE_UNTESTABLE */
  return rc;
}

/*







>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>







4100
4101
4102
4103
4104
4105
4106
4107
4108
4109
4110
4111
4112
4113
4114
4115
4116
4117
4118
4119
4120
4121
4122
4123
4124
4125
4126
4127
4128
4129
    */
    case SQLITE_TESTCTRL_PARSER_COVERAGE: {
      FILE *out = va_arg(ap, FILE*);
      if( sqlite3ParserCoverage(out) ) rc = SQLITE_ERROR;
      break;
    }
#endif /* defined(YYCOVERAGE) */

    /*  sqlite3_test_control(SQLITE_TESTCTRL_RESULT_INTREAL, sqlite3_context*);
    **
    ** This test-control causes the most recent sqlite3_result_int64() value
    ** to be interpreted as a MEM_IntReal instead of as an MEM_Int.  Normally,
    ** MEM_IntReal values only arise during an INSERT operation of integer
    ** values into a REAL column, so they can be challenging to test.  This
    ** test-control enables us to write an intreal() SQL function that can
    ** inject an intreal() value at arbitrary places in an SQL statement,
    ** for testing purposes.
    */
    case SQLITE_TESTCTRL_RESULT_INTREAL: {
      sqlite3_context *pCtx = va_arg(ap, sqlite3_context*);
      sqlite3ResultIntReal(pCtx);
      break;
    }
  }
  va_end(ap);
#endif /* SQLITE_UNTESTABLE */
  return rc;
}

/*

Changes to src/msvc.h.

29
30
31
32
33
34
35





36
#pragma warning(disable : 4244)
#pragma warning(disable : 4305)
#pragma warning(disable : 4306)
#pragma warning(disable : 4702)
#pragma warning(disable : 4706)
#endif /* defined(_MSC_VER) */






#endif /* SQLITE_MSVC_H */







>
>
>
>
>

29
30
31
32
33
34
35
36
37
38
39
40
41
#pragma warning(disable : 4244)
#pragma warning(disable : 4305)
#pragma warning(disable : 4306)
#pragma warning(disable : 4702)
#pragma warning(disable : 4706)
#endif /* defined(_MSC_VER) */

#if defined(_MSC_VER) && !defined(_WIN64)
#undef SQLITE_4_BYTE_ALIGNED_MALLOC
#define SQLITE_4_BYTE_ALIGNED_MALLOC
#endif /* defined(_MSC_VER) && !defined(_WIN64) */

#endif /* SQLITE_MSVC_H */

Changes to src/parse.y.

1075
1076
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
  if( A ){
    A->x.pList = pList;
  }else{
    sqlite3ExprListDelete(pParse->db, pList);
  }
}

expr(A) ::= expr(A) AND(OP) expr(Y).    {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) OR(OP) expr(Y).     {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) LT|GT|GE|LE(OP) expr(Y).
                                        {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) EQ|NE(OP) expr(Y).  {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) BITAND|BITOR|LSHIFT|RSHIFT(OP) expr(Y).
                                        {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) PLUS|MINUS(OP) expr(Y).







|







1075
1076
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
  if( A ){
    A->x.pList = pList;
  }else{
    sqlite3ExprListDelete(pParse->db, pList);
  }
}

expr(A) ::= expr(A) AND expr(Y).        {A=sqlite3ExprAnd(pParse,A,Y);}
expr(A) ::= expr(A) OR(OP) expr(Y).     {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) LT|GT|GE|LE(OP) expr(Y).
                                        {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) EQ|NE(OP) expr(Y).  {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) BITAND|BITOR|LSHIFT|RSHIFT(OP) expr(Y).
                                        {A=sqlite3PExpr(pParse,@OP,A,Y);}
expr(A) ::= expr(A) PLUS|MINUS(OP) expr(Y).

Changes to src/pragma.c.

1418
1419
1420
1421
1422
1423
1424

1425
1426
1427
1428
1429
1430
1431
1432
1433

1434
1435
1436
1437
1438
1439
1440
      sqlite3VdbeJumpHere(v, addrTop);
    }
  }
  break;
#endif /* !defined(SQLITE_OMIT_TRIGGER) */
#endif /* !defined(SQLITE_OMIT_FOREIGN_KEY) */


  /* Reinstall the LIKE and GLOB functions.  The variant of LIKE
  ** used will be case sensitive or not depending on the RHS.
  */
  case PragTyp_CASE_SENSITIVE_LIKE: {
    if( zRight ){
      sqlite3RegisterLikeFunctions(db, sqlite3GetBoolean(zRight, 0));
    }
  }
  break;


#ifndef SQLITE_INTEGRITY_CHECK_ERROR_MAX
# define SQLITE_INTEGRITY_CHECK_ERROR_MAX 100
#endif

#ifndef SQLITE_OMIT_INTEGRITY_CHECK
  /*    PRAGMA integrity_check







>









>







1418
1419
1420
1421
1422
1423
1424
1425
1426
1427
1428
1429
1430
1431
1432
1433
1434
1435
1436
1437
1438
1439
1440
1441
1442
      sqlite3VdbeJumpHere(v, addrTop);
    }
  }
  break;
#endif /* !defined(SQLITE_OMIT_TRIGGER) */
#endif /* !defined(SQLITE_OMIT_FOREIGN_KEY) */

#ifndef SQLITE_OMIT_CASE_SENSITIVE_LIKE_PRAGMA
  /* Reinstall the LIKE and GLOB functions.  The variant of LIKE
  ** used will be case sensitive or not depending on the RHS.
  */
  case PragTyp_CASE_SENSITIVE_LIKE: {
    if( zRight ){
      sqlite3RegisterLikeFunctions(db, sqlite3GetBoolean(zRight, 0));
    }
  }
  break;
#endif /* SQLITE_OMIT_CASE_SENSITIVE_LIKE_PRAGMA */

#ifndef SQLITE_INTEGRITY_CHECK_ERROR_MAX
# define SQLITE_INTEGRITY_CHECK_ERROR_MAX 100
#endif

#ifndef SQLITE_OMIT_INTEGRITY_CHECK
  /*    PRAGMA integrity_check

Changes to src/pragma.h.

174
175
176
177
178
179
180

181
182
183
184
185

186
187
188
189
190
191
192
#if !defined(SQLITE_OMIT_FLAG_PRAGMAS)
 {/* zName:     */ "cache_spill",
  /* ePragTyp:  */ PragTyp_CACHE_SPILL,
  /* ePragFlg:  */ PragFlg_Result0|PragFlg_SchemaReq|PragFlg_NoColumns1,
  /* ColNames:  */ 0, 0,
  /* iArg:      */ 0 },
#endif

 {/* zName:     */ "case_sensitive_like",
  /* ePragTyp:  */ PragTyp_CASE_SENSITIVE_LIKE,
  /* ePragFlg:  */ PragFlg_NoColumns,
  /* ColNames:  */ 0, 0,
  /* iArg:      */ 0 },

 {/* zName:     */ "cell_size_check",
  /* ePragTyp:  */ PragTyp_FLAG,
  /* ePragFlg:  */ PragFlg_Result0|PragFlg_NoColumns1,
  /* ColNames:  */ 0, 0,
  /* iArg:      */ SQLITE_CellSizeCk },
#if !defined(SQLITE_OMIT_FLAG_PRAGMAS)
 {/* zName:     */ "checkpoint_fullfsync",







>





>







174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
#if !defined(SQLITE_OMIT_FLAG_PRAGMAS)
 {/* zName:     */ "cache_spill",
  /* ePragTyp:  */ PragTyp_CACHE_SPILL,
  /* ePragFlg:  */ PragFlg_Result0|PragFlg_SchemaReq|PragFlg_NoColumns1,
  /* ColNames:  */ 0, 0,
  /* iArg:      */ 0 },
#endif
#if !defined(SQLITE_OMIT_CASE_SENSITIVE_LIKE_PRAGMA)
 {/* zName:     */ "case_sensitive_like",
  /* ePragTyp:  */ PragTyp_CASE_SENSITIVE_LIKE,
  /* ePragFlg:  */ PragFlg_NoColumns,
  /* ColNames:  */ 0, 0,
  /* iArg:      */ 0 },
#endif
 {/* zName:     */ "cell_size_check",
  /* ePragTyp:  */ PragTyp_FLAG,
  /* ePragFlg:  */ PragFlg_Result0|PragFlg_NoColumns1,
  /* ColNames:  */ 0, 0,
  /* iArg:      */ SQLITE_CellSizeCk },
#if !defined(SQLITE_OMIT_FLAG_PRAGMAS)
 {/* zName:     */ "checkpoint_fullfsync",

Changes to src/resolve.c.

862
863
864
865
866
867
868

869

870
871
872
873
874
875
876
        }
      }
      sqlite3WalkExprList(pWalker, pList);
      if( is_agg ){
#ifndef SQLITE_OMIT_WINDOWFUNC
        if( pExpr->y.pWin ){
          Select *pSel = pNC->pWinSelect;

          sqlite3WindowUpdate(pParse, pSel->pWinDefn, pExpr->y.pWin, pDef);

          sqlite3WalkExprList(pWalker, pExpr->y.pWin->pPartition);
          sqlite3WalkExprList(pWalker, pExpr->y.pWin->pOrderBy);
          sqlite3WalkExpr(pWalker, pExpr->y.pWin->pFilter);
          if( 0==pSel->pWin 
           || 0==sqlite3WindowCompare(pParse, pSel->pWin, pExpr->y.pWin) 
          ){
            pExpr->y.pWin->pNextWin = pSel->pWin;







>
|
>







862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
        }
      }
      sqlite3WalkExprList(pWalker, pList);
      if( is_agg ){
#ifndef SQLITE_OMIT_WINDOWFUNC
        if( pExpr->y.pWin ){
          Select *pSel = pNC->pWinSelect;
          if( IN_RENAME_OBJECT==0 ){
            sqlite3WindowUpdate(pParse, pSel->pWinDefn, pExpr->y.pWin, pDef);
          }
          sqlite3WalkExprList(pWalker, pExpr->y.pWin->pPartition);
          sqlite3WalkExprList(pWalker, pExpr->y.pWin->pOrderBy);
          sqlite3WalkExpr(pWalker, pExpr->y.pWin->pFilter);
          if( 0==pSel->pWin 
           || 0==sqlite3WindowCompare(pParse, pSel->pWin, pExpr->y.pWin) 
          ){
            pExpr->y.pWin->pNextWin = pSel->pWin;

Changes to src/select.c.

351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
...
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
....
4030
4031
4032
4033
4034
4035
4036
4037
4038
4039
4040
4041
4042
4043
4044
....
4365
4366
4367
4368
4369
4370
4371
4372
4373
4374
4375
4376
4377
4378
4379
4380
4381
....
4793
4794
4795
4796
4797
4798
4799
4800
4801
4802
4803
4804
4805
4806
4807
....
5414
5415
5416
5417
5418
5419
5420
5421
5422
5423
5424
5425
5426
5427
5428
....
5477
5478
5479
5480
5481
5482
5483
5484


5485
5486
5487
5488
5489
5490
5491
  pEq = sqlite3PExpr(pParse, TK_EQ, pE1, pE2);
  if( pEq && isOuterJoin ){
    ExprSetProperty(pEq, EP_FromJoin);
    assert( !ExprHasProperty(pEq, EP_TokenOnly|EP_Reduced) );
    ExprSetVVAProperty(pEq, EP_NoReduce);
    pEq->iRightJoinTable = (i16)pE2->iTable;
  }
  *ppWhere = sqlite3ExprAnd(db, *ppWhere, pEq);
}

/*
** Set the EP_FromJoin property on all terms of the given expression.
** And set the Expr.iRightJoinTable to iTable for every term in the
** expression.
**
................................................................................
    }

    /* Add the ON clause to the end of the WHERE clause, connected by
    ** an AND operator.
    */
    if( pRight->pOn ){
      if( isOuter ) setJoinExpr(pRight->pOn, pRight->iCursor);
      p->pWhere = sqlite3ExprAnd(pParse->db, p->pWhere, pRight->pOn);
      pRight->pOn = 0;
    }

    /* Create extra terms on the WHERE clause for each column named
    ** in the USING clause.  Example: If the two tables to be joined are 
    ** A and B and the USING clause names X, Y, and Z, then add this
    ** to the WHERE clause:    A.X=B.X AND A.Y=B.Y AND A.Z=B.Z
................................................................................
      pSub->pOrderBy = 0;
    }
    pWhere = pSub->pWhere;
    pSub->pWhere = 0;
    if( isLeftJoin>0 ){
      setJoinExpr(pWhere, iNewParent);
    }
    pParent->pWhere = sqlite3ExprAnd(db, pWhere, pParent->pWhere);
    if( db->mallocFailed==0 ){
      SubstContext x;
      x.pParse = pParse;
      x.iTable = iParent;
      x.iNewTable = iNewParent;
      x.isLeftJoin = isLeftJoin;
      x.pEList = pSub->pEList;
................................................................................
      x.pParse = pParse;
      x.iTable = iCursor;
      x.iNewTable = iCursor;
      x.isLeftJoin = 0;
      x.pEList = pSubq->pEList;
      pNew = substExpr(&x, pNew);
      if( pSubq->selFlags & SF_Aggregate ){
        pSubq->pHaving = sqlite3ExprAnd(pParse->db, pSubq->pHaving, pNew);
      }else{
        pSubq->pWhere = sqlite3ExprAnd(pParse->db, pSubq->pWhere, pNew);
      }
      pSubq = pSubq->pPrior;
    }
  }
  return nChng;
}
#endif /* !defined(SQLITE_OMIT_SUBQUERY) || !defined(SQLITE_OMIT_VIEW) */
................................................................................
  }
  while( pSel->pPrior ){ pSel = pSel->pPrior; }
  sqlite3ColumnsFromExprList(pParse, pSel->pEList,&pTab->nCol,&pTab->aCol);
  pTab->iPKey = -1;
  pTab->nRowLogEst = 200; assert( 200==sqlite3LogEst(1048576) );
  pTab->tabFlags |= TF_Ephemeral;

  return SQLITE_OK;
}

/*
** This routine is a Walker callback for "expanding" a SELECT statement.
** "Expanding" means to do the following:
**
**    (1)  Make sure VDBE cursor numbers have been assigned to every
................................................................................
    Select *pS = pWalker->u.pSelect;
    if( sqlite3ExprIsConstantOrGroupBy(pWalker->pParse, pExpr, pS->pGroupBy) ){
      sqlite3 *db = pWalker->pParse->db;
      Expr *pNew = sqlite3ExprAlloc(db, TK_INTEGER, &sqlite3IntTokens[1], 0);
      if( pNew ){
        Expr *pWhere = pS->pWhere;
        SWAP(Expr, *pNew, *pExpr);
        pNew = sqlite3ExprAnd(db, pWhere, pNew);
        pS->pWhere = pNew;
        pWalker->eCode = 1;
      }
    }
    return WRC_Prune;
  }
  return WRC_Continue;
................................................................................
    if( sqlite3_stricmp(pItem->zName, pThis->zName)!=0 ) continue;
    pS1 = pItem->pSelect;
    if( pThis->pSelect->selId!=pS1->selId ){
      /* The query flattener left two different CTE tables with identical
      ** names in the same FROM clause. */
      continue;
    }
    if( sqlite3ExprCompare(0, pThis->pSelect->pWhere, pS1->pWhere, -1) ){


      /* The view was modified by some other optimization such as
      ** pushDownWhereTerms() */
      continue;
    }
    return pItem;
  }
  return 0;







|







 







|







 







|







 







|

|







 







|







 







|







 







|
>
>







351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
...
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
....
4030
4031
4032
4033
4034
4035
4036
4037
4038
4039
4040
4041
4042
4043
4044
....
4365
4366
4367
4368
4369
4370
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4373
4374
4375
4376
4377
4378
4379
4380
4381
....
4793
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4800
4801
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4803
4804
4805
4806
4807
....
5414
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5428
....
5477
5478
5479
5480
5481
5482
5483
5484
5485
5486
5487
5488
5489
5490
5491
5492
5493
  pEq = sqlite3PExpr(pParse, TK_EQ, pE1, pE2);
  if( pEq && isOuterJoin ){
    ExprSetProperty(pEq, EP_FromJoin);
    assert( !ExprHasProperty(pEq, EP_TokenOnly|EP_Reduced) );
    ExprSetVVAProperty(pEq, EP_NoReduce);
    pEq->iRightJoinTable = (i16)pE2->iTable;
  }
  *ppWhere = sqlite3ExprAnd(pParse, *ppWhere, pEq);
}

/*
** Set the EP_FromJoin property on all terms of the given expression.
** And set the Expr.iRightJoinTable to iTable for every term in the
** expression.
**
................................................................................
    }

    /* Add the ON clause to the end of the WHERE clause, connected by
    ** an AND operator.
    */
    if( pRight->pOn ){
      if( isOuter ) setJoinExpr(pRight->pOn, pRight->iCursor);
      p->pWhere = sqlite3ExprAnd(pParse, p->pWhere, pRight->pOn);
      pRight->pOn = 0;
    }

    /* Create extra terms on the WHERE clause for each column named
    ** in the USING clause.  Example: If the two tables to be joined are 
    ** A and B and the USING clause names X, Y, and Z, then add this
    ** to the WHERE clause:    A.X=B.X AND A.Y=B.Y AND A.Z=B.Z
................................................................................
      pSub->pOrderBy = 0;
    }
    pWhere = pSub->pWhere;
    pSub->pWhere = 0;
    if( isLeftJoin>0 ){
      setJoinExpr(pWhere, iNewParent);
    }
    pParent->pWhere = sqlite3ExprAnd(pParse, pWhere, pParent->pWhere);
    if( db->mallocFailed==0 ){
      SubstContext x;
      x.pParse = pParse;
      x.iTable = iParent;
      x.iNewTable = iNewParent;
      x.isLeftJoin = isLeftJoin;
      x.pEList = pSub->pEList;
................................................................................
      x.pParse = pParse;
      x.iTable = iCursor;
      x.iNewTable = iCursor;
      x.isLeftJoin = 0;
      x.pEList = pSubq->pEList;
      pNew = substExpr(&x, pNew);
      if( pSubq->selFlags & SF_Aggregate ){
        pSubq->pHaving = sqlite3ExprAnd(pParse, pSubq->pHaving, pNew);
      }else{
        pSubq->pWhere = sqlite3ExprAnd(pParse, pSubq->pWhere, pNew);
      }
      pSubq = pSubq->pPrior;
    }
  }
  return nChng;
}
#endif /* !defined(SQLITE_OMIT_SUBQUERY) || !defined(SQLITE_OMIT_VIEW) */
................................................................................
  }
  while( pSel->pPrior ){ pSel = pSel->pPrior; }
  sqlite3ColumnsFromExprList(pParse, pSel->pEList,&pTab->nCol,&pTab->aCol);
  pTab->iPKey = -1;
  pTab->nRowLogEst = 200; assert( 200==sqlite3LogEst(1048576) );
  pTab->tabFlags |= TF_Ephemeral;

  return pParse->nErr ? SQLITE_ERROR : SQLITE_OK;
}

/*
** This routine is a Walker callback for "expanding" a SELECT statement.
** "Expanding" means to do the following:
**
**    (1)  Make sure VDBE cursor numbers have been assigned to every
................................................................................
    Select *pS = pWalker->u.pSelect;
    if( sqlite3ExprIsConstantOrGroupBy(pWalker->pParse, pExpr, pS->pGroupBy) ){
      sqlite3 *db = pWalker->pParse->db;
      Expr *pNew = sqlite3ExprAlloc(db, TK_INTEGER, &sqlite3IntTokens[1], 0);
      if( pNew ){
        Expr *pWhere = pS->pWhere;
        SWAP(Expr, *pNew, *pExpr);
        pNew = sqlite3ExprAnd(pWalker->pParse, pWhere, pNew);
        pS->pWhere = pNew;
        pWalker->eCode = 1;
      }
    }
    return WRC_Prune;
  }
  return WRC_Continue;
................................................................................
    if( sqlite3_stricmp(pItem->zName, pThis->zName)!=0 ) continue;
    pS1 = pItem->pSelect;
    if( pThis->pSelect->selId!=pS1->selId ){
      /* The query flattener left two different CTE tables with identical
      ** names in the same FROM clause. */
      continue;
    }
    if( sqlite3ExprCompare(0, pThis->pSelect->pWhere, pS1->pWhere, -1)
     || sqlite3ExprCompare(0, pThis->pSelect->pHaving, pS1->pHaving, -1) 
    ){
      /* The view was modified by some other optimization such as
      ** pushDownWhereTerms() */
      continue;
    }
    return pItem;
  }
  return 0;

Changes to src/shell.c.in.

943
944
945
946
947
948
949




950
951
952
953
954
955
956
....
1673
1674
1675
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1677
1678
1679


1680
1681
1682
1683
1684
1685
1686
....
3485
3486
3487
3488
3489
3490
3491
3492
3493
3494
3495
3496
3497
3498
3499
....
3570
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3573
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3575
3576



3577
3578
3579
3580
3581
3582
3583
....
3854
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3857
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3859
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3861
3862
3863
3864
3865
3866
3867
3868
3869
3870
3871
3872

3873
3874
3875
3876
3877
3878
3879
3880
3881
3882
3883
3884
3885
3886
3887
....
3892
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3896
3897
3898
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3901
3902
3903
3904
3905
3906

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3917
3918
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3921
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3923
3924
3925
3926
3927
3928
3929
3930
3931
3932

























































































































3933
3934
3935
3936
3937
3938
3939
....
3995
3996
3997
3998
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4000
4001



4002
4003
4004
4005
4006
4007
4008
4009
4010
4011




4012
4013
4014
4015
4016
4017
4018
....
4028
4029
4030
4031
4032
4033
4034
4035
4036
4037
4038
4039
4040
4041
4042
....
5259
5260
5261
5262
5263
5264
5265
5266
5267
5268
5269
5270
5271
5272
5273
5274
5275
5276
....
5281
5282
5283
5284
5285
5286
5287







5288
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5291
5292
5293
5294
5295
....
5304
5305
5306
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5308
5309
5310






5311
5312
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5314
5315
5316
5317
5318
....
5320
5321
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5323
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5326






5327
5328
5329
5330
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5332
5333
5334
5335
5336
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5338
5339






5340
5341
5342
5343
5344
5345
5346
....
6022
6023
6024
6025
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6027
6028





















































































































































































































































































































































































































































































































































































































































6029
6030
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6032
6033
6034
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....
6309
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6316
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6318
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6321
6322
....
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6347
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6351
6352

6353

6354
6355
6356
6357
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6360
....
6394
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6399
6400
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6402
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6408
INCLUDE ../ext/misc/memtrace.c
#ifdef SQLITE_HAVE_ZLIB
INCLUDE ../ext/misc/zipfile.c
INCLUDE ../ext/misc/sqlar.c
#endif
INCLUDE ../ext/expert/sqlite3expert.h
INCLUDE ../ext/expert/sqlite3expert.c





#if defined(SQLITE_ENABLE_SESSION)
/*
** State information for a single open session
*/
typedef struct OpenSession OpenSession;
struct OpenSession {
................................................................................
/*
** Print a schema statement.  Part of MODE_Semi and MODE_Pretty output.
**
** This routine converts some CREATE TABLE statements for shadow tables
** in FTS3/4/5 into CREATE TABLE IF NOT EXISTS statements.
*/
static void printSchemaLine(FILE *out, const char *z, const char *zTail){


  if( sqlite3_strglob("CREATE TABLE ['\"]*", z)==0 ){
    utf8_printf(out, "CREATE TABLE IF NOT EXISTS %s%s", z+13, zTail);
  }else{
    utf8_printf(out, "%s%s", z, zTail);
  }
}
static void printSchemaLineN(FILE *out, char *z, int n, const char *zTail){
................................................................................
  ".databases               List names and files of attached databases",
  ".dbconfig ?op? ?val?     List or change sqlite3_db_config() options",
  ".dbinfo ?DB?             Show status information about the database",
  ".dump ?TABLE? ...        Render all database content as SQL",
  "   Options:",
  "     --preserve-rowids      Include ROWID values in the output",
  "     --newlines             Allow unescaped newline characters in output",
  "   TABLE is LIKE pattern for the tables to dump",
  ".echo on|off             Turn command echo on or off",
  ".eqp on|off|full|...     Enable or disable automatic EXPLAIN QUERY PLAN",
  "   Other Modes:",
#ifdef SQLITE_DEBUG
  "      test                  Show raw EXPLAIN QUERY PLAN output",
  "      trace                 Like \"full\" but also enable \"PRAGMA vdbe_trace\"",
#endif
................................................................................
  "   --once                    Do no more than one progress interrupt",
  "   --quiet|-q                No output except at interrupts",
  "   --reset                   Reset the count for each input and interrupt",
#endif
  ".prompt MAIN CONTINUE    Replace the standard prompts",
  ".quit                    Exit this program",
  ".read FILE               Read input from FILE",



  ".restore ?DB? FILE       Restore content of DB (default \"main\") from FILE",
  ".save FILE               Write in-memory database into FILE",
  ".scanstats on|off        Turn sqlite3_stmt_scanstatus() metrics on or off",
  ".schema ?PATTERN?        Show the CREATE statements matching PATTERN",
  "     Options:",
  "         --indent            Try to pretty-print the schema",
  ".selftest ?OPTIONS?      Run tests defined in the SELFTEST table",
................................................................................
  int nLine;
  int n = 0;
  int pgsz = 0;
  int iOffset = 0;
  int j, k;
  int rc;
  FILE *in;
  unsigned char x[16];
  char zLine[1000];
  if( p->zDbFilename ){
    in = fopen(p->zDbFilename, "r");
    if( in==0 ){
      utf8_printf(stderr, "cannot open \"%s\" for reading\n", p->zDbFilename);
      return 0;
    }
    nLine = 0;
  }else{
    in = p->in;
    nLine = p->lineno;

  }
  *pnData = 0;
  nLine++;
  if( fgets(zLine, sizeof(zLine), in)==0 ) goto readHexDb_error;
  rc = sscanf(zLine, "| size %d pagesize %d", &n, &pgsz);
  if( rc!=2 ) goto readHexDb_error;
  if( n<=0 ) goto readHexDb_error;
  a = sqlite3_malloc( n );
  if( a==0 ){
    utf8_printf(stderr, "Out of memory!\n");
    goto readHexDb_error;
  }
  memset(a, 0, n);
  if( pgsz<512 || pgsz>65536 || (pgsz & (pgsz-1))!=0 ){
    utf8_printf(stderr, "invalid pagesize\n");
................................................................................
    if( rc==2 ){
      iOffset = k;
      continue;
    }
    if( strncmp(zLine, "| end ", 6)==0 ){
      break;
    }
    rc = sscanf(zLine,"| %d: %hhx %hhx %hhx %hhx %hhx %hhx %hhx %hhx"
                      "  %hhx %hhx %hhx %hhx %hhx %hhx %hhx %hhx",
                &j, &x[0], &x[1], &x[2], &x[3], &x[4], &x[5], &x[6], &x[7],
                &x[8], &x[9], &x[10], &x[11], &x[12], &x[13], &x[14], &x[15]);
    if( rc==17 ){
      k = iOffset+j;
      if( k+16<=n ){
        memcpy(a+k, x, 16);

      }
    }
  }
  *pnData = n;
  if( in!=p->in ){
    fclose(in);
  }else{
    p->lineno = nLine;
  }
  return a;

readHexDb_error:
  if( in!=stdin ){
    fclose(in);
  }else{
    while( fgets(zLine, sizeof(zLine), p->in)!=0 ){
      nLine++;
      if(strncmp(zLine, "| end ", 6)==0 ) break;
    }
    p->lineno = nLine;
  }
  sqlite3_free(a);
  utf8_printf(stderr,"Error on line %d of --hexdb input\n", nLine);
  return 0;
}
#endif /* SQLITE_ENABLE_DESERIALIZE */


























































































































/* Flags for open_db().
**
** The default behavior of open_db() is to exit(1) if the database fails to
** open.  The OPEN_DB_KEEPALIVE flag changes that so that it prints an error
** but still returns without calling exit.
**
................................................................................
    }
#ifndef SQLITE_OMIT_LOAD_EXTENSION
    sqlite3_enable_load_extension(p->db, 1);
#endif
    sqlite3_fileio_init(p->db, 0, 0);
    sqlite3_shathree_init(p->db, 0, 0);
    sqlite3_completion_init(p->db, 0, 0);



#ifdef SQLITE_HAVE_ZLIB
    sqlite3_zipfile_init(p->db, 0, 0);
    sqlite3_sqlar_init(p->db, 0, 0);
#endif
    sqlite3_create_function(p->db, "shell_add_schema", 3, SQLITE_UTF8, 0,
                            shellAddSchemaName, 0, 0);
    sqlite3_create_function(p->db, "shell_module_schema", 1, SQLITE_UTF8, 0,
                            shellModuleSchema, 0, 0);
    sqlite3_create_function(p->db, "shell_putsnl", 1, SQLITE_UTF8, p,
                            shellPutsFunc, 0, 0);




#ifndef SQLITE_NOHAVE_SYSTEM
    sqlite3_create_function(p->db, "edit", 1, SQLITE_UTF8, 0,
                            editFunc, 0, 0);
    sqlite3_create_function(p->db, "edit", 2, SQLITE_UTF8, 0,
                            editFunc, 0, 0);
#endif
    if( p->openMode==SHELL_OPEN_ZIPFILE ){
................................................................................
      int nData = 0;
      unsigned char *aData;
      if( p->openMode==SHELL_OPEN_DESERIALIZE ){
        aData = (unsigned char*)readFile(p->zDbFilename, &nData);
      }else{
        aData = readHexDb(p, &nData);
        if( aData==0 ){
          utf8_printf(stderr, "Error in hexdb input\n");
          return;
        }
      }
      rc = sqlite3_deserialize(p->db, "main", aData, nData, nData,
                   SQLITE_DESERIALIZE_RESIZEABLE |
                   SQLITE_DESERIALIZE_FREEONCLOSE);
      if( rc ){
................................................................................
 usage:
  raw_printf(stderr, "Usage %s sub-command ?switches...?\n", azArg[0]);
  raw_printf(stderr, "Where sub-commands are:\n");
  raw_printf(stderr, "    fkey-indexes\n");
  return SQLITE_ERROR;
}

#if !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_HAVE_ZLIB)
/*********************************************************************************
** The ".archive" or ".ar" command.
*/
static void shellPrepare(
  sqlite3 *db, 
  int *pRc, 
  const char *zSql, 
  sqlite3_stmt **ppStmt
){
  *ppStmt = 0;
................................................................................
          sqlite3_errmsg(db), sqlite3_errcode(db)
      );
      *pRc = rc;
    }
  }
}








static void shellPreparePrintf(
  sqlite3 *db, 
  int *pRc, 
  sqlite3_stmt **ppStmt,
  const char *zFmt, 
  ...
){
  *ppStmt = 0;
................................................................................
    }else{
      shellPrepare(db, pRc, z, ppStmt);
      sqlite3_free(z);
    }
  }
}







static void shellFinalize(
  int *pRc, 
  sqlite3_stmt *pStmt
){
  if( pStmt ){
    sqlite3 *db = sqlite3_db_handle(pStmt);
    int rc = sqlite3_finalize(pStmt);
    if( *pRc==SQLITE_OK ){
................................................................................
        raw_printf(stderr, "SQL error: %s\n", sqlite3_errmsg(db));
      }
      *pRc = rc;
    }
  }
}







static void shellReset(
  int *pRc, 
  sqlite3_stmt *pStmt
){
  int rc = sqlite3_reset(pStmt);
  if( *pRc==SQLITE_OK ){
    if( rc!=SQLITE_OK ){
      sqlite3 *db = sqlite3_db_handle(pStmt);
      raw_printf(stderr, "SQL error: %s\n", sqlite3_errmsg(db));
    }
    *pRc = rc;
  }
}






/*
** Structure representing a single ".ar" command.
*/
typedef struct ArCommand ArCommand;
struct ArCommand {
  u8 eCmd;                        /* An AR_CMD_* value */
  u8 bVerbose;                    /* True if --verbose */
................................................................................

  return rc;
}
/* End of the ".archive" or ".ar" command logic
**********************************************************************************/
#endif /* !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_HAVE_ZLIB) */























































































































































































































































































































































































































































































































































































































































/*
** If an input line begins with "." then invoke this routine to
** process that line.
**
** Return 1 on error, 2 to exit, and 0 otherwise.
*/
................................................................................
    }   
  }else

  if( c=='d' && n>=3 && strncmp(azArg[0], "dbinfo", n)==0 ){
    rc = shell_dbinfo_command(p, nArg, azArg);
  }else








  if( c=='d' && strncmp(azArg[0], "dump", n)==0 ){
    const char *zLike = 0;
    int i;
    int savedShowHeader = p->showHeader;
    int savedShellFlags = p->shellFlgs;
    ShellClearFlag(p, SHFLG_PreserveRowid|SHFLG_Newlines|SHFLG_Echo);
    for(i=1; i<nArg; i++){
................................................................................
                           "?--newlines? ?LIKE-PATTERN?\n");
        rc = 1;
        goto meta_command_exit;
      }else{
        zLike = azArg[i];
      }
    }

    open_db(p, 0);

    /* When playing back a "dump", the content might appear in an order
    ** which causes immediate foreign key constraints to be violated.
    ** So disable foreign-key constraint enforcement to prevent problems. */
    raw_printf(p->out, "PRAGMA foreign_keys=OFF;\n");
    raw_printf(p->out, "BEGIN TRANSACTION;\n");
    p->writableSchema = 0;
    p->showHeader = 0;
................................................................................
    }
    if( p->writableSchema ){
      raw_printf(p->out, "PRAGMA writable_schema=OFF;\n");
      p->writableSchema = 0;
    }
    sqlite3_exec(p->db, "PRAGMA writable_schema=OFF;", 0, 0, 0);
    sqlite3_exec(p->db, "RELEASE dump;", 0, 0, 0);
    raw_printf(p->out, p->nErr ? "ROLLBACK; -- due to errors\n" : "COMMIT;\n");
    p->showHeader = savedShowHeader;
    p->shellFlgs = savedShellFlags;
  }else

  if( c=='e' && strncmp(azArg[0], "echo", n)==0 ){
    if( nArg==2 ){
      setOrClearFlag(p, SHFLG_Echo, azArg[1]);







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INCLUDE ../ext/misc/memtrace.c
#ifdef SQLITE_HAVE_ZLIB
INCLUDE ../ext/misc/zipfile.c
INCLUDE ../ext/misc/sqlar.c
#endif
INCLUDE ../ext/expert/sqlite3expert.h
INCLUDE ../ext/expert/sqlite3expert.c

#if !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_ENABLE_DBPAGE_VTAB)
INCLUDE ../ext/misc/dbdata.c
#endif

#if defined(SQLITE_ENABLE_SESSION)
/*
** State information for a single open session
*/
typedef struct OpenSession OpenSession;
struct OpenSession {
................................................................................
/*
** Print a schema statement.  Part of MODE_Semi and MODE_Pretty output.
**
** This routine converts some CREATE TABLE statements for shadow tables
** in FTS3/4/5 into CREATE TABLE IF NOT EXISTS statements.
*/
static void printSchemaLine(FILE *out, const char *z, const char *zTail){
  if( z==0 ) return;
  if( zTail==0 ) return;
  if( sqlite3_strglob("CREATE TABLE ['\"]*", z)==0 ){
    utf8_printf(out, "CREATE TABLE IF NOT EXISTS %s%s", z+13, zTail);
  }else{
    utf8_printf(out, "%s%s", z, zTail);
  }
}
static void printSchemaLineN(FILE *out, char *z, int n, const char *zTail){
................................................................................
  ".databases               List names and files of attached databases",
  ".dbconfig ?op? ?val?     List or change sqlite3_db_config() options",
  ".dbinfo ?DB?             Show status information about the database",
  ".dump ?TABLE? ...        Render all database content as SQL",
  "   Options:",
  "     --preserve-rowids      Include ROWID values in the output",
  "     --newlines             Allow unescaped newline characters in output",
  "   TABLE is a LIKE pattern for the tables to dump",
  ".echo on|off             Turn command echo on or off",
  ".eqp on|off|full|...     Enable or disable automatic EXPLAIN QUERY PLAN",
  "   Other Modes:",
#ifdef SQLITE_DEBUG
  "      test                  Show raw EXPLAIN QUERY PLAN output",
  "      trace                 Like \"full\" but also enable \"PRAGMA vdbe_trace\"",
#endif
................................................................................
  "   --once                    Do no more than one progress interrupt",
  "   --quiet|-q                No output except at interrupts",
  "   --reset                   Reset the count for each input and interrupt",
#endif
  ".prompt MAIN CONTINUE    Replace the standard prompts",
  ".quit                    Exit this program",
  ".read FILE               Read input from FILE",
#if !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_ENABLE_DBPAGE_VTAB)
  ".recover                 Recover as much data as possible from corrupt db.",
#endif
  ".restore ?DB? FILE       Restore content of DB (default \"main\") from FILE",
  ".save FILE               Write in-memory database into FILE",
  ".scanstats on|off        Turn sqlite3_stmt_scanstatus() metrics on or off",
  ".schema ?PATTERN?        Show the CREATE statements matching PATTERN",
  "     Options:",
  "         --indent            Try to pretty-print the schema",
  ".selftest ?OPTIONS?      Run tests defined in the SELFTEST table",
................................................................................
  int nLine;
  int n = 0;
  int pgsz = 0;
  int iOffset = 0;
  int j, k;
  int rc;
  FILE *in;
  unsigned int x[16];
  char zLine[1000];
  if( p->zDbFilename ){
    in = fopen(p->zDbFilename, "r");
    if( in==0 ){
      utf8_printf(stderr, "cannot open \"%s\" for reading\n", p->zDbFilename);
      return 0;
    }
    nLine = 0;
  }else{
    in = p->in;
    nLine = p->lineno;
    if( in==0 ) in = stdin;
  }
  *pnData = 0;
  nLine++;
  if( fgets(zLine, sizeof(zLine), in)==0 ) goto readHexDb_error;
  rc = sscanf(zLine, "| size %d pagesize %d", &n, &pgsz);
  if( rc!=2 ) goto readHexDb_error;
  if( n<0 ) goto readHexDb_error;
  a = sqlite3_malloc( n ? n : 1 );
  if( a==0 ){
    utf8_printf(stderr, "Out of memory!\n");
    goto readHexDb_error;
  }
  memset(a, 0, n);
  if( pgsz<512 || pgsz>65536 || (pgsz & (pgsz-1))!=0 ){
    utf8_printf(stderr, "invalid pagesize\n");
................................................................................
    if( rc==2 ){
      iOffset = k;
      continue;
    }
    if( strncmp(zLine, "| end ", 6)==0 ){
      break;
    }
    rc = sscanf(zLine,"| %d: %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x",

                &j, &x[0], &x[1], &x[2], &x[3], &x[4], &x[5], &x[6], &x[7],
                &x[8], &x[9], &x[10], &x[11], &x[12], &x[13], &x[14], &x[15]);
    if( rc==17 ){
      k = iOffset+j;
      if( k+16<=n ){
        int ii;
        for(ii=0; ii<16; ii++) a[k+ii] = x[ii]&0xff;
      }
    }
  }
  *pnData = n;
  if( in!=p->in ){
    fclose(in);
  }else{
    p->lineno = nLine;
  }
  return a;

readHexDb_error:
  if( in!=p->in ){
    fclose(in);
  }else{
    while( fgets(zLine, sizeof(zLine), p->in)!=0 ){
      nLine++;
      if(strncmp(zLine, "| end ", 6)==0 ) break;
    }
    p->lineno = nLine;
  }
  sqlite3_free(a);
  utf8_printf(stderr,"Error on line %d of --hexdb input\n", nLine);
  return 0;
}
#endif /* SQLITE_ENABLE_DESERIALIZE */

/*
** Scalar function "shell_int32". The first argument to this function
** must be a blob. The second a non-negative integer. This function
** reads and returns a 32-bit big-endian integer from byte
** offset (4*<arg2>) of the blob.
*/
static void shellInt32(
  sqlite3_context *context, 
  int argc, 
  sqlite3_value **argv
){
  const unsigned char *pBlob;
  int nBlob;
  int iInt;

  UNUSED_PARAMETER(argc);
  nBlob = sqlite3_value_bytes(argv[0]);
  pBlob = (const unsigned char*)sqlite3_value_blob(argv[0]);
  iInt = sqlite3_value_int(argv[1]);

  if( iInt>=0 && (iInt+1)*4<=nBlob ){
    const unsigned char *a = &pBlob[iInt*4];
    sqlite3_int64 iVal = ((sqlite3_int64)a[0]<<24)
                       + ((sqlite3_int64)a[1]<<16)
                       + ((sqlite3_int64)a[2]<< 8)
                       + ((sqlite3_int64)a[3]<< 0);
    sqlite3_result_int64(context, iVal);
  }
}

/*
** Scalar function "shell_escape_crnl" used by the .recover command.
** The argument passed to this function is the output of built-in
** function quote(). If the first character of the input is "'", 
** indicating that the value passed to quote() was a text value,
** then this function searches the input for "\n" and "\r" characters
** and adds a wrapper similar to the following:
**
**   replace(replace(<input>, '\n', char(10), '\r', char(13));
**
** Or, if the first character of the input is not "'", then a copy
** of the input is returned.
*/
static void shellEscapeCrnl(
  sqlite3_context *context, 
  int argc, 
  sqlite3_value **argv
){
  const char *zText = (const char*)sqlite3_value_text(argv[0]);
  UNUSED_PARAMETER(argc);
  if( zText[0]=='\'' ){
    int nText = sqlite3_value_bytes(argv[0]);
    int i;
    char zBuf1[20];
    char zBuf2[20];
    const char *zNL = 0;
    const char *zCR = 0;
    int nCR = 0;
    int nNL = 0;

    for(i=0; zText[i]; i++){
      if( zNL==0 && zText[i]=='\n' ){
        zNL = unused_string(zText, "\\n", "\\012", zBuf1);
        nNL = (int)strlen(zNL);
      }
      if( zCR==0 && zText[i]=='\r' ){
        zCR = unused_string(zText, "\\r", "\\015", zBuf2);
        nCR = (int)strlen(zCR);
      }
    }

    if( zNL || zCR ){
      int iOut = 0;
      i64 nMax = (nNL > nCR) ? nNL : nCR;
      i64 nAlloc = nMax * nText + (nMax+64)*2;
      char *zOut = (char*)sqlite3_malloc64(nAlloc);
      if( zOut==0 ){
        sqlite3_result_error_nomem(context);
        return;
      }

      if( zNL && zCR ){
        memcpy(&zOut[iOut], "replace(replace(", 16);
        iOut += 16;
      }else{
        memcpy(&zOut[iOut], "replace(", 8);
        iOut += 8;
      }
      for(i=0; zText[i]; i++){
        if( zText[i]=='\n' ){
          memcpy(&zOut[iOut], zNL, nNL);
          iOut += nNL;
        }else if( zText[i]=='\r' ){
          memcpy(&zOut[iOut], zCR, nCR);
          iOut += nCR;
        }else{
          zOut[iOut] = zText[i];
          iOut++;
        }
      }

      if( zNL ){
        memcpy(&zOut[iOut], ",'", 2); iOut += 2;
        memcpy(&zOut[iOut], zNL, nNL); iOut += nNL;
        memcpy(&zOut[iOut], "', char(10))", 12); iOut += 12;
      }
      if( zCR ){
        memcpy(&zOut[iOut], ",'", 2); iOut += 2;
        memcpy(&zOut[iOut], zCR, nCR); iOut += nCR;
        memcpy(&zOut[iOut], "', char(13))", 12); iOut += 12;
      }

      sqlite3_result_text(context, zOut, iOut, SQLITE_TRANSIENT);
      sqlite3_free(zOut);
      return;
    }
  }

  sqlite3_result_value(context, argv[0]);
}

/* Flags for open_db().
**
** The default behavior of open_db() is to exit(1) if the database fails to
** open.  The OPEN_DB_KEEPALIVE flag changes that so that it prints an error
** but still returns without calling exit.
**
................................................................................
    }
#ifndef SQLITE_OMIT_LOAD_EXTENSION
    sqlite3_enable_load_extension(p->db, 1);
#endif
    sqlite3_fileio_init(p->db, 0, 0);
    sqlite3_shathree_init(p->db, 0, 0);
    sqlite3_completion_init(p->db, 0, 0);
#if !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_ENABLE_DBPAGE_VTAB)
    sqlite3_dbdata_init(p->db, 0, 0);
#endif
#ifdef SQLITE_HAVE_ZLIB
    sqlite3_zipfile_init(p->db, 0, 0);
    sqlite3_sqlar_init(p->db, 0, 0);
#endif
    sqlite3_create_function(p->db, "shell_add_schema", 3, SQLITE_UTF8, 0,
                            shellAddSchemaName, 0, 0);
    sqlite3_create_function(p->db, "shell_module_schema", 1, SQLITE_UTF8, 0,
                            shellModuleSchema, 0, 0);
    sqlite3_create_function(p->db, "shell_putsnl", 1, SQLITE_UTF8, p,
                            shellPutsFunc, 0, 0);
    sqlite3_create_function(p->db, "shell_escape_crnl", 1, SQLITE_UTF8, 0,
                            shellEscapeCrnl, 0, 0);
    sqlite3_create_function(p->db, "shell_int32", 2, SQLITE_UTF8, 0,
                            shellInt32, 0, 0);
#ifndef SQLITE_NOHAVE_SYSTEM
    sqlite3_create_function(p->db, "edit", 1, SQLITE_UTF8, 0,
                            editFunc, 0, 0);
    sqlite3_create_function(p->db, "edit", 2, SQLITE_UTF8, 0,
                            editFunc, 0, 0);
#endif
    if( p->openMode==SHELL_OPEN_ZIPFILE ){
................................................................................
      int nData = 0;
      unsigned char *aData;
      if( p->openMode==SHELL_OPEN_DESERIALIZE ){
        aData = (unsigned char*)readFile(p->zDbFilename, &nData);
      }else{
        aData = readHexDb(p, &nData);
        if( aData==0 ){

          return;
        }
      }
      rc = sqlite3_deserialize(p->db, "main", aData, nData, nData,
                   SQLITE_DESERIALIZE_RESIZEABLE |
                   SQLITE_DESERIALIZE_FREEONCLOSE);
      if( rc ){
................................................................................
 usage:
  raw_printf(stderr, "Usage %s sub-command ?switches...?\n", azArg[0]);
  raw_printf(stderr, "Where sub-commands are:\n");
  raw_printf(stderr, "    fkey-indexes\n");
  return SQLITE_ERROR;
}

#if !defined SQLITE_OMIT_VIRTUALTABLE



static void shellPrepare(
  sqlite3 *db, 
  int *pRc, 
  const char *zSql, 
  sqlite3_stmt **ppStmt
){
  *ppStmt = 0;
................................................................................
          sqlite3_errmsg(db), sqlite3_errcode(db)
      );
      *pRc = rc;
    }
  }
}

/*
** Create a prepared statement using printf-style arguments for the SQL.
**
** This routine is could be marked "static".  But it is not always used,
** depending on compile-time options.  By omitting the "static", we avoid
** nuisance compiler warnings about "defined but not used".
*/
void shellPreparePrintf(
  sqlite3 *db, 
  int *pRc, 
  sqlite3_stmt **ppStmt,
  const char *zFmt, 
  ...
){
  *ppStmt = 0;
................................................................................
    }else{
      shellPrepare(db, pRc, z, ppStmt);
      sqlite3_free(z);
    }
  }
}

/* Finalize the prepared statement created using shellPreparePrintf().
**
** This routine is could be marked "static".  But it is not always used,
** depending on compile-time options.  By omitting the "static", we avoid
** nuisance compiler warnings about "defined but not used".
*/
void shellFinalize(
  int *pRc, 
  sqlite3_stmt *pStmt
){
  if( pStmt ){
    sqlite3 *db = sqlite3_db_handle(pStmt);
    int rc = sqlite3_finalize(pStmt);
    if( *pRc==SQLITE_OK ){
................................................................................
        raw_printf(stderr, "SQL error: %s\n", sqlite3_errmsg(db));
      }
      *pRc = rc;
    }
  }
}

/* Reset the prepared statement created using shellPreparePrintf().
**
** This routine is could be marked "static".  But it is not always used,
** depending on compile-time options.  By omitting the "static", we avoid
** nuisance compiler warnings about "defined but not used".
*/
void shellReset(
  int *pRc, 
  sqlite3_stmt *pStmt
){
  int rc = sqlite3_reset(pStmt);
  if( *pRc==SQLITE_OK ){
    if( rc!=SQLITE_OK ){
      sqlite3 *db = sqlite3_db_handle(pStmt);
      raw_printf(stderr, "SQL error: %s\n", sqlite3_errmsg(db));
    }
    *pRc = rc;
  }
}
#endif /* !defined SQLITE_OMIT_VIRTUALTABLE */

#if !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_HAVE_ZLIB)
/*********************************************************************************
** The ".archive" or ".ar" command.
*/
/*
** Structure representing a single ".ar" command.
*/
typedef struct ArCommand ArCommand;
struct ArCommand {
  u8 eCmd;                        /* An AR_CMD_* value */
  u8 bVerbose;                    /* True if --verbose */
................................................................................

  return rc;
}
/* End of the ".archive" or ".ar" command logic
**********************************************************************************/
#endif /* !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_HAVE_ZLIB) */

#if !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_ENABLE_DBPAGE_VTAB)
/*
** If (*pRc) is not SQLITE_OK when this function is called, it is a no-op.
** Otherwise, the SQL statement or statements in zSql are executed using
** database connection db and the error code written to *pRc before
** this function returns.
*/
static void shellExec(sqlite3 *db, int *pRc, const char *zSql){
  int rc = *pRc;
  if( rc==SQLITE_OK ){
    char *zErr = 0;
    rc = sqlite3_exec(db, zSql, 0, 0, &zErr);
    if( rc!=SQLITE_OK ){
      raw_printf(stderr, "SQL error: %s\n", zErr);
    }
    *pRc = rc;
  }
}

/*
** Like shellExec(), except that zFmt is a printf() style format string.
*/
static void shellExecPrintf(sqlite3 *db, int *pRc, const char *zFmt, ...){
  char *z = 0;
  if( *pRc==SQLITE_OK ){
    va_list ap;
    va_start(ap, zFmt);
    z = sqlite3_vmprintf(zFmt, ap);
    va_end(ap);
    if( z==0 ){
      *pRc = SQLITE_NOMEM;
    }else{
      shellExec(db, pRc, z);
    }
    sqlite3_free(z);
  }
}

/*
** If *pRc is not SQLITE_OK when this function is called, it is a no-op.
** Otherwise, an attempt is made to allocate, zero and return a pointer
** to a buffer nByte bytes in size. If an OOM error occurs, *pRc is set
** to SQLITE_NOMEM and NULL returned.
*/
static void *shellMalloc(int *pRc, sqlite3_int64 nByte){
  void *pRet = 0;
  if( *pRc==SQLITE_OK ){
    pRet = sqlite3_malloc64(nByte);
    if( pRet==0 ){
      *pRc = SQLITE_NOMEM;
    }else{
      memset(pRet, 0, nByte);
    }
  }
  return pRet;
}

/*
** If *pRc is not SQLITE_OK when this function is called, it is a no-op.
** Otherwise, zFmt is treated as a printf() style string. The result of
** formatting it along with any trailing arguments is written into a 
** buffer obtained from sqlite3_malloc(), and pointer to which is returned.
** It is the responsibility of the caller to eventually free this buffer
** using a call to sqlite3_free().
** 
** If an OOM error occurs, (*pRc) is set to SQLITE_NOMEM and a NULL 
** pointer returned.
*/
static char *shellMPrintf(int *pRc, const char *zFmt, ...){
  char *z = 0;
  if( *pRc==SQLITE_OK ){
    va_list ap;
    va_start(ap, zFmt);
    z = sqlite3_vmprintf(zFmt, ap);
    va_end(ap);
    if( z==0 ){
      *pRc = SQLITE_NOMEM;
    }
  }
  return z;
}

/*
** When running the ".recover" command, each output table, and the special
** orphaned row table if it is required, is represented by an instance
** of the following struct.
*/
typedef struct RecoverTable RecoverTable;
struct RecoverTable {
  char *zQuoted;                  /* Quoted version of table name */
  int nCol;                       /* Number of columns in table */
  char **azlCol;                  /* Array of column lists */
  int iPk;                        /* Index of IPK column */
};

/*
** Free a RecoverTable object allocated by recoverFindTable() or
** recoverOrphanTable().
*/
static void recoverFreeTable(RecoverTable *pTab){
  if( pTab ){
    sqlite3_free(pTab->zQuoted);
    if( pTab->azlCol ){
      int i;
      for(i=0; i<=pTab->nCol; i++){
        sqlite3_free(pTab->azlCol[i]);
      }
      sqlite3_free(pTab->azlCol);
    }
    sqlite3_free(pTab);
  }
}

/*
** This function is a no-op if (*pRc) is not SQLITE_OK when it is called.
** Otherwise, it allocates and returns a RecoverTable object based on the
** final four arguments passed to this function. It is the responsibility
** of the caller to eventually free the returned object using
** recoverFreeTable().
*/
static RecoverTable *recoverNewTable(
  int *pRc,                       /* IN/OUT: Error code */
  const char *zName,              /* Name of table */
  const char *zSql,               /* CREATE TABLE statement */
  int bIntkey, 
  int nCol
){
  sqlite3 *dbtmp = 0;             /* sqlite3 handle for testing CREATE TABLE */
  int rc = *pRc;
  RecoverTable *pTab = 0;

  pTab = (RecoverTable*)shellMalloc(&rc, sizeof(RecoverTable));
  if( rc==SQLITE_OK ){
    int nSqlCol = 0;
    int bSqlIntkey = 0;
    sqlite3_stmt *pStmt = 0;
    
    rc = sqlite3_open("", &dbtmp);
    if( rc==SQLITE_OK ){
      rc = sqlite3_exec(dbtmp, "PRAGMA writable_schema = on", 0, 0, 0);
    }
    if( rc==SQLITE_OK ){
      rc = sqlite3_exec(dbtmp, zSql, 0, 0, 0);
      if( rc==SQLITE_ERROR ){
        rc = SQLITE_OK;
        goto finished;
      }
    }
    shellPreparePrintf(dbtmp, &rc, &pStmt, 
        "SELECT count(*) FROM pragma_table_info(%Q)", zName
    );
    if( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){
      nSqlCol = sqlite3_column_int(pStmt, 0);
    }
    shellFinalize(&rc, pStmt);

    if( rc!=SQLITE_OK || nSqlCol<nCol ){
      goto finished;
    }

    shellPreparePrintf(dbtmp, &rc, &pStmt, 
      "SELECT ("
      "  SELECT substr(data,1,1)==X'0D' FROM sqlite_dbpage WHERE pgno=rootpage"
      ") FROM sqlite_master WHERE name = %Q", zName
    );
    if( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){
      bSqlIntkey = sqlite3_column_int(pStmt, 0);
    }
    shellFinalize(&rc, pStmt);

    if( bIntkey==bSqlIntkey ){
      int i;
      const char *zPk = "_rowid_";
      sqlite3_stmt *pPkFinder = 0;

      /* If this is an intkey table and there is an INTEGER PRIMARY KEY,
      ** set zPk to the name of the PK column, and pTab->iPk to the index
      ** of the column, where columns are 0-numbered from left to right.
      ** Or, if this is a WITHOUT ROWID table or if there is no IPK column,
      ** leave zPk as "_rowid_" and pTab->iPk at -2.  */
      pTab->iPk = -2;
      if( bIntkey ){
        shellPreparePrintf(dbtmp, &rc, &pPkFinder, 
          "SELECT cid, name FROM pragma_table_info(%Q) "
          "  WHERE pk=1 AND type='integer' COLLATE nocase"
          "  AND NOT EXISTS (SELECT cid FROM pragma_table_info(%Q) WHERE pk=2)"
          , zName, zName
        );
        if( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pPkFinder) ){
          pTab->iPk = sqlite3_column_int(pPkFinder, 0);
          zPk = (const char*)sqlite3_column_text(pPkFinder, 1);
        }
      }

      pTab->zQuoted = shellMPrintf(&rc, "%Q", zName);
      pTab->azlCol = (char**)shellMalloc(&rc, sizeof(char*) * (nSqlCol+1));
      pTab->nCol = nSqlCol;

      if( bIntkey ){
        pTab->azlCol[0] = shellMPrintf(&rc, "%Q", zPk);
      }else{
        pTab->azlCol[0] = shellMPrintf(&rc, "");
      }
      i = 1;
      shellPreparePrintf(dbtmp, &rc, &pStmt, 
          "SELECT %Q || group_concat(name, ', ') "
          "  FILTER (WHERE cid!=%d) OVER (ORDER BY %s cid) "
          "FROM pragma_table_info(%Q)", 
          bIntkey ? ", " : "", pTab->iPk, 
          bIntkey ? "" : "(CASE WHEN pk=0 THEN 1000000 ELSE pk END), ",
          zName
      );
      while( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){
        const char *zText = (const char*)sqlite3_column_text(pStmt, 0);
        pTab->azlCol[i] = shellMPrintf(&rc, "%s%s", pTab->azlCol[0], zText);
        i++;
      }
      shellFinalize(&rc, pStmt);

      shellFinalize(&rc, pPkFinder);
    }
  }

 finished:
  sqlite3_close(dbtmp);
  *pRc = rc;
  if( rc!=SQLITE_OK || (pTab && pTab->zQuoted==0) ){
    recoverFreeTable(pTab);
    pTab = 0;
  }
  return pTab;
}

/*
** This function is called to search the schema recovered from the
** sqlite_master table of the (possibly) corrupt database as part
** of a ".recover" command. Specifically, for a table with root page
** iRoot and at least nCol columns. Additionally, if bIntkey is 0, the
** table must be a WITHOUT ROWID table, or if non-zero, not one of
** those.
**
** If a table is found, a (RecoverTable*) object is returned. Or, if
** no such table is found, but bIntkey is false and iRoot is the 
** root page of an index in the recovered schema, then (*pbNoop) is
** set to true and NULL returned. Or, if there is no such table or
** index, NULL is returned and (*pbNoop) set to 0, indicating that
** the caller should write data to the orphans table.
*/
static RecoverTable *recoverFindTable(
  ShellState *pState,             /* Shell state object */
  int *pRc,                       /* IN/OUT: Error code */
  int iRoot,                      /* Root page of table */
  int bIntkey,                    /* True for an intkey table */
  int nCol,                       /* Number of columns in table */
  int *pbNoop                     /* OUT: True if iRoot is root of index */
){
  sqlite3_stmt *pStmt = 0;
  RecoverTable *pRet = 0;
  int bNoop = 0;
  const char *zSql = 0;
  const char *zName = 0;

  /* Search the recovered schema for an object with root page iRoot. */
  shellPreparePrintf(pState->db, pRc, &pStmt,
      "SELECT type, name, sql FROM recovery.schema WHERE rootpage=%d", iRoot
  );
  while( *pRc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){
    const char *zType = (const char*)sqlite3_column_text(pStmt, 0);
    if( bIntkey==0 && sqlite3_stricmp(zType, "index")==0 ){
      bNoop = 1;
      break;
    }
    if( sqlite3_stricmp(zType, "table")==0 ){
      zName = (const char*)sqlite3_column_text(pStmt, 1);
      zSql = (const char*)sqlite3_column_text(pStmt, 2);
      pRet = recoverNewTable(pRc, zName, zSql, bIntkey, nCol);
      break;
    }
  }

  shellFinalize(pRc, pStmt);
  *pbNoop = bNoop;
  return pRet;
}

/*
** Return a RecoverTable object representing the orphans table.
*/
static RecoverTable *recoverOrphanTable(
  ShellState *pState,             /* Shell state object */
  int *pRc,                       /* IN/OUT: Error code */
  const char *zLostAndFound,      /* Base name for orphans table */
  int nCol                        /* Number of user data columns */
){
  RecoverTable *pTab = 0;
  if( nCol>=0 && *pRc==SQLITE_OK ){
    int i;

    /* This block determines the name of the orphan table. The prefered
    ** name is zLostAndFound. But if that clashes with another name
    ** in the recovered schema, try zLostAndFound_0, zLostAndFound_1
    ** and so on until a non-clashing name is found.  */
    int iTab = 0;
    char *zTab = shellMPrintf(pRc, "%s", zLostAndFound);
    sqlite3_stmt *pTest = 0;
    shellPrepare(pState->db, pRc,
        "SELECT 1 FROM recovery.schema WHERE name=?", &pTest
    );
    if( pTest ) sqlite3_bind_text(pTest, 1, zTab, -1, SQLITE_TRANSIENT);
    while( *pRc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pTest) ){
      shellReset(pRc, pTest);
      sqlite3_free(zTab);
      zTab = shellMPrintf(pRc, "%s_%d", zLostAndFound, iTab++);
      sqlite3_bind_text(pTest, 1, zTab, -1, SQLITE_TRANSIENT);
    }
    shellFinalize(pRc, pTest);

    pTab = (RecoverTable*)shellMalloc(pRc, sizeof(RecoverTable));
    if( pTab ){
      pTab->zQuoted = shellMPrintf(pRc, "%Q", zTab);
      pTab->nCol = nCol;
      pTab->iPk = -2;
      if( nCol>0 ){
        pTab->azlCol = (char**)shellMalloc(pRc, sizeof(char*) * (nCol+1));
        if( pTab->azlCol ){
          pTab->azlCol[nCol] = shellMPrintf(pRc, "");
          for(i=nCol-1; i>=0; i--){
            pTab->azlCol[i] = shellMPrintf(pRc, "%s, NULL", pTab->azlCol[i+1]);
          }
        }
      }

      if( *pRc!=SQLITE_OK ){
        recoverFreeTable(pTab);
        pTab = 0;
      }else{
        raw_printf(pState->out, 
            "CREATE TABLE %s(rootpgno INTEGER, "
            "pgno INTEGER, nfield INTEGER, id INTEGER", pTab->zQuoted
        );
        for(i=0; i<nCol; i++){
          raw_printf(pState->out, ", c%d", i);
        }
        raw_printf(pState->out, ");\n");
      }
    }
    sqlite3_free(zTab);
  }
  return pTab;
}

/*
** This function is called to recover data from the database. A script
** to construct a new database containing all recovered data is output
** on stream pState->out.
*/
static int recoverDatabaseCmd(ShellState *pState, int nArg, char **azArg){
  int rc = SQLITE_OK;
  sqlite3_stmt *pLoop = 0;        /* Loop through all root pages */
  sqlite3_stmt *pPages = 0;       /* Loop through all pages in a group */
  sqlite3_stmt *pCells = 0;       /* Loop through all cells in a page */
  const char *zRecoveryDb = "";   /* Name of "recovery" database */
  const char *zLostAndFound = "lost_and_found";
  int i;
  int nOrphan = -1;
  RecoverTable *pOrphan = 0;

  int bFreelist = 1;              /* 0 if --freelist-corrupt is specified */
  for(i=1; i<nArg; i++){
    char *z = azArg[i];
    int n;
    if( z[0]=='-' && z[1]=='-' ) z++;
    n = strlen(z);
    if( n<=17 && memcmp("-freelist-corrupt", z, n)==0 ){
      bFreelist = 0;
    }else
    if( n<=12 && memcmp("-recovery-db", z, n)==0 && i<(nArg-1) ){
      i++;
      zRecoveryDb = azArg[i];
    }else
    if( n<=15 && memcmp("-lost-and-found", z, n)==0 && i<(nArg-1) ){
      i++;
      zLostAndFound = azArg[i];
    }
    else{
      raw_printf(stderr, "unexpected option: %s\n", azArg[i]); 
      raw_printf(stderr, "options are:\n");
      raw_printf(stderr, "    --freelist-corrupt\n");
      raw_printf(stderr, "    --recovery-db DATABASE\n");
      raw_printf(stderr, "    --lost-and-found TABLE-NAME\n");
      return 1;
    }
  }

  shellExecPrintf(pState->db, &rc,
    /* Attach an in-memory database named 'recovery'. Create an indexed 
    ** cache of the sqlite_dbptr virtual table. */
    "ATTACH %Q AS recovery;"
    "DROP TABLE IF EXISTS recovery.dbptr;"
    "DROP TABLE IF EXISTS recovery.freelist;"
    "DROP TABLE IF EXISTS recovery.map;"
    "DROP TABLE IF EXISTS recovery.schema;"
    "CREATE TABLE recovery.freelist(pgno INTEGER PRIMARY KEY);", zRecoveryDb
  );

  if( bFreelist ){
    shellExec(pState->db, &rc,
      "WITH trunk(pgno) AS ("
      "  SELECT shell_int32("
      "      (SELECT data FROM sqlite_dbpage WHERE pgno=1), 8) AS x "
      "      WHERE x>0"
      "    UNION"
      "  SELECT shell_int32("
      "      (SELECT data FROM sqlite_dbpage WHERE pgno=trunk.pgno), 0) AS x "
      "      FROM trunk WHERE x>0"
      "),"
      "freelist(data, n, freepgno) AS ("
      "  SELECT data, min(16384, shell_int32(data, 1)-1), t.pgno "
      "      FROM trunk t, sqlite_dbpage s WHERE s.pgno=t.pgno"
      "    UNION ALL"
      "  SELECT data, n-1, shell_int32(data, 2+n) "
      "      FROM freelist WHERE n>=0"
      ")"
      "REPLACE INTO recovery.freelist SELECT freepgno FROM freelist;"
    );
  }

  shellExec(pState->db, &rc, 
    "CREATE TABLE recovery.dbptr("
    "      pgno, child, PRIMARY KEY(child, pgno)"
    ") WITHOUT ROWID;"
    "INSERT OR IGNORE INTO recovery.dbptr(pgno, child) "
    "    SELECT * FROM sqlite_dbptr"
    "      WHERE pgno NOT IN freelist AND child NOT IN freelist;"

    /* Delete any pointer to page 1. This ensures that page 1 is considered
    ** a root page, regardless of how corrupt the db is. */
    "DELETE FROM recovery.dbptr WHERE child = 1;"

    /* Delete all pointers to any pages that have more than one pointer
    ** to them. Such pages will be treated as root pages when recovering
    ** data.  */
    "DELETE FROM recovery.dbptr WHERE child IN ("
    "  SELECT child FROM recovery.dbptr GROUP BY child HAVING count(*)>1"
    ");"

    /* Create the "map" table that will (eventually) contain instructions
    ** for dealing with each page in the db that contains one or more 
    ** records. */
    "CREATE TABLE recovery.map("
      "pgno INTEGER PRIMARY KEY, maxlen INT, intkey, root INT"
    ");"

    /* Populate table [map]. If there are circular loops of pages in the
    ** database, the following adds all pages in such a loop to the map
    ** as individual root pages. This could be handled better.  */
    "WITH pages(i, maxlen) AS ("
    "  SELECT page_count, ("
    "    SELECT max(field+1) FROM sqlite_dbdata WHERE pgno=page_count"
    "  ) FROM pragma_page_count WHERE page_count>0"
    "    UNION ALL"
    "  SELECT i-1, ("
    "    SELECT max(field+1) FROM sqlite_dbdata WHERE pgno=i-1"
    "  ) FROM pages WHERE i>=2"
    ")"
    "INSERT INTO recovery.map(pgno, maxlen, intkey, root) "
    "  SELECT i, maxlen, NULL, ("
    "    WITH p(orig, pgno, parent) AS ("
    "      SELECT 0, i, (SELECT pgno FROM recovery.dbptr WHERE child=i)"
    "        UNION "
    "      SELECT i, p.parent, "
    "        (SELECT pgno FROM recovery.dbptr WHERE child=p.parent) FROM p"
    "    )"
    "    SELECT pgno FROM p WHERE (parent IS NULL OR pgno = orig)"
    ") "
    "FROM pages WHERE maxlen > 0 AND i NOT IN freelist;"
    "UPDATE recovery.map AS o SET intkey = ("
    "  SELECT substr(data, 1, 1)==X'0D' FROM sqlite_dbpage WHERE pgno=o.pgno"
    ");"

    /* Extract data from page 1 and any linked pages into table
    ** recovery.schema. With the same schema as an sqlite_master table.  */
    "CREATE TABLE recovery.schema(type, name, tbl_name, rootpage, sql);"
    "INSERT INTO recovery.schema SELECT "
    "  max(CASE WHEN field=0 THEN value ELSE NULL END),"
    "  max(CASE WHEN field=1 THEN value ELSE NULL END),"
    "  max(CASE WHEN field=2 THEN value ELSE NULL END),"
    "  max(CASE WHEN field=3 THEN value ELSE NULL END),"
    "  max(CASE WHEN field=4 THEN value ELSE NULL END)"
    "FROM sqlite_dbdata WHERE pgno IN ("
    "  SELECT pgno FROM recovery.map WHERE root=1"
    ")"
    "GROUP BY pgno, cell;"
    "CREATE INDEX recovery.schema_rootpage ON schema(rootpage);"
  );

  /* Open a transaction, then print out all non-virtual, non-"sqlite_%" 
  ** CREATE TABLE statements that extracted from the existing schema.  */
  if( rc==SQLITE_OK ){
    sqlite3_stmt *pStmt = 0;
    raw_printf(pState->out, "BEGIN;\n");
    raw_printf(pState->out, "PRAGMA writable_schema = on;\n");
    shellPrepare(pState->db, &rc,
        "SELECT sql FROM recovery.schema "
        "WHERE type='table' AND sql LIKE 'create table%'", &pStmt
    );
    while( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){
      const char *zCreateTable = (const char*)sqlite3_column_text(pStmt, 0);
      raw_printf(pState->out, "CREATE TABLE IF NOT EXISTS %s;\n", 
          &zCreateTable[12]
      );
    }
    shellFinalize(&rc, pStmt);
  }

  /* Figure out if an orphan table will be required. And if so, how many
  ** user columns it should contain */
  shellPrepare(pState->db, &rc, 
      "SELECT coalesce(max(maxlen), -2) FROM recovery.map WHERE root>1"
      , &pLoop
  );
  if( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pLoop) ){
    nOrphan = sqlite3_column_int(pLoop, 0);
  }
  shellFinalize(&rc, pLoop);
  pLoop = 0;

  shellPrepare(pState->db, &rc,
      "SELECT pgno FROM recovery.map WHERE root=?", &pPages
  );
  shellPrepare(pState->db, &rc,
      "SELECT max(field), group_concat(shell_escape_crnl(quote(value)), ', ')"
      "FROM sqlite_dbdata WHERE pgno = ? AND field != ?"
      "GROUP BY cell", &pCells
  );

  /* Loop through each root page. */
  shellPrepare(pState->db, &rc, 
      "SELECT root, intkey, max(maxlen) FROM recovery.map" 
      " WHERE root>1 GROUP BY root, intkey ORDER BY root=("
      "  SELECT rootpage FROM recovery.schema WHERE name='sqlite_sequence'"
      ")", &pLoop
  );
  while( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pLoop) ){
    int iRoot = sqlite3_column_int(pLoop, 0);
    int bIntkey = sqlite3_column_int(pLoop, 1);
    int nCol = sqlite3_column_int(pLoop, 2);
    int bNoop = 0;
    RecoverTable *pTab;

    pTab = recoverFindTable(pState, &rc, iRoot, bIntkey, nCol, &bNoop);
    if( bNoop || rc ) continue;
    if( pTab==0 ){
      if( pOrphan==0 ){
        pOrphan = recoverOrphanTable(pState, &rc, zLostAndFound, nOrphan);
      }
      pTab = pOrphan;
      if( pTab==0 ) break;
    }

    if( 0==sqlite3_stricmp(pTab->zQuoted, "'sqlite_sequence'") ){
      raw_printf(pState->out, "DELETE FROM sqlite_sequence;\n");
    }
    sqlite3_bind_int(pPages, 1, iRoot);
    sqlite3_bind_int(pCells, 2, pTab->iPk);

    while( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pPages) ){
      int iPgno = sqlite3_column_int(pPages, 0);
      sqlite3_bind_int(pCells, 1, iPgno);
      while( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pCells) ){
        int nField = sqlite3_column_int(pCells, 0);
        const char *zVal = (const char*)sqlite3_column_text(pCells, 1);

        nField = nField+1;
        if( pTab==pOrphan ){
          raw_printf(pState->out, 
              "INSERT INTO %s VALUES(%d, %d, %d, %s%s%s);\n",
              pTab->zQuoted, iRoot, iPgno, nField, 
              bIntkey ? "" : "NULL, ", zVal, pTab->azlCol[nField]
          );
        }else{
          raw_printf(pState->out, "INSERT INTO %s(%s) VALUES( %s );\n", 
              pTab->zQuoted, pTab->azlCol[nField], zVal
          );
        }
      }
      shellReset(&rc, pCells);
    }
    shellReset(&rc, pPages);
    if( pTab!=pOrphan ) recoverFreeTable(pTab);
  }
  shellFinalize(&rc, pLoop);
  shellFinalize(&rc, pPages);
  shellFinalize(&rc, pCells);
  recoverFreeTable(pOrphan);

  /* The rest of the schema */
  if( rc==SQLITE_OK ){
    sqlite3_stmt *pStmt = 0;
    shellPrepare(pState->db, &rc, 
        "SELECT sql, name FROM recovery.schema "
        "WHERE sql NOT LIKE 'create table%'", &pStmt
    );
    while( rc==SQLITE_OK && SQLITE_ROW==sqlite3_step(pStmt) ){
      const char *zSql = (const char*)sqlite3_column_text(pStmt, 0);
      if( sqlite3_strnicmp(zSql, "create virt", 11)==0 ){
        const char *zName = (const char*)sqlite3_column_text(pStmt, 1);
        char *zPrint = shellMPrintf(&rc, 
          "INSERT INTO sqlite_master VALUES('table', %Q, %Q, 0, %Q)",
          zName, zName, zSql
        );
        raw_printf(pState->out, "%s;\n", zPrint);
        sqlite3_free(zPrint);
      }else{
        raw_printf(pState->out, "%s;\n", zSql);
      }
    }
    shellFinalize(&rc, pStmt);
  }

  if( rc==SQLITE_OK ){
    raw_printf(pState->out, "PRAGMA writable_schema = off;\n");
    raw_printf(pState->out, "COMMIT;\n");
  }
  sqlite3_exec(pState->db, "DETACH recovery", 0, 0, 0);
  return rc;
}
#endif /* !(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_ENABLE_DBPAGE_VTAB) */


/*
** If an input line begins with "." then invoke this routine to
** process that line.
**
** Return 1 on error, 2 to exit, and 0 otherwise.
*/
................................................................................
    }   
  }else

  if( c=='d' && n>=3 && strncmp(azArg[0], "dbinfo", n)==0 ){
    rc = shell_dbinfo_command(p, nArg, azArg);
  }else

#if !defined(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_ENABLE_DBPAGE_VTAB)
  if( c=='r' && strncmp(azArg[0], "recover", n)==0 ){
    open_db(p, 0);
    rc = recoverDatabaseCmd(p, nArg, azArg);
  }else
#endif /* !(SQLITE_OMIT_VIRTUALTABLE) && defined(SQLITE_ENABLE_DBPAGE_VTAB) */

  if( c=='d' && strncmp(azArg[0], "dump", n)==0 ){
    const char *zLike = 0;
    int i;
    int savedShowHeader = p->showHeader;
    int savedShellFlags = p->shellFlgs;
    ShellClearFlag(p, SHFLG_PreserveRowid|SHFLG_Newlines|SHFLG_Echo);
    for(i=1; i<nArg; i++){
................................................................................
                           "?--newlines? ?LIKE-PATTERN?\n");
        rc = 1;
        goto meta_command_exit;
      }else{
        zLike = azArg[i];
      }
    }

    open_db(p, 0);

    /* When playing back a "dump", the content might appear in an order
    ** which causes immediate foreign key constraints to be violated.
    ** So disable foreign-key constraint enforcement to prevent problems. */
    raw_printf(p->out, "PRAGMA foreign_keys=OFF;\n");
    raw_printf(p->out, "BEGIN TRANSACTION;\n");
    p->writableSchema = 0;
    p->showHeader = 0;
................................................................................
    }
    if( p->writableSchema ){
      raw_printf(p->out, "PRAGMA writable_schema=OFF;\n");
      p->writableSchema = 0;
    }
    sqlite3_exec(p->db, "PRAGMA writable_schema=OFF;", 0, 0, 0);
    sqlite3_exec(p->db, "RELEASE dump;", 0, 0, 0);
    raw_printf(p->out, p->nErr?"ROLLBACK; -- due to errors\n":"COMMIT;\n");
    p->showHeader = savedShowHeader;
    p->shellFlgs = savedShellFlags;
  }else

  if( c=='e' && strncmp(azArg[0], "echo", n)==0 ){
    if( nArg==2 ){
      setOrClearFlag(p, SHFLG_Echo, azArg[1]);

Changes to src/sqlite.h.in.

7315
7316
7317
7318
7319
7320
7321

7322
7323
7324
7325
7326
7327
7328
7329
#define SQLITE_TESTCTRL_NEVER_CORRUPT           20
#define SQLITE_TESTCTRL_VDBE_COVERAGE           21
#define SQLITE_TESTCTRL_BYTEORDER               22
#define SQLITE_TESTCTRL_ISINIT                  23
#define SQLITE_TESTCTRL_SORTER_MMAP             24
#define SQLITE_TESTCTRL_IMPOSTER                25
#define SQLITE_TESTCTRL_PARSER_COVERAGE         26

#define SQLITE_TESTCTRL_LAST                    26  /* Largest TESTCTRL */

/*
** CAPI3REF: SQL Keyword Checking
**
** These routines provide access to the set of SQL language keywords 
** recognized by SQLite.  Applications can uses these routines to determine
** whether or not a specific identifier needs to be escaped (for example,







>
|







7315
7316
7317
7318
7319
7320
7321
7322
7323
7324
7325
7326
7327
7328
7329
7330
#define SQLITE_TESTCTRL_NEVER_CORRUPT           20
#define SQLITE_TESTCTRL_VDBE_COVERAGE           21
#define SQLITE_TESTCTRL_BYTEORDER               22
#define SQLITE_TESTCTRL_ISINIT                  23
#define SQLITE_TESTCTRL_SORTER_MMAP             24
#define SQLITE_TESTCTRL_IMPOSTER                25
#define SQLITE_TESTCTRL_PARSER_COVERAGE         26
#define SQLITE_TESTCTRL_RESULT_INTREAL          27
#define SQLITE_TESTCTRL_LAST                    27  /* Largest TESTCTRL */

/*
** CAPI3REF: SQL Keyword Checking
**
** These routines provide access to the set of SQL language keywords 
** recognized by SQLite.  Applications can uses these routines to determine
** whether or not a specific identifier needs to be escaped (for example,

Changes to src/sqliteInt.h.

2261
2262
2263
2264
2265
2266
2267

2268
2269
2270
2271
2272
2273
2274
....
2538
2539
2540
2541
2542
2543
2544


2545
2546
2547
2548
2549
2550
2551
....
2553
2554
2555
2556
2557
2558
2559


2560
2561
2562
2563
2564
2565
2566
....
3862
3863
3864
3865
3866
3867
3868
3869

3870
3871
3872
3873
3874
3875
3876
....
4277
4278
4279
4280
4281
4282
4283



4284
4285
4286
4287
4288
4289
4290
  unsigned bUnordered:1;   /* Use this index for == or IN queries only */
  unsigned uniqNotNull:1;  /* True if UNIQUE and NOT NULL for all columns */
  unsigned isResized:1;    /* True if resizeIndexObject() has been called */
  unsigned isCovering:1;   /* True if this is a covering index */
  unsigned noSkipScan:1;   /* Do not try to use skip-scan if true */
  unsigned hasStat1:1;     /* aiRowLogEst values come from sqlite_stat1 */
  unsigned bNoQuery:1;     /* Do not use this index to optimize queries */

#ifdef SQLITE_ENABLE_STAT3_OR_STAT4
  int nSample;             /* Number of elements in aSample[] */
  int nSampleCol;          /* Size of IndexSample.anEq[] and so on */
  tRowcnt *aAvgEq;         /* Average nEq values for keys not in aSample */
  IndexSample *aSample;    /* Samples of the left-most key */
  tRowcnt *aiRowEst;       /* Non-logarithmic stat1 data for this index */
  tRowcnt nRowEst0;        /* Non-logarithmic number of rows in the index */
................................................................................
#define EP_Subquery  0x200000 /* Tree contains a TK_SELECT operator */
#define EP_Alias     0x400000 /* Is an alias for a result set column */
#define EP_Leaf      0x800000 /* Expr.pLeft, .pRight, .u.pSelect all NULL */
#define EP_WinFunc  0x1000000 /* TK_FUNCTION with Expr.y.pWin set */
#define EP_Subrtn   0x2000000 /* Uses Expr.y.sub. TK_IN, _SELECT, or _EXISTS */
#define EP_Quoted   0x4000000 /* TK_ID was originally quoted */
#define EP_Static   0x8000000 /* Held in memory not obtained from malloc() */



/*
** The EP_Propagate mask is a set of properties that automatically propagate
** upwards into parent nodes.
*/
#define EP_Propagate (EP_Collate|EP_Subquery|EP_HasFunc)

................................................................................
** These macros can be used to test, set, or clear bits in the
** Expr.flags field.
*/
#define ExprHasProperty(E,P)     (((E)->flags&(P))!=0)
#define ExprHasAllProperty(E,P)  (((E)->flags&(P))==(P))
#define ExprSetProperty(E,P)     (E)->flags|=(P)
#define ExprClearProperty(E,P)   (E)->flags&=~(P)



/* The ExprSetVVAProperty() macro is used for Verification, Validation,
** and Accreditation only.  It works like ExprSetProperty() during VVA
** processes but is a no-op for delivery.
*/
#ifdef SQLITE_DEBUG
# define ExprSetVVAProperty(E,P)  (E)->flags|=(P)
................................................................................
int sqlite3NoTempsInRange(Parse*,int,int);
#endif
Expr *sqlite3ExprAlloc(sqlite3*,int,const Token*,int);
Expr *sqlite3Expr(sqlite3*,int,const char*);
void sqlite3ExprAttachSubtrees(sqlite3*,Expr*,Expr*,Expr*);
Expr *sqlite3PExpr(Parse*, int, Expr*, Expr*);
void sqlite3PExprAddSelect(Parse*, Expr*, Select*);
Expr *sqlite3ExprAnd(sqlite3*,Expr*, Expr*);

Expr *sqlite3ExprFunction(Parse*,ExprList*, Token*, int);
void sqlite3ExprAssignVarNumber(Parse*, Expr*, u32);
void sqlite3ExprDelete(sqlite3*, Expr*);
ExprList *sqlite3ExprListAppend(Parse*,ExprList*,Expr*);
ExprList *sqlite3ExprListAppendVector(Parse*,ExprList*,IdList*,Expr*);
void sqlite3ExprListSetSortOrder(ExprList*,int);
void sqlite3ExprListSetName(Parse*,ExprList*,Token*,int);
................................................................................

const void *sqlite3ValueText(sqlite3_value*, u8);
int sqlite3ValueBytes(sqlite3_value*, u8);
void sqlite3ValueSetStr(sqlite3_value*, int, const void *,u8,
                        void(*)(void*));
void sqlite3ValueSetNull(sqlite3_value*);
void sqlite3ValueFree(sqlite3_value*);



sqlite3_value *sqlite3ValueNew(sqlite3 *);
#ifndef SQLITE_OMIT_UTF16
char *sqlite3Utf16to8(sqlite3 *, const void*, int, u8);
#endif
int sqlite3ValueFromExpr(sqlite3 *, Expr *, u8, u8, sqlite3_value **);
void sqlite3ValueApplyAffinity(sqlite3_value *, u8, u8);
#ifndef SQLITE_AMALGAMATION







>







 







>
>







 







>
>







 







|
>







 







>
>
>







2261
2262
2263
2264
2265
2266
2267
2268
2269
2270
2271
2272
2273
2274
2275
....
2539
2540
2541
2542
2543
2544
2545
2546
2547
2548
2549
2550
2551
2552
2553
2554
....
2556
2557
2558
2559
2560
2561
2562
2563
2564
2565
2566
2567
2568
2569
2570
2571
....
3867
3868
3869
3870
3871
3872
3873
3874
3875
3876
3877
3878
3879
3880
3881
3882
....
4283
4284
4285
4286
4287
4288
4289
4290
4291
4292
4293
4294
4295
4296
4297
4298
4299
  unsigned bUnordered:1;   /* Use this index for == or IN queries only */
  unsigned uniqNotNull:1;  /* True if UNIQUE and NOT NULL for all columns */
  unsigned isResized:1;    /* True if resizeIndexObject() has been called */
  unsigned isCovering:1;   /* True if this is a covering index */
  unsigned noSkipScan:1;   /* Do not try to use skip-scan if true */
  unsigned hasStat1:1;     /* aiRowLogEst values come from sqlite_stat1 */
  unsigned bNoQuery:1;     /* Do not use this index to optimize queries */
  unsigned bAscKeyBug:1;   /* True if the bba7b69f9849b5bf bug applies */
#ifdef SQLITE_ENABLE_STAT3_OR_STAT4
  int nSample;             /* Number of elements in aSample[] */
  int nSampleCol;          /* Size of IndexSample.anEq[] and so on */
  tRowcnt *aAvgEq;         /* Average nEq values for keys not in aSample */
  IndexSample *aSample;    /* Samples of the left-most key */
  tRowcnt *aiRowEst;       /* Non-logarithmic stat1 data for this index */
  tRowcnt nRowEst0;        /* Non-logarithmic number of rows in the index */
................................................................................
#define EP_Subquery  0x200000 /* Tree contains a TK_SELECT operator */
#define EP_Alias     0x400000 /* Is an alias for a result set column */
#define EP_Leaf      0x800000 /* Expr.pLeft, .pRight, .u.pSelect all NULL */
#define EP_WinFunc  0x1000000 /* TK_FUNCTION with Expr.y.pWin set */
#define EP_Subrtn   0x2000000 /* Uses Expr.y.sub. TK_IN, _SELECT, or _EXISTS */
#define EP_Quoted   0x4000000 /* TK_ID was originally quoted */
#define EP_Static   0x8000000 /* Held in memory not obtained from malloc() */
#define EP_IsTrue  0x10000000 /* Always has boolean value of TRUE */
#define EP_IsFalse 0x20000000 /* Always has boolean value of FALSE */

/*
** The EP_Propagate mask is a set of properties that automatically propagate
** upwards into parent nodes.
*/
#define EP_Propagate (EP_Collate|EP_Subquery|EP_HasFunc)

................................................................................
** These macros can be used to test, set, or clear bits in the
** Expr.flags field.
*/
#define ExprHasProperty(E,P)     (((E)->flags&(P))!=0)
#define ExprHasAllProperty(E,P)  (((E)->flags&(P))==(P))
#define ExprSetProperty(E,P)     (E)->flags|=(P)
#define ExprClearProperty(E,P)   (E)->flags&=~(P)
#define ExprAlwaysTrue(E)   (((E)->flags&(EP_FromJoin|EP_IsTrue))==EP_IsTrue)
#define ExprAlwaysFalse(E)  (((E)->flags&(EP_FromJoin|EP_IsFalse))==EP_IsFalse)

/* The ExprSetVVAProperty() macro is used for Verification, Validation,
** and Accreditation only.  It works like ExprSetProperty() during VVA
** processes but is a no-op for delivery.
*/
#ifdef SQLITE_DEBUG
# define ExprSetVVAProperty(E,P)  (E)->flags|=(P)
................................................................................
int sqlite3NoTempsInRange(Parse*,int,int);
#endif
Expr *sqlite3ExprAlloc(sqlite3*,int,const Token*,int);
Expr *sqlite3Expr(sqlite3*,int,const char*);
void sqlite3ExprAttachSubtrees(sqlite3*,Expr*,Expr*,Expr*);
Expr *sqlite3PExpr(Parse*, int, Expr*, Expr*);
void sqlite3PExprAddSelect(Parse*, Expr*, Select*);
Expr *sqlite3ExprAnd(Parse*,Expr*, Expr*);
Expr *sqlite3ExprSimplifiedAndOr(Expr*);
Expr *sqlite3ExprFunction(Parse*,ExprList*, Token*, int);
void sqlite3ExprAssignVarNumber(Parse*, Expr*, u32);
void sqlite3ExprDelete(sqlite3*, Expr*);
ExprList *sqlite3ExprListAppend(Parse*,ExprList*,Expr*);
ExprList *sqlite3ExprListAppendVector(Parse*,ExprList*,IdList*,Expr*);
void sqlite3ExprListSetSortOrder(ExprList*,int);
void sqlite3ExprListSetName(Parse*,ExprList*,Token*,int);
................................................................................

const void *sqlite3ValueText(sqlite3_value*, u8);
int sqlite3ValueBytes(sqlite3_value*, u8);
void sqlite3ValueSetStr(sqlite3_value*, int, const void *,u8,
                        void(*)(void*));
void sqlite3ValueSetNull(sqlite3_value*);
void sqlite3ValueFree(sqlite3_value*);
#ifndef SQLITE_UNTESTABLE
void sqlite3ResultIntReal(sqlite3_context*);
#endif
sqlite3_value *sqlite3ValueNew(sqlite3 *);
#ifndef SQLITE_OMIT_UTF16
char *sqlite3Utf16to8(sqlite3 *, const void*, int, u8);
#endif
int sqlite3ValueFromExpr(sqlite3 *, Expr *, u8, u8, sqlite3_value **);
void sqlite3ValueApplyAffinity(sqlite3_value *, u8, u8);
#ifndef SQLITE_AMALGAMATION

Changes to src/test1.c.

993
994
995
996
997
998
999














1000
1001
1002
1003
1004
1005
1006
....
1057
1058
1059
1060
1061
1062
1063








1064
1065
1066
1067
1068
1069
1070
....
4268
4269
4270
4271
4272
4273
4274
4275
4276


4277
4278
4279
4280
4281
4282
4283
4284
4285
4286
4287
4288
....
7728
7729
7730
7731
7732
7733
7734
7735
7736
7737
7738
7739
7740
7741
7742
....
7760
7761
7762
7763
7764
7765
7766
7767
7768
7769
7770
7771
7772
7773
7774

7775
7776
7777
7778
7779
7780
7781
  sqlite3_context *context, 
  int argc,  
  sqlite3_value **argv
){
  static int cnt = 0;
  sqlite3_result_int(context, cnt++);
}















/*
** Usage:  sqlite3_create_function DB
**
** Call the sqlite3_create_function API on the given database in order
** to create a function named "x_coalesce".  This function does the same thing
** as the "coalesce" function.  This function also registers an SQL function
................................................................................
    rc = sqlite3_create_function(db, "counter1", -1, SQLITE_UTF8,
          0, nondeterministicFunction, 0, 0);
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_function(db, "counter2", -1, SQLITE_UTF8|SQLITE_DETERMINISTIC,
          0, nondeterministicFunction, 0, 0);
  }









#ifndef SQLITE_OMIT_UTF16
  /* Use the sqlite3_create_function16() API here. Mainly for fun, but also 
  ** because it is not tested anywhere else. */
  if( rc==SQLITE_OK ){
    const void *zUtf16;
    sqlite3_value *pVal;
................................................................................
  }else{
    int n = (int)strlen(zSql) + 1;
    zCopy = malloc(n);
    memcpy(zCopy, zSql, n);
  }
  pzTail = objc>=5 ? &zTail : 0;
  rc = sqlite3_prepare_v2(db, zCopy, bytes, &pStmt, pzTail);
  free(zCopy);
  zTail = &zSql[(zTail - zCopy)];



  assert(rc==SQLITE_OK || pStmt==0);
  Tcl_ResetResult(interp);
  if( sqlite3TestErrCode(interp, db, rc) ) return TCL_ERROR;
  if( rc==SQLITE_OK && zTail && objc>=5 ){
    if( bytes>=0 ){
      bytes = bytes - (int)(zTail-zSql);
    }
    Tcl_ObjSetVar2(interp, objv[4], 0, Tcl_NewStringObj(zTail, bytes), 0);
  }
  if( rc!=SQLITE_OK ){
    assert( pStmt==0 );
................................................................................
  unsigned char *a = 0;
  int n = 0;
  int lineno = 0;
  int i, iNext;
  int iOffset = 0;
  int j, k;
  int rc;
  unsigned char x[16];
  if( objc!=2 ){
    Tcl_WrongNumArgs(interp, 1, objv, "HEXDB");
    return TCL_ERROR;
  }
  zIn = Tcl_GetString(objv[1]);
  for(i=0; zIn[i]; i=iNext){
    lineno++;
................................................................................
      continue;
    }
    rc = sscanf(zIn+i, "| page %d offset %d", &j, &k);
    if( rc==2 ){
      iOffset = k;
      continue;
    }
    rc = sscanf(zIn+i,"| %d: %hhx %hhx %hhx %hhx %hhx %hhx %hhx %hhx"
                      "  %hhx %hhx %hhx %hhx %hhx %hhx %hhx %hhx",
                &j, &x[0], &x[1], &x[2], &x[3], &x[4], &x[5], &x[6], &x[7],
                &x[8], &x[9], &x[10], &x[11], &x[12], &x[13], &x[14], &x[15]);
    if( rc==17 ){
      k = iOffset+j;
      if( k+16<=n ){
        memcpy(a+k, x, 16);

      }
      continue;
    }
  }
  Tcl_SetObjResult(interp, Tcl_NewByteArrayObj(a, n));
  free(a);
  return TCL_OK;







>
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993
994
995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
1015
1016
1017
1018
1019
1020
....
1071
1072
1073
1074
1075
1076
1077
1078
1079
1080
1081
1082
1083
1084
1085
1086
1087
1088
1089
1090
1091
1092
....
4290
4291
4292
4293
4294
4295
4296
4297
4298
4299
4300
4301
4302
4303
4304
4305
4306
4307
4308
4309
4310
4311
4312
....
7752
7753
7754
7755
7756
7757
7758
7759
7760
7761
7762
7763
7764
7765
7766
....
7784
7785
7786
7787
7788
7789
7790
7791

7792
7793
7794
7795
7796
7797
7798
7799
7800
7801
7802
7803
7804
7805
  sqlite3_context *context, 
  int argc,  
  sqlite3_value **argv
){
  static int cnt = 0;
  sqlite3_result_int(context, cnt++);
}

/*
** This SQL function returns the integer value of its argument as a MEM_IntReal
** value.
*/
static void intrealFunction(
  sqlite3_context *context, 
  int argc,  
  sqlite3_value **argv
){
  sqlite3_int64 v = sqlite3_value_int64(argv[0]);
  sqlite3_result_int64(context, v);
  sqlite3_test_control(SQLITE_TESTCTRL_RESULT_INTREAL, context);
}

/*
** Usage:  sqlite3_create_function DB
**
** Call the sqlite3_create_function API on the given database in order
** to create a function named "x_coalesce".  This function does the same thing
** as the "coalesce" function.  This function also registers an SQL function
................................................................................
    rc = sqlite3_create_function(db, "counter1", -1, SQLITE_UTF8,
          0, nondeterministicFunction, 0, 0);
  }
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_function(db, "counter2", -1, SQLITE_UTF8|SQLITE_DETERMINISTIC,
          0, nondeterministicFunction, 0, 0);
  }

  /* The intreal() function converts its argument to an integer and returns
  ** it as a MEM_IntReal.
  */
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_function(db, "intreal", 1, SQLITE_UTF8,
          0, intrealFunction, 0, 0);
  }

#ifndef SQLITE_OMIT_UTF16
  /* Use the sqlite3_create_function16() API here. Mainly for fun, but also 
  ** because it is not tested anywhere else. */
  if( rc==SQLITE_OK ){
    const void *zUtf16;
    sqlite3_value *pVal;
................................................................................
  }else{
    int n = (int)strlen(zSql) + 1;
    zCopy = malloc(n);
    memcpy(zCopy, zSql, n);
  }
  pzTail = objc>=5 ? &zTail : 0;
  rc = sqlite3_prepare_v2(db, zCopy, bytes, &pStmt, pzTail);
  if( objc>=5 ){
    zTail = &zSql[(zTail - zCopy)];
  }
  free(zCopy);

  assert(rc==SQLITE_OK || pStmt==0);
  Tcl_ResetResult(interp);
  if( sqlite3TestErrCode(interp, db, rc) ) return TCL_ERROR;
  if( rc==SQLITE_OK && objc>=5 && zTail ){
    if( bytes>=0 ){
      bytes = bytes - (int)(zTail-zSql);
    }
    Tcl_ObjSetVar2(interp, objv[4], 0, Tcl_NewStringObj(zTail, bytes), 0);
  }
  if( rc!=SQLITE_OK ){
    assert( pStmt==0 );
................................................................................
  unsigned char *a = 0;
  int n = 0;
  int lineno = 0;
  int i, iNext;
  int iOffset = 0;
  int j, k;
  int rc;
  unsigned int x[16];
  if( objc!=2 ){
    Tcl_WrongNumArgs(interp, 1, objv, "HEXDB");
    return TCL_ERROR;
  }
  zIn = Tcl_GetString(objv[1]);
  for(i=0; zIn[i]; i=iNext){
    lineno++;
................................................................................
      continue;
    }
    rc = sscanf(zIn+i, "| page %d offset %d", &j, &k);
    if( rc==2 ){
      iOffset = k;
      continue;
    }
    rc = sscanf(zIn+i,"| %d: %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x %x",

                &j, &x[0], &x[1], &x[2], &x[3], &x[4], &x[5], &x[6], &x[7],
                &x[8], &x[9], &x[10], &x[11], &x[12], &x[13], &x[14], &x[15]);
    if( rc==17 ){
      k = iOffset+j;
      if( k+16<=n ){
        int ii;
        for(ii=0; ii<16; ii++) a[k+ii] = x[ii]&0xff;
      }
      continue;
    }
  }
  Tcl_SetObjResult(interp, Tcl_NewByteArrayObj(a, n));
  free(a);
  return TCL_OK;

Changes to src/test_fs.c.

125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
...
232
233
234
235
236
237
238
239
240
241
242
243
244

245
246
247
248
249
250
251
...
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
};

struct FsdirCsr {
  sqlite3_vtab_cursor base;
  char *zDir;                     /* Buffer containing directory scanned */
  DIR *pDir;                      /* Open directory */
  sqlite3_int64 iRowid;
  struct DIRENT entry;            /* Current entry */
};

/*
** This function is the implementation of both the xConnect and xCreate
** methods of the fsdir virtual table.
**
** The argv[] array contains the following:
................................................................................
/*
** Skip the cursor to the next entry.
*/
static int fsdirNext(sqlite3_vtab_cursor *cur){
  FsdirCsr *pCsr = (FsdirCsr*)cur;

  if( pCsr->pDir ){
    struct DIRENT *pRes = 0;
    pRes = readdir(pCsr->pDir);
    if( pRes!=0 ){
      memcpy(&pCsr->entry, pRes, sizeof(struct DIRENT));
    }
    if( pRes==0 ){

      closedir(pCsr->pDir);
      pCsr->pDir = 0;
    }
    pCsr->iRowid++;
  }

  return SQLITE_OK;
................................................................................
  FsdirCsr *pCsr = (FsdirCsr*)cur;
  switch( i ){
    case 0: /* dir */
      sqlite3_result_text(ctx, pCsr->zDir, -1, SQLITE_STATIC);
      break;

    case 1: /* name */
      sqlite3_result_text(ctx, pCsr->entry.d_name, -1, SQLITE_TRANSIENT);
      break;

    default:
      assert( 0 );
  }

  return SQLITE_OK;







|







 







<
|
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<
<
<
>







 







|







125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
...
232
233
234
235
236
237
238

239




240
241
242
243
244
245
246
247
...
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
};

struct FsdirCsr {
  sqlite3_vtab_cursor base;
  char *zDir;                     /* Buffer containing directory scanned */
  DIR *pDir;                      /* Open directory */
  sqlite3_int64 iRowid;
  struct DIRENT *pEntry;
};

/*
** This function is the implementation of both the xConnect and xCreate
** methods of the fsdir virtual table.
**
** The argv[] array contains the following:
................................................................................
/*
** Skip the cursor to the next entry.
*/
static int fsdirNext(sqlite3_vtab_cursor *cur){
  FsdirCsr *pCsr = (FsdirCsr*)cur;

  if( pCsr->pDir ){

    pCsr->pEntry = readdir(pCsr->pDir);




    if( pCsr->pEntry==0 ){
      closedir(pCsr->pDir);
      pCsr->pDir = 0;
    }
    pCsr->iRowid++;
  }

  return SQLITE_OK;
................................................................................
  FsdirCsr *pCsr = (FsdirCsr*)cur;
  switch( i ){
    case 0: /* dir */
      sqlite3_result_text(ctx, pCsr->zDir, -1, SQLITE_STATIC);
      break;

    case 1: /* name */
      sqlite3_result_text(ctx, pCsr->pEntry->d_name, -1, SQLITE_TRANSIENT);
      break;

    default:
      assert( 0 );
  }

  return SQLITE_OK;

Changes to src/test_vfs.c.

231
232
233
234
235
236
237

238
239
240
241
242
243
244
...
548
549
550
551
552
553
554

555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
    { SQLITE_OK,       "SQLITE_OK"     },
    { SQLITE_ERROR,    "SQLITE_ERROR"  },
    { SQLITE_IOERR,    "SQLITE_IOERR"  },
    { SQLITE_LOCKED,   "SQLITE_LOCKED" },
    { SQLITE_BUSY,     "SQLITE_BUSY"   },
    { SQLITE_READONLY, "SQLITE_READONLY"   },
    { SQLITE_READONLY_CANTINIT, "SQLITE_READONLY_CANTINIT"   },

    { -1,              "SQLITE_OMIT"   },
  };

  const char *z;
  int i;

  z = Tcl_GetStringResult(p->interp);
................................................................................
  if( p->pScript && (p->mask&TESTVFS_FCNTL_MASK) ){
    struct Fcntl {
      int iFnctl;
      const char *zFnctl;
    } aF[] = {
      { SQLITE_FCNTL_BEGIN_ATOMIC_WRITE, "BEGIN_ATOMIC_WRITE" },
      { SQLITE_FCNTL_COMMIT_ATOMIC_WRITE, "COMMIT_ATOMIC_WRITE" },

    };
    int i;
    for(i=0; i<sizeof(aF)/sizeof(aF[0]); i++){
      if( op==aF[i].iFnctl ) break;
    }
    if( i<sizeof(aF)/sizeof(aF[0]) ){
      int rc = 0;
      tvfsExecTcl(p, "xFileControl", 
          Tcl_NewStringObj(pFd->zFilename, -1), 
          Tcl_NewStringObj(aF[i].zFnctl, -1),
          0, 0
      );
      tvfsResultCode(p, &rc);
      if( rc ) return rc;
    }
  }
  return sqlite3OsFileControl(pFd->pReal, op, pArg);
}

/*
** Return the sector-size in bytes for an tvfs-file.







>







 







>













|







231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
...
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
    { SQLITE_OK,       "SQLITE_OK"     },
    { SQLITE_ERROR,    "SQLITE_ERROR"  },
    { SQLITE_IOERR,    "SQLITE_IOERR"  },
    { SQLITE_LOCKED,   "SQLITE_LOCKED" },
    { SQLITE_BUSY,     "SQLITE_BUSY"   },
    { SQLITE_READONLY, "SQLITE_READONLY"   },
    { SQLITE_READONLY_CANTINIT, "SQLITE_READONLY_CANTINIT"   },
    { SQLITE_NOTFOUND, "SQLITE_NOTFOUND"   },
    { -1,              "SQLITE_OMIT"   },
  };

  const char *z;
  int i;

  z = Tcl_GetStringResult(p->interp);
................................................................................
  if( p->pScript && (p->mask&TESTVFS_FCNTL_MASK) ){
    struct Fcntl {
      int iFnctl;
      const char *zFnctl;
    } aF[] = {
      { SQLITE_FCNTL_BEGIN_ATOMIC_WRITE, "BEGIN_ATOMIC_WRITE" },
      { SQLITE_FCNTL_COMMIT_ATOMIC_WRITE, "COMMIT_ATOMIC_WRITE" },
      { SQLITE_FCNTL_ZIPVFS, "ZIPVFS" },
    };
    int i;
    for(i=0; i<sizeof(aF)/sizeof(aF[0]); i++){
      if( op==aF[i].iFnctl ) break;
    }
    if( i<sizeof(aF)/sizeof(aF[0]) ){
      int rc = 0;
      tvfsExecTcl(p, "xFileControl", 
          Tcl_NewStringObj(pFd->zFilename, -1), 
          Tcl_NewStringObj(aF[i].zFnctl, -1),
          0, 0
      );
      tvfsResultCode(p, &rc);
      if( rc ) return (rc<0 ? SQLITE_OK : rc);
    }
  }
  return sqlite3OsFileControl(pFd->pReal, op, pArg);
}

/*
** Return the sector-size in bytes for an tvfs-file.

Changes to src/update.c.

151
152
153
154
155
156
157

158
159
160
161
162
163
164
165
166
167
168
169
...
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
...
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
...
382
383
384
385
386
387
388
389
390
391

392
393
394
395
396
397
398
...
399
400
401
402
403
404
405






406
407
408
409
410
411
412
413
...
529
530
531
532
533
534
535


536
537
538
539
540
541
542
  Table *pTab;           /* The table to be updated */
  int addrTop = 0;       /* VDBE instruction address of the start of the loop */
  WhereInfo *pWInfo;     /* Information about the WHERE clause */
  Vdbe *v;               /* The virtual database engine */
  Index *pIdx;           /* For looping over indices */
  Index *pPk;            /* The PRIMARY KEY index for WITHOUT ROWID tables */
  int nIdx;              /* Number of indices that need updating */

  int iBaseCur;          /* Base cursor number */
  int iDataCur;          /* Cursor for the canonical data btree */
  int iIdxCur;           /* Cursor for the first index */
  sqlite3 *db;           /* The database structure */
  int *aRegIdx = 0;      /* First register in array assigned to each index */
  int *aXRef = 0;        /* aXRef[i] is the index in pChanges->a[] of the
                         ** an expression for the i-th column of the table.
                         ** aXRef[i]==-1 if the i-th column is not changed. */
  u8 *aToOpen;           /* 1 for tables and indices to be opened */
  u8 chngPk;             /* PRIMARY KEY changed in a WITHOUT ROWID table */
  u8 chngRowid;          /* Rowid changed in a normal table */
  u8 chngKey;            /* Either chngPk or chngRowid */
................................................................................
    pParse->nTab = iBaseCur;
  }
  pTabList->a[0].iCursor = iDataCur;

  /* Allocate space for aXRef[], aRegIdx[], and aToOpen[].  
  ** Initialize aXRef[] and aToOpen[] to their default values.
  */
  aXRef = sqlite3DbMallocRawNN(db, sizeof(int) * (pTab->nCol+nIdx) + nIdx+2 );
  if( aXRef==0 ) goto update_cleanup;
  aRegIdx = aXRef+pTab->nCol;
  aToOpen = (u8*)(aRegIdx+nIdx);
  memset(aToOpen, 1, nIdx+1);
  aToOpen[nIdx+1] = 0;
  for(i=0; i<pTab->nCol; i++) aXRef[i] = -1;

  /* Initialize the name-context */
  memset(&sNC, 0, sizeof(sNC));
  sNC.pParse = pParse;
................................................................................
  hasFK = sqlite3FkRequired(pParse, pTab, aXRef, chngKey);

  /* There is one entry in the aRegIdx[] array for each index on the table
  ** being updated.  Fill in aRegIdx[] with a register number that will hold
  ** the key for accessing each index.
  */
  if( onError==OE_Replace ) bReplace = 1;
  for(j=0, pIdx=pTab->pIndex; pIdx; pIdx=pIdx->pNext, j++){
    int reg;
    if( chngKey || hasFK>1 || pIdx==pPk
     || indexWhereClauseMightChange(pIdx,aXRef,chngRowid)
    ){
      reg = ++pParse->nMem;
      pParse->nMem += pIdx->nColumn;
    }else{
................................................................................
          if( onError==OE_Default && pIdx->onError==OE_Replace ){
            bReplace = 1;
          }
          break;
        }
      }
    }
    if( reg==0 ) aToOpen[j+1] = 0;
    aRegIdx[j] = reg;
  }

  if( bReplace ){
    /* If REPLACE conflict resolution might be invoked, open cursors on all 
    ** indexes in case they are needed to delete records.  */
    memset(aToOpen, 1, nIdx+1);
  }

  /* Begin generating code. */
................................................................................
  v = sqlite3GetVdbe(pParse);
  if( v==0 ) goto update_cleanup;
  if( pParse->nested==0 ) sqlite3VdbeCountChanges(v);
  sqlite3BeginWriteOperation(pParse, pTrigger || hasFK, iDb);

  /* Allocate required registers. */
  if( !IsVirtual(pTab) ){






    regRowSet = ++pParse->nMem;
    regOldRowid = regNewRowid = ++pParse->nMem;
    if( chngPk || pTrigger || hasFK ){
      regOld = pParse->nMem + 1;
      pParse->nMem += pTab->nCol;
    }
    if( chngKey || pTrigger || hasFK ){
      regNewRowid = ++pParse->nMem;
................................................................................

  if( HasRowid(pTab) ){
    /* Read the rowid of the current row of the WHERE scan. In ONEPASS_OFF
    ** mode, write the rowid into the FIFO. In either of the one-pass modes,
    ** leave it in register regOldRowid.  */
    sqlite3VdbeAddOp2(v, OP_Rowid, iDataCur, regOldRowid);
    if( eOnePass==ONEPASS_OFF ){


      sqlite3VdbeAddOp2(v, OP_RowSetAdd, regRowSet, regOldRowid);
    }
  }else{
    /* Read the PK of the current row into an array of registers. In
    ** ONEPASS_OFF mode, serialize the array into a record and store it in
    ** the ephemeral table. Or, in ONEPASS_SINGLE or MULTI mode, change
    ** the OP_OpenEphemeral instruction to a Noop (the ephemeral table 







>




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|


|







 







|







 







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|

>







 







>
>
>
>
>
>
|







 







>
>







151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
...
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
...
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
...
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
...
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
...
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
  Table *pTab;           /* The table to be updated */
  int addrTop = 0;       /* VDBE instruction address of the start of the loop */
  WhereInfo *pWInfo;     /* Information about the WHERE clause */
  Vdbe *v;               /* The virtual database engine */
  Index *pIdx;           /* For looping over indices */
  Index *pPk;            /* The PRIMARY KEY index for WITHOUT ROWID tables */
  int nIdx;              /* Number of indices that need updating */
  int nAllIdx;           /* Total number of indexes */
  int iBaseCur;          /* Base cursor number */
  int iDataCur;          /* Cursor for the canonical data btree */
  int iIdxCur;           /* Cursor for the first index */
  sqlite3 *db;           /* The database structure */
  int *aRegIdx = 0;      /* Registers for to each index and the main table */
  int *aXRef = 0;        /* aXRef[i] is the index in pChanges->a[] of the
                         ** an expression for the i-th column of the table.
                         ** aXRef[i]==-1 if the i-th column is not changed. */
  u8 *aToOpen;           /* 1 for tables and indices to be opened */
  u8 chngPk;             /* PRIMARY KEY changed in a WITHOUT ROWID table */
  u8 chngRowid;          /* Rowid changed in a normal table */
  u8 chngKey;            /* Either chngPk or chngRowid */
................................................................................
    pParse->nTab = iBaseCur;
  }
  pTabList->a[0].iCursor = iDataCur;

  /* Allocate space for aXRef[], aRegIdx[], and aToOpen[].  
  ** Initialize aXRef[] and aToOpen[] to their default values.
  */
  aXRef = sqlite3DbMallocRawNN(db, sizeof(int) * (pTab->nCol+nIdx+1) + nIdx+2 );
  if( aXRef==0 ) goto update_cleanup;
  aRegIdx = aXRef+pTab->nCol;
  aToOpen = (u8*)(aRegIdx+nIdx+1);
  memset(aToOpen, 1, nIdx+1);
  aToOpen[nIdx+1] = 0;
  for(i=0; i<pTab->nCol; i++) aXRef[i] = -1;

  /* Initialize the name-context */
  memset(&sNC, 0, sizeof(sNC));
  sNC.pParse = pParse;
................................................................................
  hasFK = sqlite3FkRequired(pParse, pTab, aXRef, chngKey);

  /* There is one entry in the aRegIdx[] array for each index on the table
  ** being updated.  Fill in aRegIdx[] with a register number that will hold
  ** the key for accessing each index.
  */
  if( onError==OE_Replace ) bReplace = 1;
  for(nAllIdx=0, pIdx=pTab->pIndex; pIdx; pIdx=pIdx->pNext, nAllIdx++){
    int reg;
    if( chngKey || hasFK>1 || pIdx==pPk
     || indexWhereClauseMightChange(pIdx,aXRef,chngRowid)
    ){
      reg = ++pParse->nMem;
      pParse->nMem += pIdx->nColumn;
    }else{
................................................................................
          if( onError==OE_Default && pIdx->onError==OE_Replace ){
            bReplace = 1;
          }
          break;
        }
      }
    }
    if( reg==0 ) aToOpen[nAllIdx+1] = 0;
    aRegIdx[nAllIdx] = reg;
  }
  aRegIdx[nAllIdx] = ++pParse->nMem;  /* Register storing the table record */
  if( bReplace ){
    /* If REPLACE conflict resolution might be invoked, open cursors on all 
    ** indexes in case they are needed to delete records.  */
    memset(aToOpen, 1, nIdx+1);
  }

  /* Begin generating code. */
................................................................................
  v = sqlite3GetVdbe(pParse);
  if( v==0 ) goto update_cleanup;
  if( pParse->nested==0 ) sqlite3VdbeCountChanges(v);
  sqlite3BeginWriteOperation(pParse, pTrigger || hasFK, iDb);

  /* Allocate required registers. */
  if( !IsVirtual(pTab) ){
    /* For now, regRowSet and aRegIdx[nAllIdx] share the same register.
    ** If regRowSet turns out to be needed, then aRegIdx[nAllIdx] will be
    ** reallocated.  aRegIdx[nAllIdx] is the register in which the main
    ** table record is written.  regRowSet holds the RowSet for the
    ** two-pass update algorithm. */
    assert( aRegIdx[nAllIdx]==pParse->nMem );
    regRowSet = aRegIdx[nAllIdx];
    regOldRowid = regNewRowid = ++pParse->nMem;
    if( chngPk || pTrigger || hasFK ){
      regOld = pParse->nMem + 1;
      pParse->nMem += pTab->nCol;
    }
    if( chngKey || pTrigger || hasFK ){
      regNewRowid = ++pParse->nMem;
................................................................................

  if( HasRowid(pTab) ){
    /* Read the rowid of the current row of the WHERE scan. In ONEPASS_OFF
    ** mode, write the rowid into the FIFO. In either of the one-pass modes,
    ** leave it in register regOldRowid.  */
    sqlite3VdbeAddOp2(v, OP_Rowid, iDataCur, regOldRowid);
    if( eOnePass==ONEPASS_OFF ){
      /* We need to use regRowSet, so reallocate aRegIdx[nAllIdx] */
      aRegIdx[nAllIdx] = ++pParse->nMem;
      sqlite3VdbeAddOp2(v, OP_RowSetAdd, regRowSet, regOldRowid);
    }
  }else{
    /* Read the PK of the current row into an array of registers. In
    ** ONEPASS_OFF mode, serialize the array into a record and store it in
    ** the ephemeral table. Or, in ONEPASS_SINGLE or MULTI mode, change
    ** the OP_OpenEphemeral instruction to a Noop (the ephemeral table 

Changes to src/util.c.

13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
...
318
319
320
321
322
323
324
325
326
327
328





329
330

331
332
333
334
335
336
337
...
908
909
910
911
912
913
914

915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931


932
933
934
935
936
937
938
939
940

941
942
943
944
945
946
947
**
** This file contains functions for allocating memory, comparing
** strings, and stuff like that.
**
*/
#include "sqliteInt.h"
#include <stdarg.h>
#if HAVE_ISNAN || SQLITE_HAVE_ISNAN
# include <math.h>
#endif

/*
** Routine needed to support the testcase() macro.
*/
#ifdef SQLITE_COVERAGE_TEST
void sqlite3Coverage(int x){
  static unsigned dummy = 0;
................................................................................
  }else if( zRight==0 ){
    return 1;
  }
  return sqlite3StrICmp(zLeft, zRight);
}
int sqlite3StrICmp(const char *zLeft, const char *zRight){
  unsigned char *a, *b;
  int c;
  a = (unsigned char *)zLeft;
  b = (unsigned char *)zRight;
  for(;;){





    c = (int)UpperToLower[*a] - (int)UpperToLower[*b];
    if( c || *a==0 ) break;

    a++;
    b++;
  }
  return c;
}
int sqlite3_strnicmp(const char *zLeft, const char *zRight, int N){
  register unsigned char *a, *b;
................................................................................
/*
** Read a 64-bit variable-length integer from memory starting at p[0].
** Return the number of bytes read.  The value is stored in *v.
*/
u8 sqlite3GetVarint(const unsigned char *p, u64 *v){
  u32 a,b,s;


  a = *p;
  /* a: p0 (unmasked) */
  if (!(a&0x80))
  {
    *v = a;
    return 1;
  }

  p++;
  b = *p;
  /* b: p1 (unmasked) */
  if (!(b&0x80))
  {
    a &= 0x7f;
    a = a<<7;
    a |= b;
    *v = a;


    return 2;
  }

  /* Verify that constants are precomputed correctly */
  assert( SLOT_2_0 == ((0x7f<<14) | (0x7f)) );
  assert( SLOT_4_2_0 == ((0xfU<<28) | (0x7f<<14) | (0x7f)) );

  p++;
  a = a<<14;

  a |= *p;
  /* a: p0<<14 | p2 (unmasked) */
  if (!(a&0x80))
  {
    a &= SLOT_2_0;
    b &= 0x7f;
    b = b<<7;







<
|
<







 







|



>
>
>
>
>
|
|
>







 







>
|
<
<
<
<


<
<
<
<
<
<
<
<
<
<
>
>







|
|
>







13
14
15
16
17
18
19

20

21
22
23
24
25
26
27
...
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
...
912
913
914
915
916
917
918
919
920




921
922










923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
**
** This file contains functions for allocating memory, comparing
** strings, and stuff like that.
**
*/
#include "sqliteInt.h"
#include <stdarg.h>

#include <math.h>


/*
** Routine needed to support the testcase() macro.
*/
#ifdef SQLITE_COVERAGE_TEST
void sqlite3Coverage(int x){
  static unsigned dummy = 0;
................................................................................
  }else if( zRight==0 ){
    return 1;
  }
  return sqlite3StrICmp(zLeft, zRight);
}
int sqlite3StrICmp(const char *zLeft, const char *zRight){
  unsigned char *a, *b;
  int c, x;
  a = (unsigned char *)zLeft;
  b = (unsigned char *)zRight;
  for(;;){
    c = *a;
    x = *b;
    if( c==x ){
      if( c==0 ) break;
    }else{
      c = (int)UpperToLower[c] - (int)UpperToLower[x];
      if( c ) break;
    }
    a++;
    b++;
  }
  return c;
}
int sqlite3_strnicmp(const char *zLeft, const char *zRight, int N){
  register unsigned char *a, *b;
................................................................................
/*
** Read a 64-bit variable-length integer from memory starting at p[0].
** Return the number of bytes read.  The value is stored in *v.
*/
u8 sqlite3GetVarint(const unsigned char *p, u64 *v){
  u32 a,b,s;

  if( ((signed char*)p)[0]>=0 ){
    *v = *p;




    return 1;
  }










  if( ((signed char*)p)[1]>=0 ){
    *v = ((u32)(p[0]&0x7f)<<7) | p[1];
    return 2;
  }

  /* Verify that constants are precomputed correctly */
  assert( SLOT_2_0 == ((0x7f<<14) | (0x7f)) );
  assert( SLOT_4_2_0 == ((0xfU<<28) | (0x7f<<14) | (0x7f)) );

  a = ((u32)p[0])<<14;
  b = p[1];
  p += 2;
  a |= *p;
  /* a: p0<<14 | p2 (unmasked) */
  if (!(a&0x80))
  {
    a &= SLOT_2_0;
    b &= 0x7f;
    b = b<<7;

Changes to src/vacuum.c.

102
103
104
105
106
107
108

109
110
111
112
113
114
115
** transient would cause the database file to appear to be deleted
** following reboot.
*/
void sqlite3Vacuum(Parse *pParse, Token *pNm, Expr *pInto){
  Vdbe *v = sqlite3GetVdbe(pParse);
  int iDb = 0;
  if( v==0 ) goto build_vacuum_end;

  if( pNm ){
#ifndef SQLITE_BUG_COMPATIBLE_20160819
    /* Default behavior:  Report an error if the argument to VACUUM is
    ** not recognized */
    iDb = sqlite3TwoPartName(pParse, pNm, pNm, &pNm);
    if( iDb<0 ) goto build_vacuum_end;
#else







>







102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
** transient would cause the database file to appear to be deleted
** following reboot.
*/
void sqlite3Vacuum(Parse *pParse, Token *pNm, Expr *pInto){
  Vdbe *v = sqlite3GetVdbe(pParse);
  int iDb = 0;
  if( v==0 ) goto build_vacuum_end;
  if( pParse->nErr ) goto build_vacuum_end;
  if( pNm ){
#ifndef SQLITE_BUG_COMPATIBLE_20160819
    /* Default behavior:  Report an error if the argument to VACUUM is
    ** not recognized */
    iDb = sqlite3TwoPartName(pParse, pNm, pNm, &pNm);
    if( iDb<0 ) goto build_vacuum_end;
#else

Changes to src/vdbe.c.

191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
...
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
...
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
...
356
357
358
359
360
361
362
363



364
365
366
367
368
369
370
371
372
373
374
...
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
...
419
420
421
422
423
424
425
426



427
428
429


430
431
432
433
434
435
436
...
518
519
520
521
522
523
524


525
526
527
528
529
530
531
....
1459
1460
1461
1462
1463
1464
1465
1466


1467
1468
1469
1470


1471



1472
1473
1474
1475












1476
1477
1478


1479
1480
1481
1482
1483
1484
1485
1486
1487
1488


1489
1490


1491
1492
1493
1494
1495
1496
1497
....
1609
1610
1611
1612
1613
1614
1615
1616
1617
1618
1619
1620
1621
1622
1623
....
1780
1781
1782
1783
1784
1785
1786

1787

1788
1789
1790
1791
1792
1793
1794
....
1972
1973
1974
1975
1976
1977
1978
1979
1980
1981
1982
1983
1984
1985
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004

2005
2006
2007
2008
2009
2010
2011
2012

2013
2014
2015
2016
2017
2018
2019
....
2761
2762
2763
2764
2765
2766
2767
2768
2769
2770
2771









2772
2773

2774
2775
2776
2777
2778
2779
2780
....
2787
2788
2789
2790
2791
2792
2793
2794
2795
2796
2797
2798
2799
2800
2801
2802
2803
2804
2805
2806
2807
2808
2809


2810
2811
2812
2813
2814
2815
2816
....
2841
2842
2843
2844
2845
2846
2847
2848



2849
2850
2851
2852
2853
2854
2855
....
2929
2930
2931
2932
2933
2934
2935







2936

2937
2938
2939
2940
2941
2942
2943
2944
2945
2946
2947
2948
2949
2950
2951
2952
2953
2954
2955
2956
2957
2958
2959
2960
2961
2962
2963
2964
2965
2966
2967
2968
2969
2970
....
2986
2987
2988
2989
2990
2991
2992
2993

2994
2995
2996
2997
2998
2999
3000
3001
....
3055
3056
3057
3058
3059
3060
3061

3062
3063
3064
3065
3066
3067
3068
....
3109
3110
3111
3112
3113
3114
3115

3116
3117
3118
3119
3120
3121
3122
....
3145
3146
3147
3148
3149
3150
3151

3152
3153
3154
3155
3156
3157
3158
....
3713
3714
3715
3716
3717
3718
3719


3720

3721
3722
3723
3724
3725
3726
3727
....
3981
3982
3983
3984
3985
3986
3987


3988
3989
3990
3991
3992
3993
3994
3995
3996
3997
3998
3999
4000
4001
4002
4003
4004
4005
4006
4007
4008
4009




4010

4011
4012
4013
4014
4015
4016
4017
....
4027
4028
4029
4030
4031
4032
4033
4034
4035
4036
4037
4038
4039
4040
4041
....
4081
4082
4083
4084
4085
4086
4087
4088
4089
4090
4091
4092
4093
4094
4095
4096
....
4382
4383
4384
4385
4386
4387
4388
4389


4390
4391
4392
4393
4394
4395
4396
      if( (mNever&0x08)!=0 && (I&0x05)!=0) I |= 0x05; /*NO_TEST*/
    }
    sqlite3GlobalConfig.xVdbeBranch(sqlite3GlobalConfig.pVdbeBranchArg,
                                    iSrcLine&0xffffff, I, M);
  }
#endif

/*
** Convert the given register into a string if it isn't one
** already. Return non-zero if a malloc() fails.
*/
#define Stringify(P, enc) \
   if(((P)->flags&(MEM_Str|MEM_Blob))==0 && sqlite3VdbeMemStringify(P,enc,0)) \
     { goto no_mem; }

/*
** An ephemeral string value (signified by the MEM_Ephem flag) contains
** a pointer to a dynamically allocated string where some other entity
** is responsible for deallocating that string.  Because the register
** does not control the string, it might be deleted without the register
** knowing it.
**
................................................................................

  assert( iCur>=0 && iCur<p->nCursor );
  if( p->apCsr[iCur] ){ /*OPTIMIZATION-IF-FALSE*/
    /* Before calling sqlite3VdbeFreeCursor(), ensure the isEphemeral flag
    ** is clear. Otherwise, if this is an ephemeral cursor created by 
    ** OP_OpenDup, the cursor will not be closed and will still be part
    ** of a BtShared.pCursor list.  */
    p->apCsr[iCur]->isEphemeral = 0;
    sqlite3VdbeFreeCursor(p, p->apCsr[iCur]);
    p->apCsr[iCur] = 0;
  }
  if( SQLITE_OK==sqlite3VdbeMemClearAndResize(pMem, nByte) ){
    p->apCsr[iCur] = pCx = (VdbeCursor*)pMem->z;
    memset(pCx, 0, offsetof(VdbeCursor,pAltCursor));
    pCx->eCurType = eCurType;
................................................................................
** point or exponential notation, the result is only MEM_Real, even
** if there is an exact integer representation of the quantity.
*/
static void applyNumericAffinity(Mem *pRec, int bTryForInt){
  double rValue;
  i64 iValue;
  u8 enc = pRec->enc;
  assert( (pRec->flags & (MEM_Str|MEM_Int|MEM_Real))==MEM_Str );
  if( sqlite3AtoF(pRec->z, &rValue, pRec->n, enc)==0 ) return;
  if( 0==sqlite3Atoi64(pRec->z, &iValue, pRec->n, enc) ){
    pRec->u.i = iValue;
    pRec->flags |= MEM_Int;
  }else{
    pRec->u.r = rValue;
    pRec->flags |= MEM_Real;
................................................................................
  }else if( affinity==SQLITE_AFF_TEXT ){
    /* Only attempt the conversion to TEXT if there is an integer or real
    ** representation (blob and NULL do not get converted) but no string
    ** representation.  It would be harmless to repeat the conversion if 
    ** there is already a string rep, but it is pointless to waste those
    ** CPU cycles. */
    if( 0==(pRec->flags&MEM_Str) ){ /*OPTIMIZATION-IF-FALSE*/
      if( (pRec->flags&(MEM_Real|MEM_Int)) ){



        sqlite3VdbeMemStringify(pRec, enc, 1);
      }
    }
    pRec->flags &= ~(MEM_Real|MEM_Int);
  }
}

/*
** Try to convert the type of a function argument or a result column
** into a numeric representation.  Use either INTEGER or REAL whichever
** is appropriate.  But only do the conversion if it is possible without
................................................................................
/*
** pMem currently only holds a string type (or maybe a BLOB that we can
** interpret as a string if we want to).  Compute its corresponding
** numeric type, if has one.  Set the pMem->u.r and pMem->u.i fields
** accordingly.
*/
static u16 SQLITE_NOINLINE computeNumericType(Mem *pMem){
  assert( (pMem->flags & (MEM_Int|MEM_Real))==0 );
  assert( (pMem->flags & (MEM_Str|MEM_Blob))!=0 );
  ExpandBlob(pMem);
  if( sqlite3AtoF(pMem->z, &pMem->u.r, pMem->n, pMem->enc)==0 ){
    return 0;
  }
  if( sqlite3Atoi64(pMem->z, &pMem->u.i, pMem->n, pMem->enc)==0 ){
    return MEM_Int;
................................................................................
** Return the numeric type for pMem, either MEM_Int or MEM_Real or both or
** none.  
**
** Unlike applyNumericAffinity(), this routine does not modify pMem->flags.
** But it does set pMem->u.r and pMem->u.i appropriately.
*/
static u16 numericType(Mem *pMem){
  if( pMem->flags & (MEM_Int|MEM_Real) ){



    return pMem->flags & (MEM_Int|MEM_Real);
  }
  if( pMem->flags & (MEM_Str|MEM_Blob) ){


    return computeNumericType(pMem);
  }
  return 0;
}

#ifdef SQLITE_DEBUG
/*
................................................................................
static void memTracePrint(Mem *p){
  if( p->flags & MEM_Undefined ){
    printf(" undefined");
  }else if( p->flags & MEM_Null ){
    printf(p->flags & MEM_Zero ? " NULL-nochng" : " NULL");
  }else if( (p->flags & (MEM_Int|MEM_Str))==(MEM_Int|MEM_Str) ){
    printf(" si:%lld", p->u.i);


  }else if( p->flags & MEM_Int ){
    printf(" i:%lld", p->u.i);
#ifndef SQLITE_OMIT_FLOATING_POINT
  }else if( p->flags & MEM_Real ){
    printf(" r:%g", p->u.r);
#endif
  }else if( sqlite3VdbeMemIsRowSet(p) ){
................................................................................
**   P3 = P2 || P1
**
** It is illegal for P1 and P3 to be the same register. Sometimes,
** if P3 is the same register as P2, the implementation is able
** to avoid a memcpy().
*/
case OP_Concat: {           /* same as TK_CONCAT, in1, in2, out3 */
  i64 nByte;



  pIn1 = &aMem[pOp->p1];
  pIn2 = &aMem[pOp->p2];
  pOut = &aMem[pOp->p3];


  assert( pIn1!=pOut );



  if( (pIn1->flags | pIn2->flags) & MEM_Null ){
    sqlite3VdbeMemSetNull(pOut);
    break;
  }












  if( ExpandBlob(pIn1) || ExpandBlob(pIn2) ) goto no_mem;
  Stringify(pIn1, encoding);
  Stringify(pIn2, encoding);


  nByte = pIn1->n + pIn2->n;
  if( nByte>db->aLimit[SQLITE_LIMIT_LENGTH] ){
    goto too_big;
  }
  if( sqlite3VdbeMemGrow(pOut, (int)nByte+2, pOut==pIn2) ){
    goto no_mem;
  }
  MemSetTypeFlag(pOut, MEM_Str);
  if( pOut!=pIn2 ){
    memcpy(pOut->z, pIn2->z, pIn2->n);


  }
  memcpy(&pOut->z[pIn2->n], pIn1->z, pIn1->n);


  pOut->z[nByte]=0;
  pOut->z[nByte+1] = 0;
  pOut->flags |= MEM_Term;
  pOut->n = (int)nByte;
  pOut->enc = encoding;
  UPDATE_MAX_BLOBSIZE(pOut);
  break;
................................................................................
    MemSetTypeFlag(pOut, MEM_Int);
#else
    if( sqlite3IsNaN(rB) ){
      goto arithmetic_result_is_null;
    }
    pOut->u.r = rB;
    MemSetTypeFlag(pOut, MEM_Real);
    if( ((type1|type2)&MEM_Real)==0 && !bIntint ){
      sqlite3VdbeIntegerAffinity(pOut);
    }
#endif
  }
  break;

arithmetic_result_is_null:
................................................................................
** This opcode is used when extracting information from a column that
** has REAL affinity.  Such column values may still be stored as
** integers, for space efficiency, but after extraction we want them
** to have only a real value.
*/
case OP_RealAffinity: {                  /* in1 */
  pIn1 = &aMem[pOp->p1];

  if( pIn1->flags & MEM_Int ){

    sqlite3VdbeMemRealify(pIn1);
  }
  break;
}
#endif

#ifndef SQLITE_OMIT_CAST
................................................................................
      break;
    }
  }else{
    /* Neither operand is NULL.  Do a comparison. */
    affinity = pOp->p5 & SQLITE_AFF_MASK;
    if( affinity>=SQLITE_AFF_NUMERIC ){
      if( (flags1 | flags3)&MEM_Str ){
        if( (flags1 & (MEM_Int|MEM_Real|MEM_Str))==MEM_Str ){
          applyNumericAffinity(pIn1,0);
          assert( flags3==pIn3->flags );
          /* testcase( flags3!=pIn3->flags );
          ** this used to be possible with pIn1==pIn3, but not since
          ** the column cache was removed.  The following assignment
          ** is essentially a no-op.  But, it provides defense-in-depth
          ** in case our analysis is incorrect, so it is left in. */
          flags3 = pIn3->flags;
        }
        if( (flags3 & (MEM_Int|MEM_Real|MEM_Str))==MEM_Str ){
          applyNumericAffinity(pIn3,0);
        }
      }
      /* Handle the common case of integer comparison here, as an
      ** optimization, to avoid a call to sqlite3MemCompare() */
      if( (pIn1->flags & pIn3->flags & MEM_Int)!=0 ){
        if( pIn3->u.i > pIn1->u.i ){ res = +1; goto compare_op; }
        if( pIn3->u.i < pIn1->u.i ){ res = -1; goto compare_op; }
        res = 0;
        goto compare_op;
      }
    }else if( affinity==SQLITE_AFF_TEXT ){
      if( (flags1 & MEM_Str)==0 && (flags1 & (MEM_Int|MEM_Real))!=0 ){
        testcase( pIn1->flags & MEM_Int );
        testcase( pIn1->flags & MEM_Real );

        sqlite3VdbeMemStringify(pIn1, encoding, 1);
        testcase( (flags1&MEM_Dyn) != (pIn1->flags&MEM_Dyn) );
        flags1 = (pIn1->flags & ~MEM_TypeMask) | (flags1 & MEM_TypeMask);
        assert( pIn1!=pIn3 );
      }
      if( (flags3 & MEM_Str)==0 && (flags3 & (MEM_Int|MEM_Real))!=0 ){
        testcase( pIn3->flags & MEM_Int );
        testcase( pIn3->flags & MEM_Real );

        sqlite3VdbeMemStringify(pIn3, encoding, 1);
        testcase( (flags3&MEM_Dyn) != (pIn3->flags&MEM_Dyn) );
        flags3 = (pIn3->flags & ~MEM_TypeMask) | (flags3 & MEM_TypeMask);
      }
    }
    assert( pOp->p4type==P4_COLLSEQ || pOp->p4.pColl==0 );
    res = sqlite3MemCompare(pIn3, pIn1, pOp->p4.pColl);
................................................................................
  const char *zAffinity;   /* The affinity to be applied */

  zAffinity = pOp->p4.z;
  assert( zAffinity!=0 );
  assert( pOp->p2>0 );
  assert( zAffinity[pOp->p2]==0 );
  pIn1 = &aMem[pOp->p1];
  do{
    assert( pIn1 <= &p->aMem[(p->nMem+1 - p->nCursor)] );
    assert( memIsValid(pIn1) );
    applyAffinity(pIn1, *(zAffinity++), encoding);









    pIn1++;
  }while( zAffinity[0] );

  break;
}

/* Opcode: MakeRecord P1 P2 P3 P4 *
** Synopsis: r[P3]=mkrec(r[P1@P2])
**
** Convert P2 registers beginning with P1 into the [record format]
................................................................................
**
** The mapping from character to affinity is given by the SQLITE_AFF_
** macros defined in sqliteInt.h.
**
** If P4 is NULL then all index fields have the affinity BLOB.
*/
case OP_MakeRecord: {
  u8 *zNewRecord;        /* A buffer to hold the data for the new record */
  Mem *pRec;             /* The new record */
  u64 nData;             /* Number of bytes of data space */
  int nHdr;              /* Number of bytes of header space */
  i64 nByte;             /* Data space required for this record */
  i64 nZero;             /* Number of zero bytes at the end of the record */
  int nVarint;           /* Number of bytes in a varint */
  u32 serial_type;       /* Type field */
  Mem *pData0;           /* First field to be combined into the record */
  Mem *pLast;            /* Last field of the record */
  int nField;            /* Number of fields in the record */
  char *zAffinity;       /* The affinity string for the record */
  int file_format;       /* File format to use for encoding */
  int i;                 /* Space used in zNewRecord[] header */
  int j;                 /* Space used in zNewRecord[] content */
  u32 len;               /* Length of a field */



  /* Assuming the record contains N fields, the record format looks
  ** like this:
  **
  ** ------------------------------------------------------------------------
  ** | hdr-size | type 0 | type 1 | ... | type N-1 | data0 | ... | data N-1 | 
  ** ------------------------------------------------------------------------
................................................................................

  /* Apply the requested affinity to all inputs
  */
  assert( pData0<=pLast );
  if( zAffinity ){
    pRec = pData0;
    do{
      applyAffinity(pRec++, *(zAffinity++), encoding);



      assert( zAffinity[0]==0 || pRec<=pLast );
    }while( zAffinity[0] );
  }

#ifdef SQLITE_ENABLE_NULL_TRIM
  /* NULLs can be safely trimmed from the end of the record, as long as
  ** as the schema format is 2 or more and none of the omitted columns
................................................................................
    if( nByte+nZero>db->aLimit[SQLITE_LIMIT_LENGTH] ){
      goto too_big;
    }
    if( sqlite3VdbeMemClearAndResize(pOut, (int)nByte) ){
      goto no_mem;
    }
  }







  zNewRecord = (u8 *)pOut->z;


  /* Write the record */
  i = putVarint32(zNewRecord, nHdr);
  j = nHdr;
  assert( pData0<=pLast );
  pRec = pData0;
  do{
    serial_type = pRec->uTemp;
    /* EVIDENCE-OF: R-06529-47362 Following the size varint are one or more
    ** additional varints, one per column. */
    i += putVarint32(&zNewRecord[i], serial_type);            /* serial type */
    /* EVIDENCE-OF: R-64536-51728 The values for each column in the record
    ** immediately follow the header. */
    j += sqlite3VdbeSerialPut(&zNewRecord[j], pRec, serial_type); /* content */
  }while( (++pRec)<=pLast );
  assert( i==nHdr );
  assert( j==nByte );

  assert( pOp->p3>0 && pOp->p3<=(p->nMem+1 - p->nCursor) );
  pOut->n = (int)nByte;
  pOut->flags = MEM_Blob;
  if( nZero ){
    pOut->u.nZero = nZero;
    pOut->flags |= MEM_Zero;
  }
  REGISTER_TRACE(pOp->p3, pOut);
  UPDATE_MAX_BLOBSIZE(pOut);
  break;
}

/* Opcode: Count P1 P2 * * *
** Synopsis: r[P2]=count()
**
** Store the number of entries (an integer value) in the table or index 
................................................................................
  break;
}
#endif

/* Opcode: Savepoint P1 * * P4 *
**
** Open, release or rollback the savepoint named by parameter P4, depending
** on the value of P1. To open a new savepoint, P1==0. To release (commit) an

** existing savepoint, P1==1, or to rollback an existing savepoint P1==2.
*/
case OP_Savepoint: {
  int p1;                         /* Value of P1 operand */
  char *zName;                    /* Name of savepoint */
  int nName;
  Savepoint *pNew;
  Savepoint *pSavepoint;
................................................................................
        pNew->pNext = db->pSavepoint;
        db->pSavepoint = pNew;
        pNew->nDeferredCons = db->nDeferredCons;
        pNew->nDeferredImmCons = db->nDeferredImmCons;
      }
    }
  }else{

    iSavepoint = 0;

    /* Find the named savepoint. If there is no such savepoint, then an
    ** an error is returned to the user.  */
    for(
      pSavepoint = db->pSavepoint; 
      pSavepoint && sqlite3StrICmp(pSavepoint->zName, zName);
................................................................................
          for(ii=0; ii<db->nDb; ii++){
            rc = sqlite3BtreeTripAllCursors(db->aDb[ii].pBt,
                                       SQLITE_ABORT_ROLLBACK,
                                       isSchemaChange==0);
            if( rc!=SQLITE_OK ) goto abort_due_to_error;
          }
        }else{

          isSchemaChange = 0;
        }
        for(ii=0; ii<db->nDb; ii++){
          rc = sqlite3BtreeSavepoint(db->aDb[ii].pBt, p1, iSavepoint);
          if( rc!=SQLITE_OK ){
            goto abort_due_to_error;
          }
................................................................................
        assert( pSavepoint==db->pSavepoint );
        db->pSavepoint = pSavepoint->pNext;
        sqlite3DbFree(db, pSavepoint);
        if( !isTransaction ){
          db->nSavepoint--;
        }
      }else{

        db->nDeferredCons = pSavepoint->nDeferredCons;
        db->nDeferredImmCons = pSavepoint->nDeferredImmCons;
      }

      if( !isTransaction || p1==SAVEPOINT_ROLLBACK ){
        rc = sqlite3VtabSavepoint(db, p1, iSavepoint);
        if( rc!=SQLITE_OK ) goto abort_due_to_error;
................................................................................
      SQLITE_OPEN_TRANSIENT_DB;
  assert( pOp->p1>=0 );
  assert( pOp->p2>=0 );
  pCx = p->apCsr[pOp->p1];
  if( pCx ){
    /* If the ephermeral table is already open, erase all existing content
    ** so that the table is empty again, rather than creating a new table. */


    rc = sqlite3BtreeClearTable(pCx->pBtx, pCx->pgnoRoot, 0);

  }else{
    pCx = allocateCursor(p, pOp->p1, pOp->p2, -1, CURTYPE_BTREE);
    if( pCx==0 ) goto no_mem;
    pCx->nullRow = 1;
    pCx->isEphemeral = 1;
    rc = sqlite3BtreeOpen(db->pVfs, 0, db, &pCx->pBtx, 
                          BTREE_OMIT_JOURNAL | BTREE_SINGLE | pOp->p5,
................................................................................
  oc = pOp->opcode;
  eqOnly = 0;
  pC->nullRow = 0;
#ifdef SQLITE_DEBUG
  pC->seekOp = pOp->opcode;
#endif



  if( pC->isTable ){
    /* The BTREE_SEEK_EQ flag is only set on index cursors */
    assert( sqlite3BtreeCursorHasHint(pC->uc.pCursor, BTREE_SEEK_EQ)==0
              || CORRUPT_DB );

    /* The input value in P3 might be of any type: integer, real, string,
    ** blob, or NULL.  But it needs to be an integer before we can do
    ** the seek, so convert it. */
    pIn3 = &aMem[pOp->p3];
    if( (pIn3->flags & (MEM_Int|MEM_Real|MEM_Str))==MEM_Str ){
      applyNumericAffinity(pIn3, 0);
    }
    iKey = sqlite3VdbeIntValue(pIn3);

    /* If the P3 value could not be converted into an integer without
    ** loss of information, then special processing is required... */
    if( (pIn3->flags & MEM_Int)==0 ){
      if( (pIn3->flags & MEM_Real)==0 ){
        /* If the P3 value cannot be converted into any kind of a number,
        ** then the seek is not possible, so jump to P2 */
        VdbeBranchTaken(1,2); goto jump_to_p2;
        break;




      }


      /* If the approximation iKey is larger than the actual real search
      ** term, substitute >= for > and < for <=. e.g. if the search term
      ** is 4.9 and the integer approximation 5:
      **
      **        (x >  4.9)    ->     (x >= 5)
      **        (x <= 4.9)    ->     (x <  5)
................................................................................
      ** term, substitute <= for < and > for >=.  */
      else if( pIn3->u.r>(double)iKey ){
        assert( OP_SeekLE==(OP_SeekLT+1) );
        assert( OP_SeekGT==(OP_SeekGE+1) );
        assert( (OP_SeekLT & 0x0001)==(OP_SeekGE & 0x0001) );
        if( (oc & 0x0001)==(OP_SeekLT & 0x0001) ) oc++;
      }
    } 
    rc = sqlite3BtreeMovetoUnpacked(pC->uc.pCursor, 0, (u64)iKey, 0, &res);
    pC->movetoTarget = iKey;  /* Used by OP_Delete */
    if( rc!=SQLITE_OK ){
      goto abort_due_to_error;
    }
  }else{
    /* For a cursor with the BTREE_SEEK_EQ hint, only the OP_SeekGE and
................................................................................
      goto abort_due_to_error;
    }
    if( eqOnly && r.eqSeen==0 ){
      assert( res!=0 );
      goto seek_not_found;
    }
  }
  pC->deferredMoveto = 0;
  pC->cacheStatus = CACHE_STALE;
#ifdef SQLITE_TEST
  sqlite3_search_count++;
#endif
  if( oc>=OP_SeekGE ){  assert( oc==OP_SeekGE || oc==OP_SeekGT );
    if( res<0 || (res==0 && oc==OP_SeekGT) ){
      res = 0;
      rc = sqlite3BtreeNext(pC->uc.pCursor, 0);
................................................................................
case OP_SeekRowid: {        /* jump, in3 */
  VdbeCursor *pC;
  BtCursor *pCrsr;
  int res;
  u64 iKey;

  pIn3 = &aMem[pOp->p3];
  if( (pIn3->flags & MEM_Int)==0 ){


    /* Make sure pIn3->u.i contains a valid integer representation of
    ** the key value, but do not change the datatype of the register, as
    ** other parts of the perpared statement might be depending on the
    ** current datatype. */
    u16 origFlags = pIn3->flags;
    int isNotInt;
    applyAffinity(pIn3, SQLITE_AFF_NUMERIC, encoding);







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414
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436
...
518
519
520
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525
526
527
528
529
530
531
532
533
....
1461
1462
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1470
1471
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1498
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1522
....
1634
1635
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1637
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1643
1644
1645
1646
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1648
....
1805
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1809
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1811
1812
1813
1814
1815
1816
1817
1818
1819
1820
1821
....
1999
2000
2001
2002
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2006
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2010
2011
2012
2013
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2015
2016
2017
2018
2019
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2790
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2825
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2832
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2844
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....
2878
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....
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....
3188
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3200
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3202
....
3757
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4134
4135
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4141
4142
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....
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4449
      if( (mNever&0x08)!=0 && (I&0x05)!=0) I |= 0x05; /*NO_TEST*/
    }
    sqlite3GlobalConfig.xVdbeBranch(sqlite3GlobalConfig.pVdbeBranchArg,
                                    iSrcLine&0xffffff, I, M);
  }
#endif









/*
** An ephemeral string value (signified by the MEM_Ephem flag) contains
** a pointer to a dynamically allocated string where some other entity
** is responsible for deallocating that string.  Because the register
** does not control the string, it might be deleted without the register
** knowing it.
**
................................................................................

  assert( iCur>=0 && iCur<p->nCursor );
  if( p->apCsr[iCur] ){ /*OPTIMIZATION-IF-FALSE*/
    /* Before calling sqlite3VdbeFreeCursor(), ensure the isEphemeral flag
    ** is clear. Otherwise, if this is an ephemeral cursor created by 
    ** OP_OpenDup, the cursor will not be closed and will still be part
    ** of a BtShared.pCursor list.  */
    if( p->apCsr[iCur]->pBtx==0 ) p->apCsr[iCur]->isEphemeral = 0;
    sqlite3VdbeFreeCursor(p, p->apCsr[iCur]);
    p->apCsr[iCur] = 0;
  }
  if( SQLITE_OK==sqlite3VdbeMemClearAndResize(pMem, nByte) ){
    p->apCsr[iCur] = pCx = (VdbeCursor*)pMem->z;
    memset(pCx, 0, offsetof(VdbeCursor,pAltCursor));
    pCx->eCurType = eCurType;
................................................................................
** point or exponential notation, the result is only MEM_Real, even
** if there is an exact integer representation of the quantity.
*/
static void applyNumericAffinity(Mem *pRec, int bTryForInt){
  double rValue;
  i64 iValue;
  u8 enc = pRec->enc;
  assert( (pRec->flags & (MEM_Str|MEM_Int|MEM_Real|MEM_IntReal))==MEM_Str );
  if( sqlite3AtoF(pRec->z, &rValue, pRec->n, enc)==0 ) return;
  if( 0==sqlite3Atoi64(pRec->z, &iValue, pRec->n, enc) ){
    pRec->u.i = iValue;
    pRec->flags |= MEM_Int;
  }else{
    pRec->u.r = rValue;
    pRec->flags |= MEM_Real;
................................................................................
  }else if( affinity==SQLITE_AFF_TEXT ){
    /* Only attempt the conversion to TEXT if there is an integer or real
    ** representation (blob and NULL do not get converted) but no string
    ** representation.  It would be harmless to repeat the conversion if 
    ** there is already a string rep, but it is pointless to waste those
    ** CPU cycles. */
    if( 0==(pRec->flags&MEM_Str) ){ /*OPTIMIZATION-IF-FALSE*/
      if( (pRec->flags&(MEM_Real|MEM_Int|MEM_IntReal)) ){
        testcase( pRec->flags & MEM_Int );
        testcase( pRec->flags & MEM_Real );
        testcase( pRec->flags & MEM_IntReal );
        sqlite3VdbeMemStringify(pRec, enc, 1);
      }
    }
    pRec->flags &= ~(MEM_Real|MEM_Int|MEM_IntReal);
  }
}

/*
** Try to convert the type of a function argument or a result column
** into a numeric representation.  Use either INTEGER or REAL whichever
** is appropriate.  But only do the conversion if it is possible without
................................................................................
/*
** pMem currently only holds a string type (or maybe a BLOB that we can
** interpret as a string if we want to).  Compute its corresponding
** numeric type, if has one.  Set the pMem->u.r and pMem->u.i fields
** accordingly.
*/
static u16 SQLITE_NOINLINE computeNumericType(Mem *pMem){
  assert( (pMem->flags & (MEM_Int|MEM_Real|MEM_IntReal))==0 );
  assert( (pMem->flags & (MEM_Str|MEM_Blob))!=0 );
  ExpandBlob(pMem);
  if( sqlite3AtoF(pMem->z, &pMem->u.r, pMem->n, pMem->enc)==0 ){
    return 0;
  }
  if( sqlite3Atoi64(pMem->z, &pMem->u.i, pMem->n, pMem->enc)==0 ){
    return MEM_Int;
................................................................................
** Return the numeric type for pMem, either MEM_Int or MEM_Real or both or
** none.  
**
** Unlike applyNumericAffinity(), this routine does not modify pMem->flags.
** But it does set pMem->u.r and pMem->u.i appropriately.
*/
static u16 numericType(Mem *pMem){
  if( pMem->flags & (MEM_Int|MEM_Real|MEM_IntReal) ){
    testcase( pMem->flags & MEM_Int );
    testcase( pMem->flags & MEM_Real );
    testcase( pMem->flags & MEM_IntReal );
    return pMem->flags & (MEM_Int|MEM_Real|MEM_IntReal);
  }
  if( pMem->flags & (MEM_Str|MEM_Blob) ){
    testcase( pMem->flags & MEM_Str );
    testcase( pMem->flags & MEM_Blob );
    return computeNumericType(pMem);
  }
  return 0;
}

#ifdef SQLITE_DEBUG
/*
................................................................................
static void memTracePrint(Mem *p){
  if( p->flags & MEM_Undefined ){
    printf(" undefined");
  }else if( p->flags & MEM_Null ){
    printf(p->flags & MEM_Zero ? " NULL-nochng" : " NULL");
  }else if( (p->flags & (MEM_Int|MEM_Str))==(MEM_Int|MEM_Str) ){
    printf(" si:%lld", p->u.i);
  }else if( (p->flags & (MEM_IntReal))!=0 ){
    printf(" ir:%lld", p->u.i);
  }else if( p->flags & MEM_Int ){
    printf(" i:%lld", p->u.i);
#ifndef SQLITE_OMIT_FLOATING_POINT
  }else if( p->flags & MEM_Real ){
    printf(" r:%g", p->u.r);
#endif
  }else if( sqlite3VdbeMemIsRowSet(p) ){
................................................................................
**   P3 = P2 || P1
**
** It is illegal for P1 and P3 to be the same register. Sometimes,
** if P3 is the same register as P2, the implementation is able
** to avoid a memcpy().
*/
case OP_Concat: {           /* same as TK_CONCAT, in1, in2, out3 */
  i64 nByte;          /* Total size of the output string or blob */
  u16 flags1;         /* Initial flags for P1 */
  u16 flags2;         /* Initial flags for P2 */

  pIn1 = &aMem[pOp->p1];
  pIn2 = &aMem[pOp->p2];
  pOut = &aMem[pOp->p3];
  testcase( pIn1==pIn2 );
  testcase( pOut==pIn2 );
  assert( pIn1!=pOut );
  flags1 = pIn1->flags;
  testcase( flags1 & MEM_Null );
  testcase( pIn2->flags & MEM_Null );
  if( (flags1 | pIn2->flags) & MEM_Null ){
    sqlite3VdbeMemSetNull(pOut);
    break;
  }
  if( (flags1 & (MEM_Str|MEM_Blob))==0 ){
    if( sqlite3VdbeMemStringify(pIn1,encoding,0) ) goto no_mem;
    flags1 = pIn1->flags & ~MEM_Str;
  }else if( (flags1 & MEM_Zero)!=0 ){
    if( sqlite3VdbeMemExpandBlob(pIn1) ) goto no_mem;
    flags1 = pIn1->flags & ~MEM_Str;
  }
  flags2 = pIn2->flags;
  if( (flags2 & (MEM_Str|MEM_Blob))==0 ){
    if( sqlite3VdbeMemStringify(pIn2,encoding,0) ) goto no_mem;
    flags2 = pIn2->flags & ~MEM_Str;
  }else if( (flags2 & MEM_Zero)!=0 ){
    if( sqlite3VdbeMemExpandBlob(pIn2) ) goto no_mem;


    flags2 = pIn2->flags & ~MEM_Str;
  }
  nByte = pIn1->n + pIn2->n;
  if( nByte>db->aLimit[SQLITE_LIMIT_LENGTH] ){
    goto too_big;
  }
  if( sqlite3VdbeMemGrow(pOut, (int)nByte+2, pOut==pIn2) ){
    goto no_mem;
  }
  MemSetTypeFlag(pOut, MEM_Str);
  if( pOut!=pIn2 ){
    memcpy(pOut->z, pIn2->z, pIn2->n);
    assert( (pIn2->flags & MEM_Dyn) == (flags2 & MEM_Dyn) );
    pIn2->flags = flags2;
  }
  memcpy(&pOut->z[pIn2->n], pIn1->z, pIn1->n);
  assert( (pIn1->flags & MEM_Dyn) == (flags1 & MEM_Dyn) );
  pIn1->flags = flags1;
  pOut->z[nByte]=0;
  pOut->z[nByte+1] = 0;
  pOut->flags |= MEM_Term;
  pOut->n = (int)nByte;
  pOut->enc = encoding;
  UPDATE_MAX_BLOBSIZE(pOut);
  break;
................................................................................
    MemSetTypeFlag(pOut, MEM_Int);
#else
    if( sqlite3IsNaN(rB) ){
      goto arithmetic_result_is_null;
    }
    pOut->u.r = rB;
    MemSetTypeFlag(pOut, MEM_Real);
    if( ((type1|type2)&(MEM_Real|MEM_IntReal))==0 && !bIntint ){
      sqlite3VdbeIntegerAffinity(pOut);
    }
#endif
  }
  break;

arithmetic_result_is_null:
................................................................................
** This opcode is used when extracting information from a column that
** has REAL affinity.  Such column values may still be stored as
** integers, for space efficiency, but after extraction we want them
** to have only a real value.
*/
case OP_RealAffinity: {                  /* in1 */
  pIn1 = &aMem[pOp->p1];
  if( pIn1->flags & (MEM_Int|MEM_IntReal) ){
    testcase( pIn1->flags & MEM_Int );
    testcase( pIn1->flags & MEM_IntReal );
    sqlite3VdbeMemRealify(pIn1);
  }
  break;
}
#endif

#ifndef SQLITE_OMIT_CAST
................................................................................
      break;
    }
  }else{
    /* Neither operand is NULL.  Do a comparison. */
    affinity = pOp->p5 & SQLITE_AFF_MASK;
    if( affinity>=SQLITE_AFF_NUMERIC ){
      if( (flags1 | flags3)&MEM_Str ){
        if( (flags1 & (MEM_Int|MEM_IntReal|MEM_Real|MEM_Str))==MEM_Str ){
          applyNumericAffinity(pIn1,0);
          assert( flags3==pIn3->flags );
          /* testcase( flags3!=pIn3->flags );
          ** this used to be possible with pIn1==pIn3, but not since
          ** the column cache was removed.  The following assignment
          ** is essentially a no-op.  But, it provides defense-in-depth
          ** in case our analysis is incorrect, so it is left in. */
          flags3 = pIn3->flags;
        }
        if( (flags3 & (MEM_Int|MEM_IntReal|MEM_Real|MEM_Str))==MEM_Str ){
          applyNumericAffinity(pIn3,0);
        }
      }
      /* Handle the common case of integer comparison here, as an
      ** optimization, to avoid a call to sqlite3MemCompare() */
      if( (pIn1->flags & pIn3->flags & MEM_Int)!=0 ){
        if( pIn3->u.i > pIn1->u.i ){ res = +1; goto compare_op; }
        if( pIn3->u.i < pIn1->u.i ){ res = -1; goto compare_op; }
        res = 0;
        goto compare_op;
      }
    }else if( affinity==SQLITE_AFF_TEXT ){
      if( (flags1 & MEM_Str)==0 && (flags1&(MEM_Int|MEM_Real|MEM_IntReal))!=0 ){
        testcase( pIn1->flags & MEM_Int );
        testcase( pIn1->flags & MEM_Real );
        testcase( pIn1->flags & MEM_IntReal );
        sqlite3VdbeMemStringify(pIn1, encoding, 1);
        testcase( (flags1&MEM_Dyn) != (pIn1->flags&MEM_Dyn) );
        flags1 = (pIn1->flags & ~MEM_TypeMask) | (flags1 & MEM_TypeMask);
        assert( pIn1!=pIn3 );
      }
      if( (flags3 & MEM_Str)==0 && (flags3&(MEM_Int|MEM_Real|MEM_IntReal))!=0 ){
        testcase( pIn3->flags & MEM_Int );
        testcase( pIn3->flags & MEM_Real );
        testcase( pIn3->flags & MEM_IntReal );
        sqlite3VdbeMemStringify(pIn3, encoding, 1);
        testcase( (flags3&MEM_Dyn) != (pIn3->flags&MEM_Dyn) );
        flags3 = (pIn3->flags & ~MEM_TypeMask) | (flags3 & MEM_TypeMask);
      }
    }
    assert( pOp->p4type==P4_COLLSEQ || pOp->p4.pColl==0 );
    res = sqlite3MemCompare(pIn3, pIn1, pOp->p4.pColl);
................................................................................
  const char *zAffinity;   /* The affinity to be applied */

  zAffinity = pOp->p4.z;
  assert( zAffinity!=0 );
  assert( pOp->p2>0 );
  assert( zAffinity[pOp->p2]==0 );
  pIn1 = &aMem[pOp->p1];
  while( 1 /*edit-by-break*/ ){
    assert( pIn1 <= &p->aMem[(p->nMem+1 - p->nCursor)] );
    assert( memIsValid(pIn1) );
    applyAffinity(pIn1, zAffinity[0], encoding);
    if( zAffinity[0]==SQLITE_AFF_REAL && (pIn1->flags & MEM_Int)!=0 ){
      /* When applying REAL affinity, if the result is still MEM_Int, 
      ** indicate that REAL is actually desired */
      pIn1->flags |= MEM_IntReal;
      pIn1->flags &= ~MEM_Int;
    }
    REGISTER_TRACE((int)(pIn1-aMem), pIn1);
    zAffinity++;
    if( zAffinity[0]==0 ) break;
    pIn1++;

  }
  break;
}

/* Opcode: MakeRecord P1 P2 P3 P4 *
** Synopsis: r[P3]=mkrec(r[P1@P2])
**
** Convert P2 registers beginning with P1 into the [record format]
................................................................................
**
** The mapping from character to affinity is given by the SQLITE_AFF_
** macros defined in sqliteInt.h.
**
** If P4 is NULL then all index fields have the affinity BLOB.
*/
case OP_MakeRecord: {

  Mem *pRec;             /* The new record */
  u64 nData;             /* Number of bytes of data space */
  int nHdr;              /* Number of bytes of header space */
  i64 nByte;             /* Data space required for this record */
  i64 nZero;             /* Number of zero bytes at the end of the record */
  int nVarint;           /* Number of bytes in a varint */
  u32 serial_type;       /* Type field */
  Mem *pData0;           /* First field to be combined into the record */
  Mem *pLast;            /* Last field of the record */
  int nField;            /* Number of fields in the record */
  char *zAffinity;       /* The affinity string for the record */
  int file_format;       /* File format to use for encoding */


  u32 len;               /* Length of a field */
  u8 *zHdr;              /* Where to write next byte of the header */
  u8 *zPayload;          /* Where to write next byte of the payload */

  /* Assuming the record contains N fields, the record format looks
  ** like this:
  **
  ** ------------------------------------------------------------------------
  ** | hdr-size | type 0 | type 1 | ... | type N-1 | data0 | ... | data N-1 | 
  ** ------------------------------------------------------------------------
................................................................................

  /* Apply the requested affinity to all inputs
  */
  assert( pData0<=pLast );
  if( zAffinity ){
    pRec = pData0;
    do{
      applyAffinity(pRec, zAffinity[0], encoding);
      REGISTER_TRACE((int)(pRec-aMem), pRec);
      zAffinity++;
      pRec++;
      assert( zAffinity[0]==0 || pRec<=pLast );
    }while( zAffinity[0] );
  }

#ifdef SQLITE_ENABLE_NULL_TRIM
  /* NULLs can be safely trimmed from the end of the record, as long as
  ** as the schema format is 2 or more and none of the omitted columns
................................................................................
    if( nByte+nZero>db->aLimit[SQLITE_LIMIT_LENGTH] ){
      goto too_big;
    }
    if( sqlite3VdbeMemClearAndResize(pOut, (int)nByte) ){
      goto no_mem;
    }
  }
  pOut->n = (int)nByte;
  pOut->flags = MEM_Blob;
  if( nZero ){
    pOut->u.nZero = nZero;
    pOut->flags |= MEM_Zero;
  }
  UPDATE_MAX_BLOBSIZE(pOut);
  zHdr = (u8 *)pOut->z;
  zPayload = zHdr + nHdr;

  /* Write the record */
  zHdr += putVarint32(zHdr, nHdr);

  assert( pData0<=pLast );
  pRec = pData0;
  do{
    serial_type = pRec->uTemp;
    /* EVIDENCE-OF: R-06529-47362 Following the size varint are one or more
    ** additional varints, one per column. */
    zHdr += putVarint32(zHdr, serial_type);            /* serial type */
    /* EVIDENCE-OF: R-64536-51728 The values for each column in the record
    ** immediately follow the header. */
    zPayload += sqlite3VdbeSerialPut(zPayload, pRec, serial_type); /* content */
  }while( (++pRec)<=pLast );
  assert( nHdr==(int)(zHdr - (u8*)pOut->z) );
  assert( nByte==(int)(zPayload - (u8*)pOut->z) );

  assert( pOp->p3>0 && pOp->p3<=(p->nMem+1 - p->nCursor) );






  REGISTER_TRACE(pOp->p3, pOut);

  break;
}

/* Opcode: Count P1 P2 * * *
** Synopsis: r[P2]=count()
**
** Store the number of entries (an integer value) in the table or index 
................................................................................
  break;
}
#endif

/* Opcode: Savepoint P1 * * P4 *
**
** Open, release or rollback the savepoint named by parameter P4, depending
** on the value of P1. To open a new savepoint set P1==0 (SAVEPOINT_BEGIN).
** To release (commit) an existing savepoint set P1==1 (SAVEPOINT_RELEASE).
** To rollback an existing savepoint set P1==2 (SAVEPOINT_ROLLBACK).
*/
case OP_Savepoint: {
  int p1;                         /* Value of P1 operand */
  char *zName;                    /* Name of savepoint */
  int nName;
  Savepoint *pNew;
  Savepoint *pSavepoint;
................................................................................
        pNew->pNext = db->pSavepoint;
        db->pSavepoint = pNew;
        pNew->nDeferredCons = db->nDeferredCons;
        pNew->nDeferredImmCons = db->nDeferredImmCons;
      }
    }
  }else{
    assert( p1==SAVEPOINT_RELEASE || p1==SAVEPOINT_ROLLBACK );
    iSavepoint = 0;

    /* Find the named savepoint. If there is no such savepoint, then an
    ** an error is returned to the user.  */
    for(
      pSavepoint = db->pSavepoint; 
      pSavepoint && sqlite3StrICmp(pSavepoint->zName, zName);
................................................................................
          for(ii=0; ii<db->nDb; ii++){
            rc = sqlite3BtreeTripAllCursors(db->aDb[ii].pBt,
                                       SQLITE_ABORT_ROLLBACK,
                                       isSchemaChange==0);
            if( rc!=SQLITE_OK ) goto abort_due_to_error;
          }
        }else{
          assert( p1==SAVEPOINT_RELEASE );
          isSchemaChange = 0;
        }
        for(ii=0; ii<db->nDb; ii++){
          rc = sqlite3BtreeSavepoint(db->aDb[ii].pBt, p1, iSavepoint);
          if( rc!=SQLITE_OK ){
            goto abort_due_to_error;
          }
................................................................................
        assert( pSavepoint==db->pSavepoint );
        db->pSavepoint = pSavepoint->pNext;
        sqlite3DbFree(db, pSavepoint);
        if( !isTransaction ){
          db->nSavepoint--;
        }
      }else{
        assert( p1==SAVEPOINT_ROLLBACK );
        db->nDeferredCons = pSavepoint->nDeferredCons;
        db->nDeferredImmCons = pSavepoint->nDeferredImmCons;
      }

      if( !isTransaction || p1==SAVEPOINT_ROLLBACK ){
        rc = sqlite3VtabSavepoint(db, p1, iSavepoint);
        if( rc!=SQLITE_OK ) goto abort_due_to_error;
................................................................................
      SQLITE_OPEN_TRANSIENT_DB;
  assert( pOp->p1>=0 );
  assert( pOp->p2>=0 );
  pCx = p->apCsr[pOp->p1];
  if( pCx ){
    /* If the ephermeral table is already open, erase all existing content
    ** so that the table is empty again, rather than creating a new table. */
    assert( pCx->isEphemeral );
    if( pCx->pBtx ){
      rc = sqlite3BtreeClearTable(pCx->pBtx, pCx->pgnoRoot, 0);
    }
  }else{
    pCx = allocateCursor(p, pOp->p1, pOp->p2, -1, CURTYPE_BTREE);
    if( pCx==0 ) goto no_mem;
    pCx->nullRow = 1;
    pCx->isEphemeral = 1;
    rc = sqlite3BtreeOpen(db->pVfs, 0, db, &pCx->pBtx, 
                          BTREE_OMIT_JOURNAL | BTREE_SINGLE | pOp->p5,
................................................................................
  oc = pOp->opcode;
  eqOnly = 0;
  pC->nullRow = 0;
#ifdef SQLITE_DEBUG
  pC->seekOp = pOp->opcode;
#endif

  pC->deferredMoveto = 0;
  pC->cacheStatus = CACHE_STALE;
  if( pC->isTable ){
    /* The BTREE_SEEK_EQ flag is only set on index cursors */
    assert( sqlite3BtreeCursorHasHint(pC->uc.pCursor, BTREE_SEEK_EQ)==0
              || CORRUPT_DB );

    /* The input value in P3 might be of any type: integer, real, string,
    ** blob, or NULL.  But it needs to be an integer before we can do
    ** the seek, so convert it. */
    pIn3 = &aMem[pOp->p3];
    if( (pIn3->flags & (MEM_Int|MEM_Real|MEM_IntReal|MEM_Str))==MEM_Str ){
      applyNumericAffinity(pIn3, 0);
    }
    iKey = sqlite3VdbeIntValue(pIn3);

    /* If the P3 value could not be converted into an integer without
    ** loss of information, then special processing is required... */
    if( (pIn3->flags & (MEM_Int|MEM_IntReal))==0 ){
      if( (pIn3->flags & MEM_Real)==0 ){
        if( (pIn3->flags & MEM_Null) || oc>=OP_SeekGE ){

          VdbeBranchTaken(1,2); goto jump_to_p2;
          break;
        }else{
          rc = sqlite3BtreeLast(pC->uc.pCursor, &res);
          if( rc!=SQLITE_OK ) goto abort_due_to_error;
          goto seek_not_found;
        }
      }else

      /* If the approximation iKey is larger than the actual real search
      ** term, substitute >= for > and < for <=. e.g. if the search term
      ** is 4.9 and the integer approximation 5:
      **
      **        (x >  4.9)    ->     (x >= 5)
      **        (x <= 4.9)    ->     (x <  5)
................................................................................
      ** term, substitute <= for < and > for >=.  */
      else if( pIn3->u.r>(double)iKey ){
        assert( OP_SeekLE==(OP_SeekLT+1) );
        assert( OP_SeekGT==(OP_SeekGE+1) );
        assert( (OP_SeekLT & 0x0001)==(OP_SeekGE & 0x0001) );
        if( (oc & 0x0001)==(OP_SeekLT & 0x0001) ) oc++;
      }
    }
    rc = sqlite3BtreeMovetoUnpacked(pC->uc.pCursor, 0, (u64)iKey, 0, &res);
    pC->movetoTarget = iKey;  /* Used by OP_Delete */
    if( rc!=SQLITE_OK ){
      goto abort_due_to_error;
    }
  }else{
    /* For a cursor with the BTREE_SEEK_EQ hint, only the OP_SeekGE and
................................................................................
      goto abort_due_to_error;
    }
    if( eqOnly && r.eqSeen==0 ){
      assert( res!=0 );
      goto seek_not_found;
    }
  }


#ifdef SQLITE_TEST
  sqlite3_search_count++;
#endif
  if( oc>=OP_SeekGE ){  assert( oc==OP_SeekGE || oc==OP_SeekGT );
    if( res<0 || (res==0 && oc==OP_SeekGT) ){
      res = 0;
      rc = sqlite3BtreeNext(pC->uc.pCursor, 0);
................................................................................
case OP_SeekRowid: {        /* jump, in3 */
  VdbeCursor *pC;
  BtCursor *pCrsr;
  int res;
  u64 iKey;

  pIn3 = &aMem[pOp->p3];
  testcase( pIn3->flags & MEM_Int );
  testcase( pIn3->flags & MEM_IntReal );
  if( (pIn3->flags & (MEM_Int|MEM_IntReal))==0 ){
    /* Make sure pIn3->u.i contains a valid integer representation of
    ** the key value, but do not change the datatype of the register, as
    ** other parts of the perpared statement might be depending on the
    ** current datatype. */
    u16 origFlags = pIn3->flags;
    int isNotInt;
    applyAffinity(pIn3, SQLITE_AFF_NUMERIC, encoding);

Changes to src/vdbeInt.h.

241
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247

248
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255
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** flags may coexist with the MEM_Str flag.
*/
#define MEM_Null      0x0001   /* Value is NULL (or a pointer) */
#define MEM_Str       0x0002   /* Value is a string */
#define MEM_Int       0x0004   /* Value is an integer */
#define MEM_Real      0x0008   /* Value is a real number */
#define MEM_Blob      0x0010   /* Value is a BLOB */

#define MEM_AffMask   0x001f   /* Mask of affinity bits */
#define MEM_FromBind  0x0020   /* Value originates from sqlite3_bind() */
/* Available          0x0040   */
#define MEM_Undefined 0x0080   /* Value is undefined */
#define MEM_Cleared   0x0100   /* NULL set by OP_Null, not from data */
#define MEM_TypeMask  0xc1df   /* Mask of type bits */


/* Whenever Mem contains a valid string or blob representation, one of
** the following flags must be set to determine the memory management
** policy for Mem.z.  The MEM_Term flag tells us whether or not the
** string is \000 or \u0000 terminated
*/







>
|
|
<


|







241
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251
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** flags may coexist with the MEM_Str flag.
*/
#define MEM_Null      0x0001   /* Value is NULL (or a pointer) */
#define MEM_Str       0x0002   /* Value is a string */
#define MEM_Int       0x0004   /* Value is an integer */
#define MEM_Real      0x0008   /* Value is a real number */
#define MEM_Blob      0x0010   /* Value is a BLOB */
#define MEM_IntReal   0x0020   /* MEM_Int that stringifies like MEM_Real */
#define MEM_AffMask   0x003f   /* Mask of affinity bits */
#define MEM_FromBind  0x0040   /* Value originates from sqlite3_bind() */

#define MEM_Undefined 0x0080   /* Value is undefined */
#define MEM_Cleared   0x0100   /* NULL set by OP_Null, not from data */
#define MEM_TypeMask  0xc1bf   /* Mask of type bits */


/* Whenever Mem contains a valid string or blob representation, one of
** the following flags must be set to determine the memory management
** policy for Mem.z.  The MEM_Term flag tells us whether or not the
** string is \000 or \u0000 terminated
*/

Changes to src/vdbeapi.c.

230
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#endif /* SQLITE_OMIT_UTF16 */
/* EVIDENCE-OF: R-12793-43283 Every value in SQLite has one of five
** fundamental datatypes: 64-bit signed integer 64-bit IEEE floating
** point number string BLOB NULL
*/
int sqlite3_value_type(sqlite3_value* pVal){
  static const u8 aType[] = {
     SQLITE_BLOB,     /* 0x00 */
     SQLITE_NULL,     /* 0x01 */
     SQLITE_TEXT,     /* 0x02 */
     SQLITE_NULL,     /* 0x03 */
     SQLITE_INTEGER,  /* 0x04 */
     SQLITE_NULL,     /* 0x05 */
     SQLITE_INTEGER,  /* 0x06 */
     SQLITE_NULL,     /* 0x07 */
     SQLITE_FLOAT,    /* 0x08 */
     SQLITE_NULL,     /* 0x09 */
     SQLITE_FLOAT,    /* 0x0a */
     SQLITE_NULL,     /* 0x0b */
     SQLITE_INTEGER,  /* 0x0c */
     SQLITE_NULL,     /* 0x0d */
     SQLITE_INTEGER,  /* 0x0e */
     SQLITE_NULL,     /* 0x0f */
     SQLITE_BLOB,     /* 0x10 */
     SQLITE_NULL,     /* 0x11 */
     SQLITE_TEXT,     /* 0x12 */
     SQLITE_NULL,     /* 0x13 */
     SQLITE_INTEGER,  /* 0x14 */
     SQLITE_NULL,     /* 0x15 */
     SQLITE_INTEGER,  /* 0x16 */
     SQLITE_NULL,     /* 0x17 */
     SQLITE_FLOAT,    /* 0x18 */
     SQLITE_NULL,     /* 0x19 */
     SQLITE_FLOAT,    /* 0x1a */
     SQLITE_NULL,     /* 0x1b */
     SQLITE_INTEGER,  /* 0x1c */
     SQLITE_NULL,     /* 0x1d */
     SQLITE_INTEGER,  /* 0x1e */
     SQLITE_NULL,     /* 0x1f */
































  };















  return aType[pVal->flags&MEM_AffMask];
}

/* Return true if a parameter to xUpdate represents an unchanged column */
int sqlite3_value_nochange(sqlite3_value *pVal){
  return (pVal->flags&(MEM_Null|MEM_Zero))==(MEM_Null|MEM_Zero);
}
................................................................................
/* An SQLITE_NOMEM error. */
void sqlite3_result_error_nomem(sqlite3_context *pCtx){
  assert( sqlite3_mutex_held(pCtx->pOut->db->mutex) );
  sqlite3VdbeMemSetNull(pCtx->pOut);
  pCtx->isError = SQLITE_NOMEM_BKPT;
  sqlite3OomFault(pCtx->pOut->db);
}
















/*
** This function is called after a transaction has been committed. It 
** invokes callbacks registered with sqlite3_wal_hook() as required.
*/
static int doWalCallbacks(sqlite3 *db){
  int rc = SQLITE_OK;
................................................................................

  pMem = *ppValue = &p->pUnpacked->aMem[iIdx];
  if( iIdx==p->pTab->iPKey ){
    sqlite3VdbeMemSetInt64(pMem, p->iKey1);
  }else if( iIdx>=p->pUnpacked->nField ){
    *ppValue = (sqlite3_value *)columnNullValue();
  }else if( p->pTab->aCol[iIdx].affinity==SQLITE_AFF_REAL ){

    if( pMem->flags & MEM_Int ){

      sqlite3VdbeMemRealify(pMem);
    }
  }

 preupdate_old_out:
  sqlite3Error(db, rc);
  return sqlite3ApiExit(db, rc);







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230
231
232
233
234
235
236
237
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239
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242
243
244
245
246
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250
251
252
253
254
255
256
257
258
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260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
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281
282
283
284
285
286
287
288
289
290
291
292
293
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295
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298
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300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
...
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
....
1860
1861
1862
1863
1864
1865
1866
1867
1868
1869
1870
1871
1872
1873
1874
1875
1876
#endif /* SQLITE_OMIT_UTF16 */
/* EVIDENCE-OF: R-12793-43283 Every value in SQLite has one of five
** fundamental datatypes: 64-bit signed integer 64-bit IEEE floating
** point number string BLOB NULL
*/
int sqlite3_value_type(sqlite3_value* pVal){
  static const u8 aType[] = {
     SQLITE_BLOB,     /* 0x00 (not possible) */
     SQLITE_NULL,     /* 0x01 NULL */
     SQLITE_TEXT,     /* 0x02 TEXT */
     SQLITE_NULL,     /* 0x03 (not possible) */
     SQLITE_INTEGER,  /* 0x04 INTEGER */
     SQLITE_NULL,     /* 0x05 (not possible) */
     SQLITE_INTEGER,  /* 0x06 INTEGER + TEXT */
     SQLITE_NULL,     /* 0x07 (not possible) */
     SQLITE_FLOAT,    /* 0x08 FLOAT */
     SQLITE_NULL,     /* 0x09 (not possible) */
     SQLITE_FLOAT,    /* 0x0a FLOAT + TEXT */
     SQLITE_NULL,     /* 0x0b (not possible) */
     SQLITE_INTEGER,  /* 0x0c (not possible) */
     SQLITE_NULL,     /* 0x0d (not possible) */
     SQLITE_INTEGER,  /* 0x0e (not possible) */
     SQLITE_NULL,     /* 0x0f (not possible) */
     SQLITE_BLOB,     /* 0x10 BLOB */
     SQLITE_NULL,     /* 0x11 (not possible) */
     SQLITE_TEXT,     /* 0x12 (not possible) */
     SQLITE_NULL,     /* 0x13 (not possible) */
     SQLITE_INTEGER,  /* 0x14 INTEGER + BLOB */
     SQLITE_NULL,     /* 0x15 (not possible) */
     SQLITE_INTEGER,  /* 0x16 (not possible) */
     SQLITE_NULL,     /* 0x17 (not possible) */
     SQLITE_FLOAT,    /* 0x18 FLOAT + BLOB */
     SQLITE_NULL,     /* 0x19 (not possible) */
     SQLITE_FLOAT,    /* 0x1a (not possible) */
     SQLITE_NULL,     /* 0x1b (not possible) */
     SQLITE_INTEGER,  /* 0x1c (not possible) */
     SQLITE_NULL,     /* 0x1d (not possible) */
     SQLITE_INTEGER,  /* 0x1e (not possible) */
     SQLITE_NULL,     /* 0x1f (not possible) */
     SQLITE_FLOAT,    /* 0x20 INTREAL */
     SQLITE_NULL,     /* 0x21 (not possible) */
     SQLITE_TEXT,     /* 0x22 INTREAL + TEXT */
     SQLITE_NULL,     /* 0x23 (not possible) */
     SQLITE_FLOAT,    /* 0x24 (not possible) */
     SQLITE_NULL,     /* 0x25 (not possible) */
     SQLITE_FLOAT,    /* 0x26 (not possible) */
     SQLITE_NULL,     /* 0x27 (not possible) */
     SQLITE_FLOAT,    /* 0x28 (not possible) */
     SQLITE_NULL,     /* 0x29 (not possible) */
     SQLITE_FLOAT,    /* 0x2a (not possible) */
     SQLITE_NULL,     /* 0x2b (not possible) */
     SQLITE_FLOAT,    /* 0x2c (not possible) */
     SQLITE_NULL,     /* 0x2d (not possible) */
     SQLITE_FLOAT,    /* 0x2e (not possible) */
     SQLITE_NULL,     /* 0x2f (not possible) */
     SQLITE_BLOB,     /* 0x30 (not possible) */
     SQLITE_NULL,     /* 0x31 (not possible) */
     SQLITE_TEXT,     /* 0x32 (not possible) */
     SQLITE_NULL,     /* 0x33 (not possible) */
     SQLITE_FLOAT,    /* 0x34 (not possible) */
     SQLITE_NULL,     /* 0x35 (not possible) */
     SQLITE_FLOAT,    /* 0x36 (not possible) */
     SQLITE_NULL,     /* 0x37 (not possible) */
     SQLITE_FLOAT,    /* 0x38 (not possible) */
     SQLITE_NULL,     /* 0x39 (not possible) */
     SQLITE_FLOAT,    /* 0x3a (not possible) */
     SQLITE_NULL,     /* 0x3b (not possible) */
     SQLITE_FLOAT,    /* 0x3c (not possible) */
     SQLITE_NULL,     /* 0x3d (not possible) */
     SQLITE_FLOAT,    /* 0x3e (not possible) */
     SQLITE_NULL,     /* 0x3f (not possible) */
  };
#ifdef SQLITE_DEBUG
  {
    int eType = SQLITE_BLOB;
    if( pVal->flags & MEM_Null ){
      eType = SQLITE_NULL;
    }else if( pVal->flags & (MEM_Real|MEM_IntReal) ){
      eType = SQLITE_FLOAT;
    }else if( pVal->flags & MEM_Int ){
      eType = SQLITE_INTEGER;
    }else if( pVal->flags & MEM_Str ){
      eType = SQLITE_TEXT;
    }
    assert( eType == aType[pVal->flags&MEM_AffMask] );
  }
#endif
  return aType[pVal->flags&MEM_AffMask];
}

/* Return true if a parameter to xUpdate represents an unchanged column */
int sqlite3_value_nochange(sqlite3_value *pVal){
  return (pVal->flags&(MEM_Null|MEM_Zero))==(MEM_Null|MEM_Zero);
}
................................................................................
/* An SQLITE_NOMEM error. */
void sqlite3_result_error_nomem(sqlite3_context *pCtx){
  assert( sqlite3_mutex_held(pCtx->pOut->db->mutex) );
  sqlite3VdbeMemSetNull(pCtx->pOut);
  pCtx->isError = SQLITE_NOMEM_BKPT;
  sqlite3OomFault(pCtx->pOut->db);
}

#ifndef SQLITE_UNTESTABLE
/* Force the INT64 value currently stored as the result to be
** a MEM_IntReal value.  See the SQLITE_TESTCTRL_RESULT_INTREAL
** test-control.
*/
void sqlite3ResultIntReal(sqlite3_context *pCtx){ 
  assert( sqlite3_mutex_held(pCtx->pOut->db->mutex) );
  if( pCtx->pOut->flags & MEM_Int ){
    pCtx->pOut->flags &= ~MEM_Int;
    pCtx->pOut->flags |= MEM_IntReal;
  }
}
#endif


/*
** This function is called after a transaction has been committed. It 
** invokes callbacks registered with sqlite3_wal_hook() as required.
*/
static int doWalCallbacks(sqlite3 *db){
  int rc = SQLITE_OK;
................................................................................

  pMem = *ppValue = &p->pUnpacked->aMem[iIdx];
  if( iIdx==p->pTab->iPKey ){
    sqlite3VdbeMemSetInt64(pMem, p->iKey1);
  }else if( iIdx>=p->pUnpacked->nField ){
    *ppValue = (sqlite3_value *)columnNullValue();
  }else if( p->pTab->aCol[iIdx].affinity==SQLITE_AFF_REAL ){
    if( pMem->flags & (MEM_Int|MEM_IntReal) ){
      testcase( pMem->flags & MEM_Int );
      testcase( pMem->flags & MEM_IntReal );
      sqlite3VdbeMemRealify(pMem);
    }
  }

 preupdate_old_out:
  sqlite3Error(db, rc);
  return sqlite3ApiExit(db, rc);

Changes to src/vdbeaux.c.

1530
1531
1532
1533
1534
1535
1536
1537
1538
1539
1540
1541
1542
1543
1544
....
2910
2911
2912
2913
2914
2915
2916
2917
2918
2919
2920
2921
2922
2923
2924
....
3438
3439
3440
3441
3442
3443
3444


3445
3446
3447
3448
3449
3450
3451
3452
3453
3454
3455
3456
3457
3458
3459


3460
3461
3462
3463
3464
3465
3466
....
3472
3473
3474
3475
3476
3477
3478









3479
3480
3481
3482
3483
3484
3485
....
4127
4128
4129
4130
4131
4132
4133
4134




4135

4136
4137
4138
4139
4140
4141
4142
4143
4144
4145


4146
4147




4148
4149
4150
4151
4152
4153


4154
4155
4156
4157
4158
4159
4160
....
4295
4296
4297
4298
4299
4300
4301

4302

4303
4304
4305
4306
4307
4308
4309
....
4640
4641
4642
4643
4644
4645
4646

4647

4648
4649
4650
4651
4652
4653
4654
      sqlite3_str_appendf(&x, "%.16g", *pOp->p4.pReal);
      break;
    }
    case P4_MEM: {
      Mem *pMem = pOp->p4.pMem;
      if( pMem->flags & MEM_Str ){
        zP4 = pMem->z;
      }else if( pMem->flags & MEM_Int ){
        sqlite3_str_appendf(&x, "%lld", pMem->u.i);
      }else if( pMem->flags & MEM_Real ){
        sqlite3_str_appendf(&x, "%.16g", pMem->u.r);
      }else if( pMem->flags & MEM_Null ){
        zP4 = "NULL";
      }else{
        assert( pMem->flags & MEM_Blob );
................................................................................
          db->bConcurrent = 0;
          p->nChange = 0;
        }
      }
    }

    /* Check for immediate foreign key violations. */
    if( p->rc==SQLITE_OK ){
      sqlite3VdbeCheckFk(p, 0);
    }
  
    /* If the auto-commit flag is set and this is the only active writer 
    ** VM, then we do either a commit or rollback of the current transaction. 
    **
    ** Note: This block also runs if one of the special errors handled 
................................................................................
**
** The 8 and 9 types were added in 3.3.0, file format 4.  Prior versions
** of SQLite will not understand those serial types.
*/

/*
** Return the serial-type for the value stored in pMem.


*/
u32 sqlite3VdbeSerialType(Mem *pMem, int file_format, u32 *pLen){
  int flags = pMem->flags;
  u32 n;

  assert( pLen!=0 );
  if( flags&MEM_Null ){
    *pLen = 0;
    return 0;
  }
  if( flags&MEM_Int ){
    /* Figure out whether to use 1, 2, 4, 6 or 8 bytes. */
#   define MAX_6BYTE ((((i64)0x00008000)<<32)-1)
    i64 i = pMem->u.i;
    u64 u;


    if( i<0 ){
      u = ~i;
    }else{
      u = i;
    }
    if( u<=127 ){
      if( (i&1)==i && file_format>=4 ){
................................................................................
      }
    }
    if( u<=32767 ){ *pLen = 2; return 2; }
    if( u<=8388607 ){ *pLen = 3; return 3; }
    if( u<=2147483647 ){ *pLen = 4; return 4; }
    if( u<=MAX_6BYTE ){ *pLen = 6; return 5; }
    *pLen = 8;









    return 6;
  }
  if( flags&MEM_Real ){
    *pLen = 8;
    return 7;
  }
  assert( pMem->db->mallocFailed || flags&(MEM_Str|MEM_Blob) );
................................................................................
  */
  if( combined_flags&MEM_Null ){
    return (f2&MEM_Null) - (f1&MEM_Null);
  }

  /* At least one of the two values is a number
  */
  if( combined_flags&(MEM_Int|MEM_Real) ){




    if( (f1 & f2 & MEM_Int)!=0 ){

      if( pMem1->u.i < pMem2->u.i ) return -1;
      if( pMem1->u.i > pMem2->u.i ) return +1;
      return 0;
    }
    if( (f1 & f2 & MEM_Real)!=0 ){
      if( pMem1->u.r < pMem2->u.r ) return -1;
      if( pMem1->u.r > pMem2->u.r ) return +1;
      return 0;
    }
    if( (f1&MEM_Int)!=0 ){


      if( (f2&MEM_Real)!=0 ){
        return sqlite3IntFloatCompare(pMem1->u.i, pMem2->u.r);




      }else{
        return -1;
      }
    }
    if( (f1&MEM_Real)!=0 ){
      if( (f2&MEM_Int)!=0 ){


        return -sqlite3IntFloatCompare(pMem2->u.i, pMem1->u.r);
      }else{
        return -1;
      }
    }
    return +1;
  }
................................................................................
  assert( pPKey2->pKeyInfo->aSortOrder!=0 );
  assert( pPKey2->pKeyInfo->nKeyField>0 );
  assert( idx1<=szHdr1 || CORRUPT_DB );
  do{
    u32 serial_type;

    /* RHS is an integer */

    if( pRhs->flags & MEM_Int ){

      serial_type = aKey1[idx1];
      testcase( serial_type==12 );
      if( serial_type>=10 ){
        rc = +1;
      }else if( serial_type==0 ){
        rc = -1;
      }else if( serial_type==7 ){
................................................................................
    }
    if( (flags & MEM_Int) ){
      return vdbeRecordCompareInt;
    }
    testcase( flags & MEM_Real );
    testcase( flags & MEM_Null );
    testcase( flags & MEM_Blob );

    if( (flags & (MEM_Real|MEM_Null|MEM_Blob))==0 && p->pKeyInfo->aColl[0]==0 ){

      assert( flags & MEM_Str );
      return vdbeRecordCompareString;
    }
  }

  return sqlite3VdbeRecordCompare;
}







|







 







|







 







>
>










|




>
>







 







>
>
>
>
>
>
>
>
>







 







|
>
>
>
>
|
>









|
>
>


>
>
>
>





|
>
>







 







>
|
>







 







>
|
>







1530
1531
1532
1533
1534
1535
1536
1537
1538
1539
1540
1541
1542
1543
1544
....
2910
2911
2912
2913
2914
2915
2916
2917
2918
2919
2920
2921
2922
2923
2924
....
3438
3439
3440
3441
3442
3443
3444
3445
3446
3447
3448
3449
3450
3451
3452
3453
3454
3455
3456
3457
3458
3459
3460
3461
3462
3463
3464
3465
3466
3467
3468
3469
3470
....
3476
3477
3478
3479
3480
3481
3482
3483
3484
3485
3486
3487
3488
3489
3490
3491
3492
3493
3494
3495
3496
3497
3498
....
4140
4141
4142
4143
4144
4145
4146
4147
4148
4149
4150
4151
4152
4153
4154
4155
4156
4157
4158
4159
4160
4161
4162
4163
4164
4165
4166
4167
4168
4169
4170
4171
4172
4173
4174
4175
4176
4177
4178
4179
4180
4181
4182
4183
4184
4185
4186
....
4321
4322
4323
4324
4325
4326
4327
4328
4329
4330
4331
4332
4333
4334
4335
4336
4337
....
4668
4669
4670
4671
4672
4673
4674
4675
4676
4677
4678
4679
4680
4681
4682
4683
4684
      sqlite3_str_appendf(&x, "%.16g", *pOp->p4.pReal);
      break;
    }
    case P4_MEM: {
      Mem *pMem = pOp->p4.pMem;
      if( pMem->flags & MEM_Str ){
        zP4 = pMem->z;
      }else if( pMem->flags & (MEM_Int|MEM_IntReal) ){
        sqlite3_str_appendf(&x, "%lld", pMem->u.i);
      }else if( pMem->flags & MEM_Real ){
        sqlite3_str_appendf(&x, "%.16g", pMem->u.r);
      }else if( pMem->flags & MEM_Null ){
        zP4 = "NULL";
      }else{
        assert( pMem->flags & MEM_Blob );
................................................................................
          db->bConcurrent = 0;
          p->nChange = 0;
        }
      }
    }

    /* Check for immediate foreign key violations. */
    if( p->rc==SQLITE_OK || (p->errorAction==OE_Fail && !isSpecialError) ){
      sqlite3VdbeCheckFk(p, 0);
    }
  
    /* If the auto-commit flag is set and this is the only active writer 
    ** VM, then we do either a commit or rollback of the current transaction. 
    **
    ** Note: This block also runs if one of the special errors handled 
................................................................................
**
** The 8 and 9 types were added in 3.3.0, file format 4.  Prior versions
** of SQLite will not understand those serial types.
*/

/*
** Return the serial-type for the value stored in pMem.
**
** This routine might convert a large MEM_IntReal value into MEM_Real.
*/
u32 sqlite3VdbeSerialType(Mem *pMem, int file_format, u32 *pLen){
  int flags = pMem->flags;
  u32 n;

  assert( pLen!=0 );
  if( flags&MEM_Null ){
    *pLen = 0;
    return 0;
  }
  if( flags&(MEM_Int|MEM_IntReal) ){
    /* Figure out whether to use 1, 2, 4, 6 or 8 bytes. */
#   define MAX_6BYTE ((((i64)0x00008000)<<32)-1)
    i64 i = pMem->u.i;
    u64 u;
    testcase( flags & MEM_Int );
    testcase( flags & MEM_IntReal );
    if( i<0 ){
      u = ~i;
    }else{
      u = i;
    }
    if( u<=127 ){
      if( (i&1)==i && file_format>=4 ){
................................................................................
      }
    }
    if( u<=32767 ){ *pLen = 2; return 2; }
    if( u<=8388607 ){ *pLen = 3; return 3; }
    if( u<=2147483647 ){ *pLen = 4; return 4; }
    if( u<=MAX_6BYTE ){ *pLen = 6; return 5; }
    *pLen = 8;
    if( flags&MEM_IntReal ){
      /* If the value is IntReal and is going to take up 8 bytes to store
      ** as an integer, then we might as well make it an 8-byte floating
      ** point value */
      pMem->u.r = (double)pMem->u.i;
      pMem->flags &= ~MEM_IntReal;
      pMem->flags |= MEM_Real;
      return 7;
    }
    return 6;
  }
  if( flags&MEM_Real ){
    *pLen = 8;
    return 7;
  }
  assert( pMem->db->mallocFailed || flags&(MEM_Str|MEM_Blob) );
................................................................................
  */
  if( combined_flags&MEM_Null ){
    return (f2&MEM_Null) - (f1&MEM_Null);
  }

  /* At least one of the two values is a number
  */
  if( combined_flags&(MEM_Int|MEM_Real|MEM_IntReal) ){
    testcase( combined_flags & MEM_Int );
    testcase( combined_flags & MEM_Real );
    testcase( combined_flags & MEM_IntReal );
    if( (f1 & f2 & (MEM_Int|MEM_IntReal))!=0 ){
      testcase( f1 & f2 & MEM_Int );
      testcase( f1 & f2 & MEM_IntReal );
      if( pMem1->u.i < pMem2->u.i ) return -1;
      if( pMem1->u.i > pMem2->u.i ) return +1;
      return 0;
    }
    if( (f1 & f2 & MEM_Real)!=0 ){
      if( pMem1->u.r < pMem2->u.r ) return -1;
      if( pMem1->u.r > pMem2->u.r ) return +1;
      return 0;
    }
    if( (f1&(MEM_Int|MEM_IntReal))!=0 ){
      testcase( f1 & MEM_Int );
      testcase( f1 & MEM_IntReal );
      if( (f2&MEM_Real)!=0 ){
        return sqlite3IntFloatCompare(pMem1->u.i, pMem2->u.r);
      }else if( (f2&(MEM_Int|MEM_IntReal))!=0 ){
        if( pMem1->u.i < pMem2->u.i ) return -1;
        if( pMem1->u.i > pMem2->u.i ) return +1;
        return 0;
      }else{
        return -1;
      }
    }
    if( (f1&MEM_Real)!=0 ){
      if( (f2&(MEM_Int|MEM_IntReal))!=0 ){
        testcase( f2 & MEM_Int );
        testcase( f2 & MEM_IntReal );
        return -sqlite3IntFloatCompare(pMem2->u.i, pMem1->u.r);
      }else{
        return -1;
      }
    }
    return +1;
  }
................................................................................
  assert( pPKey2->pKeyInfo->aSortOrder!=0 );
  assert( pPKey2->pKeyInfo->nKeyField>0 );
  assert( idx1<=szHdr1 || CORRUPT_DB );
  do{
    u32 serial_type;

    /* RHS is an integer */
    if( pRhs->flags & (MEM_Int|MEM_IntReal) ){
      testcase( pRhs->flags & MEM_Int );
      testcase( pRhs->flags & MEM_IntReal );
      serial_type = aKey1[idx1];
      testcase( serial_type==12 );
      if( serial_type>=10 ){
        rc = +1;
      }else if( serial_type==0 ){
        rc = -1;
      }else if( serial_type==7 ){
................................................................................
    }
    if( (flags & MEM_Int) ){
      return vdbeRecordCompareInt;
    }
    testcase( flags & MEM_Real );
    testcase( flags & MEM_Null );
    testcase( flags & MEM_Blob );
    if( (flags & (MEM_Real|MEM_IntReal|MEM_Null|MEM_Blob))==0
     && p->pKeyInfo->aColl[0]==0
    ){
      assert( flags & MEM_Str );
      return vdbeRecordCompareString;
    }
  }

  return sqlite3VdbeRecordCompare;
}

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** stores a single value in the VDBE.  Mem is an opaque structure visible
** only within the VDBE.  Interface routines refer to a Mem using the
** name sqlite_value
*/
#include "sqliteInt.h"
#include "vdbeInt.h"






#ifdef SQLITE_DEBUG
/*
** Check invariants on a Mem object.
**
** This routine is intended for use inside of assert() statements, like
** this:    assert( sqlite3VdbeCheckMemInvariants(pMem) );
*/
................................................................................

  /* MEM_Dyn may only be set if Mem.szMalloc==0.  In this way we
  ** ensure that if Mem.szMalloc>0 then it is safe to do
  ** Mem.z = Mem.zMalloc without having to check Mem.flags&MEM_Dyn.
  ** That saves a few cycles in inner loops. */
  assert( (p->flags & MEM_Dyn)==0 || p->szMalloc==0 );

  /* Cannot be both MEM_Int and MEM_Real at the same time */
  assert( (p->flags & (MEM_Int|MEM_Real))!=(MEM_Int|MEM_Real) );

  if( p->flags & MEM_Null ){
    /* Cannot be both MEM_Null and some other type */
    assert( (p->flags & (MEM_Int|MEM_Real|MEM_Str|MEM_Blob|MEM_Agg))==0 );

    /* If MEM_Null is set, then either the value is a pure NULL (the usual
    ** case) or it is a pointer set using sqlite3_bind_pointer() or
................................................................................
      ((p->flags&MEM_Ephem)!=0 ? 1 : 0) +
      ((p->flags&MEM_Static)!=0 ? 1 : 0) == 1
    );
  }
  return 1;
}
#endif




















#ifdef SQLITE_DEBUG
/*
** Check that string value of pMem agrees with its integer or real value.
**
** A single int or real value always converts to the same strings.  But
** many different strings can be converted into the same int or real.
................................................................................
** This routine is for use inside of assert() statements only.
*/
int sqlite3VdbeMemConsistentDualRep(Mem *p){
  char zBuf[100];
  char *z;
  int i, j, incr;
  if( (p->flags & MEM_Str)==0 ) return 1;
  if( (p->flags & (MEM_Int|MEM_Real))==0 ) return 1;
  if( p->flags & MEM_Int ){
    sqlite3_snprintf(sizeof(zBuf),zBuf,"%lld",p->u.i);
  }else{
    sqlite3_snprintf(sizeof(zBuf),zBuf,"%!.15g",p->u.r);
  }
  z = p->z;
  i = j = 0;
  incr = 1;
  if( p->enc!=SQLITE_UTF8 ){
    incr = 2;
    if( p->enc==SQLITE_UTF16BE ) z++;
  }
................................................................................
/*
** Change the pMem->zMalloc allocation to be at least szNew bytes.
** If pMem->zMalloc already meets or exceeds the requested size, this
** routine is a no-op.
**
** Any prior string or blob content in the pMem object may be discarded.
** The pMem->xDel destructor is called, if it exists.  Though MEM_Str
** and MEM_Blob values may be discarded, MEM_Int, MEM_Real, and MEM_Null
** values are preserved.
**
** Return SQLITE_OK on success or an error code (probably SQLITE_NOMEM)
** if unable to complete the resizing.
*/
int sqlite3VdbeMemClearAndResize(Mem *pMem, int szNew){
  assert( CORRUPT_DB || szNew>0 );
  assert( (pMem->flags & MEM_Dyn)==0 || pMem->szMalloc==0 );
  if( pMem->szMalloc<szNew ){
    return sqlite3VdbeMemGrow(pMem, szNew, 0);
  }
  assert( (pMem->flags & MEM_Dyn)==0 );
  pMem->z = pMem->zMalloc;
  pMem->flags &= (MEM_Null|MEM_Int|MEM_Real);
  return SQLITE_OK;
}

/*
** It is already known that pMem contains an unterminated string.
** Add the zero terminator.





*/
static SQLITE_NOINLINE int vdbeMemAddTerminator(Mem *pMem){
  if( sqlite3VdbeMemGrow(pMem, pMem->n+2, 1) ){
    return SQLITE_NOMEM_BKPT;
  }
  pMem->z[pMem->n] = 0;
  pMem->z[pMem->n+1] = 0;

  pMem->flags |= MEM_Term;
  return SQLITE_OK;
}

/*
** Change pMem so that its MEM_Str or MEM_Blob value is stored in
** MEM.zMalloc, where it can be safely written.
................................................................................
    return SQLITE_OK;   /* Nothing to do */
  }else{
    return vdbeMemAddTerminator(pMem);
  }
}

/*
** Add MEM_Str to the set of representations for the given Mem.  Numbers
** are converted using sqlite3_snprintf().  Converting a BLOB to a string
** is a no-op.
**
** Existing representations MEM_Int and MEM_Real are invalidated if
** bForce is true but are retained if bForce is false.
**
** A MEM_Null value will never be passed to this function. This function is
** used for converting values to text for returning to the user (i.e. via
** sqlite3_value_text()), or for ensuring that values to be used as btree
** keys are strings. In the former case a NULL pointer is returned the
** user and the latter is an internal programming error.
*/
int sqlite3VdbeMemStringify(Mem *pMem, u8 enc, u8 bForce){
  int fg = pMem->flags;
  const int nByte = 32;

  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
  assert( !(fg&MEM_Zero) );
  assert( !(fg&(MEM_Str|MEM_Blob)) );
  assert( fg&(MEM_Int|MEM_Real) );
  assert( !sqlite3VdbeMemIsRowSet(pMem) );
  assert( EIGHT_BYTE_ALIGNMENT(pMem) );


  if( sqlite3VdbeMemClearAndResize(pMem, nByte) ){
    pMem->enc = 0;
    return SQLITE_NOMEM_BKPT;
  }

  /* For a Real or Integer, use sqlite3_snprintf() to produce the UTF-8
  ** string representation of the value. Then, if the required encoding
  ** is UTF-16le or UTF-16be do a translation.
  ** 
  ** FIX ME: It would be better if sqlite3_snprintf() could do UTF-16.
  */
  if( fg & MEM_Int ){
    sqlite3_snprintf(nByte, pMem->z, "%lld", pMem->u.i);
  }else{
    assert( fg & MEM_Real );
    sqlite3_snprintf(nByte, pMem->z, "%!.15g", pMem->u.r);
  }
  assert( pMem->z!=0 );
  pMem->n = sqlite3Strlen30NN(pMem->z);
  pMem->enc = SQLITE_UTF8;
  pMem->flags |= MEM_Str|MEM_Term;
  if( bForce ) pMem->flags &= ~(MEM_Int|MEM_Real);
  sqlite3VdbeChangeEncoding(pMem, enc);
  return SQLITE_OK;
}

/*
** Memory cell pMem contains the context of an aggregate function.
** This routine calls the finalize method for that function.  The
................................................................................
  return value;
}
i64 sqlite3VdbeIntValue(Mem *pMem){
  int flags;
  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
  assert( EIGHT_BYTE_ALIGNMENT(pMem) );
  flags = pMem->flags;

  if( flags & MEM_Int ){
    return pMem->u.i;
  }else if( flags & MEM_Real ){
    return doubleToInt64(pMem->u.r);
  }else if( flags & (MEM_Str|MEM_Blob) ){
    assert( pMem->z || pMem->n==0 );
    return memIntValue(pMem);
  }else{
................................................................................
  return val;
}
double sqlite3VdbeRealValue(Mem *pMem){
  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
  assert( EIGHT_BYTE_ALIGNMENT(pMem) );
  if( pMem->flags & MEM_Real ){
    return pMem->u.r;

  }else if( pMem->flags & MEM_Int ){
    return (double)pMem->u.i;
  }else if( pMem->flags & (MEM_Str|MEM_Blob) ){
    return memRealValue(pMem);
  }else{
    /* (double)0 In case of SQLITE_OMIT_FLOATING_POINT... */
    return (double)0;
  }
................................................................................
}

/*
** Return 1 if pMem represents true, and return 0 if pMem represents false.
** Return the value ifNull if pMem is NULL.  
*/
int sqlite3VdbeBooleanValue(Mem *pMem, int ifNull){
  if( pMem->flags & MEM_Int ) return pMem->u.i!=0;

  if( pMem->flags & MEM_Null ) return ifNull;
  return sqlite3VdbeRealValue(pMem)!=0.0;
}

/*
** The MEM structure is already a MEM_Real.  Try to also make it a
** MEM_Int if we can.
................................................................................
*/
static int sqlite3RealSameAsInt(double r1, sqlite3_int64 i){
  double r2 = (double)i;
  return memcmp(&r1, &r2, sizeof(r1))==0;
}

/*
** Convert pMem so that it has types MEM_Real or MEM_Int or both.
** Invalidate any prior representations.
**
** Every effort is made to force the conversion, even if the input
** is a string that does not look completely like a number.  Convert
** as much of the string as we can and ignore the rest.
*/
int sqlite3VdbeMemNumerify(Mem *pMem){




  if( (pMem->flags & (MEM_Int|MEM_Real|MEM_Null))==0 ){
    int rc;
    assert( (pMem->flags & (MEM_Blob|MEM_Str))!=0 );
    assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
    rc = sqlite3Atoi64(pMem->z, &pMem->u.i, pMem->n, pMem->enc);
    if( rc==0 ){
      MemSetTypeFlag(pMem, MEM_Int);
    }else{
................................................................................
        pMem->u.i = i;
        MemSetTypeFlag(pMem, MEM_Int);
      }else{
        MemSetTypeFlag(pMem, MEM_Real);
      }
    }
  }
  assert( (pMem->flags & (MEM_Int|MEM_Real|MEM_Null))!=0 );
  pMem->flags &= ~(MEM_Str|MEM_Blob|MEM_Zero);
  return SQLITE_OK;
}

/*
** Cast the datatype of the value in pMem according to the affinity
** "aff".  Casting is different from applying affinity in that a cast
................................................................................
    }
    default: {
      assert( aff==SQLITE_AFF_TEXT );
      assert( MEM_Str==(MEM_Blob>>3) );
      pMem->flags |= (pMem->flags&MEM_Blob)>>3;
      sqlite3ValueApplyAffinity(pMem, SQLITE_AFF_TEXT, encoding);
      assert( pMem->flags & MEM_Str || pMem->db->mallocFailed );
      pMem->flags &= ~(MEM_Int|MEM_Real|MEM_Blob|MEM_Zero);
      break;
    }
  }
}

/*
** Initialize bulk memory to be a consistent Mem object.
................................................................................
      /* If pX is marked as a shallow copy of pMem, then verify that
      ** no significant changes have been made to pX since the OP_SCopy.
      ** A significant change would indicated a missed call to this
      ** function for pX.  Minor changes, such as adding or removing a
      ** dual type, are allowed, as long as the underlying value is the
      ** same. */
      u16 mFlags = pMem->flags & pX->flags & pX->mScopyFlags;
      assert( (mFlags&MEM_Int)==0 || pMem->u.i==pX->u.i );
      assert( (mFlags&MEM_Real)==0 || pMem->u.r==pX->u.r );
      assert( (mFlags&MEM_Str)==0  || (pMem->n==pX->n && pMem->z==pX->z) );
      assert( (mFlags&MEM_Blob)==0  || sqlite3BlobCompare(pMem,pX)==0 );
      
      /* pMem is the register that is changing.  But also mark pX as
      ** undefined so that we can quickly detect the shallow-copy error */
      pX->flags = MEM_Undefined;
................................................................................
      sqlite3ValueSetStr(pVal, -1, zVal, SQLITE_UTF8, SQLITE_DYNAMIC);
    }
    if( (op==TK_INTEGER || op==TK_FLOAT ) && affinity==SQLITE_AFF_BLOB ){
      sqlite3ValueApplyAffinity(pVal, SQLITE_AFF_NUMERIC, SQLITE_UTF8);
    }else{
      sqlite3ValueApplyAffinity(pVal, affinity, SQLITE_UTF8);
    }




    if( pVal->flags & (MEM_Int|MEM_Real) ) pVal->flags &= ~MEM_Str;

    if( enc!=SQLITE_UTF8 ){
      rc = sqlite3VdbeChangeEncoding(pVal, enc);
    }
  }else if( op==TK_UMINUS ) {
    /* This branch happens for multiple negative signs.  Ex: -(-5) */
    if( SQLITE_OK==valueFromExpr(db,pExpr->pLeft,enc,affinity,&pVal,pCtx) 
     && pVal!=0
................................................................................
        pVal->u.i = -pVal->u.i;
      }
      sqlite3ValueApplyAffinity(pVal, affinity, enc);
    }
  }else if( op==TK_NULL ){
    pVal = valueNew(db, pCtx);
    if( pVal==0 ) goto no_mem;
    sqlite3VdbeMemNumerify(pVal);
  }
#ifndef SQLITE_OMIT_BLOB_LITERAL
  else if( op==TK_BLOB ){
    int nVal;
    assert( pExpr->u.zToken[0]=='x' || pExpr->u.zToken[0]=='X' );
    assert( pExpr->u.zToken[1]=='\'' );
    pVal = valueNew(db, pCtx);







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** stores a single value in the VDBE.  Mem is an opaque structure visible
** only within the VDBE.  Interface routines refer to a Mem using the
** name sqlite_value
*/
#include "sqliteInt.h"
#include "vdbeInt.h"

/* True if X is a power of two.  0 is considered a power of two here.
** In other words, return true if X has at most one bit set.
*/
#define ISPOWEROF2(X)  (((X)&((X)-1))==0)

#ifdef SQLITE_DEBUG
/*
** Check invariants on a Mem object.
**
** This routine is intended for use inside of assert() statements, like
** this:    assert( sqlite3VdbeCheckMemInvariants(pMem) );
*/
................................................................................

  /* MEM_Dyn may only be set if Mem.szMalloc==0.  In this way we
  ** ensure that if Mem.szMalloc>0 then it is safe to do
  ** Mem.z = Mem.zMalloc without having to check Mem.flags&MEM_Dyn.
  ** That saves a few cycles in inner loops. */
  assert( (p->flags & MEM_Dyn)==0 || p->szMalloc==0 );

  /* Cannot have more than one of MEM_Int, MEM_Real, or MEM_IntReal */
  assert( ISPOWEROF2(p->flags & (MEM_Int|MEM_Real|MEM_IntReal)) );

  if( p->flags & MEM_Null ){
    /* Cannot be both MEM_Null and some other type */
    assert( (p->flags & (MEM_Int|MEM_Real|MEM_Str|MEM_Blob|MEM_Agg))==0 );

    /* If MEM_Null is set, then either the value is a pure NULL (the usual
    ** case) or it is a pointer set using sqlite3_bind_pointer() or
................................................................................
      ((p->flags&MEM_Ephem)!=0 ? 1 : 0) +
      ((p->flags&MEM_Static)!=0 ? 1 : 0) == 1
    );
  }
  return 1;
}
#endif

/*
** Render a Mem object which is one of MEM_Int, MEM_Real, or MEM_IntReal
** into a buffer.
*/
static void vdbeMemRenderNum(int sz, char *zBuf, Mem *p){
  StrAccum acc;
  assert( p->flags & (MEM_Int|MEM_Real|MEM_IntReal) );
  sqlite3StrAccumInit(&acc, 0, zBuf, sz, 0);
  if( p->flags & MEM_Int ){
    sqlite3_str_appendf(&acc, "%lld", p->u.i);
  }else if( p->flags & MEM_IntReal ){
    sqlite3_str_appendf(&acc, "%!.15g", (double)p->u.i);
  }else{
    sqlite3_str_appendf(&acc, "%!.15g", p->u.r);
  }
  assert( acc.zText==zBuf && acc.mxAlloc<=0 );
  zBuf[acc.nChar] = 0; /* Fast version of sqlite3StrAccumFinish(&acc) */
}

#ifdef SQLITE_DEBUG
/*
** Check that string value of pMem agrees with its integer or real value.
**
** A single int or real value always converts to the same strings.  But
** many different strings can be converted into the same int or real.
................................................................................
** This routine is for use inside of assert() statements only.
*/
int sqlite3VdbeMemConsistentDualRep(Mem *p){
  char zBuf[100];
  char *z;
  int i, j, incr;
  if( (p->flags & MEM_Str)==0 ) return 1;
  if( (p->flags & (MEM_Int|MEM_Real|MEM_IntReal))==0 ) return 1;
  vdbeMemRenderNum(sizeof(zBuf), zBuf, p);




  z = p->z;
  i = j = 0;
  incr = 1;
  if( p->enc!=SQLITE_UTF8 ){
    incr = 2;
    if( p->enc==SQLITE_UTF16BE ) z++;
  }
................................................................................
/*
** Change the pMem->zMalloc allocation to be at least szNew bytes.
** If pMem->zMalloc already meets or exceeds the requested size, this
** routine is a no-op.
**
** Any prior string or blob content in the pMem object may be discarded.
** The pMem->xDel destructor is called, if it exists.  Though MEM_Str
** and MEM_Blob values may be discarded, MEM_Int, MEM_Real, MEM_IntReal,
** and MEM_Null values are preserved.
**
** Return SQLITE_OK on success or an error code (probably SQLITE_NOMEM)
** if unable to complete the resizing.
*/
int sqlite3VdbeMemClearAndResize(Mem *pMem, int szNew){
  assert( CORRUPT_DB || szNew>0 );
  assert( (pMem->flags & MEM_Dyn)==0 || pMem->szMalloc==0 );
  if( pMem->szMalloc<szNew ){
    return sqlite3VdbeMemGrow(pMem, szNew, 0);
  }
  assert( (pMem->flags & MEM_Dyn)==0 );
  pMem->z = pMem->zMalloc;
  pMem->flags &= (MEM_Null|MEM_Int|MEM_Real|MEM_IntReal);
  return SQLITE_OK;
}

/*
** It is already known that pMem contains an unterminated string.
** Add the zero terminator.
**
** Three bytes of zero are added.  In this way, there is guaranteed
** to be a double-zero byte at an even byte boundary in order to
** terminate a UTF16 string, even if the initial size of the buffer
** is an odd number of bytes.
*/
static SQLITE_NOINLINE int vdbeMemAddTerminator(Mem *pMem){
  if( sqlite3VdbeMemGrow(pMem, pMem->n+3, 1) ){
    return SQLITE_NOMEM_BKPT;
  }
  pMem->z[pMem->n] = 0;
  pMem->z[pMem->n+1] = 0;
  pMem->z[pMem->n+2] = 0;
  pMem->flags |= MEM_Term;
  return SQLITE_OK;
}

/*
** Change pMem so that its MEM_Str or MEM_Blob value is stored in
** MEM.zMalloc, where it can be safely written.
................................................................................
    return SQLITE_OK;   /* Nothing to do */
  }else{
    return vdbeMemAddTerminator(pMem);
  }
}

/*
** Add MEM_Str to the set of representations for the given Mem.  This
** routine is only called if pMem is a number of some kind, not a NULL
** or a BLOB.
**
** Existing representations MEM_Int, MEM_Real, or MEM_IntReal are invalidated
** if bForce is true but are retained if bForce is false.
**
** A MEM_Null value will never be passed to this function. This function is
** used for converting values to text for returning to the user (i.e. via
** sqlite3_value_text()), or for ensuring that values to be used as btree
** keys are strings. In the former case a NULL pointer is returned the
** user and the latter is an internal programming error.
*/
int sqlite3VdbeMemStringify(Mem *pMem, u8 enc, u8 bForce){

  const int nByte = 32;

  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
  assert( !(pMem->flags&MEM_Zero) );
  assert( !(pMem->flags&(MEM_Str|MEM_Blob)) );
  assert( pMem->flags&(MEM_Int|MEM_Real|MEM_IntReal) );
  assert( !sqlite3VdbeMemIsRowSet(pMem) );
  assert( EIGHT_BYTE_ALIGNMENT(pMem) );


  if( sqlite3VdbeMemClearAndResize(pMem, nByte) ){
    pMem->enc = 0;
    return SQLITE_NOMEM_BKPT;
  }








  vdbeMemRenderNum(nByte, pMem->z, pMem);




  assert( pMem->z!=0 );
  pMem->n = sqlite3Strlen30NN(pMem->z);
  pMem->enc = SQLITE_UTF8;
  pMem->flags |= MEM_Str|MEM_Term;
  if( bForce ) pMem->flags &= ~(MEM_Int|MEM_Real|MEM_IntReal);
  sqlite3VdbeChangeEncoding(pMem, enc);
  return SQLITE_OK;
}

/*
** Memory cell pMem contains the context of an aggregate function.
** This routine calls the finalize method for that function.  The
................................................................................
  return value;
}
i64 sqlite3VdbeIntValue(Mem *pMem){
  int flags;
  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
  assert( EIGHT_BYTE_ALIGNMENT(pMem) );
  flags = pMem->flags;
  if( flags & (MEM_Int|MEM_IntReal) ){
    testcase( flags & MEM_IntReal );
    return pMem->u.i;
  }else if( flags & MEM_Real ){
    return doubleToInt64(pMem->u.r);
  }else if( flags & (MEM_Str|MEM_Blob) ){
    assert( pMem->z || pMem->n==0 );
    return memIntValue(pMem);
  }else{
................................................................................
  return val;
}
double sqlite3VdbeRealValue(Mem *pMem){
  assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
  assert( EIGHT_BYTE_ALIGNMENT(pMem) );
  if( pMem->flags & MEM_Real ){
    return pMem->u.r;
  }else if( pMem->flags & (MEM_Int|MEM_IntReal) ){
    testcase( pMem->flags & MEM_IntReal );
    return (double)pMem->u.i;
  }else if( pMem->flags & (MEM_Str|MEM_Blob) ){
    return memRealValue(pMem);
  }else{
    /* (double)0 In case of SQLITE_OMIT_FLOATING_POINT... */
    return (double)0;
  }
................................................................................
}

/*
** Return 1 if pMem represents true, and return 0 if pMem represents false.
** Return the value ifNull if pMem is NULL.  
*/
int sqlite3VdbeBooleanValue(Mem *pMem, int ifNull){
  testcase( pMem->flags & MEM_IntReal );
  if( pMem->flags & (MEM_Int|MEM_IntReal) ) return pMem->u.i!=0;
  if( pMem->flags & MEM_Null ) return ifNull;
  return sqlite3VdbeRealValue(pMem)!=0.0;
}

/*
** The MEM structure is already a MEM_Real.  Try to also make it a
** MEM_Int if we can.
................................................................................
*/
static int sqlite3RealSameAsInt(double r1, sqlite3_int64 i){
  double r2 = (double)i;
  return memcmp(&r1, &r2, sizeof(r1))==0;
}

/*
** Convert pMem so that it has type MEM_Real or MEM_Int.
** Invalidate any prior representations.
**
** Every effort is made to force the conversion, even if the input
** is a string that does not look completely like a number.  Convert
** as much of the string as we can and ignore the rest.
*/
int sqlite3VdbeMemNumerify(Mem *pMem){
  testcase( pMem->flags & MEM_Int );
  testcase( pMem->flags & MEM_Real );
  testcase( pMem->flags & MEM_IntReal );
  testcase( pMem->flags & MEM_Null );
  if( (pMem->flags & (MEM_Int|MEM_Real|MEM_IntReal|MEM_Null))==0 ){
    int rc;
    assert( (pMem->flags & (MEM_Blob|MEM_Str))!=0 );
    assert( pMem->db==0 || sqlite3_mutex_held(pMem->db->mutex) );
    rc = sqlite3Atoi64(pMem->z, &pMem->u.i, pMem->n, pMem->enc);
    if( rc==0 ){
      MemSetTypeFlag(pMem, MEM_Int);
    }else{
................................................................................
        pMem->u.i = i;
        MemSetTypeFlag(pMem, MEM_Int);
      }else{
        MemSetTypeFlag(pMem, MEM_Real);
      }
    }
  }
  assert( (pMem->flags & (MEM_Int|MEM_Real|MEM_IntReal|MEM_Null))!=0 );
  pMem->flags &= ~(MEM_Str|MEM_Blob|MEM_Zero);
  return SQLITE_OK;
}

/*
** Cast the datatype of the value in pMem according to the affinity
** "aff".  Casting is different from applying affinity in that a cast
................................................................................
    }
    default: {
      assert( aff==SQLITE_AFF_TEXT );
      assert( MEM_Str==(MEM_Blob>>3) );
      pMem->flags |= (pMem->flags&MEM_Blob)>>3;
      sqlite3ValueApplyAffinity(pMem, SQLITE_AFF_TEXT, encoding);
      assert( pMem->flags & MEM_Str || pMem->db->mallocFailed );
      pMem->flags &= ~(MEM_Int|MEM_Real|MEM_IntReal|MEM_Blob|MEM_Zero);
      break;
    }
  }
}

/*
** Initialize bulk memory to be a consistent Mem object.
................................................................................
      /* If pX is marked as a shallow copy of pMem, then verify that
      ** no significant changes have been made to pX since the OP_SCopy.
      ** A significant change would indicated a missed call to this
      ** function for pX.  Minor changes, such as adding or removing a
      ** dual type, are allowed, as long as the underlying value is the
      ** same. */
      u16 mFlags = pMem->flags & pX->flags & pX->mScopyFlags;
      assert( (mFlags&(MEM_Int|MEM_IntReal))==0 || pMem->u.i==pX->u.i );
      assert( (mFlags&MEM_Real)==0 || pMem->u.r==pX->u.r );
      assert( (mFlags&MEM_Str)==0  || (pMem->n==pX->n && pMem->z==pX->z) );
      assert( (mFlags&MEM_Blob)==0  || sqlite3BlobCompare(pMem,pX)==0 );
      
      /* pMem is the register that is changing.  But also mark pX as
      ** undefined so that we can quickly detect the shallow-copy error */
      pX->flags = MEM_Undefined;
................................................................................
      sqlite3ValueSetStr(pVal, -1, zVal, SQLITE_UTF8, SQLITE_DYNAMIC);
    }
    if( (op==TK_INTEGER || op==TK_FLOAT ) && affinity==SQLITE_AFF_BLOB ){
      sqlite3ValueApplyAffinity(pVal, SQLITE_AFF_NUMERIC, SQLITE_UTF8);
    }else{
      sqlite3ValueApplyAffinity(pVal, affinity, SQLITE_UTF8);
    }
    assert( (pVal->flags & MEM_IntReal)==0 );
    if( pVal->flags & (MEM_Int|MEM_IntReal|MEM_Real) ){
      testcase( pVal->flags & MEM_Int );
      testcase( pVal->flags & MEM_Real );
      pVal->flags &= ~MEM_Str;
    }
    if( enc!=SQLITE_UTF8 ){
      rc = sqlite3VdbeChangeEncoding(pVal, enc);
    }
  }else if( op==TK_UMINUS ) {
    /* This branch happens for multiple negative signs.  Ex: -(-5) */
    if( SQLITE_OK==valueFromExpr(db,pExpr->pLeft,enc,affinity,&pVal,pCtx) 
     && pVal!=0
................................................................................
        pVal->u.i = -pVal->u.i;
      }
      sqlite3ValueApplyAffinity(pVal, affinity, enc);
    }
  }else if( op==TK_NULL ){
    pVal = valueNew(db, pCtx);
    if( pVal==0 ) goto no_mem;
    sqlite3VdbeMemSetNull(pVal);
  }
#ifndef SQLITE_OMIT_BLOB_LITERAL
  else if( op==TK_BLOB ){
    int nVal;
    assert( pExpr->u.zToken[0]=='x' || pExpr->u.zToken[0]=='X' );
    assert( pExpr->u.zToken[1]=='\'' );
    pVal = valueNew(db, pCtx);

Changes to src/vdbesort.c.

1824
1825
1826
1827
1828
1829
1830
1831
1832




1833
1834
1835
1836
1837
1838

1839

1840
1841
1842
1843
1844
1845
1846
  }

  if( pSorter->list.aMemory ){
    int nMin = pSorter->iMemory + nReq;

    if( nMin>pSorter->nMemory ){
      u8 *aNew;
      int iListOff = (u8*)pSorter->list.pList - pSorter->list.aMemory;
      sqlite3_int64 nNew = 2 * (sqlite3_int64)pSorter->nMemory;




      while( nNew < nMin ) nNew = nNew*2;
      if( nNew > pSorter->mxPmaSize ) nNew = pSorter->mxPmaSize;
      if( nNew < nMin ) nNew = nMin;

      aNew = sqlite3Realloc(pSorter->list.aMemory, nNew);
      if( !aNew ) return SQLITE_NOMEM_BKPT;

      pSorter->list.pList = (SorterRecord*)&aNew[iListOff];

      pSorter->list.aMemory = aNew;
      pSorter->nMemory = nNew;
    }

    pNew = (SorterRecord*)&pSorter->list.aMemory[pSorter->iMemory];
    pSorter->iMemory += ROUND8(nReq);
    if( pSorter->list.pList ){







<

>
>
>
>



<


>
|
>







1824
1825
1826
1827
1828
1829
1830

1831
1832
1833
1834
1835
1836
1837
1838

1839
1840
1841
1842
1843
1844
1845
1846
1847
1848
1849
1850
  }

  if( pSorter->list.aMemory ){
    int nMin = pSorter->iMemory + nReq;

    if( nMin>pSorter->nMemory ){
      u8 *aNew;

      sqlite3_int64 nNew = 2 * (sqlite3_int64)pSorter->nMemory;
      int iListOff = -1;
      if( pSorter->list.pList ){
        iListOff = (u8*)pSorter->list.pList - pSorter->list.aMemory;
      }
      while( nNew < nMin ) nNew = nNew*2;
      if( nNew > pSorter->mxPmaSize ) nNew = pSorter->mxPmaSize;
      if( nNew < nMin ) nNew = nMin;

      aNew = sqlite3Realloc(pSorter->list.aMemory, nNew);
      if( !aNew ) return SQLITE_NOMEM_BKPT;
      if( iListOff>=0 ){
        pSorter->list.pList = (SorterRecord*)&aNew[iListOff];
      }
      pSorter->list.aMemory = aNew;
      pSorter->nMemory = nNew;
    }

    pNew = (SorterRecord*)&pSorter->list.aMemory[pSorter->iMemory];
    pSorter->iMemory += ROUND8(nReq);
    if( pSorter->list.pList ){

Changes to src/vdbetrace.c.

126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
      }
      zRawSql += nToken;
      nextIndex = idx + 1;
      assert( idx>0 && idx<=p->nVar );
      pVar = &p->aVar[idx-1];
      if( pVar->flags & MEM_Null ){
        sqlite3_str_append(&out, "NULL", 4);
      }else if( pVar->flags & MEM_Int ){
        sqlite3_str_appendf(&out, "%lld", pVar->u.i);
      }else if( pVar->flags & MEM_Real ){
        sqlite3_str_appendf(&out, "%!.15g", pVar->u.r);
      }else if( pVar->flags & MEM_Str ){
        int nOut;  /* Number of bytes of the string text to include in output */
#ifndef SQLITE_OMIT_UTF16
        u8 enc = ENC(db);







|







126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
      }
      zRawSql += nToken;
      nextIndex = idx + 1;
      assert( idx>0 && idx<=p->nVar );
      pVar = &p->aVar[idx-1];
      if( pVar->flags & MEM_Null ){
        sqlite3_str_append(&out, "NULL", 4);
      }else if( pVar->flags & (MEM_Int|MEM_IntReal) ){
        sqlite3_str_appendf(&out, "%lld", pVar->u.i);
      }else if( pVar->flags & MEM_Real ){
        sqlite3_str_appendf(&out, "%!.15g", pVar->u.r);
      }else if( pVar->flags & MEM_Str ){
        int nOut;  /* Number of bytes of the string text to include in output */
#ifndef SQLITE_OMIT_UTF16
        u8 enc = ENC(db);

Changes to src/vtab.c.

837
838
839
840
841
842
843

844
845
846
847
848
849
850
851

852
853
854
855
856
857
858
      if( p->pVtab->nRef>0 ){
        return SQLITE_LOCKED;
      }
    }
    p = vtabDisconnectAll(db, pTab);
    xDestroy = p->pMod->pModule->xDestroy;
    assert( xDestroy!=0 );  /* Checked before the virtual table is created */

    rc = xDestroy(p->pVtab);
    /* Remove the sqlite3_vtab* from the aVTrans[] array, if applicable */
    if( rc==SQLITE_OK ){
      assert( pTab->pVTable==p && p->pNext==0 );
      p->pVtab = 0;
      pTab->pVTable = 0;
      sqlite3VtabUnlock(p);
    }

  }

  return rc;
}

/*
** This function invokes either the xRollback or xCommit method







>








>







837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
      if( p->pVtab->nRef>0 ){
        return SQLITE_LOCKED;
      }
    }
    p = vtabDisconnectAll(db, pTab);
    xDestroy = p->pMod->pModule->xDestroy;
    assert( xDestroy!=0 );  /* Checked before the virtual table is created */
    pTab->nTabRef++;
    rc = xDestroy(p->pVtab);
    /* Remove the sqlite3_vtab* from the aVTrans[] array, if applicable */
    if( rc==SQLITE_OK ){
      assert( pTab->pVTable==p && p->pNext==0 );
      p->pVtab = 0;
      pTab->pVTable = 0;
      sqlite3VtabUnlock(p);
    }
    sqlite3DeleteTable(db, pTab);
  }

  return rc;
}

/*
** This function invokes either the xRollback or xCommit method

Changes to src/where.c.

733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
    assert( !ExprHasProperty(pExpr, EP_FromJoin)    /* prereq always non-zero */
         || pExpr->iRightJoinTable!=pSrc->iCursor   /*   for the right-hand   */
         || pLoop->prereq!=0 );                     /*   table of a LEFT JOIN */
    if( pLoop->prereq==0
     && (pTerm->wtFlags & TERM_VIRTUAL)==0
     && !ExprHasProperty(pExpr, EP_FromJoin)
     && sqlite3ExprIsTableConstant(pExpr, pSrc->iCursor) ){
      pPartial = sqlite3ExprAnd(pParse->db, pPartial,
                                sqlite3ExprDup(pParse->db, pExpr, 0));
    }
    if( termCanDriveIndex(pTerm, pSrc, notReady) ){
      int iCol = pTerm->u.leftColumn;
      Bitmask cMask = iCol>=BMS ? MASKBIT(BMS-1) : MASKBIT(iCol);
      testcase( iCol==BMS );
      testcase( iCol==BMS-1 );







|







733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
    assert( !ExprHasProperty(pExpr, EP_FromJoin)    /* prereq always non-zero */
         || pExpr->iRightJoinTable!=pSrc->iCursor   /*   for the right-hand   */
         || pLoop->prereq!=0 );                     /*   table of a LEFT JOIN */
    if( pLoop->prereq==0
     && (pTerm->wtFlags & TERM_VIRTUAL)==0
     && !ExprHasProperty(pExpr, EP_FromJoin)
     && sqlite3ExprIsTableConstant(pExpr, pSrc->iCursor) ){
      pPartial = sqlite3ExprAnd(pParse, pPartial,
                                sqlite3ExprDup(pParse->db, pExpr, 0));
    }
    if( termCanDriveIndex(pTerm, pSrc, notReady) ){
      int iCol = pTerm->u.leftColumn;
      Bitmask cMask = iCol>=BMS ? MASKBIT(BMS-1) : MASKBIT(iCol);
      testcase( iCol==BMS );
      testcase( iCol==BMS-1 );

Changes to src/whereInt.h.

10
11
12
13
14
15
16


17
18
19
20
21
22
23
...
580
581
582
583
584
585
586


**
*************************************************************************
**
** This file contains structure and macro definitions for the query
** planner logic in "where.c".  These definitions are broken out into
** a separate source file for easier editing.
*/



/*
** Trace output macros
*/
#if defined(SQLITE_TEST) || defined(SQLITE_DEBUG)
/***/ extern int sqlite3WhereTrace;
#endif
................................................................................
#define WHERE_ONEROW       0x00001000  /* Selects no more than one row */
#define WHERE_MULTI_OR     0x00002000  /* OR using multiple indices */
#define WHERE_AUTO_INDEX   0x00004000  /* Uses an ephemeral index */
#define WHERE_SKIPSCAN     0x00008000  /* Uses the skip-scan algorithm */
#define WHERE_UNQ_WANTED   0x00010000  /* WHERE_ONEROW would have been helpful*/
#define WHERE_PARTIALIDX   0x00020000  /* The automatic index is partial */
#define WHERE_IN_EARLYOUT  0x00040000  /* Perhaps quit IN loops early */









>
>







 







>
>
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
...
582
583
584
585
586
587
588
589
590
**
*************************************************************************
**
** This file contains structure and macro definitions for the query
** planner logic in "where.c".  These definitions are broken out into
** a separate source file for easier editing.
*/
#ifndef SQLITE_WHEREINT_H
#define SQLITE_WHEREINT_H

/*
** Trace output macros
*/
#if defined(SQLITE_TEST) || defined(SQLITE_DEBUG)
/***/ extern int sqlite3WhereTrace;
#endif
................................................................................
#define WHERE_ONEROW       0x00001000  /* Selects no more than one row */
#define WHERE_MULTI_OR     0x00002000  /* OR using multiple indices */
#define WHERE_AUTO_INDEX   0x00004000  /* Uses an ephemeral index */
#define WHERE_SKIPSCAN     0x00008000  /* Uses the skip-scan algorithm */
#define WHERE_UNQ_WANTED   0x00010000  /* WHERE_ONEROW would have been helpful*/
#define WHERE_PARTIALIDX   0x00020000  /* The automatic index is partial */
#define WHERE_IN_EARLYOUT  0x00040000  /* Perhaps quit IN loops early */

#endif /* !defined(SQLITE_WHEREINT_H) */

Changes to src/wherecode.c.

995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
....
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
....
2111
2112
2113
2114
2115
2116
2117
2118
2119
2120
2121
2122
2123
2124
2125
      sWalker.eCode = 0;
      sWalker.xExprCallback = codeCursorHintCheckExpr;
      sqlite3WalkExpr(&sWalker, pTerm->pExpr);
      if( sWalker.eCode ) continue;
    }

    /* If we survive all prior tests, that means this term is worth hinting */
    pExpr = sqlite3ExprAnd(db, pExpr, sqlite3ExprDup(db, pTerm->pExpr, 0));
  }
  if( pExpr!=0 ){
    sWalker.xExprCallback = codeCursorHintFixExpr;
    sqlite3WalkExpr(&sWalker, pExpr);
    sqlite3VdbeAddOp4(v, OP_CursorHint, 
                      (sHint.pIdx ? sHint.iIdxCur : sHint.iTabCur), 0, 0,
                      (const char*)pExpr, P4_EXPR);
................................................................................
        if( &pWC->a[iTerm] == pTerm ) continue;
        testcase( pWC->a[iTerm].wtFlags & TERM_VIRTUAL );
        testcase( pWC->a[iTerm].wtFlags & TERM_CODED );
        if( (pWC->a[iTerm].wtFlags & (TERM_VIRTUAL|TERM_CODED))!=0 ) continue;
        if( (pWC->a[iTerm].eOperator & WO_ALL)==0 ) continue;
        testcase( pWC->a[iTerm].wtFlags & TERM_ORINFO );
        pExpr = sqlite3ExprDup(db, pExpr, 0);
        pAndExpr = sqlite3ExprAnd(db, pAndExpr, pExpr);
      }
      if( pAndExpr ){
        /* The extra 0x10000 bit on the opcode is masked off and does not
        ** become part of the new Expr.op.  However, it does make the
        ** op==TK_AND comparison inside of sqlite3PExpr() false, and this
        ** prevents sqlite3PExpr() from implementing AND short-circuit 
        ** optimization, which we do not want here. */
................................................................................
      pAndExpr->pLeft = 0;
      sqlite3ExprDelete(db, pAndExpr);
    }
    sqlite3VdbeChangeP1(v, iRetInit, sqlite3VdbeCurrentAddr(v));
    sqlite3VdbeGoto(v, pLevel->addrBrk);
    sqlite3VdbeResolveLabel(v, iLoopBody);

    if( pWInfo->nLevel>1 ) sqlite3StackFree(db, pOrTab);
    if( !untestedTerms ) disableTerm(pLevel, pTerm);
  }else
#endif /* SQLITE_OMIT_OR_OPTIMIZATION */

  {
    /* Case 6:  There is no usable index.  We must do a complete
    **          scan of the entire table.







|







 







|







 







|







995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
....
1960
1961
1962
1963
1964
1965
1966
1967
1968
1969
1970
1971
1972
1973
1974
....
2111
2112
2113
2114
2115
2116
2117
2118
2119
2120
2121
2122
2123
2124
2125
      sWalker.eCode = 0;
      sWalker.xExprCallback = codeCursorHintCheckExpr;
      sqlite3WalkExpr(&sWalker, pTerm->pExpr);
      if( sWalker.eCode ) continue;
    }

    /* If we survive all prior tests, that means this term is worth hinting */
    pExpr = sqlite3ExprAnd(pParse, pExpr, sqlite3ExprDup(db, pTerm->pExpr, 0));
  }
  if( pExpr!=0 ){
    sWalker.xExprCallback = codeCursorHintFixExpr;
    sqlite3WalkExpr(&sWalker, pExpr);
    sqlite3VdbeAddOp4(v, OP_CursorHint, 
                      (sHint.pIdx ? sHint.iIdxCur : sHint.iTabCur), 0, 0,
                      (const char*)pExpr, P4_EXPR);
................................................................................
        if( &pWC->a[iTerm] == pTerm ) continue;
        testcase( pWC->a[iTerm].wtFlags & TERM_VIRTUAL );
        testcase( pWC->a[iTerm].wtFlags & TERM_CODED );
        if( (pWC->a[iTerm].wtFlags & (TERM_VIRTUAL|TERM_CODED))!=0 ) continue;
        if( (pWC->a[iTerm].eOperator & WO_ALL)==0 ) continue;
        testcase( pWC->a[iTerm].wtFlags & TERM_ORINFO );
        pExpr = sqlite3ExprDup(db, pExpr, 0);
        pAndExpr = sqlite3ExprAnd(pParse, pAndExpr, pExpr);
      }
      if( pAndExpr ){
        /* The extra 0x10000 bit on the opcode is masked off and does not
        ** become part of the new Expr.op.  However, it does make the
        ** op==TK_AND comparison inside of sqlite3PExpr() false, and this
        ** prevents sqlite3PExpr() from implementing AND short-circuit 
        ** optimization, which we do not want here. */
................................................................................
      pAndExpr->pLeft = 0;
      sqlite3ExprDelete(db, pAndExpr);
    }
    sqlite3VdbeChangeP1(v, iRetInit, sqlite3VdbeCurrentAddr(v));
    sqlite3VdbeGoto(v, pLevel->addrBrk);
    sqlite3VdbeResolveLabel(v, iLoopBody);

    if( pWInfo->nLevel>1 ){ sqlite3StackFree(db, pOrTab); }
    if( !untestedTerms ) disableTerm(pLevel, pTerm);
  }else
#endif /* SQLITE_OMIT_OR_OPTIMIZATION */

  {
    /* Case 6:  There is no usable index.  We must do a complete
    **          scan of the entire table.

Changes to src/whereexpr.c.

258
259
260
261
262
263
264

265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280

281
282
283
284
285
286
287
        char *zNew = pPrefix->u.zToken;
        zNew[cnt] = 0;
        for(iFrom=iTo=0; iFrom<cnt; iFrom++){
          if( zNew[iFrom]==wc[3] ) iFrom++;
          zNew[iTo++] = zNew[iFrom];
        }
        zNew[iTo] = 0;


        /* If the RHS begins with a digit or a minus sign, then the LHS must be
        ** an ordinary column (not a virtual table column) with TEXT affinity.
        ** Otherwise the LHS might be numeric and "lhs >= rhs" would be false
        ** even though "lhs LIKE rhs" is true.  But if the RHS does not start
        ** with a digit or '-', then "lhs LIKE rhs" will always be false if
        ** the LHS is numeric and so the optimization still works.
        **
        ** 2018-09-10 ticket c94369cae9b561b1f996d0054bfab11389f9d033
        ** The RHS pattern must not be '/%' because the termination condition
        ** will then become "x<'0'" and if the affinity is numeric, will then
        ** be converted into "x<0", which is incorrect.
        */
        if( sqlite3Isdigit(zNew[0])
         || zNew[0]=='-'
         || (zNew[0]+1=='0' && iTo==1)

        ){
          if( pLeft->op!=TK_COLUMN 
           || sqlite3ExprAffinity(pLeft)!=SQLITE_AFF_TEXT 
           || IsVirtual(pLeft->y.pTab)  /* Value might be numeric */
          ){
            sqlite3ExprDelete(db, pPrefix);
            sqlite3ValueFree(pVal);







>

|



|









|
>







258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
        char *zNew = pPrefix->u.zToken;
        zNew[cnt] = 0;
        for(iFrom=iTo=0; iFrom<cnt; iFrom++){
          if( zNew[iFrom]==wc[3] ) iFrom++;
          zNew[iTo++] = zNew[iFrom];
        }
        zNew[iTo] = 0;
        assert( iTo>0 );

        /* If the RHS begins with a digit or a +/- sign, then the LHS must be
        ** an ordinary column (not a virtual table column) with TEXT affinity.
        ** Otherwise the LHS might be numeric and "lhs >= rhs" would be false
        ** even though "lhs LIKE rhs" is true.  But if the RHS does not start
        ** with a digit or +/-, then "lhs LIKE rhs" will always be false if
        ** the LHS is numeric and so the optimization still works.
        **
        ** 2018-09-10 ticket c94369cae9b561b1f996d0054bfab11389f9d033
        ** The RHS pattern must not be '/%' because the termination condition
        ** will then become "x<'0'" and if the affinity is numeric, will then
        ** be converted into "x<0", which is incorrect.
        */
        if( sqlite3Isdigit(zNew[0])
         || zNew[0]=='-'
         || zNew[0]=='+'
         || zNew[iTo-1]=='0'-1
        ){
          if( pLeft->op!=TK_COLUMN 
           || sqlite3ExprAffinity(pLeft)!=SQLITE_AFF_TEXT 
           || IsVirtual(pLeft->y.pTab)  /* Value might be numeric */
          ){
            sqlite3ExprDelete(db, pPrefix);
            sqlite3ValueFree(pVal);

Changes to src/window.c.

864
865
866
867
868
869
870
871

872
873
874
875
876
877




878
879
880
881
882
883
884
...
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
...
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
/*
** Append a copy of each expression in expression-list pAppend to
** expression list pList. Return a pointer to the result list.
*/
static ExprList *exprListAppendList(
  Parse *pParse,          /* Parsing context */
  ExprList *pList,        /* List to which to append. Might be NULL */
  ExprList *pAppend       /* List of values to append. Might be NULL */

){
  if( pAppend ){
    int i;
    int nInit = pList ? pList->nExpr : 0;
    for(i=0; i<pAppend->nExpr; i++){
      Expr *pDup = sqlite3ExprDup(pParse->db, pAppend->a[i].pExpr, 0);




      pList = sqlite3ExprListAppend(pParse, pList, pDup);
      if( pList ) pList->a[nInit+i].sortOrder = pAppend->a[i].sortOrder;
    }
  }
  return pList;
}

................................................................................
    p->pGroupBy = 0;
    p->pHaving = 0;

    /* Create the ORDER BY clause for the sub-select. This is the concatenation
    ** of the window PARTITION and ORDER BY clauses. Then, if this makes it
    ** redundant, remove the ORDER BY from the parent SELECT.  */
    pSort = sqlite3ExprListDup(db, pMWin->pPartition, 0);
    pSort = exprListAppendList(pParse, pSort, pMWin->pOrderBy);
    if( pSort && p->pOrderBy ){
      if( sqlite3ExprListCompare(pSort, p->pOrderBy, -1)==0 ){
        sqlite3ExprListDelete(db, p->pOrderBy);
        p->pOrderBy = 0;
      }
    }

................................................................................
    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pEList, &pSublist);
    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pOrderBy, &pSublist);
    pMWin->nBufferCol = (pSublist ? pSublist->nExpr : 0);

    /* Append the PARTITION BY and ORDER BY expressions to the to the 
    ** sub-select expression list. They are required to figure out where 
    ** boundaries for partitions and sets of peer rows lie.  */
    pSublist = exprListAppendList(pParse, pSublist, pMWin->pPartition);
    pSublist = exprListAppendList(pParse, pSublist, pMWin->pOrderBy);

    /* Append the arguments passed to each window function to the
    ** sub-select expression list. Also allocate two registers for each
    ** window function - one for the accumulator, another for interim
    ** results.  */
    for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
      pWin->iArgCol = (pSublist ? pSublist->nExpr : 0);
      pSublist = exprListAppendList(pParse, pSublist, pWin->pOwner->x.pList);
      if( pWin->pFilter ){
        Expr *pFilter = sqlite3ExprDup(db, pWin->pFilter, 0);
        pSublist = sqlite3ExprListAppend(pParse, pSublist, pFilter);
      }
      pWin->regAccum = ++pParse->nMem;
      pWin->regResult = ++pParse->nMem;
      sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regAccum);







|
>






>
>
>
>







 







|







 







|
|







|







864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
...
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
...
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
/*
** Append a copy of each expression in expression-list pAppend to
** expression list pList. Return a pointer to the result list.
*/
static ExprList *exprListAppendList(
  Parse *pParse,          /* Parsing context */
  ExprList *pList,        /* List to which to append. Might be NULL */
  ExprList *pAppend,      /* List of values to append. Might be NULL */
  int bIntToNull
){
  if( pAppend ){
    int i;
    int nInit = pList ? pList->nExpr : 0;
    for(i=0; i<pAppend->nExpr; i++){
      Expr *pDup = sqlite3ExprDup(pParse->db, pAppend->a[i].pExpr, 0);
      if( bIntToNull && pDup && pDup->op==TK_INTEGER ){
        pDup->op = TK_NULL;
        pDup->flags &= ~(EP_IntValue|EP_IsTrue|EP_IsFalse);
      }
      pList = sqlite3ExprListAppend(pParse, pList, pDup);
      if( pList ) pList->a[nInit+i].sortOrder = pAppend->a[i].sortOrder;
    }
  }
  return pList;
}

................................................................................
    p->pGroupBy = 0;
    p->pHaving = 0;

    /* Create the ORDER BY clause for the sub-select. This is the concatenation
    ** of the window PARTITION and ORDER BY clauses. Then, if this makes it
    ** redundant, remove the ORDER BY from the parent SELECT.  */
    pSort = sqlite3ExprListDup(db, pMWin->pPartition, 0);
    pSort = exprListAppendList(pParse, pSort, pMWin->pOrderBy, 1);
    if( pSort && p->pOrderBy ){
      if( sqlite3ExprListCompare(pSort, p->pOrderBy, -1)==0 ){
        sqlite3ExprListDelete(db, p->pOrderBy);
        p->pOrderBy = 0;
      }
    }

................................................................................
    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pEList, &pSublist);
    selectWindowRewriteEList(pParse, pMWin, pSrc, p->pOrderBy, &pSublist);
    pMWin->nBufferCol = (pSublist ? pSublist->nExpr : 0);

    /* Append the PARTITION BY and ORDER BY expressions to the to the 
    ** sub-select expression list. They are required to figure out where 
    ** boundaries for partitions and sets of peer rows lie.  */
    pSublist = exprListAppendList(pParse, pSublist, pMWin->pPartition, 0);
    pSublist = exprListAppendList(pParse, pSublist, pMWin->pOrderBy, 0);

    /* Append the arguments passed to each window function to the
    ** sub-select expression list. Also allocate two registers for each
    ** window function - one for the accumulator, another for interim
    ** results.  */
    for(pWin=pMWin; pWin; pWin=pWin->pNextWin){
      pWin->iArgCol = (pSublist ? pSublist->nExpr : 0);
      pSublist = exprListAppendList(pParse, pSublist, pWin->pOwner->x.pList, 0);
      if( pWin->pFilter ){
        Expr *pFilter = sqlite3ExprDup(db, pWin->pFilter, 0);
        pSublist = sqlite3ExprListAppend(pParse, pSublist, pFilter);
      }
      pWin->regAccum = ++pParse->nMem;
      pWin->regResult = ++pParse->nMem;
      sqlite3VdbeAddOp2(v, OP_Null, 0, pWin->regAccum);

Changes to test/altertab.test.

555
556
557
558
559
560
561


































562

  }

  do_execsql_test 16.4 {
    SELECT * FROM z1_segments;
  }
}



































finish_test








>
>
>
>
>
>
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>
>
>
>

>
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
  }

  do_execsql_test 16.4 {
    SELECT * FROM z1_segments;
  }
}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 17.0 {
  CREATE TABLE sqlite1234 (id integer);
  ALTER TABLE sqlite1234 RENAME TO User;
  SELECT name, sql FROM sqlite_master WHERE sql IS NOT NULL;
} {
  User {CREATE TABLE "User" (id integer)}
}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 18.1.0 {
  CREATE TABLE t0 (c0 INTEGER, PRIMARY KEY(c0)) WITHOUT ROWID;
}
breakpoint
do_execsql_test 18.1.1 {
  ALTER TABLE t0 RENAME COLUMN c0 TO c1;
}
do_execsql_test 18.1.2 {
  SELECT sql FROM sqlite_master;
} {{CREATE TABLE t0 (c1 INTEGER, PRIMARY KEY(c1)) WITHOUT ROWID}}

reset_db
do_execsql_test 18.2.0 {
  CREATE TABLE t0 (c0 INTEGER, PRIMARY KEY(c0));
}
do_execsql_test 18.2.1 {
  ALTER TABLE t0 RENAME COLUMN c0 TO c1;
}
do_execsql_test 18.2.2 {
  SELECT sql FROM sqlite_master;
} {{CREATE TABLE t0 (c1 INTEGER, PRIMARY KEY(c1))}}

finish_test

Changes to test/altertab3.test.

137
138
139
140
141
142
143
144

































145
146
147
    FOREIGN KEY (Col0) REFERENCES Table0
  );
}

do_execsql_test 6.1 {
  ALTER TABLE Table0 RENAME Col0 TO Col0;
}


































finish_test










>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
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>
>
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>
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>
>
>
>
>



137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
    FOREIGN KEY (Col0) REFERENCES Table0
  );
}

do_execsql_test 6.1 {
  ALTER TABLE Table0 RENAME Col0 TO Col0;
}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 7.1.0 {
  CREATE TABLE t1(a,b,c);
  CREATE TRIGGER AFTER INSERT ON t1 BEGIN
    SELECT a, rank() OVER w1 FROM t1
    WINDOW w1 AS (PARTITION BY b, percent_rank() OVER w1);
  END;
}

do_execsql_test 7.1.2 {
  ALTER TABLE t1 RENAME TO t1x;
  SELECT sql FROM sqlite_master;
} {
  {CREATE TABLE "t1x"(a,b,c)}
  {CREATE TRIGGER AFTER INSERT ON "t1x" BEGIN
    SELECT a, rank() OVER w1 FROM "t1x"
    WINDOW w1 AS (PARTITION BY b, percent_rank() OVER w1);
  END}
}

do_execsql_test 7.2.1 {
  DROP TRIGGER after;
  CREATE TRIGGER AFTER INSERT ON t1x BEGIN
    SELECT a, rank() OVER w1 FROM t1x
    WINDOW w1 AS (PARTITION BY b, percent_rank() OVER w1 ORDER BY d);
  END;
}

do_catchsql_test 7.2.2 {
  ALTER TABLE t1x RENAME TO t1;
} {1 {error in trigger AFTER: no such column: d}}

finish_test


Changes to test/corruptL.test.

833
834
835
836
837
838
839
840










































































































































































841
| end a.db
}]} {}


do_catchsql_test 8.1 {
  INSERT INTO t3 SELECT * FROM t2;
} {1 {database disk image is malformed}}











































































































































































finish_test








>
>
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>
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>
>
>
>
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>

833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
890
891
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
976
977
978
979
980
981
982
983
984
985
986
987
988
989
990
991
992
993
994
995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
| end a.db
}]} {}


do_catchsql_test 8.1 {
  INSERT INTO t3 SELECT * FROM t2;
} {1 {database disk image is malformed}}

#-------------------------------------------------------------------------
reset_db
do_test 9.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
| size 8192 pagesize 4096 filename crash-ab10597e4e1c32.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 00 00 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 00 00 00 01 0f d6 00 0f d6 00 00   ................
|   4048: 00 00 00 00 00 00 28 01 06 17 11 11 01 3d 74 61   ......(......=ta
|   4064: 62 6c 65 74 31 74 31 02 43 52 45 41 54 45 20 54   blet1t1.CREATE T
|   4080: 41 42 4c 45 20 74 31 28 61 2c 62 2c 63 2c 64 29   ABLE t1(a,b,c,d)
| page 2 offset 4096
|      0: 0d 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
| end crash-ab10597e4e1c32.db
}]} {}

do_execsql_test 9.1 {
  SAVEPOINT one;
}
do_catchsql_test 9.3 {
  INSERT INTO t1(b,c) VALUES(5,6);
} {1 {database disk image is malformed}}
do_execsql_test 9.3 {
  ROLLBACK TO one;
}

#-------------------------------------------------------------------------
reset_db
do_test 10.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
| size 180224 pagesize 4096 filename crash-41390d95d613b6.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 00 00 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 00 00 00 04 0e e2 00 0f 96 0f 44   ...............D
|    112: 0f 10 0e e2 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   3808: 00 00 2c 14 06 17 15 11 01 41 69 6e 64 65 78 74   ..,......Aindext
|   3824: 41 78 33 74 31 06 43 52 45 41 54 45 20 49 4e 44   Ax3t1.CREATE IND
|   3840: 45 58 20 74 31 78 32 20 4f 4e 20 74 31 28 62 29   EX t1x2 ON t1(b)
|   3856: 32 03 06 17 15 11 01 4d 69 6e 64 65 78 74 31 88   2......Mindext1.
|   3872: 31 74 31 05 43 52 45 41 54 45 20 49 4e 44 45 58   1t1.CREATE INDEX
|   3888: 20 74 31 78 31 20 4f 4e 20 74 31 28 67 2b 68 2c    t1x1 ON t1(g+h,
|   3904: 6a 2d 6b 29 50 02 06 17 2b 2b 01 59 74 61 62 6c   j-k)P...++.Ytabl
|   3920: 65 73 71 6c 69 74 65 5e 73 65 71 74 65 6e 63 65   esqlite^seqtence
|   3936: 73 71 6c 69 74 65 5f 73 65 71 75 65 6e 63 65 04   sqlite_sequence.
|   3952: 43 52 45 41 54 45 20 54 41 42 4c 45 20 73 71 6c   CREATE TABLE sql
|   3968: 69 74 65 5f 73 65 71 75 65 6e 63 65 28 6e 61 6d   ite_sequence(nam
|   3984: 65 2c 73 65 71 29 68 00 07 17 11 11 01 81 3b 74   e,seq)h.......;t
|   4000: 61 62 6c 65 74 31 74 31 03 43 52 45 41 54 45 20   ablet1t1.CREATE 
|   4016: 54 41 42 4c 45 20 74 31 28 61 20 49 4e 54 45 47   TABLE t1(a INTEG
|   4032: 45 52 20 50 52 49 4d 41 52 59 20 4b 45 59 20 41   ER PRIMARY KEY A
|   4048: 55 54 4f 49 4e 43 52 45 4d 45 4e 54 2c 0a 62 2c   UTOINCREMENT,.b,
|   4064: 63 2c 64 2c 65 2c 66 2c 67 2c 68 2c 6a 2c 6b 2c   c,d,e,f,g,h,j,k,
|   4080: 6c 2c 6d 2c 6e 2c 6f 2c 70 2c 71 2c 72 2c 73 29   l,m,n,o,p,q,r,s)
| page 2 offset 4096
|      0: 01 00 00 00 00 01 00 00 10 00 01 00 00 00 00 01   ................
|     16: 00 00 00 00 02 00 0f f0 00 15 00 00 00 03 02 00   ................
|     32: 00 00 d9 05 00 00 00 03 02 00 00 00 00 05 00 00   ................
|     48: 10 03 02 00 00 00 00 05 00 00 00 03 02 00 00 00   ................
|     64: 00 05 00 00 00 02 62 00 00 00 00 05 00 00 00 03   ......b.........
|     80: 02 00 00 00 00 05 00 00 00 03 02 00 00 00 00 05   ................
|     96: 00 00 00 03 02 00 00 00 00 05 00 00 00 03 05 00   ................
|    112: 00 00 03 03 01 00 00 23 02 00 00 4f 00 02 00 00   .......#...O....
|    128: 10 25 02 00 00 00 00 03 00 00 00 23 02 00 00 00   .%.........#....
|    144: 00 03 00 00 00 23 02 00 00 00 00 03 00 00 00 23   .....#.........#
|    160: 05 00 08 90 06 05 00 00 00 06 01 ff 00 00 00 03   ................
|    176: 00 00 00 06 02 00 00 00 00 02 ff 00 00 00 00 00   ................
| page 3 offset 8192
|      0: 05 00 00 00 09 0f d0 00 00 00 00 19 0f fb 0f f6   ................
|     16: 0f f1 10 ec ec e7 0f e2 0f dc 0f d6 0f 00 00 00   ................
|   1072: 00 97 4c 0a 24 00 ae 00 00 00 00 00 00 00 00 00   ..L.$...........
|   4048: 00 00 00 16 83 39 ff ff ff 14 81 16 00 00 00 12   .....9..........
|   4064: 81 02 00 00 00 10 6e 00 00 00 0e 5a 00 00 00 0c   ......n....Z....
|   4080: 46 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00   F...............
| page 4 offset 12288
|   1072: 97 4d 32 14 00 ae 00 00 00 00 00 00 00 00 00 00   .M2.............
|   4080: 00 00 00 00 00 00 00 07 01 03 11 02 74 31 00 bd   ............t1..
| page 5 offset 16384
|      0: fa 0f 7c 00 0a 0f 74 00 0f f9 0f eb 0f dd 0f cf   ..|...t.........
|     16: 0f c1 0f b3 0f a4 0e 94 0f 84 0f 74 0f 74 0f 74   ...........t.t.t
|     32: 0f 74 0f 64 0f 00 00 00 00 00 00 00 00 00 00 00   .t.d............
|   3952: 00 00 00 00 07 05 00 00 00 02 00 be 0f 8c 10 07   ................
|   3968: ff ff 00 00 07 05 00 00 00 02 00 aa 0f 9b f0 08   ................
|   3984: c8 00 00 00 37 06 00 00 00 01 00 96 0f ac 00 08   ....7...........
|   4000: 00 00 00 b3 07 15 00 10 00 02 00 82 0f ba 00 07   ................
|   4016: 00 00 00 06 05 00 00 00 01 6e 0f c8 00 07 00 00   .........n......
|   4032: 00 06 05 00 00 00 01 5a 03 f6 00 07 00 00 00 06   .......Z........
|   4048: 05 00 00 00 01 46 0f e4 00 07 00 00 10 06 05 00   .....F..........
|   4064: 00 00 01 32 10 02 00 07 00 00 00 07 05 00 00 00   ...2............
|   4080: 01 1d ff ff ff 07 10 00 00 06 05 00 00 00 01 0a   ................
| page 6 offset 20480
|    624: 00 00 00 00 00 21 97 00 00 00 00 00 00 00 00 00   .....!..........
|   1120: 00 00 00 00 00 24 57 3e 00 00 00 00 00 00 00 00   .....$W>........
|   1616: 00 00 00 00 1f 97 00 00 00 00 00 00 00 00 00 00   ................
|   2112: 00 00 00 1e 97 3d 00 00 00 00 00 00 00 00 00 00   .....=..........
|   2608: 00 1d 97 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
| page 8 offset 28672
|   1184: 00 00 00 00 00 00 00 00 00 97 4d 1e 13 ff ae 7c   ..........M....|
|   4080: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 90   ................
| page 9 offset 32768
|    256: 0d 01 c0 00 01 04 30 00 04 30 00 00 00 00 00 00   ......0..0......
| page 10 offset 36864
|      0: 0d 00 22 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   4080: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 05   ................
| page 12 offset 45056
|      0: 0d 00 00 00 01 04 30 00 00 00 00 00 00 00 00 00   ......0.........
| page 14 offset 53248
|      0: 0d 00 00 00 01 04 30 00 04 30 00 00 00 00 00 00   ......0..0......
|   1072: 96 4d 5a 14 00 00 00 00 00 00 00 00 00 00 00 00   .MZ.............
| page 16 offset 61440
|      0: 0d 00 00 00 01 04 30 00 04 30 00 00 00 00 00 00   ......0..0......
|   1072: 97 4d 6e 14 00 ae 7b ff ff ff ff 00 00 00 00 00   .Mn.............
| page 18 offset 69632
|   1056: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 97   ................
|   1072: 4d 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00   M...............
|   4080: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0d   ................
| page 20 offset 77824
|   1056: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 97   ................
|   1072: 4d 81 16 14 00 ae 00 00 00 00 00 00 00 00 00 00   M...............
|   4080: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 0f   ................
| page 22 offset 86016
|      0: 0d 00 00 00 01 04 2f 00 04 2f 01 00 00 00 00 00   ....../../......
|   1056: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 97   ................
|   1072: 4d 81 2a 14 00 00 00 00 00 00 00 00 00 00 00 00   M.*.............
| page 24 offset 94208
|   1072: 00 97 4c 0a 14 00 ae 7c 00 00 00 00 00 00 00 00   ..L....|........
| page 25 offset 98304
|   1056: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 97   ................
|   1072: 4d 81 3e 14 00 ae 7c 00 00 18 ff 00 00 00 00 00   M.>...|.........
| page 27 offset 106496
|      0: 00 00 00 00 00 00 00 12 00 00 00 07 00 00 00 1d   ................
|     16: 00 00 00 09 00 00 00 1f 00 00 00 0b 00 00 00 21   ...............!
|     32: 00 00 00 0d 00 10 00 25 00 00 00 0f 00 00 00 27   .......%.......'
|     48: 00 00 00 11 00 00 00 00 00 00 00 00 00 00 00 00   ................
| page 32 offset 126976
|   2512: 00 00 00 00 00 00 00 45 21 00 00 00 00 00 00 00   .......E!.......
| page 35 offset 139264
|      0: 00 0a 08 44 00 05 02 77 00 0e 11 0a 92 00 00 00   ...D...w........
|   1120: 00 00 00 00 00 20 97 00 00 00 00 00 00 00 00 00   ..... ..........
|   1616: 00 00 00 00 22 00 00 00 00 00 00 00 00 00 00 00   ................
|   2608: 00 00 00 97 3d 04 00 00 00 00 00 00 00 00 00 00   ....=...........
|   3104: 00 1c 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   3600: 00 97 3d 04 ae 7c 00 00 00 00 00 00 00 00 00 00   ..=..|..........
|   4080: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 1a   ................
| page 36 offset 143360
|      0: 0a 08 44 00 04 02 00 00 00 00 00 00 00 00 00 00   ..D.............
|   1120: 00 00 00 00 00 2a 97 3e 04 00 00 00 00 00 00 00   .....*.>........
|   1616: 00 00 00 00 2c 97 3e 00 00 00 00 00 00 00 00 00   ....,.>.........
|   2112: 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 38   ...............8
|   2128: 00 00 05 cd 00 00 00 00 00 00 00 00 00 00 00 00   ................
|   3600: 00 97 00 00 00 00 00 00 00 00 00 00 00 00 00 00   ................
| page 38 offset 151552
|   2464: 00 00 00 00 00 00 00 00 00 6e 00 00 00 00 00 00   .........n......
| page 40 offset 159744
|   2512: 00 00 00 00 00 00 00 00 82 00 00 00 00 00 00 00   ................
| page 42 offset 167936
|   2512: 00 00 00 00 00 00 00 96 00 00 00 00 00 00 00 00   ................
| page 44 offset 176128
|   2512: 00 00 00 00 00 00 00 00 aa 00 00 00 00 00 00 00   ................
| end crash-41390d95d613b6.db
}]} {}

do_catchsql_test 10.1 {
  SELECT * FROM t1 WHERE a<='2019-05-09' ORDER BY a DESC;
} {1 {database disk image is malformed}}


finish_test

Added test/dbdata.test.







































































































































































































































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# 2019-04-11
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this file is testing the sqlite_dbpage virtual table.
#

set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix dbdata

ifcapable !vtab||!compound {
  finish_test
  return
}
if { [catch { db enable_load_extension 1 }]
  || [catch { db eval { SELECT load_extension('../dbdata') } }] 
} {
  finish_test
  return
}

do_execsql_test 1.0 {
  CREATE TABLE T1(a, b);
  INSERT INTO t1(rowid, a ,b) VALUES(5, 'v', 'five');
  INSERT INTO t1(rowid, a, b) VALUES(10, 'x', 'ten');
}

do_execsql_test 1.1 {
  SELECT pgno, cell, field, quote(value) FROM sqlite_dbdata WHERE pgno=2;
} {
  2 0 -1 5 
  2 0  0 'v' 
  2 0  1 'five' 
  2 1 -1 10 
  2 1  0 'x' 
  2 1  1 'ten'
}

breakpoint
do_execsql_test 1.2 {
  SELECT pgno, cell, field, quote(value) FROM sqlite_dbdata;
} {
  1 0 -1 1 
  1 0 0 'table' 
  1 0 1 'T1' 
  1 0 2 'T1' 
  1 0 3 2 
  1 0 4 {'CREATE TABLE T1(a, b)'}
  2 0 -1 5 
  2 0  0 'v' 
  2 0  1 'five' 
  2 1 -1 10 
  2 1  0 'x' 
  2 1  1 'ten'
}

set big [string repeat big 2000]
do_execsql_test 1.3 {
  INSERT INTO t1 VALUES(NULL, $big);
  SELECT value FROM sqlite_dbdata WHERE pgno=2 AND cell=2 AND field=1;
} $big

do_execsql_test 1.4 {
  DELETE FROM t1;
  INSERT INTO t1 VALUES(NULL, randomblob(5050));
}
do_test 1.5 {
  execsql {
    SELECT quote(value) FROM sqlite_dbdata WHERE pgno=2 AND cell=0 AND field=1;
  }
} [db one {SELECT quote(b) FROM t1}]

#-------------------------------------------------------------------------
reset_db
db enable_load_extension 1
db eval { SELECT load_extension('../dbdata') }

do_execsql_test 2.0 {
  CREATE TABLE t1(a);
  CREATE INDEX i1 ON t1(a);
  WITH s(i) AS (
    SELECT 1 UNION ALL SELECT i+1 FROM s WHERE i<10
  )
  INSERT INTO t1 SELECT randomblob(900) FROM s;
}

do_execsql_test 2.1 {
  SELECT * FROM sqlite_dbptr WHERE pgno=2;
} {
  2 25   2 6   2 7   2 9   2 11   2 13   2 15   2 17   2 19   2 21
}

do_execsql_test 2.2 {
  SELECT * FROM sqlite_dbptr WHERE pgno=3;
} {
  3 24   3 23
}

do_execsql_test 2.3 {
  SELECT * FROM sqlite_dbptr
} {
  2 25   2 6   2 7   2 9   2 11   2 13   2 15   2 17   2 19   2 21
  3 24   3 23
}


finish_test

Changes to test/e_expr.test.

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do_test         e_expr-15.1.4 { set likeargs } {def abc X}
db close
sqlite3 db test.db

# EVIDENCE-OF: R-22868-25880 The LIKE operator can be made case
# sensitive using the case_sensitive_like pragma.
#
do_execsql_test e_expr-16.1.1 { SELECT 'abcxyz' LIKE 'ABC%' } 1

do_execsql_test e_expr-16.1.2 { PRAGMA case_sensitive_like = 1 } {}
do_execsql_test e_expr-16.1.3 { SELECT 'abcxyz' LIKE 'ABC%' } 0

do_execsql_test e_expr-16.1.4 { SELECT 'ABCxyz' LIKE 'ABC%' } 1

do_execsql_test e_expr-16.1.5 { PRAGMA case_sensitive_like = 0 } {}
do_execsql_test e_expr-16.1.6 { SELECT 'abcxyz' LIKE 'ABC%' } 1

do_execsql_test e_expr-16.1.7 { SELECT 'ABCxyz' LIKE 'ABC%' } 1


# EVIDENCE-OF: R-52087-12043 The GLOB operator is similar to LIKE but
# uses the Unix file globbing syntax for its wildcards.
#
# EVIDENCE-OF: R-09813-17279 Also, GLOB is case sensitive, unlike LIKE.
#
do_execsql_test e_expr-17.1.1 { SELECT 'abcxyz' GLOB 'abc%' } 0







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do_test         e_expr-15.1.4 { set likeargs } {def abc X}
db close
sqlite3 db test.db

# EVIDENCE-OF: R-22868-25880 The LIKE operator can be made case
# sensitive using the case_sensitive_like pragma.
#
do_execsql_test e_expr-16.1.1  { SELECT 'abcxyz' LIKE 'ABC%' } 1
do_execsql_test e_expr-16.1.1b { SELECT 'abc%xyz' LIKE 'ABC\%x%' ESCAPE '\' } 1
do_execsql_test e_expr-16.1.2  { PRAGMA case_sensitive_like = 1 } {}
do_execsql_test e_expr-16.1.3  { SELECT 'abcxyz' LIKE 'ABC%' } 0
do_execsql_test e_expr-16.1.3b { SELECT 'abc%xyz' LIKE 'ABC\%X%' ESCAPE '\' } 0
do_execsql_test e_expr-16.1.4  { SELECT 'ABCxyz' LIKE 'ABC%' } 1
do_execsql_test e_expr-16.1.4b { SELECT 'ABC%xyz' LIKE 'ABC\%x%' ESCAPE '\' } 1
do_execsql_test e_expr-16.1.5  { PRAGMA case_sensitive_like = 0 } {}
do_execsql_test e_expr-16.1.6  { SELECT 'abcxyz' LIKE 'ABC%' } 1
do_execsql_test e_expr-16.1.6b { SELECT 'abc%xyz' LIKE 'ABC\%X%' ESCAPE '\' } 1
do_execsql_test e_expr-16.1.7  { SELECT 'ABCxyz' LIKE 'ABC%' } 1
do_execsql_test e_expr-16.1.7b { SELECT 'ABC%xyz' LIKE 'ABC\%X%' ESCAPE '\' } 1

# EVIDENCE-OF: R-52087-12043 The GLOB operator is similar to LIKE but
# uses the Unix file globbing syntax for its wildcards.
#
# EVIDENCE-OF: R-09813-17279 Also, GLOB is case sensitive, unlike LIKE.
#
do_execsql_test e_expr-17.1.1 { SELECT 'abcxyz' GLOB 'abc%' } 0

Changes to test/fkey7.test.

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85
    INSERT INTO c4 VALUES(1), (2), (3);

    ANALYZE;
    INSERT INTO p4(id) VALUES(4);
  }
}





































finish_test







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    INSERT INTO c4 VALUES(1), (2), (3);

    ANALYZE;
    INSERT INTO p4(id) VALUES(4);
  }
}


do_execsql_test 4.0 {
  PRAGMA foreign_keys = true;
  CREATE TABLE parent(
    p PRIMARY KEY
  );
  CREATE TABLE child(
    c UNIQUE REFERENCES parent(p)
  );
}

do_catchsql_test 4.1 {
  INSERT OR FAIL INTO child VALUES(123), (123);
} {1 {FOREIGN KEY constraint failed}}

do_execsql_test 4.2 {
  SELECT * FROM child;
} {}

do_execsql_test 4.3 {
  PRAGMA foreign_key_check;
} {}

do_catchsql_test 4.4 {
  INSERT INTO parent VALUES(123);
  INSERT OR FAIL INTO child VALUES(123), (123);
} {1 {UNIQUE constraint failed: child.c}}

do_execsql_test 4.5 {
  SELECT * FROM child;
} {123}

do_execsql_test 4.6 {
  PRAGMA foreign_key_check;
} {}

finish_test

Changes to test/fkey8.test.

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}
do_catchsql_test 4.1 {
  INSERT OR REPLACE INTO t1 VALUES(10000, 20000);
} {1 {FOREIGN KEY constraint failed}}
do_execsql_test 4.2 {
  INSERT OR REPLACE INTO t1 VALUES(20000, 20000);
}
































finish_test









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}
do_catchsql_test 4.1 {
  INSERT OR REPLACE INTO t1 VALUES(10000, 20000);
} {1 {FOREIGN KEY constraint failed}}
do_execsql_test 4.2 {
  INSERT OR REPLACE INTO t1 VALUES(20000, 20000);
}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 5.0 {
  PRAGMA foreign_keys = true;
  CREATE TABLE parent(
    p TEXT PRIMARY KEY
  );
  CREATE TABLE child(
    c INTEGER UNIQUE, 
    FOREIGN KEY(c) REFERENCES parent(p) DEFERRABLE INITIALLY DEFERRED
  );
  BEGIN;
    INSERT INTO child VALUES(123);
    INSERT INTO parent VALUES('123');
  COMMIT;
}
do_execsql_test 5.1 {
  PRAGMA integrity_check;
} {ok}

do_execsql_test 5.2 {
  INSERT INTO parent VALUES(1200);
  BEGIN;
    INSERT INTO child VALUES(456);
    UPDATE parent SET p = '456' WHERE p=1200;
  COMMIT;
}
do_execsql_test 5.3 {
  PRAGMA integrity_check;
} {ok}

finish_test

Changes to test/fts3corrupt4.test.

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| end crash-670b15f2955a36.db
}]} {}

do_catchsql_test 23.1 {
  SELECT 'FyzLy'FROM t1 WHERE t1 MATCH 'j';
} {1 {database disk image is malformed}}







































































































































































































































































































































































































































































































finish_test








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| end crash-670b15f2955a36.db
}]} {}

do_catchsql_test 23.1 {
  SELECT 'FyzLy'FROM t1 WHERE t1 MATCH 'j';
} {1 {database disk image is malformed}}

#-------------------------------------------------------------------------
reset_db
do_test 24.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
.open --hexdb
| size 28672 pagesize 4096 filename crash-369d042958c29b.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 03 10 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 0e b1 00 06 0d a4 00 0f 8d 0f 21   ...............!
|    112: 0e b9 0d c8 0e 7e 0d a4 00 00 00 00 00 00 00 00   .....~..........
|   3488: 00 00 00 00 22 07 06 17 11 11 01 31 74 61 62 6c   ...........1tabl
|   3504: 65 74 32 74 32 07 43 52 45 41 54 45 20 54 41 42   et2t2.CREATE TAB
|   3520: 4c 45 20 74 32 28 78 29 81 33 05 07 17 1f 1f 01   LE t2(x).3......
|   3536: 82 35 74 61 62 6c 65 74 31 5f 73 65 67 64 69 72   .5tablet1_segdir
|   3552: 74 31 5f 73 65 67 64 69 72 05 43 52 45 41 54 45   t1_segdir.CREATE
|   3568: 20 54 41 42 4c 45 20 27 74 31 5f 73 65 67 64 69    TABLE 't1_segdi
|   3584: 72 27 28 6c 65 76 65 6c 20 49 4e 54 45 47 45 52   r'(level INTEGER
|   3600: 2c 69 64 78 20 49 4e 54 45 47 45 52 2c 73 74 61   ,idx INTEGER,sta
|   3616: 72 74 5f 62 6c 6f 63 6b 20 49 4e 54 45 47 45 52   rt_block INTEGER
|   3632: 2c 6c 65 61 76 65 73 5f 65 6e 64 5f 62 6c 6f 63   ,leaves_end_bloc
|   3648: 6b 20 49 4e 54 45 47 45 52 2c 65 6e 64 5f 62 6c   k INTEGER,end_bl
|   3664: 6f 63 6b 20 49 4e 54 45 47 45 52 2c 72 6f 6f 74   ock INTEGER,root
|   3680: 20 42 4c 4f 42 2c 50 52 49 4d 41 52 59 20 4b 45    BLOB,PRIMARY KE
|   3696: 59 28 6c 65 76 65 6c 2c 20 69 64 78 29 29 31 06   Y(level, idx))1.
|   3712: 06 17 45 1f 01 00 69 6e 64 65 78 73 71 6c 69 74   ..E...indexsqlit
|   3728: 65 5f 61 75 74 6f 69 6e 64 65 78 5f 74 31 5f 73   e_autoindex_t1_s
|   3744: 65 67 64 69 72 5f 31 74 31 5f 73 65 67 64 69 72   egdir_1t1_segdir
|   3760: 06 0f c7 00 08 00 10 00 00 66 04 07 17 23 23 01   .........f...##.
|   3776: 81 13 74 61 62 6c 65 74 31 5f 73 65 67 6d 65 6e   ..tablet1_segmen
|   3792: 64 73 74 31 5f 73 65 67 6d 65 6e 74 73 04 43 52   dst1_segments.CR
|   3808: 45 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 73   EATE TABLE 't1_s
|   3824: 65 67 6d 65 6e 74 73 27 28 62 6c 6f 63 6b 69 64   egments'(blockid
|   3840: 20 49 4e 54 45 47 45 52 20 50 52 49 4d 41 52 59    INTEGER PRIMARY
|   3856: 20 4b 45 59 2c 20 62 6c 6f 63 6b 20 42 4c 4f 42    KEY, block BLOB
|   3872: 29 6a 03 07 17 21 21 01 81 1f 74 61 62 6c 65 74   )j...!!...tablet
|   3888: 31 4f 63 6f 6e 74 65 6e 74 74 31 5f 63 6f 6e 74   1Ocontentt1_cont
|   3904: 65 6e 74 03 43 52 45 41 54 45 20 54 41 42 4c 45   ent.CREATE TABLE
|   3920: 20 27 74 31 5f 63 6f 6e 74 65 6e 74 27 28 64 6f    't1_content'(do
|   3936: 63 69 64 20 49 4e 54 45 47 45 52 20 50 52 39 4d   cid INTEGER PR9M
|   3952: 41 52 59 20 4b 45 59 2c 20 27 63 30 61 27 2c 20   ARY KEY, 'c0a', 
|   3968: 27 63 31 62 27 2c 20 27 63 32 63 27 29 38 02 06   'c1b', 'c2c')8..
|   3984: 17 11 11 08 5f 74 61 62 6c 65 74 31 74 31 43 52   ...._tablet1t1CR
|   4000: 45 41 54 45 20 56 49 52 54 55 41 4c 20 54 41 42   EATE VIRTUAL TAB
|   4016: 4c 45 20 74 31 20 55 53 49 4e 47 20 66 74 73 33   LE t1 USING fts3
|   4032: 28 61 2c 62 2c 63 29 00 00 00 00 00 00 00 00 00   (a,b,c).........
| page 3 offset 8192
|      0: 0d 00 00 00 26 0b 48 0e 0f d8 0f af 0f 86 0f 74   ....&.H........t
|     16: 0f 61 0f 4e 0f 2f 0f 0f 0e ef 0e d7 0e be 0e a5   .a.N./..........
|     32: 0e 8d 0e 74 0e 5b 0e 40 0e 24 0e 08 0d ef 0d d5   ...t.[.@.$......
|     48: 0d bb 0d a0 0e 94 03 28 0d 4f 0d 35 0d 1b 05 0b   .......(.O.5....
|     64: 0c da 0c b9 0c 99 0c 78 0c 57 0c 3e 0c 24 0c 0a   .......x.W.>.$..
|   2880: 00 00 00 00 00 00 00 00 81 3f 25 06 00 72 7f 00   .........?%..r..
|   2896: 00 43 4f 4d 50 49 4c 45 52 3d 67 63 63 2d 35 2e   .COMPILER=gcc-5.
|   2912: 34 2e 30 20 32 30 31 36 30 36 30 39 20 44 55 42   4.0 20160609 DUB
|   2928: 55 47 20 45 4e 41 e4 7c 45 20 44 42 53 54 41 54   UG ENA.|E DBSTAT
|   2944: e4 d1 54 41 42 20 45 4e 41 42 4c 45 20 46 54 53   ..TAB ENABLE FTS
|   2960: 34 20 45 4e 41 42 4c 45 20 46 54 53 35 20 45 4e   4 ENABLE FTS5 EN
|   2976: 41 42 4c 45 20 47 45 4f 50 4f 4c 59 20 45 4e 41   ABLE GEOPOLY ENA
|   2992: 42 4c 45 20 4a 53 4f 4e 31 20 45 4e 41 42 4c 45   BLE JSON1 ENABLE
|   3008: 20 4d 45 4d 53 59 53 35 20 45 4e 41 42 4c 45 20    MEMSYS5 ENABLE 
|   3024: 42 54 52 45 45 20 4d 41 58 20 4d 45 4d 4f 52 59   BTREE MAX MEMORY
|   3040: 3d 35 30 30 30 30 30 30 30 20 4f 4c 49 54 20 4c   =50000000 OLIT L
|   3056: 4f 41 43 20 45 58 54 45 4e 53 49 4f 4e 21 54 48   OAC EXTENSION!TH
|   3072: 52 45 41 44 53 41 46 45 3d 30 18 24 05 00 25 0f   READSAFE=0.$..%.
|   3088: 19 54 48 52 45 41 44 53 41 46 45 3d 30 58 42 49   .THREADSAFE=0XBI
|   3104: 4e 41 52 59 18 23 05 00 25 0f 19 54 48 52 45 41   NARY.#..%..THREA
|   3120: 44 53 41 4b 75 3d 30 58 4d 4f 43 41 53 45 17 22   DSAKu=0XMOCASE..
|   3136: 05 00 25 0f 17 54 48 52 45 41 44 53 41 46 46 3d   ..%..THREADSAFF=
|   3152: 30 58 52 54 52 49 4d 1f 21 05 00 33 0f 19 4f 4d   0XRTRIM.!..3..OM
|   3168: 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 52 49 4f   IT LOAD EXTENRIO
|   3184: 4e 58 42 49 4e 41 52 59 1f 20 05 00 33 0f 19 4f   NXBINARY. ..3..O
|   3200: 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53 49   MIT LOAD EXTENSI
|   3216: 4f 4e 58 4e 4f 43 41 53 45 1e 1f 05 00 33 0f 17   ONXNOCASE....3..
|   3232: 4f 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53   OMIT LOAD EXTENS
|   3248: 49 4f 4e 58 52 54 52 49 4d 1f 1e 05 00 33 0f 19   IONXRTRIM....3..
|   3264: 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30 30   MAX MEMORY=50000
|   3280: 30 30 30 58 42 49 4e 41 52 59 1f 1d 05 00 33 0f   000XBINARY....3.
|   3296: 19 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30   .MAX MEMORY=5000
|   3312: 30 30 30 30 58 4e 4f 43 41 53 45 1e 1c 05 00 33   0000XNOCASE....3
|   3328: 0f 17 4d 42 b8 20 4d 45 4d 4f 52 59 3d 35 30 30   ..MB. MEMORY=500
|   3344: 30 30 30 30 30 58 52 54 52 49 4d 18 1b 05 00 25   00000XRTRIM....%
|   3360: 0f 19 45 4e 41 42 4c 45 20 52 54 52 45 45 58 42   ..ENABLE RTREEXB
|   3376: 49 4e 41 52 59 18 1a 05 0d a5 0f 19 45 4e 41 42   INARY.......ENAB
|   3392: 4c 45 20 52 54 52 45 45 58 4e 4f 43 41 53 45 17   LE RTREEXNOCASE.
|   3408: 19 1c 00 25 0f 17 45 4e 41 42 4c 45 20 52 54 52   ...%..ENABLE RTR
|   3424: 45 45 58 52 54 52 49 4d 1a 18 05 00 29 0f 19 45   EEXRTRIM....)..E
|   3440: 4e 41 42 4c 45 20 4d 45 4d 53 59 53 35 58 42 49   NABLE MEMSYS5XBI
|   3456: 4e 41 52 59 1a 17 05 00 29 0f 19 45 4e 41 42 4c   NARY....)..ENABL
|   3472: 45 20 4d 45 4d 53 59 53 35 58 4e 4f 43 41 53 45   E MEMSYS5XNOCASE
|   3488: 19 16 05 00 29 0f 17 45 4e 41 42 4c 45 20 4d 45   ....)..ENABLE ME
|   3504: 4d 53 59 53 35 58 52 54 52 49 4d 18 14 05 01 25   MSYS5XRTRIM....%
|   3520: 0f 19 45 4e 12 42 4c 45 20 4a 53 4f 4e 31 58 42   ..EN.BLE JSON1XB
|   3536: 49 4e 41 52 59 18 14 05 00 25 09 d9 45 4e 41 42   INARY....%..ENAB
|   3552: 4c 45 20 4a 53 4f 3e 31 58 4e 4f 43 41 53 45 17   LE JSO>1XNOCASE.
|   3568: 13 05 00 25 0f 17 45 4e 40 42 4c 45 20 4a 53 4f   ...%..EN@BLE JSO
|   3584: 4e 31 58 52 54 52 49 4d 1a 12 05 82 29 0f 19 45   N1XRTRIM....)..E
|   3600: 4e 41 42 4c 45 20 47 45 4f 50 4f 4c 59 58 42 49   NABLE GEOPOLYXBI
|   3616: 4e 41 52 59 1a 11 05 c9 29 e8 19 46 4e 41 42 4c   NARY....)..FNABL
|   3632: 48 c0 47 45 4f 50 4f 4c 59 58 4e 74 43 41 53 45   H.GEOPOLYXNtCASE
|   3648: 19 10 05 00 29 0f 17 45 4e 41 42 4c 45 20 47 45   ....)..ENABLE GE
|   3664: 4f 50 4f 4c 59 58 52 54 52 49 4d 17 0f 05 00 23   OPOLYXRTRIM....#
|   3680: 0f 19 45 4e 41 42 4c 45 30 46 54 53 35 58 42 49   ..ENABLE0FTS5XBI
|   3696: 4e 41 52 59 17 0e 05 00 23 0f 19 45 4e 41 42 4c   NARY....#..ENABL
|   3712: 45 20 46 54 53 35 58 4e 4f 43 41 53 45 16 0e 05   E FTS5XNOCASE...
|   3728: 00 23 0f 17 45 4e 41 42 4c 45 20 46 54 53 35 58   .#..ENABLE FTS5X
|   3744: 52 54 52 49 4d 17 0c 05 00 23 0f 19 45 4e 41 42   RTRIM....#..ENAB
|   3760: 4c 45 20 46 54 53 34 58 42 49 4e 41 52 59 17 0b   LE FTS4XBINARY..
|   3776: 05 00 23 0f 19 45 4e 41 42 4c 45 20 46 54 53 34   ..#..ENABLE FTS4
|   3792: 58 4e 4f 43 41 53 45 16 0a 05 00 23 0f 17 45 4e   XNOCASE....#..EN
|   3808: 41 42 4c 45 20 46 54 53 34 58 52 54 52 49 4d 1e   ABLE FTS4XRTRIM.
|   3824: 09 05 00 31 0f 19 45 4e 42 42 4c 45 20 44 42 53   ...1..ENBBLE DBS
|   3840: 54 41 54 20 56 54 41 42 58 42 49 4e 41 52 59 1e   TAT VTABXBINARY.
|   3856: 08 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3872: 54 41 54 20 56 54 41 42 58 4e 4f 43 41 53 45 1d   TAT VTABXNOCASE.
|   3888: 07 05 00 31 0f 17 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3904: 54 41 54 20 56 54 41 42 58 52 54 52 4a 4d 11 06   TAT VTABXRTRJM..
|   3920: 05 f0 17 0f 19 44 45 42 55 47 58 42 49 4e 41 52   .....DEBUGXBINAR
|   3936: 59 11 05 05 00 17 0e 19 44 45 42 55 47 58 4e 4f   Y.......DEBUGXNO
|   3952: 43 41 53 45 10 04 05 00 17 0f 16 44 45 42 55 47   CASE.......DEBUG
|   3968: 58 52 54 52 49 4d 27 03 05 00 43 0f 19 43 4f 4d   XRTRIM'...C..COM
|   3984: 50 49 4c 45 52 3d 67 63 63 2d 35 2e 34 2e 30 20   PILER=gcc-5.4.0 
|   4000: 32 30 31 36 30 36 30 39 58 42 49 4e 41 52 59 27   20160609XBINARY'
|   4016: 02 05 00 43 0f 19 43 4f 4d 50 49 4c 45 52 3d 67   ...C..COMPILER=g
|   4032: 63 63 2d 35 2e 34 2e 30 20 32 30 31 36 30 36 30   cc-5.4.0 2016060
|   4048: 39 58 4e 4f 43 41 53 45 26 01 06 00 43 0f 17 43   9XNOCASE&...C..C
|   4064: 4f 4d 50 49 4b 45 52 3d 67 63 63 2d 35 2e 34 2e   OMPIKER=gcc-5.4.
|   4080: 30 20 32 30 31 36 30 36 40 39 58 29 54 52 49 4d   0 201606@9X)TRIM
| page 4 offset 12288
|      0: 0d 00 10 00 00 10 00 00 00 00 00 00 00 01 00 00   ................
| page 5 offset 16384
|      0: 0d 00 00 00 02 0b a0 00 0c ad 0b a0 00 00 00 00   ................
|   2976: 82 0a 02 08 08 09 08 08 17 84 06 30 20 32 35 33   ...........0 253
|   2992: 00 01 30 04 25 06 1b 00 00 08 32 30 31 36 30 36   ..0.%.....201606
|   3008: 30 39 03 25 07 00 00 01 34 03 25 05 00 00 01 35   09.%....4.%....5
|   3024: 03 25 04 00 01 07 30 30 30 30 30 30 30 03 25 1a   .%....0000000.%.
|   3040: 00 00 08 63 6f 6d 70 69 6c 65 72 03 25 02 00 00   ...compiler.%...
|   3056: 06 64 62 73 74 61 74 03 25 0a 00 01 04 65 62 75   .dbstat.%....ebu
|   3072: 67 03 25 08 00 00 06 65 6e 61 62 6c 65 09 25 09   g.%....enable.%.
|   3088: 05 04 04 04 04 04 00 01 08 78 74 65 6e 73 69 6f   .........xtensio
|   3104: 6e 03 25 1d 00 00 04 66 74 73 34 03 25 0d 00 03   n.%....fts4.%...
|   3120: 01 35 03 25 0f 00 00 03 67 63 63 03 25 03 00 01   .5.%....gcc.%...
|   3136: 06 65 6f 70 6f 6c 79 03 25 11 00 00 05 6a 73 6f   .eopoly.%....jso
|   3152: 6e 31 03 25 13 00 00 04 6c 6f 61 64 03 25 1c 00   n1.%....load.%..
|   3168: 00 03 6d 61 78 03 25 18 00 01 05 65 6e 6f 72 79   ..max.%....enory
|   3184: 03 25 19 00 03 04 ce 79 73 4d 03 25 15 00 00 04   .%.....ysM.%....
|   3200: 6f 6d 69 74 03 25 1b 00 00 05 72 74 72 65 65 03   omit.%....rtree.
|   3216: 25 17 00 00 0a 74 68 72 65 61 64 73 61 66 65 03   %....threadsafe.
|   3232: 25 0e 00 00 04 76 74 61 62 03 25 0b 00 86 50 01   %....vtab.%...P.
|   3248: 08 08 08 08 08 17 8d 12 30 20 38 33 35 00 01 30   ........0 835..0
|   3264: 12 01 06 00 01 06 00 01 06 00 1f 03 00 01 03 09   ................
|   3280: 51 03 00 00 08 32 30 31 36 30 36 30 39 09 01 07   Q....20160609...
|   3296: 00 01 07 00 01 07 00 00 01 34 09 01 05 00 01 05   .........4......
|   3312: 00 01 05 00 00 01 35 09 01 04 00 01 04 00 01 04   ......5.........
|   3328: 00 01 07 30 30 30 30 30 30 30 09 1c 04 00 01 04   ...0000000......
|   3344: 00 01 04 00 00 06 62 69 6e 61 72 79 3c 03 01 02   ......binary<...
|   3360: 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02   ................
|   3376: 00 03 01 02 02 00 02 f1 02 02 00 03 01 02 02 00   ................
|   3392: 03 01 02 02 00 03 01 02 02 00 03 01 02 02 00 03   ................
|   3408: 01 02 02 00 03 01 02 02 00 00 08 63 6f 6d 70 69   ...........compi
|   3424: 6c 65 72 09 01 02 00 01 02 00 01 02 00 00 06 67   ler............g
|   3440: d2 73 74 61 74 09 07 03 00 01 03 00 01 03 00 01   .stat...........
|   3456: 04 65 62 75 67 09 04 02 00 01 02 00 01 02 00 00   .ebug...........
|   3472: 06 65 6e 6f 82 6c 65 3f 07 02 00 01 02 00 01 02   .eno.le?........
|   3488: b0 01 02 00 01 02 00 11 02 00 01 02 00 01 02 00   ................
|   3504: 01 02 00 01 02 00 01 02 00 01 a6 00 01 02 00 01   ................
|   3520: 02 05 51 02 00 01 02 00 01 02 00 01 02 00 01 02   ..Q.............
|   3536: 00 01 02 00 01 02 00 01 08 78 74 65 6e 73 69 6f   .........xtensio
|   3552: 6e 09 1f 04 00 01 04 00 00 04 00 00 04 66 74 73   n............fts
|   3568: 34 09 0a 03 00 01 03 00 01 03 00 03 01 35 09 0d   4............5..
|   3584: 03 00 01 03 00 01 03 00 00 03 67 63 63 09 01 03   ..........gcc...
|   3600: 00 01 03 00 01 03 00 01 06 65 6f 70 73 6c 79 09   .........eopsly.
|   3616: 10 03 00 01 03 00 01 03 00 00 05 6a 73 6f 6e 31   ...........json1
|   3632: 09 13 03 00 01 03 00 01 03 00 00 04 6c 6f 61 64   ............load
|   3648: 09 1f 03 00 01 03 00 01 03 00 00 03 6d 61 78 09   ............max.
|   3664: 1c 02 00 01 02 00 01 02 00 01 05 65 6d 6f 72 79   ...........emory
|   3680: 09 1c 03 00 01 03 00 01 03 00 03 04 73 79 73 35   ............sys5
|   3696: 09 16 03 00 01 03 00 01 03 00 00 06 6e 6f 63 61   ............noca
|   3712: 73 65 3c 02 01 02 02 00 03 01 12 02 00 03 01 02   se<.............
|   3728: 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02   ................
|   3744: 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02 00   ................
|   3760: 03 01 02 02 00 03 01 02 02 00 03 01 02 02 00 00   ................
|   3776: 04 6f 6d 69 74 09 1f 02 00 01 02 00 01 02 00 00   .omit...........
|   3792: 05 72 74 72 65 65 09 19 03 00 01 03 00 01 03 00   .rtree..........
|   3808: 03 02 69 6d 3c 01 01 02 02 00 03 01 02 02 00 03   ..im<...........
|   3824: 01 02 02 00 03 01 02 02 00 03 01 02 02 00 03 01   ................
|   3840: 02 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02   ................
|   3856: 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02   ................
|   3872: 00 00 0a 74 68 72 65 61 64 73 61 66 65 09 22 02   ...threadsafe...
|   3888: 00 01 02 00 01 02 00 00 04 76 74 61 62 09 07 04   .........vtab...
|   3904: 00 01 04 00 01 03 ff ff 01 78 b4 01 01 01 01 02   .........x......
|   3920: 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00   ................
|   3936: 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00 01   ................
|   3952: 01 01 02 00 01 01 01 07 30 01 01 01 02 00 01 01   ........0.......
|   3968: 01 02 00 11 01 01 02 00 01 01 01 02 00 11 01 01   ................
|   3984: 02 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02   ................
|   4000: 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00   ................
|   4016: 01 01 01 01 ff 01 01 01 02 00 01 01 01 02 00 01   ................
|   4032: 01 01 02 00 01 01 01 02 00 01 01 01 02 00 01 01   ................
|   4048: 01 02 00 01 01 09 c2 00 01 01 01 02 00 01 01 01   ................
|   4064: 02 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02   ................
|   4080: 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00   ................
| page 6 offset 20480
|      0: 0a 00 00 00 02 0f f5 00 0f fb 0f f5 00 00 00 00   ................
|   4080: 00 00 00 00 00 05 04 08 09 01 02 04 04 08 08 09   ................
| page 7 offset 24576
|      0: 0d 00 00 00 05 0f b8 00 0e f4 0f e9 10 d6 0f c7   ................
|   4016: 00 00 00 00 00 00 00 00 0d 05 02 23 61 75 74 6f   ...........#auto
|   4032: 6d 65 72 67 65 3d 35 0d 04 02 23 6d 65 72 67 65   merge=5...#merge
|   4048: 3d 31 00 00 00 00 00 00 00 00 00 00 00 00 00 00   =1..............
| end crash-369d042958c29b.db
}]} {}

do_catchsql_test 24.1 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT '4hE'+x FROM c WHERE x<72)
    INSERT INTO t1(a) SELECT randomblob(2829) FROM c;
} {0 {}}

do_catchsql_test 24.2 {
  UPDATE t1 SET b=quote((true) ) WHERE t1 MATCH 'h';
} {0 {}}

do_catchsql_test 24.3 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT 3+x FROM c WHERE x<72)
    INSERT INTO t1(a) SELECT randomblob(2829) FROM c;
} {0 {}}

do_catchsql_test 24.4 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT null<<x FROM c WHERE x<72)
    INSERT INTO t1(a) SELECT randomblob(2829) FROM c;
} {0 {}}

do_catchsql_test 24.5 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT 3+x FROM c WHERE x<72)
    INSERT INTO t1(a) SELECT randomblob(2829) FROM c;
} {0 {}}

do_catchsql_test 24.7 {
  INSERT INTO t1(t1) SELECT x FROM t2;
} {1 {database disk image is malformed}}

#-------------------------------------------------------------------------
#-------------------------------------------------------------------------
reset_db
do_test 25.0 {
  sqlite3 db {}
  db deserialize [decode_hexdb {
.open --hexdb
| size 28672 pagesize 4096 filename crash-dde9e76ed8ab2d.db
| page 1 offset 0
|      0: 53 51 4c 69 74 65 20 66 6f 72 6d 61 74 20 33 00   SQLite format 3.
|     16: 10 00 01 01 00 40 20 20 00 00 03 10 00 00 00 00   .....@  ........
|     96: 00 00 00 00 0d 0e b1 00 06 0d a4 00 0f 8d 0f 21   ...............!
|    112: 0e b9 0d c8 0e 7e 0d a4 00 00 00 00 00 00 00 00   .....~..........
|   3488: 00 00 00 00 22 07 06 17 11 11 01 31 74 61 62 6c   ...........1tabl
|   3504: 65 74 32 74 32 07 43 52 45 41 54 45 20 54 41 42   et2t2.CREATE TAB
|   3520: 4c 45 20 74 32 28 78 29 81 33 05 07 17 1f 1f 01   LE t2(x).3......
|   3536: 82 35 74 61 62 6c 65 74 31 5f 73 65 67 64 69 72   .5tablet1_segdir
|   3552: 74 31 5f 73 65 67 64 69 72 05 43 52 45 41 54 45   t1_segdir.CREATE
|   3568: 20 54 41 42 4c 45 20 27 74 31 5f 73 65 67 64 69    TABLE 't1_segdi
|   3584: 72 27 28 6c 65 76 65 6c 20 49 4e 54 45 47 45 52   r'(level INTEGER
|   3600: 2c 69 64 78 20 49 4e 54 45 47 45 52 2c 73 74 61   ,idx INTEGER,sta
|   3616: 72 74 5f 62 6c 6f 63 6b 20 49 4e 54 45 47 45 52   rt_block INTEGER
|   3632: 2c 6c 65 61 76 65 73 5f 65 6e 64 5f 62 6c 6f 63   ,leaves_end_bloc
|   3648: 6b 20 49 4e 54 45 47 45 52 2c 65 6e 64 5f 62 6c   k INTEGER,end_bl
|   3664: 6f 63 6b 20 49 4e 54 45 47 45 52 2c 72 6f 6f 74   ock INTEGER,root
|   3680: 20 42 4c 4f 42 2c 50 52 49 4d 41 52 59 20 4b 45    BLOB,PRIMARY KE
|   3696: 59 28 6c 65 76 65 6c 2c 20 69 64 78 29 29 31 06   Y(level, idx))1.
|   3712: 06 17 45 1f 01 00 69 6e 64 65 78 73 71 6c 69 74   ..E...indexsqlit
|   3728: 65 5f 61 75 74 6f 69 6e 64 65 78 5f 74 31 5f 73   e_autoindex_t1_s
|   3744: 65 67 64 69 72 5f 31 74 31 5f 73 65 67 64 69 72   egdir_1t1_segdir
|   3760: 06 0f c7 00 08 00 00 00 00 66 04 07 17 23 23 01   .........f...##.
|   3776: 81 13 74 61 62 6c 65 74 31 5f 73 65 67 6d 65 6e   ..tablet1_segmen
|   3792: 64 73 74 31 5f 73 65 67 6d 65 6e 74 73 04 43 52   dst1_segments.CR
|   3808: 45 41 54 45 20 54 41 42 4c 45 20 27 74 31 5f 73   EATE TABLE 't1_s
|   3824: 65 67 6d 65 6e 74 73 27 28 62 6c 6f 63 6b 69 64   egments'(blockid
|   3840: 20 49 4e 54 45 47 45 52 20 50 52 49 4d 41 52 59    INTEGER PRIMARY
|   3856: 20 4b 45 59 2c 20 62 6c 6f 63 6b 20 42 4c 4f 42    KEY, block BLOB
|   3872: 29 6a 03 07 17 21 21 01 81 1f 74 61 62 6c 65 74   )j...!!...tablet
|   3888: 31 5f 63 6f 6e 74 65 6e 74 74 31 5f 63 6f 6e 74   1_contentt1_cont
|   3904: 65 6e 74 03 43 52 45 41 54 45 20 54 41 42 4c 45   ent.CREATE TABLE
|   3920: 20 27 74 31 5f 63 6f 6e 74 65 6e 74 27 28 64 6f    't1_content'(do
|   3936: 63 69 64 20 49 4e 54 45 47 45 52 20 50 52 39 4d   cid INTEGER PR9M
|   3952: 41 52 59 20 4b 45 59 2c 20 27 63 30 61 27 2c 20   ARY KEY, 'c0a', 
|   3968: 27 63 31 62 27 2c 20 27 63 32 63 27 29 38 02 06   'c1b', 'c2c')8..
|   3984: 17 11 11 08 5f 74 61 62 6c 65 74 31 74 31 43 52   ...._tablet1t1CR
|   4000: 45 41 54 45 20 56 49 52 54 55 41 4c 20 54 41 42   EATE VIRTUAL TAB
|   4016: 4c 45 20 74 31 20 55 53 49 4e 47 20 66 74 73 33   LE t1 USING fts3
|   4032: 28 61 2c 62 2c 63 29 00 00 00 00 00 00 00 00 00   (a,b,c).........
| page 3 offset 8192
|      0: 0d 00 00 00 26 0b 48 0e 0f d8 0f af 0f 86 0f 74   ....&.H........t
|     16: 0f 61 0f 4e 0f 2f 0f 0f 0e ef 0e d7 0e be 0e a5   .a.N./..........
|     32: 0e 8d 0e 74 0e 5b 0e 40 0e 24 0e 08 0d ef 0d d5   ...t.[.@.$......
|     48: 0d bb 0d a0 0e 94 03 28 0d 4f 0d 35 0d 1b 05 0b   .......(.O.5....
|     64: 0c da 0c b9 0c 99 0c 78 0c 57 0c 3e 0c 24 0c 0a   .......x.W.>.$..
|   2880: 00 00 00 00 00 00 00 00 81 3f 25 06 00 72 7f 00   .........?%..r..
|   2896: 00 43 4f 4d 50 49 4c 45 52 3d 67 63 63 2d 35 2e   .COMPILER=gcc-5.
|   2912: 34 2e 30 20 32 30 31 36 30 36 30 39 20 44 55 42   4.0 20160609 DUB
|   2928: 55 47 20 45 4e 41 e4 7c 45 20 44 42 53 54 41 54   UG ENA.|E DBSTAT
|   2944: e4 46 54 41 42 20 45 4e 41 42 4c 45 20 46 54 53   .FTAB ENABLE FTS
|   2960: 34 20 45 4e 41 42 4c 45 20 46 54 53 35 20 45 4e   4 ENABLE FTS5 EN
|   2976: 41 42 4c 45 20 47 45 4f 50 4f 4c 59 20 45 4e 41   ABLE GEOPOLY ENA
|   2992: 42 4c 45 20 4a 53 4f 4e 31 20 45 4e 41 42 4c 45   BLE JSON1 ENABLE
|   3008: 20 4d 45 4d 53 59 53 35 20 45 4e 41 42 4c 45 20    MEMSYS5 ENABLE 
|   3024: 42 54 52 45 45 20 4d 41 58 20 4d 45 4d 4f 52 59   BTREE MAX MEMORY
|   3040: 3d 35 30 30 30 30 30 30 30 20 4f 4c 49 54 20 4c   =50000000 OLIT L
|   3056: 4f 41 43 20 45 58 54 45 4e 53 49 4f 4e 21 54 48   OAC EXTENSION!TH
|   3072: 52 45 41 44 53 41 46 45 3d 30 18 24 05 00 25 0f   READSAFE=0.$..%.
|   3088: 19 54 48 52 45 41 44 53 41 46 45 3d 30 58 42 49   .THREADSAFE=0XBI
|   3104: 4e 41 52 59 18 23 05 00 25 0f 19 54 48 52 45 41   NARY.#..%..THREA
|   3120: 44 53 41 4b 75 3d 30 58 4d 4f 43 41 53 45 17 22   DSAKu=0XMOCASE..
|   3136: 05 00 25 0f 17 54 48 52 45 41 44 53 41 46 46 3d   ..%..THREADSAFF=
|   3152: 30 58 52 54 52 49 4d 1f 21 05 00 33 0f 19 4f 4d   0XRTRIM.!..3..OM
|   3168: 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 52 49 4f   IT LOAD EXTENRIO
|   3184: 4e 58 42 49 4e 41 52 59 1f 20 05 00 33 0f 19 4f   NXBINARY. ..3..O
|   3200: 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53 49   MIT LOAD EXTENSI
|   3216: 4f 4e 58 4e 4f 43 41 53 45 1e 1f 05 00 33 0f 17   ONXNOCASE....3..
|   3232: 4f 4d 49 54 20 4c 4f 41 44 20 45 58 54 45 4e 53   OMIT LOAD EXTENS
|   3248: 49 4f 4e 58 52 54 52 49 4d 1f 1e 05 00 33 0f 19   IONXRTRIM....3..
|   3264: 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30 30   MAX MEMORY=50000
|   3280: 30 30 30 58 42 49 4e 41 52 59 1f 1d 05 00 33 0f   000XBINARY....3.
|   3296: 19 4d 41 58 20 4d 45 4d 4f 52 59 3d 35 30 30 30   .MAX MEMORY=5000
|   3312: 30 30 30 30 58 4e 4f 43 41 53 45 1e 1c 05 00 33   0000XNOCASE....3
|   3328: 0f 17 4d 42 b8 20 4d 45 4d 4f 52 59 3d 35 30 30   ..MB. MEMORY=500
|   3344: 30 30 30 30 30 58 52 54 52 49 4d 18 1b 05 00 25   00000XRTRIM....%
|   3360: 0f 19 45 4e 41 42 4c 45 20 52 54 52 45 45 58 42   ..ENABLE RTREEXB
|   3376: 49 4e 41 52 59 18 1a 05 0d a5 0f 19 45 4e 41 42   INARY.......ENAB
|   3392: 4c 45 20 52 54 52 45 45 58 4e 4f 43 41 53 45 17   LE RTREEXNOCASE.
|   3408: 19 1c 00 25 0f 17 45 4e 41 42 4c 45 20 52 54 52   ...%..ENABLE RTR
|   3424: 45 45 58 52 54 52 49 4d 1a 18 05 00 29 0f 19 45   EEXRTRIM....)..E
|   3440: 4e 41 42 4c 45 20 4d 45 4d 53 59 53 35 58 42 49   NABLE MEMSYS5XBI
|   3456: 4e 41 52 59 1a 17 05 00 29 0f 19 45 4e 41 42 4c   NARY....)..ENABL
|   3472: 45 20 4d 45 4d 53 59 53 35 58 4e 4f 43 41 53 45   E MEMSYS5XNOCASE
|   3488: 19 16 05 00 29 0f 17 45 4e 41 42 4c 45 20 4d 45   ....)..ENABLE ME
|   3504: 4d 53 59 53 35 58 52 54 52 49 4d 18 14 05 01 25   MSYS5XRTRIM....%
|   3520: 0f 19 45 4e 12 42 4c 45 20 4a 53 4f 4e 31 58 42   ..EN.BLE JSON1XB
|   3536: 49 4e 41 52 59 18 14 05 00 25 09 d9 45 4e 41 42   INARY....%..ENAB
|   3552: 4c 45 20 4a 53 4f 3e 31 58 4e 4f 43 41 53 45 17   LE JSO>1XNOCASE.
|   3568: 13 05 00 25 0f 17 45 4e 40 42 4c 45 20 4a 53 4f   ...%..EN@BLE JSO
|   3584: 4e 31 58 52 54 52 49 4d 1a 12 05 82 29 0f 19 45   N1XRTRIM....)..E
|   3600: 4e 41 42 4c 45 20 47 45 4f 50 4f 4c 59 58 42 49   NABLE GEOPOLYXBI
|   3616: 4e 41 52 59 1a 11 05 c9 29 e8 19 46 4e 41 42 4c   NARY....)..FNABL
|   3632: 48 c0 47 45 4f 50 4f 4c 59 58 4e 74 43 41 53 45   H.GEOPOLYXNtCASE
|   3648: 19 10 05 00 29 0f 17 45 4e 41 42 4c 45 20 47 45   ....)..ENABLE GE
|   3664: 4f 50 4f 4c 59 58 52 54 52 49 4d 17 0f 05 00 23   OPOLYXRTRIM....#
|   3680: 0f 19 45 4e 41 42 4c 45 30 46 54 53 35 58 42 49   ..ENABLE0FTS5XBI
|   3696: 4e 41 52 59 17 0e 05 00 23 0f 19 45 4e 41 42 4c   NARY....#..ENABL
|   3712: 45 20 46 54 53 35 58 4e 4f 43 41 53 45 16 0e 05   E FTS5XNOCASE...
|   3728: 00 23 0f 17 45 4e 41 42 4c 45 20 46 54 53 35 58   .#..ENABLE FTS5X
|   3744: 52 54 52 49 4d 17 0c 05 00 23 0f 19 45 4e 41 42   RTRIM....#..ENAB
|   3760: 4c 45 20 46 54 53 34 58 42 49 4e 41 52 59 17 0b   LE FTS4XBINARY..
|   3776: 05 00 23 0f 19 45 4e 41 42 4c 45 20 46 54 53 34   ..#..ENABLE FTS4
|   3792: 58 4e 4f 43 41 53 45 16 0a 05 00 23 0f 17 45 4e   XNOCASE....#..EN
|   3808: 41 42 4c 45 20 46 54 53 34 58 52 54 52 49 4d 1e   ABLE FTS4XRTRIM.
|   3824: 09 05 00 31 0f 19 45 4e 42 42 4c 45 20 44 42 53   ...1..ENBBLE DBS
|   3840: 54 41 54 20 56 54 41 42 58 42 49 4e 41 52 59 1e   TAT VTABXBINARY.
|   3856: 08 05 00 31 0f 19 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3872: 54 41 54 20 56 54 41 42 58 4e 4f 43 41 53 45 1d   TAT VTABXNOCASE.
|   3888: 07 05 00 31 0f 17 45 4e 41 42 4c 45 20 44 42 53   ...1..ENABLE DBS
|   3904: 54 41 54 20 56 54 41 42 58 52 54 52 4a 4d 11 06   TAT VTABXRTRJM..
|   3920: 05 f0 17 0f 19 44 45 42 55 47 58 42 49 4e 41 52   .....DEBUGXBINAR
|   3936: 59 11 05 05 00 17 0e 19 44 45 42 55 47 58 4e 4f   Y.......DEBUGXNO
|   3952: 43 41 53 45 10 04 05 00 17 0f 16 44 45 42 55 47   CASE.......DEBUG
|   3968: 58 52 54 52 49 4d 27 03 05 00 43 0f 19 43 4f 4d   XRTRIM'...C..COM
|   3984: 50 49 4c 45 52 3d 67 63 63 2d 35 2e 34 2e 30 20   PILER=gcc-5.4.0 
|   4000: 32 30 31 36 30 36 30 39 58 42 49 4e 41 52 59 27   20160609XBINARY'
|   4016: 02 05 00 43 0f 19 43 4f 4d 50 49 4c 45 52 3d 67   ...C..COMPILER=g
|   4032: 63 63 2d 35 2e 34 2e 30 20 32 30 31 36 30 36 30   cc-5.4.0 2016060
|   4048: 39 58 4e 4f 43 41 53 45 26 01 06 00 43 0f 17 43   9XNOCASE&...C..C
|   4064: 4f 4d 50 49 4b 45 52 3d 67 63 63 2d 35 2e 34 2e   OMPIKER=gcc-5.4.
|   4080: 30 20 32 30 31 36 30 36 40 39 58 29 54 52 49 4d   0 201606@9X)TRIM
| page 4 offset 12288
|      0: 0d 00 10 00 00 10 00 00 00 00 00 00 00 01 00 00   ................
| page 5 offset 16384
|      0: 0d 00 00 00 02 0b a0 00 0c ad 0b a0 00 00 00 00   ................
|   2976: 82 0a 02 08 08 09 08 08 17 84 06 30 20 32 35 33   ...........0 253
|   2992: 00 01 30 04 25 06 1b 00 00 08 32 30 31 36 30 36   ..0.%.....201606
|   3008: 30 39 03 25 07 00 00 01 34 03 25 05 00 00 01 35   09.%....4.%....5
|   3024: 03 25 04 00 01 07 30 30 30 30 30 30 30 03 25 1a   .%....0000000.%.
|   3040: 00 00 08 63 6f 6d 70 69 6c 65 72 03 25 02 00 00   ...compiler.%...
|   3056: 06 64 62 73 74 61 74 03 25 0a 00 01 04 65 62 75   .dbstat.%....ebu
|   3072: 67 03 25 08 00 00 06 65 6e 61 62 6c 65 09 25 09   g.%....enable.%.
|   3088: 05 04 04 04 04 04 00 01 08 78 74 65 6e 73 69 6f   .........xtensio
|   3104: 6e 03 25 1d 00 00 04 66 74 73 34 03 25 0d 00 03   n.%....fts4.%...
|   3120: 01 35 03 25 0f 00 00 03 67 63 63 03 25 03 00 01   .5.%....gcc.%...
|   3136: 06 65 6f 70 6f 6c 79 03 25 11 00 00 05 6a 73 6f   .eopoly.%....jso
|   3152: 6e 31 03 25 13 00 00 04 6c 6f 61 64 03 25 1c 00   n1.%....load.%..
|   3168: 00 03 6d 61 78 03 25 18 00 01 05 65 6e 6f 72 79   ..max.%....enory
|   3184: 03 25 19 00 03 04 ce 79 73 4d 03 25 15 00 00 04   .%.....ysM.%....
|   3200: 6f 6d 69 74 03 25 1b 00 00 05 72 74 72 65 65 03   omit.%....rtree.
|   3216: 25 17 00 00 0a 74 68 72 65 61 64 73 61 66 65 03   %....threadsafe.
|   3232: 25 0e 00 00 04 76 74 61 62 03 25 0b 00 86 50 01   %....vtab.%...P.
|   3248: 08 08 08 08 08 17 8d 12 30 20 38 33 35 00 01 30   ........0 835..0
|   3264: 12 01 06 00 01 06 00 01 06 00 1f 03 00 01 03 09   ................
|   3280: 51 03 00 00 08 32 30 31 36 30 36 30 39 09 01 07   Q....20160609...
|   3296: 00 01 07 00 01 07 00 00 01 34 09 01 05 00 01 05   .........4......
|   3312: 00 01 05 00 00 01 35 09 01 04 00 01 04 00 01 04   ......5.........
|   3328: 00 01 07 30 30 30 30 30 30 30 09 1c 04 00 01 04   ...0000000......
|   3344: 00 01 04 00 00 06 62 69 6e 61 72 79 3c 03 01 02   ......binary<...
|   3360: 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02   ................
|   3376: 00 03 01 02 02 00 02 f1 02 02 00 03 01 02 02 00   ................
|   3392: 03 01 02 02 00 03 01 02 02 00 03 01 02 02 00 03   ................
|   3408: 01 02 02 00 03 01 02 02 00 00 08 63 6f 6d 70 69   ...........compi
|   3424: 6c 65 72 09 01 02 00 01 02 00 01 02 00 00 06 67   ler............g
|   3440: d2 73 74 61 74 09 07 03 00 01 03 00 01 03 00 01   .stat...........
|   3456: 04 65 62 75 67 09 04 02 00 01 02 00 01 02 00 00   .ebug...........
|   3472: 06 65 6e 6f 82 6c 65 3f 07 02 00 01 02 00 01 02   .eno.le?........
|   3488: b0 01 02 00 01 02 00 11 02 00 01 02 00 01 02 00   ................
|   3504: 01 02 00 01 02 00 01 02 00 01 a6 00 01 02 00 01   ................
|   3520: 02 05 51 02 00 01 02 00 01 02 00 01 02 00 01 02   ..Q.............
|   3536: 00 01 02 00 01 02 00 01 08 78 74 65 6e 73 69 6f   .........xtensio
|   3552: 6e 09 1f 04 00 01 04 00 00 04 00 00 04 66 74 73   n............fts
|   3568: 34 09 0a 03 00 01 03 00 01 03 00 03 01 35 09 0d   4............5..
|   3584: 03 00 01 03 00 01 03 00 00 03 67 63 63 09 01 03   ..........gcc...
|   3600: 00 01 03 00 01 03 00 01 06 65 6f 70 73 6c 79 09   .........eopsly.
|   3616: 10 03 00 01 03 00 01 03 00 00 05 6a 73 6f 6e 31   ...........json1
|   3632: 09 13 03 00 01 03 00 01 03 00 00 04 6c 6f 61 64   ............load
|   3648: 09 1f 03 00 01 03 00 01 03 00 00 03 6d 61 78 09   ............max.
|   3664: 1c 02 00 01 02 00 01 02 00 01 05 65 6d 6f 72 79   ...........emory
|   3680: 09 1c 03 00 01 03 00 01 03 00 03 04 73 79 73 35   ............sys5
|   3696: 09 16 03 00 01 03 00 01 03 00 00 06 6e 6f 63 61   ............noca
|   3712: 73 65 3c 02 01 02 02 00 03 01 12 02 00 03 01 02   se<.............
|   3728: 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02   ................
|   3744: 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02 00   ................
|   3760: 03 01 02 02 00 03 01 02 02 00 03 01 02 02 00 00   ................
|   3776: 0e 9f 6d 69 74 09 1f 02 00 01 02 00 01 02 00 00   ..mit...........
|   3792: 05 72 74 72 65 65 09 19 03 00 01 03 00 01 03 00   .rtree..........
|   3808: 03 02 69 6d 3c 01 01 02 02 00 03 01 02 02 00 03   ..im<...........
|   3824: 01 02 02 00 03 01 02 02 00 03 01 02 02 00 03 01   ................
|   3840: 02 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02   ................
|   3856: 02 00 03 01 02 02 00 03 01 02 02 00 03 01 02 02   ................
|   3872: 00 00 0a 74 68 72 65 61 64 73 61 66 65 09 22 02   ...threadsafe...
|   3888: 00 01 02 00 01 02 00 00 04 76 74 61 62 09 07 04   .........vtab...
|   3904: 00 01 04 00 01 04 00 00 01 78 b4 01 01 01 01 02   .........x......
|   3920: 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00   ................
|   3936: 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00 01   ................
|   3952: 01 01 02 00 01 01 01 07 30 01 01 01 02 00 01 01   ........0.......
|   3968: 01 02 00 11 01 01 02 00 01 01 01 02 00 11 01 01   ................
|   3984: 02 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02   ................
|   4000: 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00   ................
|   4016: 01 01 01 01 ff 01 01 01 02 00 01 01 01 02 00 01   ................
|   4032: 01 01 02 00 01 01 01 02 00 01 01 01 02 00 01 01   ................
|   4048: 01 02 00 01 01 01 02 00 01 01 01 02 00 01 01 01   ................
|   4064: 02 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02   ................
|   4080: 00 01 01 01 02 00 01 01 01 02 00 01 01 01 02 00   ................
| page 6 offset 20480
|      0: 0a 00 00 00 02 0f f5 00 0f fb 0f f5 00 00 00 00   ................
|   4080: 00 00 00 00 00 05 04 08 09 01 02 04 04 08 08 09   ................
| page 7 offset 24576
|      0: 0d 00 00 00 05 0f b8 00 0e f4 0f e9 10 d6 0f c7   ................
|   4016: 00 00 00 00 00 00 00 00 0d 05 02 23 61 75 74 6f   ...........#auto
|   4032: 6d 65 72 67 65 3d 35 0d 04 02 23 6d 65 72 67 65   merge=5...#merge
|   4048: 3d 31 00 00 00 00 00 00 00 00 00 00 00 00 00 00   =1..............
| end crash-dde9e76ed8ab2d.db
}]} {}

do_catchsql_test 25.1 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x%1 FROM c WHERE x<599237)
    INSERT INTO t1( a ) SELECT randomblob(3000) FROM t2 ;
} {0 {}}

do_catchsql_test 25.2 {
  UPDATE t1 SET b=quote((true) ) WHERE t1 MATCH 'h*';
} {0 {}}

do_catchsql_test 25.3 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x +x FROM c WHERE 72<x)
    INSERT INTO t1(a) SELECT randomblob(2829) FROM c;
} {0 {}}

do_catchsql_test 25.4 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x%1 FROM c WHERE 599237<x)
    INSERT INTO t1(a) SELECT randomblob(3000) FROM t2 ;
} {0 {}}

do_catchsql_test 25.5 {
  WITH RECURSIVE c(x) AS (VALUES(1) UNION ALL SELECT x%1 FROM c WHERE x<599237)
    INSERT INTO t1( a ) SELECT randomblob(3000) FROM t2 ;
} {0 {}}

do_catchsql_test 25.6 {
  INSERT INTO t1(t1) SELECT x FROM t2;
  INSERT INTO t1(t1) SELECT x FROM t2;
} {1 {database disk image is malformed}}
 
finish_test

Added test/fts4rename.test.

























































































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# 2019 April 30
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#*************************************************************************
#

set testdir [file dirname $argv0]
source $testdir/tester.tcl
source $testdir/fts3_common.tcl
set ::testprefix fts4rename

# If SQLITE_ENABLE_FTS3 is defined, omit this file.
ifcapable !fts3 {
  finish_test
  return
}

do_execsql_test 1.0 {
  CREATE VIRTUAL TABLE temp.t1 USING fts3(a);
  BEGIN;
  CREATE TABLE t2(x);
} {}

do_catchsql_test 1.1 {
  ALTER TABLE t1_content RENAME c0a TO docid;
} {1 {duplicate column name: docid}}

do_catchsql_test 1.2 {
  UPDATE t1 SET Col0 = 1 ;
} {1 {no such column: Col0}}

do_catchsql_test 1.3 {
  ROLLBACK;
  DROP TABLE t1;
} {0 {}}

finish_test

Changes to test/func.test.

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  } {99999999999995.0}
  do_test func-4.37 {
    execsql {SELECT round(9999999999999.55,1);}
  } {9999999999999.6}
  do_test func-4.38 {
    execsql {SELECT round(9999999999999.556,2);}
  } {9999999999999.56}



}

# Test the upper() and lower() functions
#
do_test func-5.1 {
  execsql {SELECT upper(t1) FROM tbl1}
} {THIS PROGRAM IS FREE SOFTWARE}







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  } {99999999999995.0}
  do_test func-4.37 {
    execsql {SELECT round(9999999999999.55,1);}
  } {9999999999999.6}
  do_test func-4.38 {
    execsql {SELECT round(9999999999999.556,2);}
  } {9999999999999.56}
  do_execsql_test func-4.39 {
    SELECT round(1e500), round(-1e500);
  } {Inf -Inf}
}

# Test the upper() and lower() functions
#
do_test func-5.1 {
  execsql {SELECT upper(t1) FROM tbl1}
} {THIS PROGRAM IS FREE SOFTWARE}

Changes to test/fuzzdata7.db.

cannot compute difference between binary files

Changes to test/fuzzdata8.db.

cannot compute difference between binary files

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     CREATE TEMP TABLE t6(x);
     INSERT INTO temp.t6 values(1),(5),(9);
     CREATE INDEX temp.i21 ON t6(x);
     SELECT x FROM t6 ORDER BY x DESC;
  }
} {0 {9 5 1}}










   


















finish_test







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     CREATE TEMP TABLE t6(x);
     INSERT INTO temp.t6 values(1),(5),(9);
     CREATE INDEX temp.i21 ON t6(x);
     SELECT x FROM t6 ORDER BY x DESC;
  }
} {0 {9 5 1}}

# 2019-05-01 ticket https://www.sqlite.org/src/info/3be1295b264be2fa
do_execsql_test index-22.0 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(a, b TEXT);
  CREATE UNIQUE INDEX IF NOT EXISTS x1 ON t1(b==0);
  CREATE INDEX IF NOT EXISTS x2 ON t1(a || 0) WHERE b;
  INSERT INTO t1(a,b) VALUES('a',1),('a',0);
  SELECT a, b, '|' FROM t1;
} {a 1 | a 0 |}

# 2019-05-10 ticket https://www.sqlite.org/src/info/ae0f637bddc5290b
do_execsql_test index-23.0 {
  DROP TABLE t1;
  CREATE TABLE t1(a TEXT, b REAL);
  CREATE UNIQUE INDEX t1x1 ON t1(a GLOB b);
  INSERT INTO t1(a,b) VALUES('0.0','1'),('1.0','1');
  SELECT * FROM t1;
  REINDEX;
} {0.0 1.0 1.0 1.0}
do_execsql_test index-23.1 {
  DROP TABLE t1;
  CREATE TABLE t1(a REAL);
  CREATE UNIQUE INDEX index_0 ON t1(TYPEOF(a));
  INSERT OR IGNORE INTO t1(a) VALUES (0.1),(FALSE);
  SELECT * FROM t1;
  REINDEX;
} {0.1}

finish_test

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  SELECT 'one', * FROM t2 WHERE x NOT IN (SELECT a FROM t1);
  CREATE INDEX t1a ON t1(a) WHERE b=1;
  SELECT 'two', * FROM t2 WHERE x NOT IN (SELECT a FROM t1);
} {}
do_execsql_test index6-12.2 {
  SELECT x FROM t2 WHERE x IN (SELECT a FROM t1) ORDER BY +x;
} {1 2}



























finish_test








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  SELECT 'one', * FROM t2 WHERE x NOT IN (SELECT a FROM t1);
  CREATE INDEX t1a ON t1(a) WHERE b=1;
  SELECT 'two', * FROM t2 WHERE x NOT IN (SELECT a FROM t1);
} {}
do_execsql_test index6-12.2 {
  SELECT x FROM t2 WHERE x IN (SELECT a FROM t1) ORDER BY +x;
} {1 2}

# 2019-05-04
# Ticket https://www.sqlite.org/src/tktview/5c6955204c392ae763a95
# Theorem prover error
#
do_execsql_test index6-13.1 {
  DROP TABLE IF EXISTS t0;
  CREATE TABLE t0(c0);
  CREATE INDEX index_0 ON t0(c0) WHERE c0 NOT NULL;
  INSERT INTO t0(c0) VALUES (NULL);
  SELECT * FROM t0 WHERE c0 OR 1;
} {{}}

# 2019-05-11
# Ticket https://sqlite.org/src/tktview/8025674847
reset_db
do_execsql_test index6-14.1 {
  CREATE TABLE IF NOT EXISTS t0 (c0, c1);
  CREATE INDEX IF NOT EXISTS i0 ON t0(c0, c1) WHERE c0 NOT NULL;
  INSERT INTO t0(c0, c1) VALUES(NULL, 'row');
  SELECT * FROM t0 WHERE t0.c0 IS NOT 1;
} {{} row}

do_execsql_test index6-14.2 {
  SELECT * FROM t0 WHERE CASE c0 WHEN 0 THEN 0 ELSE 1 END;
} {{} row}

finish_test

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    CREATE INDEX t1c ON t1(c);
    ANALYZE;
    SELECT idx, stat FROM sqlite_stat1 ORDER BY idx;
    PRAGMA integrity_check;
  }
} {t1 {15 1} t1a {10 1} t1b {8 1} t1c {15 1} ok}

# Queries use partial indices as appropriate times.
#
do_test index7-2.1 {
  execsql {
    CREATE TABLE t2(a,b PRIMARY KEY) without rowid;
    INSERT INTO t2(a,b) SELECT value, value FROM nums WHERE value<1000;
    UPDATE t2 SET a=NULL WHERE b%5==0;
    CREATE INDEX t2a1 ON t2(a) WHERE a IS NOT NULL;







|







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    CREATE INDEX t1c ON t1(c);
    ANALYZE;
    SELECT idx, stat FROM sqlite_stat1 ORDER BY idx;
    PRAGMA integrity_check;
  }
} {t1 {15 1} t1a {10 1} t1b {8 1} t1c {15 1} ok}

# Queries use partial indices at appropriate times.
#
do_test index7-2.1 {
  execsql {
    CREATE TABLE t2(a,b PRIMARY KEY) without rowid;
    INSERT INTO t2(a,b) SELECT value, value FROM nums WHERE value<1000;
    UPDATE t2 SET a=NULL WHERE b%5==0;
    CREATE INDEX t2a1 ON t2(a) WHERE a IS NOT NULL;

Added test/intreal.test.









































































































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# 2019-05-03
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
# Tests to exercise the MEM_IntReal representation of Mem objects.
#
set testdir [file dirname $argv0]
source $testdir/tester.tcl
set ::testprefix intreal

sqlite3_create_function db
do_execsql_test 100 {
  SELECT intreal(5);
} {5.0}
do_execsql_test 110 {
  SELECT intreal(5)=5, 6=intreal(6);
} {1 1}
do_execsql_test 120 {
  SELECT intreal(7)=7.0, 8.0=intreal(8);
} {1 1}
do_execsql_test 130 {
  SELECT typeof(intreal(9));
} {real}
do_execsql_test 140 {
  SELECT 'a'||intreal(11)||'z';
} {a11.0z}

do_execsql_test 150 {
  SELECT max(1.0,intreal(2),3.0), max(1,intreal(2),3);
} {3.0 3}
do_execsql_test 160 {
  SELECT max(1.0,intreal(4),3.0), max(1,intreal(4),3);
} {4.0 4.0}
do_execsql_test 170 {
  SELECT max(1.0,intreal(2),intreal(3),4.0),
         max(1,intreal(2),intreal(3),4);
} {4.0 4}
do_execsql_test 180 {
  SELECT max(1.0,intreal(5),intreal(3),4.0),
         max(1,intreal(5),intreal(3),4);
} {5.0 5.0}




finish_test

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} {/abc}
do_eqp_test like3-5.211 {
  SELECT x FROM t5b WHERE x GLOB '/a*';
} {
  QUERY PLAN
  `--SEARCH TABLE t5b USING COVERING INDEX sqlite_autoindex_t5b_1 (x>? AND x<?)
}






















# 2019-02-27
# Verify that the LIKE optimization works with an ESCAPE clause when
# using PRAGMA case_sensitive_like=ON.
#

do_execsql_test like3-6.100 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(path TEXT COLLATE nocase PRIMARY KEY,a,b,c) WITHOUT ROWID;
}
do_eqp_test like3-6.110 {
  SELECT * FROM t1 WHERE path LIKE 'a%';
} {
................................................................................
  `--SEARCH TABLE t2 USING INDEX t2path2 (path>? AND path<?)
}
do_eqp_test like3-6.240 {
  SELECT * FROM t2 WHERE path LIKE 'a%' ESCAPE '_';
} {
  QUERY PLAN
  `--SEARCH TABLE t2 USING INDEX t2path2 (path>? AND path<?)

}

finish_test







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} {/abc}
do_eqp_test like3-5.211 {
  SELECT x FROM t5b WHERE x GLOB '/a*';
} {
  QUERY PLAN
  `--SEARCH TABLE t5b USING COVERING INDEX sqlite_autoindex_t5b_1 (x>? AND x<?)
}

# 2019-05-01
# another case of the above reported on the mailing list by Manuel Rigger.
#
do_execsql_test like3-5.300 {
  CREATE TABLE t5c (c0 REAL);
  CREATE INDEX t5c_0 ON t5c(c0 COLLATE NOCASE);
  INSERT INTO t5c(rowid, c0) VALUES (99,'+/');
  SELECT * FROM t5c WHERE (c0 LIKE '+/');
} {+/}

# 2019-05-08
# Yet another case for the above from Manuel Rigger.
#
do_execsql_test like3-5.400 {
  DROP TABLE IF EXISTS t0;
  CREATE TABLE t0(c0 INT UNIQUE COLLATE NOCASE);
  INSERT INTO t0(c0) VALUES ('./');
  SELECT * FROM t0 WHERE t0.c0 LIKE './';
} {./}


# 2019-02-27
# Verify that the LIKE optimization works with an ESCAPE clause when
# using PRAGMA case_sensitive_like=ON.
#
ifcapable !icu {
do_execsql_test like3-6.100 {
  DROP TABLE IF EXISTS t1;
  CREATE TABLE t1(path TEXT COLLATE nocase PRIMARY KEY,a,b,c) WITHOUT ROWID;
}
do_eqp_test like3-6.110 {
  SELECT * FROM t1 WHERE path LIKE 'a%';
} {
................................................................................
  `--SEARCH TABLE t2 USING INDEX t2path2 (path>? AND path<?)
}
do_eqp_test like3-6.240 {
  SELECT * FROM t2 WHERE path LIKE 'a%' ESCAPE '_';
} {
  QUERY PLAN
  `--SEARCH TABLE t2 USING INDEX t2path2 (path>? AND path<?)
}
}

finish_test

Changes to test/oserror.test.

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#
# The xOpen() method of the unix VFS calls getcwd() as well as open().
# Although this does not appear to be documented in the man page, on OSX
# a call to getcwd() may fail if there are no free file descriptors. So
# an error may be reported for either open() or getcwd() here.
#
if {![clang_sanitize_address]} {



  do_test 1.1.1 {
    set ::log [list]
    list [catch {
      for {set i 0} {$i < 20000} {incr i} { sqlite3 dbh_$i test.db -readonly 1 }
    } msg] $msg




  } {1 {unable to open database file}}





  do_test 1.1.2 {
    catch { for {set i 0} {$i < 20000} {incr i} { dbh_$i close } }

  } {1}
  do_re_test 1.1.3 { 
    lindex $::log 0 
  } {^os_unix.c:\d+: \(\d+\) (open|getcwd)\(.*test.db\) - }

}


# Test a failure in open() due to the path being a directory.
#
do_test 1.2.1 {
  file mkdir dir.db







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#
# The xOpen() method of the unix VFS calls getcwd() as well as open().
# Although this does not appear to be documented in the man page, on OSX
# a call to getcwd() may fail if there are no free file descriptors. So
# an error may be reported for either open() or getcwd() here.
#
if {![clang_sanitize_address]} {
  unset -nocomplain rc
  unset -nocomplain nOpen
  set nOpen 20000
  do_test 1.1.1 {
    set ::log [list]
    set ::rc [catch {
      for {set i 0} {$i < $::nOpen} {incr i} { sqlite3 dbh_$i test.db -readonly 1 }
    } msg]
    if {$::rc==0} {
      # Some system (ex: Debian) are able to create 20000+ file descriptiors
      # such systems will not fail here
      set x ok
    } elseif {$::rc==1 && $msg=="unable to open database file"} {
      set x ok
    } else {
      set x [list $::rc $msg]
    }
  } {ok}
  do_test 1.1.2 {
    catch { for {set i 0} {$i < $::nOpen} {incr i} { dbh_$i close } }
  } $::rc
  if {$rc} {
    do_re_test 1.1.3 { 
      lindex $::log 0 
    } {^os_unix.c:\d+: \(\d+\) (open|getcwd)\(.*test.db\) - }
  }
}


# Test a failure in open() due to the path being a directory.
#
do_test 1.2.1 {
  file mkdir dir.db

Added test/recover.test.













































































































































































































































































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# 2019 April 23
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# Test the shell tool ".ar" command.
#

set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix recover

ifcapable !vtab {
  finish_test; return
}
set CLI [test_find_cli]

proc compare_result {db1 db2 sql} {
  set r1 [$db1 eval $sql]
  set r2 [$db2 eval $sql]
  if {$r1 != $r2} {
  puts "r1: $r1"
  puts "r2: $r2"
    error "mismatch for $sql"
  }
  return ""
}

proc compare_dbs {db1 db2} {
  compare_result $db1 $db2 "SELECT sql FROM sqlite_master ORDER BY 1"
  foreach tbl [$db1 eval {SELECT name FROM sqlite_master WHERE type='table'}] {
    compare_result $db1 $db2 "SELECT * FROM $tbl"
  }
}

proc do_recover_test {tn {tsql {}} {res {}}} {
  set fd [open "|$::CLI test.db .recover"]
  fconfigure $fd -encoding binary
  fconfigure $fd -translation binary
  set sql [read $fd]
  close $fd

  forcedelete test.db2
  sqlite3 db2 test.db2
  execsql $sql db2
  if {$tsql==""} {
    uplevel [list do_test $tn [list compare_dbs db db2] {}]
  } else {
    uplevel [list do_execsql_test -db db2 $tn $tsql $res]
  }
  db2 close
}

set doc {
  hello
  world
}
do_execsql_test 1.1.1 {
  CREATE TABLE t1(a INTEGER PRIMARY KEY, b, c);
  INSERT INTO t1 VALUES(1, 4, X'1234567800');
  INSERT INTO t1 VALUES(2, 'test', 8.1);
  INSERT INTO t1 VALUES(3, $doc, 8.4);
}
do_recover_test 1.1.2

do_execsql_test 1.2.1 "
  DELETE FROM t1;
  INSERT INTO t1 VALUES(13, 'hello\r\nworld', 13);
"
do_recover_test 1.2.2

do_execsql_test 1.3.1 "
  CREATE TABLE t2(i INTEGER PRIMARY KEY AUTOINCREMENT, b, c);
  INSERT INTO t2 VALUES(NULL, 1, 2);
  INSERT INTO t2 VALUES(NULL, 3, 4);
  INSERT INTO t2 VALUES(NULL, 5, 6);
  CREATE TABLE t3(i INTEGER PRIMARY KEY AUTOINCREMENT, b, c);
  INSERT INTO t3 VALUES(NULL, 1, 2);
  INSERT INTO t3 VALUES(NULL, 3, 4);
  INSERT INTO t3 VALUES(NULL, 5, 6);
  DELETE FROM t2;
"
do_recover_test 1.3.2

#-------------------------------------------------------------------------
reset_db
do_execsql_test 2.1.0 {
  PRAGMA auto_vacuum = 0;
  CREATE TABLE t1(a, b, c, PRIMARY KEY(b, c)) WITHOUT ROWID;
  INSERT INTO t1 VALUES(1, 2, 3);
  INSERT INTO t1 VALUES(4, 5, 6);
  INSERT INTO t1 VALUES(7, 8, 9);
}

do_recover_test 2.1.1

do_execsql_test 2.2.0 {
  PRAGMA writable_schema = 1;
  DELETE FROM sqlite_master WHERE name='t1';
}
do_recover_test 2.2.1 {
  SELECT name FROM sqlite_master
} {lost_and_found}

do_execsql_test 2.3.0 {
  CREATE TABLE lost_and_found(a, b, c);
}
do_recover_test 2.3.1 {
  SELECT name FROM sqlite_master
} {lost_and_found lost_and_found_0}

do_execsql_test 2.4.0 {
  CREATE TABLE lost_and_found_0(a, b, c);
}
do_recover_test 2.4.1 {
  SELECT name FROM sqlite_master;
  SELECT * FROM lost_and_found_1;
} {lost_and_found lost_and_found_0 lost_and_found_1
  2 2 3 {} 2 3 1
  2 2 3 {} 5 6 4
  2 2 3 {} 8 9 7
}

#-------------------------------------------------------------------------
reset_db
do_recover_test 3.0

finish_test

Changes to test/reindex.test.

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# This file implements regression tests for SQLite library.
# This file implements tests for the REINDEX command.
#
# $Id: reindex.test,v 1.4 2008/07/12 14:52:20 drh Exp $

set testdir [file dirname $argv0]
source $testdir/tester.tcl


# There is nothing to test if REINDEX is disable for this build.
#
ifcapable {!reindex} {
  finish_test
  return
}
................................................................................
    REINDEX;
  } db2
} {1 {no such collation sequence: c2}}

do_test reindex-3.99 {
  db2 close
} {}


































finish_test







>







 








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# This file implements regression tests for SQLite library.
# This file implements tests for the REINDEX command.
#
# $Id: reindex.test,v 1.4 2008/07/12 14:52:20 drh Exp $

set testdir [file dirname $argv0]
source $testdir/tester.tcl
set testprefix reindex

# There is nothing to test if REINDEX is disable for this build.
#
ifcapable {!reindex} {
  finish_test
  return
}
................................................................................
    REINDEX;
  } db2
} {1 {no such collation sequence: c2}}

do_test reindex-3.99 {
  db2 close
} {}

#-------------------------------------------------------------------------
foreach {tn wo} {1 "" 2 "WITHOUT ROWID"} {
  reset_db
  eval [string map [list %without_rowid% $wo] {
    do_execsql_test 4.$tn.0 {
      CREATE TABLE t0 (
        c0 INTEGER PRIMARY KEY DESC, 
        c1 UNIQUE DEFAULT NULL
      ) %without_rowid% ;
      INSERT INTO t0(c0) VALUES (1), (2), (3), (4), (5);
      SELECT c0 FROM t0 WHERE c1 IS NULL ORDER BY 1;
    } {1 2 3 4 5}
    
    do_execsql_test 4.$tn.1 {
      REINDEX;
    }
    
    do_execsql_test 4.$tn.2 {
      SELECT c0 FROM t0 WHERE c1 IS NULL ORDER BY 1;
    } {1 2 3 4 5}

    do_execsql_test 4.$tn.3 {
      SELECT c0 FROM t0 WHERE c1 IS NULL AND c0 IN (1,2,3,4,5);
    } {1 2 3 4 5}

    do_execsql_test 4.$tn.4 {
      PRAGMA integrity_check;
    } {ok}
  }]
}



finish_test

Changes to test/releasetest.tcl.

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  if {!$rc} {
    if {[info exists ::env(TCLSH_CMD)]} {
      set savedEnv(TCLSH_CMD) $::env(TCLSH_CMD)
    } else {
      unset -nocomplain savedEnv(TCLSH_CMD)
    }
    set ::env(TCLSH_CMD) [file nativename [info nameofexecutable]]




    set rc [catch [makeCommand $testtarget $makeOpts $cflags $opts]]















    if {[info exists savedEnv(TCLSH_CMD)]} {
      set ::env(TCLSH_CMD) $savedEnv(TCLSH_CMD)
    } else {
      unset -nocomplain ::env(TCLSH_CMD)
    }
  }

................................................................................
  lappend result >& test.log
}

# The following procedure returns the "make" command to be executed for the
# specified targets, compiler flags, and options.
#
proc makeCommand { targets makeOpts cflags opts } {
  set result [list trace_cmd exec]
  if {$::MSVC} {
    set nmakeDir [file nativename $::SRCDIR]
    set nmakeFile [file nativename [file join $nmakeDir Makefile.msc]]
    lappend result nmake /f $nmakeFile TOP=$nmakeDir
    set tclDir [file nativename [file normalize \
        [file dirname [file dirname [info nameofexecutable]]]]]
    lappend result "TCLDIR=$tclDir"
................................................................................
  foreach makeOpt $makeOpts {
    lappend result $makeOpt
  }
  lappend result clean
  foreach target $targets {
    lappend result $target
  }
  lappend result CFLAGS=$cflags OPTS=$opts >>& test.log
}

# The following procedure prints its arguments if ::TRACE is true.
# And it executes the command of its arguments in the calling context
# if ::DRYRUN is false.
#
proc trace_cmd {args} {







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  if {!$rc} {
    if {[info exists ::env(TCLSH_CMD)]} {
      set savedEnv(TCLSH_CMD) $::env(TCLSH_CMD)
    } else {
      unset -nocomplain savedEnv(TCLSH_CMD)
    }
    set ::env(TCLSH_CMD) [file nativename [info nameofexecutable]]

    # Create a file called "makecommand.sh" containing the text of
    # the make command line.
    catch {
      set cmd [makeCommand $testtarget $makeOpts $cflags $opts]
      set fd [open makecommand.sh w]
      foreach e $cmd { 
        if {[string first " " $e]>=0} {
          puts -nonewline $fd "\"$e\""
        } else {
          puts -nonewline $fd $e
        }
        puts -nonewline $fd " "
      }
      puts $fd ""
      close $fd
    } msg

    # Run the make command.
    set rc [catch {trace_cmd exec {*}$cmd >>& test.log} msg]
    if {[info exists savedEnv(TCLSH_CMD)]} {
      set ::env(TCLSH_CMD) $savedEnv(TCLSH_CMD)
    } else {
      unset -nocomplain ::env(TCLSH_CMD)
    }
  }

................................................................................
  lappend result >& test.log
}

# The following procedure returns the "make" command to be executed for the
# specified targets, compiler flags, and options.
#
proc makeCommand { targets makeOpts cflags opts } {
  set result [list]
  if {$::MSVC} {
    set nmakeDir [file nativename $::SRCDIR]
    set nmakeFile [file nativename [file join $nmakeDir Makefile.msc]]
    lappend result nmake /f $nmakeFile TOP=$nmakeDir
    set tclDir [file nativename [file normalize \
        [file dirname [file dirname [info nameofexecutable]]]]]
    lappend result "TCLDIR=$tclDir"
................................................................................
  foreach makeOpt $makeOpts {
    lappend result $makeOpt
  }
  lappend result clean
  foreach target $targets {
    lappend result $target
  }
  lappend result CFLAGS=$cflags OPTS=$opts
}

# The following procedure prints its arguments if ::TRACE is true.
# And it executes the command of its arguments in the calling context
# if ::DRYRUN is false.
#
proc trace_cmd {args} {

Changes to test/rowid.test.

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do_test rowid-11.3 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<'abc'}
} {1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8}
do_test rowid-11.4 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<='abc'}
} {1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8}



























# Test the automatic generation of rowids when the table already contains
# a rowid with the maximum value.
#
# Once the maximum rowid is taken, rowids are normally chosen at
# random.  By by reseting the random number generator, we can cause
# the rowid guessing loop to collide with prior rowids, and test the
# loop out to its limit of 100 iterations.  After 100 collisions, the
................................................................................
db function addrow rowid_addrow_func
do_execsql_test rowid-13.1 {
  CREATE TABLE t13(x);
  INSERT INTO t13(rowid,x) VALUES(1234,5);
  SELECT rowid, x, addrow(rowid+1000), '|' FROM t13 LIMIT 3;
  SELECT last_insert_rowid();
} {1234 5 2234 | 2234 4990756 3234 | 3234 10458756 4234 | 4234}











































finish_test







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do_test rowid-11.3 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<'abc'}
} {1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8}
do_test rowid-11.4 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<='abc'}
} {1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8}

do_test rowid-11.asc.1 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid>'abc' ORDER BY 1 ASC}
} {}
do_test rowid-11.asc.2 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid>='abc' ORDER BY 1 ASC}
} {}
do_test rowid-11.asc.3 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<'abc' ORDER BY 1 ASC}
} {1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8}
do_test rowid-11.asc.4 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<='abc' ORDER BY 1 ASC}
} {1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8}

do_test rowid-11.desc.1 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid>'abc' ORDER BY 1 DESC}
} {}
do_test rowid-11.desc.2 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid>='abc' ORDER BY 1 DESC}
} {}
do_test rowid-11.desc.3 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<'abc' ORDER BY 1 DESC}
} {8 8 7 7 6 6 5 5 4 4 3 3 2 2 1 1}
do_test rowid-11.desc.4 {
  execsql {SELECT rowid, a FROM t5 WHERE rowid<='abc' ORDER BY 1 DESC}
} {8 8 7 7 6 6 5 5 4 4 3 3 2 2 1 1}

# Test the automatic generation of rowids when the table already contains
# a rowid with the maximum value.
#
# Once the maximum rowid is taken, rowids are normally chosen at
# random.  By by reseting the random number generator, we can cause
# the rowid guessing loop to collide with prior rowids, and test the
# loop out to its limit of 100 iterations.  After 100 collisions, the
................................................................................
db function addrow rowid_addrow_func
do_execsql_test rowid-13.1 {
  CREATE TABLE t13(x);
  INSERT INTO t13(rowid,x) VALUES(1234,5);
  SELECT rowid, x, addrow(rowid+1000), '|' FROM t13 LIMIT 3;
  SELECT last_insert_rowid();
} {1234 5 2234 | 2234 4990756 3234 | 3234 10458756 4234 | 4234}

#-------------------------------------------------------------------------
do_execsql_test rowid-14.0 {
  CREATE TABLE t14(x INTEGER PRIMARY KEY);
  INSERT INTO t14(x) VALUES (100);
}
do_execsql_test rowid-14.1 {
  SELECT * FROM t14 WHERE x < 'a' ORDER BY rowid ASC;
} {100}
do_execsql_test rowid-14.2 {
  SELECT * FROM t14 WHERE x < 'a' ORDER BY rowid DESC;
} {100}

do_execsql_test rowid-14.3 {
  DELETE FROM t14;
  SELECT * FROM t14 WHERE x < 'a' ORDER BY rowid ASC;
} {}
do_execsql_test rowid-14.4 {
  SELECT * FROM t14 WHERE x < 'a' ORDER BY rowid DESC;
} {}

reset_db
do_execsql_test rowid-15.0 {
  PRAGMA reverse_unordered_selects=true;
  CREATE TABLE t1 (c0, c1);
  CREATE TABLE t2 (c0 INT UNIQUE);
  INSERT INTO t1(c0, c1) VALUES (0, 0), (0, NULL);
  INSERT INTO t2(c0) VALUES (1);
}

do_execsql_test rowid-15.1 {
  SELECT t2.c0, t1.c1 FROM t1, t2 
  WHERE (t2.rowid <= 'a') OR (t1.c0 <= t2.c0) LIMIT 100
} {1 {} 1 0}

do_execsql_test rowid-15.2 {
  SELECT 1, NULL INTERSECT SELECT * FROM (
      SELECT t2.c0, t1.c1 FROM t1, t2
      WHERE ((t2.rowid <= 'a')) OR (t1.c0 <= t2.c0) ORDER BY 'a' DESC LIMIT 100
  );
} {1 {}}


finish_test

Changes to test/select3.test.

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  }
} {real}
do_test select3-8.2 {
  execsql {
    SELECT typeof(sum(a3)) FROM a GROUP BY a1;
  }
} {real}














































finish_test








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  }
} {real}
do_test select3-8.2 {
  execsql {
    SELECT typeof(sum(a3)) FROM a GROUP BY a1;
  }
} {real}

# 2019-05-09 ticket https://www.sqlite.org/src/tktview/6c1d3febc00b22d457c7
#
unset -nocomplain x
foreach {id x} {
  100 127
  101 128
  102 -127
  103 -128
  104 -129
  110 32767
  111 32768
  112 -32767
  113 -32768
  114 -32769
  120 2147483647
  121 2147483648
  122 -2147483647
  123 -2147483648
  124 -2147483649
  130 140737488355327
  131 140737488355328
  132 -140737488355327
  133 -140737488355328
  134 -140737488355329
  140 9223372036854775807
  141 -9223372036854775807
  142 -9223372036854775808
  143 9223372036854775806
  144 9223372036854775805
  145 -9223372036854775806
  146 -9223372036854775805

} {
  set x [expr {$x+0}]
  do_execsql_test select3-8.$id {
     DROP TABLE IF EXISTS t1;
     CREATE TABLE t1 (c0, c1 REAL PRIMARY KEY);
     INSERT INTO t1(c0, c1) VALUES (0, $x), (0, 0);
     UPDATE t1 SET c0 = NULL;
     UPDATE OR REPLACE t1 SET c1 = 1;
     SELECT DISTINCT * FROM t1 WHERE (t1.c0 IS NULL);
     PRAGMA integrity_check;
  } {{} 1.0 ok}
}

finish_test

Changes to test/view.test.

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set res [list {SQLITE_DELETE sqlite_stat1 {} main {}}]
ifcapable stat4 { lappend res {SQLITE_DELETE sqlite_stat4 {} main {}} }
do_test view-25.2 {
  set log ""
  db eval {DROP TABLE t25;}
  set log
} $res
















finish_test








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set res [list {SQLITE_DELETE sqlite_stat1 {} main {}}]
ifcapable stat4 { lappend res {SQLITE_DELETE sqlite_stat4 {} main {}} }
do_test view-25.2 {
  set log ""
  db eval {DROP TABLE t25;}
  set log
} $res

#-------------------------------------------------------------------------
do_execsql_test view-26.0 {
  CREATE TABLE t16(a, b, c UNIQUE);
  INSERT INTO t16 VALUES(1, 1, 1);
  INSERT INTO t16 VALUES(2, 2, 2);
  INSERT INTO t16 VALUES(3, 3, 3);
  CREATE VIEW v16 AS SELECT max(a) AS mx, min(b) AS mn FROM t16 GROUP BY c;

  SELECT * FROM v16 AS one, v16 AS two WHERE one.mx=1;
} {
  1 1 1 1 
  1 1 2 2 
  1 1 3 3
}

finish_test

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#   G(keep)     - Boolean. True to delete no files after each test.
#   G(msvc)     - Boolean. True to use MSVC as the compiler.
#   G(tcl)      - Use Tcl from this directory for builds.
#   G(jobs)     - How many sub-processes to run simultaneously.
#
set G(platform) $::tcl_platform(os)-$::tcl_platform(machine)
set G(test)     Normal
set G(keep)     0
set G(msvc)     0
set G(tcl)      [::tcl::pkgconfig get libdir,install]
set G(jobs)     3
set G(debug)    0





proc wapptest_init {} {
  global G

  set lSave [list platform test keep msvc tcl jobs debug] 
  foreach k $lSave { set A($k) $G($k) }
  array unset G
  foreach k $lSave { set G($k) $A($k) }

  # The root of the SQLite source tree.
  set G(srcdir)   [file dirname [file dirname [info script]]]

  # releasetest.tcl script
  set G(releaseTest) [file join [file dirname [info script]] releasetest.tcl]

  set G(sqlite_version) "unknown"

  # Either "config", "running" or "stopped":
  set G(state) "config"

  set G(hostname) "(unknown host)"
  catch { set G(hostname) [exec hostname] } 
  set G(host) $G(hostname)
  append G(host) " $::tcl_platform(os) $::tcl_platform(osVersion)"
  append G(host) " $::tcl_platform(machine) $::tcl_platform(byteOrder)"
}

# Check to see if there are uncommitted changes in the SQLite source
# directory. Return true if there are, or false otherwise.


#
proc check_uncommitted {} {
  global G
  set ret 0
  set pwd [pwd]

  cd $G(srcdir)
  if {[catch {exec fossil changes} res]==0 && [string trim $res]!=""} {
    set ret 1


  }
  cd $pwd
  return $ret

}





proc generate_fossil_info {} {
  global G
  set pwd [pwd]
  cd $G(srcdir)

  if {[catch {exec fossil info}    r1]} return
  if {[catch {exec fossil changes} r2]} return

  cd $pwd


  foreach line [split $r1 "\n"] {
    if {[regexp {^checkout: *(.*)$} $line -> co]} {
      wapp-trim { <br> %html($co) }
    }
  }

................................................................................
    set G(test.$name.errmsg) "Test did not complete"
    if {[file readable core]} {
      append G(test.$name.errmsg) " - core file exists"
    }
  }
}






























proc slave_test_done {name rc} {
  global G
  set G(test.$name.done) [clock seconds]
  set G(test.$name.nError) 0
  set G(test.$name.nTest) 0
  set G(test.$name.errmsg) ""
  if {$rc} {
    incr G(test.$name.nError)
  }
  if {[file exists $G(test.$name.log)]} {
    count_tests_and_errors $name $G(test.$name.log)
  }
}




































proc slave_fileevent {name} {
  global G
  set fd $G(test.$name.channel)

  if {[eof $fd]} {
    fconfigure $fd -blocking 1
    set rc [catch { close $fd }]
................................................................................
  } else {
    set line [gets $fd]
    if {[string trim $line] != ""} { puts "Trace   : $name - \"$line\"" }
  }

  do_some_stuff
}






























































































proc do_some_stuff {} {
  global G

  # Count the number of running jobs. A running job has an entry named
  # "channel" in its dictionary.
  set nRunning 0
................................................................................
    foreach j $G(test_array) {
      set name [dict get $j config]
      incr nError $G(test.$name.nError)
      incr nTest $G(test.$name.nTest)
      incr nConfig 
    }
    set G(result) "$nError errors from $nTest tests in $nConfig configurations."


    catch {
      append G(result) " SQLite version $G(sqlite_version)"

    }
    set G(state) "stopped"


  } else {
    set nLaunch [expr $G(jobs) - $nRunning]
    foreach j $G(test_array) {
      if {$nLaunch<=0} break
      set name [dict get $j config]
      if { ![info exists G(test.$name.channel)]
        && ![info exists G(test.$name.done)]
      } {

        set target [dict get $j target]
        set G(test.$name.start) [clock seconds]
        set fd [open "|[info nameofexecutable] $G(releaseTest) --slave" r+]
        set G(test.$name.channel) $fd
        fconfigure $fd -blocking 0
        fileevent $fd readable [list slave_fileevent $name]

        puts $fd [list 0 $G(msvc) 0 $G(keep)]

        set wtcl ""
        if {$G(tcl)!=""} { set wtcl "--with-tcl=$G(tcl)" }

        # If this configuration is named <name>-(Debug) or <name>-(NDebug),
        # then add or remove the SQLITE_DEBUG option from the base
        # configuration before running the test.
        if {[regexp -- {(.*)-(\(.*\))} $name -> head tail]} {
................................................................................
            regsub { *-DSQLITE_DEBUG[^ ]* *} $opts { } opts
          }
        } else {
          set opts $::Configs($name)
        }

        set L [make_test_suite $G(msvc) $wtcl $name $target $opts]
        puts $fd $L
        flush $fd

        set G(test.$name.log) [file join [lindex $L 1] test.log]
        incr nLaunch -1
      }
    }
  }
}

................................................................................
        if {$G(test.$config.nError)>0} {
          set class "testfail" 
        } else {
          set class "testdone"
        }
        set seconds [expr $G(test.$config.done) - $G(test.$config.start)]
      }

      set min [format %.2d [expr ($seconds / 60) % 60]]
      set  hr [format %.2d [expr $seconds / 3600]]
      set sec [format %.2d [expr $seconds % 60]]
      set seconds "$hr:$min:$sec"
    }

    wapp-trim {
      <tr class=%string($class)>
      <td class="nowrap"> %html($config) 
      <td class="padleft nowrap"> %html($target)
      <td class="padleft nowrap"> %html($seconds)
................................................................................
    if {[wapp-param-exists control_$v]} {
      set G($v) [wapp-param control_$v]
    }
  }

  if {[wapp-param-exists control_run]} {
    # This is a "run test" command.
    set_test_array
    set ::G(state) "running"
  }

  if {[wapp-param-exists control_stop]} {
    # A "STOP tests" command.
    set G(state) "stopped"
    set G(result) "Test halted by user"
    foreach j $G(test_array) {
................................................................................
      set name [dict get $j config]
      if { [info exists G(test.$name.channel)] } {
        close $G(test.$name.channel)
        unset G(test.$name.channel)
        slave_test_done $name 1
      }
    }

  }

  if {[wapp-param-exists control_reset]} {
    # A "reset app" command.
    set G(state) "config"
    wapptest_init
  }
................................................................................
  close $fd
  wapp-trim {
    <pre>
    %html($data)
    </pre>
  }
}











































































































wapptest_init

wapp-start $argv













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#   G(keep)     - Boolean. True to delete no files after each test.
#   G(msvc)     - Boolean. True to use MSVC as the compiler.
#   G(tcl)      - Use Tcl from this directory for builds.
#   G(jobs)     - How many sub-processes to run simultaneously.
#
set G(platform) $::tcl_platform(os)-$::tcl_platform(machine)
set G(test)     Normal
set G(keep)     1
set G(msvc)     0
set G(tcl)      [::tcl::pkgconfig get libdir,install]
set G(jobs)     3
set G(debug)    0

set G(noui)     0
set G(stdout)   0


proc wapptest_init {} {
  global G

  set lSave [list platform test keep msvc tcl jobs debug noui stdout] 
  foreach k $lSave { set A($k) $G($k) }
  array unset G
  foreach k $lSave { set G($k) $A($k) }

  # The root of the SQLite source tree.
  set G(srcdir)   [file dirname [file dirname [info script]]]




  set G(sqlite_version) "unknown"

  # Either "config", "running" or "stopped":
  set G(state) "config"

  set G(hostname) "(unknown host)"
  catch { set G(hostname) [exec hostname] } 
  set G(host) $G(hostname)
  append G(host) " $::tcl_platform(os) $::tcl_platform(osVersion)"
  append G(host) " $::tcl_platform(machine) $::tcl_platform(byteOrder)"
}

proc wapptest_run {} {
  global G
  set_test_array
  set G(state) "running"



  wapptest_openlog


  wapptest_output "Running the following for $G(platform). $G(jobs) jobs."
  foreach t $G(test_array) {
    set config [dict get $t config]
    set target [dict get $t target]
    wapptest_output [format "    %-25s%s" $config $target]
  }


  wapptest_output [string repeat * 70]
}

# Generate the text for the box at the top of the UI. The current SQLite
# version, according to fossil, along with a warning if there are 
# uncommitted changes in the checkout.
#
proc generate_fossil_info {} {
  global G
  set pwd [pwd]
  cd $G(srcdir)
  set rc [catch {
    set r1 [exec fossil info]
    set r2 [exec fossil changes]
  }]
  cd $pwd
  if {$rc} return

  foreach line [split $r1 "\n"] {
    if {[regexp {^checkout: *(.*)$} $line -> co]} {
      wapp-trim { <br> %html($co) }
    }
  }

................................................................................
    set G(test.$name.errmsg) "Test did not complete"
    if {[file readable core]} {
      append G(test.$name.errmsg) " - core file exists"
    }
  }
}

proc wapptest_output {str} {
  global G
  if {$G(stdout)} { puts $str }
  if {[info exists G(log)]} { 
    puts $G(log) $str 
    flush $G(log)
  }
}
proc wapptest_openlog {} {
  global G
  set G(log) [open wapptest-out.txt w+]
}
proc wapptest_closelog {} {
  global G
  close $G(log)
  unset G(log)
}

proc format_seconds {seconds} {
  set min [format %.2d [expr ($seconds / 60) % 60]]
  set  hr [format %.2d [expr $seconds / 3600]]
  set sec [format %.2d [expr $seconds % 60]]
  return "$hr:$min:$sec"
}

# This command is invoked once a slave process has finished running its
# tests, successfully or otherwise. Parameter $name is the name of the 
# test, $rc the exit code returned by the slave process.
#
proc slave_test_done {name rc} {
  global G
  set G(test.$name.done) [clock seconds]
  set G(test.$name.nError) 0
  set G(test.$name.nTest) 0
  set G(test.$name.errmsg) ""
  if {$rc} {
    incr G(test.$name.nError)
  }
  if {[file exists $G(test.$name.log)]} {
    count_tests_and_errors $name $G(test.$name.log)
  }

  # If the "keep files" checkbox is clear, delete all files except for
  # the executables and test logs. And any core file that is present.
  if {$G(keep)==0} {
    set keeplist {
      testfixture testfixture.exe
      sqlite3 sqlite3.exe
      test.log test-out.txt
      core
      wapptest_make.sh
      wapptest_configure.sh
      wapptest_run.tcl
    }
    foreach f [glob -nocomplain [file join $G(test.$name.dir) *]] {
      set t [file tail $f]
      if {[lsearch $keeplist $t]<0} {
        catch { file delete -force $f }
      }
    }
  }

  # Format a message regarding the success or failure of hte test.
  set t [format_seconds [expr $G(test.$name.done) - $G(test.$name.start)]]
  set res "OK"
  if {$G(test.$name.nError)} { set res "FAILED" }
  set dots [string repeat . [expr 60 - [string length $name]]]
  set msg "$name $dots $res ($t)"

  wapptest_output $msg
  if {[info exists G(test.$name.errmsg)] && $G(test.$name.errmsg)!=""} {
    wapptest_output "    $G(test.$config.errmsg)"
  }
}

# This is a fileevent callback invoked each time a file-descriptor that
# connects this process to a slave process is readable.
#
proc slave_fileevent {name} {
  global G
  set fd $G(test.$name.channel)

  if {[eof $fd]} {
    fconfigure $fd -blocking 1
    set rc [catch { close $fd }]
................................................................................
  } else {
    set line [gets $fd]
    if {[string trim $line] != ""} { puts "Trace   : $name - \"$line\"" }
  }

  do_some_stuff
}

# Return the contents of the "slave script" - the script run by slave 
# processes to actually perform the test. It does two things:
#
#   1. Reads and [exec]s the contents of file wapptest_configure.sh.
#   2. Reads and [exec]s the contents of file wapptest_make.sh.
#
# Step 1 is omitted if the test uses MSVC (which does not use configure).
#
proc wapptest_slave_script {} {
  global G
  set res {
    proc readfile {filename} {
      set fd [open $filename]
      set data [read $fd]
      close $fd
      return $data
    }
  }

  if {$G(msvc)==0} { 
    append res {
      set cfg  [readfile wapptest_configure.sh]
      set rc [catch { exec {*}$cfg >& test.log } msg]
      if {$rc==0} {
        set make [readfile wapptest_make.sh]
        set rc [catch { exec {*}$make >>& test.log }]
      }
    } 
  } else { 
    append res {
      set make [readfile wapptest_make.sh]
      set rc [catch { exec {*}$make >>& test.log }]
    }
  }

  append res { exit $rc }

  set res
}


# Launch a slave process to run a test.
#
proc slave_launch {
  name wtcl title dir configOpts testtarget makeOpts cflags opts
} {
  global G

  catch { file mkdir $dir } msg
  foreach f [glob -nocomplain [file join $dir *]] {
    catch { file delete -force $f }
  }
  set G(test.$name.dir) $dir

  # Write the configure command to wapptest_configure.sh. This file
  # is empty if using MSVC - MSVC does not use configure.
  #
  set fd1 [open [file join $dir wapptest_configure.sh] w]
  if {$G(msvc)==0} {
    puts $fd1 "[file join .. $G(srcdir) configure] $wtcl $configOpts"
  }
  close $fd1

  # Write the make command to wapptest_make.sh. Using nmake for MSVC and
  # make for all other systems.
  #
  set makecmd "make"
  if {$G(msvc)} { 
    set nativedir [file nativename $G(srcdir)]
    set nativedir [string map [list "\\" "\\\\"] $nativedir]
    set makecmd "nmake /f [file join $nativedir Makefile.msc] TOP=$nativedir"
  }
  set fd2 [open [file join $dir wapptest_make.sh] w]
  puts $fd2 "$makecmd $makeOpts $testtarget \"CFLAGS=$cflags\" \"OPTS=$opts\""
  close $fd2

  # Write the wapptest_run.tcl script to the test directory. To run the
  # commands in the other two files.
  #
  set fd3 [open [file join $dir wapptest_run.tcl] w]
  puts $fd3 [wapptest_slave_script]
  close $fd3

  set pwd [pwd]
  cd $dir
  set fd [open "|[info nameofexecutable] wapptest_run.tcl" r+]
  cd $pwd

  set G(test.$name.channel) $fd
  fconfigure $fd -blocking 0
  fileevent $fd readable [list slave_fileevent $name]
}

proc do_some_stuff {} {
  global G

  # Count the number of running jobs. A running job has an entry named
  # "channel" in its dictionary.
  set nRunning 0
................................................................................
    foreach j $G(test_array) {
      set name [dict get $j config]
      incr nError $G(test.$name.nError)
      incr nTest $G(test.$name.nTest)
      incr nConfig 
    }
    set G(result) "$nError errors from $nTest tests in $nConfig configurations."
    wapptest_output [string repeat * 70]
    wapptest_output $G(result)
    catch {
      append G(result) " SQLite version $G(sqlite_version)"
      wapptest_output " SQLite version $G(sqlite_version)"
    }
    set G(state) "stopped"
    wapptest_closelog
    if {$G(noui)} { exit 0 }
  } else {
    set nLaunch [expr $G(jobs) - $nRunning]
    foreach j $G(test_array) {
      if {$nLaunch<=0} break
      set name [dict get $j config]
      if { ![info exists G(test.$name.channel)]
        && ![info exists G(test.$name.done)]
      } {

        set target [dict get $j target]
        set G(test.$name.start) [clock seconds]







        set wtcl ""
        if {$G(tcl)!=""} { set wtcl "--with-tcl=$G(tcl)" }

        # If this configuration is named <name>-(Debug) or <name>-(NDebug),
        # then add or remove the SQLITE_DEBUG option from the base
        # configuration before running the test.
        if {[regexp -- {(.*)-(\(.*\))} $name -> head tail]} {
................................................................................
            regsub { *-DSQLITE_DEBUG[^ ]* *} $opts { } opts
          }
        } else {
          set opts $::Configs($name)
        }

        set L [make_test_suite $G(msvc) $wtcl $name $target $opts]
        set G(test.$name.log) [file join [lindex $L 1] test.log]
        slave_launch $name $wtcl {*}$L

        set G(test.$name.log) [file join [lindex $L 1] test.log]
        incr nLaunch -1
      }
    }
  }
}

................................................................................
        if {$G(test.$config.nError)>0} {
          set class "testfail" 
        } else {
          set class "testdone"
        }
        set seconds [expr $G(test.$config.done) - $G(test.$config.start)]
      }




      set seconds [format_seconds $seconds]
    }

    wapp-trim {
      <tr class=%string($class)>
      <td class="nowrap"> %html($config) 
      <td class="padleft nowrap"> %html($target)
      <td class="padleft nowrap"> %html($seconds)
................................................................................
    if {[wapp-param-exists control_$v]} {
      set G($v) [wapp-param control_$v]
    }
  }

  if {[wapp-param-exists control_run]} {
    # This is a "run test" command.
    wapptest_run

  }

  if {[wapp-param-exists control_stop]} {
    # A "STOP tests" command.
    set G(state) "stopped"
    set G(result) "Test halted by user"
    foreach j $G(test_array) {
................................................................................
      set name [dict get $j config]
      if { [info exists G(test.$name.channel)] } {
        close $G(test.$name.channel)
        unset G(test.$name.channel)
        slave_test_done $name 1
      }
    }
    wapptest_closelog
  }

  if {[wapp-param-exists control_reset]} {
    # A "reset app" command.
    set G(state) "config"
    wapptest_init
  }
................................................................................
  close $fd
  wapp-trim {
    <pre>
    %html($data)
    </pre>
  }
}

# Print out a usage message. Then do [exit 1].
#
proc wapptest_usage {} {
  puts stderr {
This Tcl script is used to test various configurations of SQLite. By
default it uses "wapp" to provide an interactive interface. Supported 
command line options (all optional) are:

    --platform    PLATFORM         (which tests to run)
    --smoketest                    (run "make smoketest" only)
    --veryquick                    (run veryquick.test only)
    --buildonly                    (build executables, do not run tests)
    --jobs        N                (number of concurrent jobs)
    --tcl         DIR              (where to find tclConfig.sh)
    --deletefiles                  (delete extra files after each test)
    --msvc                         (Use MS Visual C)
    --debug                        (Also run [n]debugging versions of tests)
    --noui                         (do not use wapp)
  }
  exit 1
}

# Sort command line arguments into two groups: those that belong to wapp,
# and those that belong to the application.
set WAPPARG(-server)      1
set WAPPARG(-local)       1
set WAPPARG(-scgi)        1
set WAPPARG(-remote-scgi) 1
set WAPPARG(-fromip)      1
set WAPPARG(-nowait)      0
set WAPPARG(-cgi)         0
set lWappArg [list]
set lTestArg [list]
for {set i 0} {$i < [llength $argv]} {incr i} {
  set arg [lindex $argv $i]
  if {[string range $arg 0 1]=="--"} {
    set arg [string range $arg 1 end]
  }
  if {[info exists WAPPARG($arg)]} {
    lappend lWappArg $arg
    if {$WAPPARG($arg)} {
      incr i
      lappend lWappArg [lindex $argv $i]
    }
  } else {
    lappend lTestArg $arg
  }
}

for {set i 0} {$i < [llength $lTestArg]} {incr i} {
  switch -- [lindex $lTestArg $i] {
    -platform {
      if {$i==[llength $lTestArg]-1} { wapptest_usage }
      incr i
      set arg [lindex $lTestArg $i]
      set lPlatform [array names ::Platforms]
      if {[lsearch $lPlatform $arg]<0} {
        puts stderr "No such platform: $arg. Platforms are: $lPlatform"
        exit -1
      }
      set G(platform) $arg
    }

    -smoketest { set G(test) Smoketest }
    -veryquick { set G(test) Veryquick }
    -buildonly { set G(test) Build-Only }
    -jobs {
      if {$i==[llength $lTestArg]-1} { wapptest_usage }
      incr i
      set G(jobs) [lindex $lTestArg $i]
    }

    -tcl {
      if {$i==[llength $lTestArg]-1} { wapptest_usage }
      incr i
      set G(tcl) [lindex $lTestArg $i]
    }

    -deletefiles {
      set G(keep) 0
    }

    -msvc {
      set G(msvc) 1
    }

    -debug {
      set G(debug) 1
    }

    -noui {
      set G(noui) 1
      set G(stdout) 1
    }

    -stdout {
      set G(stdout) 1
    }

    default {
      puts stderr "Unrecognized option: [lindex $lTestArg $i]"
      wapptest_usage
    }
  }
}

wapptest_init
if {$G(noui)==0} {
  wapp-start $lWappArg
} else {
  wapptest_run
  do_some_stuff
  vwait forever
}

Changes to test/window2.tcl.

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}
execsql_test 4.8.4 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
}










finish_test









>
>
>
>
>
>
>






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}
execsql_test 4.8.4 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
}

execsql_float_test 4.9 {
  SELECT 
    rank() OVER win AS rank,
    cume_dist() OVER win AS cume_dist FROM t1
  WINDOW win AS (ORDER BY 1);
}



finish_test


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} {}

do_execsql_test 4.1 {
  SELECT a, sum(b) OVER (
    PARTITION BY (b%10)
    ORDER BY b
  ) FROM t2 ORDER BY a;
} {1 0   2 754   3 251   4 754   5 101   6 1247   7 132   8 266   9 6   10 950   11 667   12 1052   13 535   14 128   15 428   16 250   17 336   18 1122   19 368   20 6   21 1247   22 1000   23 92   24 368   25 584   26 320   27 1000   28 24   29 478   30 133   31 1049   32 1090   33 632   34 101   35 54   36 54   37 1049   38 450   39 145   40 354   41 21   42 764   43 754   44 424   45 1122   46 930   47 42   48 930   49 352   50 535   51 42   52 118   53 536   54 6   55 1122   56 86   57 770   58 255   59 50   60 52   61 950   62 75   63 354   64 2   65 536   66 160   67 352   68 536   69 54   70 675   71 276   72 950   73 868   74 678   75 667   76 4   77 1184   78 160   79 120   80 584   81 266   82 133   83 405   84 468   85 6   86 806   87 166   88 500   89 1090   90 552   91 251   92 27   93 424   94 687   95 1215   96 450   97 32   98 360   99 1052   100 868   101 2   102 66   103 754   104 450   105 145   106 5   107 687   108 24   109 302   110 806   111 251   112 42   113 24   114 30   115 128   116 128   117 50   118 1215   119 86   120 687   121 683   122 672   123 178   124 24   125 24   126 299   127 178   128 770   129 535   130 1052   131 270   132 255   133 675   134 632   135 266   136 6   137 21   138 930   139 411   140 754   141 133   142 340   143 535   144 46   145 250   146 132   147 132   148 354   149 500   150 770   151 276   152 360   153 354   154 27   155 552   156 552   157 602   158 266   159 1049   160 675   161 384   162 667   163 27   164 101   165 166   166 32   167 42   168 18   169 336   170 1122   171 276   172 1122   173 266   174 50   175 178   176 276   177 1247   178 6   179 1215   180 604   181 360   182 212   183 120   184 210   185 1090   186 10   187 1090   188 266   189 66   190 250   191 266   192 360   193 120   194 128   195 178   196 770   197 92   198 634   199 38   200 21}


























do_execsql_test 4.2 {
  SELECT a, sum(b) OVER (
    PARTITION BY (b%10)
    ORDER BY b
    RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY a;
} {1 0   2 754   3 251   4 754   5 101   6 1247   7 132   8 266   9 6   10 950   11 667   12 1052   13 535   14 128   15 428   16 250   17 336   18 1122   19 368   20 6   21 1247   22 1000   23 92   24 368   25 584   26 320   27 1000   28 24   29 478   30 133   31 1049   32 1090   33 632   34 101   35 54   36 54   37 1049   38 450   39 145   40 354   41 21   42 764   43 754   44 424   45 1122   46 930   47 42   48 930   49 352   50 535   51 42   52 118   53 536   54 6   55 1122   56 86   57 770   58 255   59 50   60 52   61 950   62 75   63 354   64 2   65 536   66 160   67 352   68 536   69 54   70 675   71 276   72 950   73 868   74 678   75 667   76 4   77 1184   78 160   79 120   80 584   81 266   82 133   83 405   84 468   85 6   86 806   87 166   88 500   89 1090   90 552   91 251   92 27   93 424   94 687   95 1215   96 450   97 32   98 360   99 1052   100 868   101 2   102 66   103 754   104 450   105 145   106 5   107 687   108 24   109 302   110 806   111 251   112 42   113 24   114 30   115 128   116 128   117 50   118 1215   119 86   120 687   121 683   122 672   123 178   124 24   125 24   126 299   127 178   128 770   129 535   130 1052   131 270   132 255   133 675   134 632   135 266   136 6   137 21   138 930   139 411   140 754   141 133   142 340   143 535   144 46   145 250   146 132   147 132   148 354   149 500   150 770   151 276   152 360   153 354   154 27   155 552   156 552   157 602   158 266   159 1049   160 675   161 384   162 667   163 27   164 101   165 166   166 32   167 42   168 18   169 336   170 1122   171 276   172 1122   173 266   174 50   175 178   176 276   177 1247   178 6   179 1215   180 604   181 360   182 212   183 120   184 210   185 1090   186 10   187 1090   188 266   189 66   190 250   191 266   192 360   193 120   194 128   195 178   196 770   197 92   198 634   199 38   200 21}


























do_execsql_test 4.3 {
  SELECT b, sum(b) OVER (
    ORDER BY b
    ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY b;
} {0 0   1 1   1 2   2 4   2 6   2 8   3 11   3 14   4 18   5 23   6 29   7 36   7 43   7 50   8 58   8 66   8 74   9 83   9 92   9 101   10 111   11 122   11 133   12 145   12 157   12 169   13 182   13 195   14 209   15 224   15 239   15 254   16 270   16 286   16 302   17 319   19 338   20 358   21 379   21 400   22 422   22 444   23 467   23 490   23 513   24 537   25 562   26 588   26 614   26 640   27 667   27 694   28 722   29 751   29 780   29 809   30 839   30 869   30 899   31 930   31 961   32 993   33 1026   33 1059   33 1092   33 1125   33 1158   34 1192   34 1226   34 1260   34 1294   35 1329   35 1364   36 1400   36 1436   36 1472   36 1508   37 1545   37 1582   38 1620   38 1658   39 1697   39 1736   39 1775   40 1815   41 1856   41 1897   41 1938   42 1980   43 2023   43 2066   44 2110   44 2154   46 2200   46 2246   47 2293   47 2340   47 2387   47 2434   49 2483   50 2533   51 2584   52 2636   53 2689   54 2743   55 2798   55 2853   56 2909   56 2965   56 3021   57 3078   58 3136   58 3194   58 3252   58 3310   59 3369   59 3428   59 3487   59 3546   60 3606   61 3667   61 3728   62 3790   62 3852   63 3915   64 3979   65 4044   65 4109   65 4174   66 4240   67 4307   68 4375   69 4444   70 4514   72 4586   72 4658   72 4730   73 4803   73 4876   73 4949   74 5023   74 5097   74 5171   74 5245   74 5319   75 5394   75 5469   75 5544   76 5620   77 5697   77 5774   78 5852   78 5930   79 6009   80 6089   80 6169   81 6250   81 6331   81 6412   82 6494   83 6577   84 6661   84 6745   84 6829   84 6913   85 6998   85 7083   85 7168   86 7254   87 7341   87 7428   88 7516   89 7605   89 7694   89 7783   90 7873   90 7963   90 8053   91 8144   91 8235   91 8326   91 8417   91 8508   93 8601   93 8694   93 8787   94 8881   95 8976   95 9071   95 9166   96 9262   96 9358   96 9454   97 9551   97 9648   98 9746   98 9844   99 9943   99 10042   99 10141}



























do_execsql_test 4.4 {
  SELECT b, sum(b) OVER (
    ORDER BY b
    RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141   3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141   8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141   11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141   14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141   17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141   23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141   26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141   30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141   33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141   34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141   37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141   40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141   44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141   47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141   55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141   58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141   60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141   65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141   70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141   74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141   75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141   80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141   84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141   86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141   90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141   91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141   95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141   98 10141   99 10141   99 10141   99 10141}





























do_execsql_test 4.5 {
  SELECT b, sum(b) OVER (
    ORDER BY b
    RANGE BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY b;
} {0 0   1 2   1 2   2 6   2 6   2 6   3 6   3 6   4 4   5 5   6 6   7 21   7 21   7 21   8 24   8 24   8 24   9 27   9 27   9 27   10 10   11 22   11 22   12 36   12 36   12 36   13 26   13 26   14 14   15 45   15 45   15 45   16 48   16 48   16 48   17 17   19 19   20 20   21 42   21 42   22 44   22 44   23 69   23 69   23 69   24 24   25 25   26 78   26 78   26 78   27 54   27 54   28 28   29 87   29 87   29 87   30 90   30 90   30 90   31 62   31 62   32 32   33 165   33 165   33 165   33 165   33 165   34 136   34 136   34 136   34 136   35 70   35 70   36 144   36 144   36 144   36 144   37 74   37 74   38 76   38 76   39 117   39 117   39 117   40 40   41 123   41 123   41 123   42 42   43 86   43 86   44 88   44 88   46 92   46 92   47 188   47 188   47 188   47 188   49 49   50 50   51 51   52 52   53 53   54 54   55 110   55 110   56 168   56 168   56 168   57 57   58 232   58 232   58 232   58 232   59 236   59 236   59 236   59 236   60 60   61 122   61 122   62 124   62 124   63 63   64 64   65 195   65 195   65 195   66 66   67 67   68 68   69 69   70 70   72 216   72 216   72 216   73 219   73 219   73 219   74 370   74 370   74 370   74 370   74 370   75 225   75 225   75 225   76 76   77 154   77 154   78 156   78 156   79 79   80 160   80 160   81 243   81 243   81 243   82 82   83 83   84 336   84 336   84 336   84 336   85 255   85 255   85 255   86 86   87 174   87 174   88 88   89 267   89 267   89 267   90 270   90 270   90 270   91 455   91 455   91 455   91 455   91 455   93 279   93 279   93 279   94 94   95 285   95 285   95 285   96 288   96 288   96 288   97 194   97 194   98 196   98 196   99 297   99 297   99 297}























do_execsql_test 4.6.1 {
  SELECT b, sum(b) OVER (
    RANGE BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141   3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141   8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141   11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141   14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141   17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141   23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141   26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141   30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141   33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141   34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141   37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141   40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141   44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141   47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141   55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141   58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141   60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141   65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141   70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141   74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141   75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141   80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141   84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141   86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141   90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141   91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141   95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141   98 10141   99 10141   99 10141   99 10141}





























do_execsql_test 4.6.2 {
  SELECT b, sum(b) OVER () FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141   3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141   8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141   11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141   14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141   17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141   23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141   26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141   30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141   33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141   34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141   37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141   40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141   44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141   47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141   55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141   58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141   60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141   65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141   70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141   74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141   75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141   80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141   84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141   86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141   90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141   91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141   95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141   98 10141   99 10141   99 10141   99 10141}





























do_execsql_test 4.6.3 {
  SELECT b, sum(b) OVER (
    RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141   3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141   8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141   11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141   14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141   17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141   23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141   26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141   30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141   33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141   34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141   37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141   40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141   44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141   47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141   55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141   58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141   60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141   65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141   70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141   74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141   75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141   80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141   84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141   86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141   90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141   91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141   95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141   98 10141   99 10141   99 10141   99 10141}





























do_execsql_test 4.6.4 {
  SELECT b, sum(b) OVER (
    RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141   3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141   8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141   11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141   14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141   17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141   23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141   26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141   30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141   33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141   34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141   37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141   40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141   44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141   47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141   55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141   58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141   60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141   65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141   70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141   74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141   75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141   80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141   84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141   86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141   90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141   91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141   95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141   98 10141   99 10141   99 10141   99 10141}





























do_execsql_test 4.7.1 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 1   1 1   2 2   2 2   2 2   3 3   3 3   4 4   5 5   6 6   7 7   7 7   7 7   8 8   8 8   8 8   9 9   9 9   9 9   10 10   11 11   11 11   12 12   12 12   12 12   13 13   13 13   14 14   15 15   15 15   15 15   16 16   16 16   16 16   17 17   19 19   20 20   21 21   21 21   22 22   22 22   23 23   23 23   23 23   24 24   25 25   26 26   26 26   26 26   27 27   27 27   28 28   29 29   29 29   29 29   30 30   30 30   30 30   31 31   31 31   32 32   33 33   33 33   33 33   33 33   33 33   34 34   34 34   34 34   34 34   35 35   35 35   36 36   36 36   36 36   36 36   37 37   37 37   38 38   38 38   39 39   39 39   39 39   40 40   41 41   41 41   41 41   42 42   43 43   43 43   44 44   44 44   46 46   46 46   47 47   47 47   47 47   47 47   49 49   50 50   51 51   52 52   53 53   54 54   55 55   55 55   56 56   56 56   56 56   57 57   58 58   58 58   58 58   58 58   59 59   59 59   59 59   59 59   60 60   61 61   61 61   62 62   62 62   63 63   64 64   65 65   65 65   65 65   66 66   67 67   68 68   69 69   70 70   72 72   72 72   72 72   73 73   73 73   73 73   74 74   74 74   74 74   74 74   74 74   75 75   75 75   75 75   76 76   77 77   77 77   78 78   78 78   79 79   80 80   80 80   81 81   81 81   81 81   82 82   83 83   84 84   84 84   84 84   84 84   85 85   85 85   85 85   86 86   87 87   87 87   88 88   89 89   89 89   89 89   90 90   90 90   90 90   91 91   91 91   91 91   91 91   91 91   93 93   93 93   93 93   94 94   95 95   95 95   95 95   96 96   96 96   96 96   97 97   97 97   98 98   98 98   99 99   99 99   99 99}






















do_execsql_test 4.7.2 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 3379   1 5443   2 372   2 4473   2 7074   3 2916   3 9096   4 4049   5 5643   6 1047   7 2205   7 7081   7 10141   8 1553   8 5926   8 6422   9 4883   9 7932   9 8497   10 9544   11 5727   11 6433   12 2825   12 5918   12 8582   13 5190   13 8570   14 8596   15 3189   15 6023   15 8924   16 1942   16 1958   16 3590   17 10134   19 7474   20 5946   21 5464   21 9682   22 3029   22 6140   23 212   23 1926   23 8520   24 2626   25 3331   26 337   26 7539   26 7565   27 1270   27 10035   28 3217   29 1649   29 4355   29 7326   30 4215   30 9400   30 9853   31 5977   31 6008   32 2857   33 370   33 4326   33 8175   33 8909   33 9661   34 6414   34 6516   34 8958   34 9925   35 2151   35 5638   36 3701   36 7818   36 8785   36 8994   37 4597   37 8557   38 735   38 9891   39 842   39 7513   39 9721   40 3475   41 115   41 4874   41 5906   42 4185   43 2754   43 3518   44 7072   44 9765   46 1041   46 1316   47 2198   47 3378   47 7612   47 7923   49 6482   50 9450   51 5778   52 9370   53 4408   54 1448   55 3174   55 6876   56 2913   56 3435   56 3574   57 7223   58 5248   58 7876   58 9318   58 9823   59 697   59 2813   59 6665   59 7455   60 6821   61 2426   61 4944   62 904   62 8658   63 4471   64 8407   65 2116   65 5177   65 5603   66 8142   67 1620   68 803   69 9260   70 7396   72 4833   72 8004   72 8076   73 5017   73 5716   73 6213   74 74   74 189   74 2365   74 5538   74 7297   75 3665   75 6951   75 8343   76 3964   77 1903   77 7028   78 1394   78 4293   79 6292   80 4677   80 7692   81 542   81 4045   81 8488   82 10117   83 10008   84 1826   84 4761   84 9534   84 9628   85 2602   85 2711   85 7166   86 2291   87 4560   87 5865   88 6380   89 461   89 3306   89 3790   90 3119   90 6606   90 7782   91 995   91 2517   91 3007   91 8749   91 8876   93 1742   93 2051   93 8268   94 4143   95 5112   95 6118   95 9191   96 638   96 5344   96 6761   97 1243   97 1545   98 3888   98 5442   99 311   99 1146   99 9093}




























do_execsql_test 4.7.3 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141   3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141   8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141   11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141   14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141   17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141   23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141   26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141   30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141   33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141   34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141   37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141   40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141   44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141   47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141   55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141   58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141   60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141   65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141   70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141   74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141   75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141   80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141   84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141   86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141   90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141   91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141   95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141   98 10141   99 10141   99 10141   99 10141}





























do_execsql_test 4.7.4 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;

} {0 10141   1 4699   1 6763   2 3069   2 5670   2 9771   3 1048   3 7228   4 6096   5 4503   6 9100   7 7   7 3067   7 7943   8 3727   8 4223   8 8596   9 1653   9 2218   9 5267   10 607   11 3719   11 4425   12 1571   12 4235   12 7328   13 1584   13 4964   14 1559   15 1232   15 4133   15 6967   16 6567   16 8199   16 8215   17 24   19 2686   20 4215   21 480   21 4698   22 4023   22 7134   23 1644   23 8238   23 9952   24 7539   25 6835   26 2602   26 2628   26 9830   27 133   27 8898   28 6952   29 2844   29 5815   29 8521   30 318   30 771   30 5956   31 4164   31 4195   32 7316   33 513   33 1265   33 1999   33 5848   33 9804   34 250   34 1217   34 3659   34 3761   35 4538   35 8025   36 1183   36 1392   36 2359   36 6476   37 1621   37 5581   38 288   38 9444   39 459   39 2667   39 9338   40 6706   41 4276   41 5308   41 10067   42 5998   43 6666   43 7430   44 420   44 3113   46 8871   46 9146   47 2265   47 2576   47 6810   47 7990   49 3708   50 741   51 4414   52 823   53 5786   54 8747   55 3320   55 7022   56 6623   56 6762   56 7284   57 2975   58 376   58 881   58 2323   58 4951   59 2745   59 3535   59 7387   59 9503   60 3380   61 5258   61 7776   62 1545   62 9299   63 5733   64 1798   65 4603   65 5029   65 8090   66 2065   67 8588   68 9406   69 950   70 2815   72 2137   72 2209   72 5380   73 4001   73 4498   73 5197   74 2918   74 4677   74 7850   74 10026   74 10141   75 1873   75 3265   75 6551   76 6253   77 3190   77 8315   78 5926   78 8825   79 3928   80 2529   80 5544   81 1734   81 6177   81 9680   82 106   83 216   84 597   84 691   84 5464   84 8399   85 3060   85 7515   85 7624   86 7936   87 4363   87 5668   88 3849   89 6440   89 6924   89 9769   90 2449   90 3625   90 7112   91 1356   91 1483   91 7225   91 7715   91 9237   93 1966   93 8183   93 8492   94 6092   95 1045   95 4118   95 5124   96 3476   96 4893   96 9599   97 8693   97 8995   98 4797   98 6351   99 1147   99 9094   99 9929}


























do_execsql_test 4.8.1 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 1   1 1   2 2   2 2   2 2   3 3   3 3   4 4   5 5   6 6   7 7   7 7   7 7   8 8   8 8   8 8   9 9   9 9   9 9   10 10   11 11   11 11   12 12   12 12   12 12   13 13   13 13   14 14   15 15   15 15   15 15   16 16   16 16   16 16   17 17   19 19   20 20   21 21   21 21   22 22   22 22   23 23   23 23   23 23   24 24   25 25   26 26   26 26   26 26   27 27   27 27   28 28   29 29   29 29   29 29   30 30   30 30   30 30   31 31   31 31   32 32   33 33   33 33   33 33   33 33   33 33   34 34   34 34   34 34   34 34   35 35   35 35   36 36   36 36   36 36   36 36   37 37   37 37   38 38   38 38   39 39   39 39   39 39   40 40   41 41   41 41   41 41   42 42   43 43   43 43   44 44   44 44   46 46   46 46   47 47   47 47   47 47   47 47   49 49   50 50   51 51   52 52   53 53   54 54   55 55   55 55   56 56   56 56   56 56   57 57   58 58   58 58   58 58   58 58   59 59   59 59   59 59   59 59   60 60   61 61   61 61   62 62   62 62   63 63   64 64   65 65   65 65   65 65   66 66   67 67   68 68   69 69   70 70   72 72   72 72   72 72   73 73   73 73   73 73   74 74   74 74   74 74   74 74   74 74   75 75   75 75   75 75   76 76   77 77   77 77   78 78   78 78   79 79   80 80   80 80   81 81   81 81   81 81   82 82   83 83   84 84   84 84   84 84   84 84   85 85   85 85   85 85   86 86   87 87   87 87   88 88   89 89   89 89   89 89   90 90   90 90   90 90   91 91   91 91   91 91   91 91   91 91   93 93   93 93   93 93   94 94   95 95   95 95   95 95   96 96   96 96   96 96   97 97   97 97   98 98   98 98   99 99   99 99   99 99}






















do_execsql_test 4.8.2 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 3379   1 5443   2 372   2 4473   2 7074   3 2916   3 9096   4 4049   5 5643   6 1047   7 2205   7 7081   7 10141   8 1553   8 5926   8 6422   9 4883   9 7932   9 8497   10 9544   11 5727   11 6433   12 2825   12 5918   12 8582   13 5190   13 8570   14 8596   15 3189   15 6023   15 8924   16 1942   16 1958   16 3590   17 10134   19 7474   20 5946   21 5464   21 9682   22 3029   22 6140   23 212   23 1926   23 8520   24 2626   25 3331   26 337   26 7539   26 7565   27 1270   27 10035   28 3217   29 1649   29 4355   29 7326   30 4215   30 9400   30 9853   31 5977   31 6008   32 2857   33 370   33 4326   33 8175   33 8909   33 9661   34 6414   34 6516   34 8958   34 9925   35 2151   35 5638   36 3701   36 7818   36 8785   36 8994   37 4597   37 8557   38 735   38 9891   39 842   39 7513   39 9721   40 3475   41 115   41 4874   41 5906   42 4185   43 2754   43 3518   44 7072   44 9765   46 1041   46 1316   47 2198   47 3378   47 7612   47 7923   49 6482   50 9450   51 5778   52 9370   53 4408   54 1448   55 3174   55 6876   56 2913   56 3435   56 3574   57 7223   58 5248   58 7876   58 9318   58 9823   59 697   59 2813   59 6665   59 7455   60 6821   61 2426   61 4944   62 904   62 8658   63 4471   64 8407   65 2116   65 5177   65 5603   66 8142   67 1620   68 803   69 9260   70 7396   72 4833   72 8004   72 8076   73 5017   73 5716   73 6213   74 74   74 189   74 2365   74 5538   74 7297   75 3665   75 6951   75 8343   76 3964   77 1903   77 7028   78 1394   78 4293   79 6292   80 4677   80 7692   81 542   81 4045   81 8488   82 10117   83 10008   84 1826   84 4761   84 9534   84 9628   85 2602   85 2711   85 7166   86 2291   87 4560   87 5865   88 6380   89 461   89 3306   89 3790   90 3119   90 6606   90 7782   91 995   91 2517   91 3007   91 8749   91 8876   93 1742   93 2051   93 8268   94 4143   95 5112   95 6118   95 9191   96 638   96 5344   96 6761   97 1243   97 1545   98 3888   98 5442   99 311   99 1146   99 9093}




























do_execsql_test 4.8.3 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141   3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141   8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141   11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141   14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141   17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141   23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141   26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141   30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141   33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141   34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141   37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141   40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141   44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141   47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141   55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141   58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141   60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141   65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141   70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141   74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141   75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141   80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141   84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141   86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141   90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141   91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141   95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141   98 10141   99 10141   99 10141   99 10141}





























do_execsql_test 4.8.4 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;

} {0 10141   1 4699   1 6763   2 3069   2 5670   2 9771   3 1048   3 7228   4 6096   5 4503   6 9100   7 7   7 3067   7 7943   8 3727   8 4223   8 8596   9 1653   9 2218   9 5267   10 607   11 3719   11 4425   12 1571   12 4235   12 7328   13 1584   13 4964   14 1559   15 1232   15 4133   15 6967   16 6567   16 8199   16 8215   17 24   19 2686   20 4215   21 480   21 4698   22 4023   22 7134   23 1644   23 8238   23 9952   24 7539   25 6835   26 2602   26 2628   26 9830   27 133   27 8898   28 6952   29 2844   29 5815   29 8521   30 318   30 771   30 5956   31 4164   31 4195   32 7316   33 513   33 1265   33 1999   33 5848   33 9804   34 250   34 1217   34 3659   34 3761   35 4538   35 8025   36 1183   36 1392   36 2359   36 6476   37 1621   37 5581   38 288   38 9444   39 459   39 2667   39 9338   40 6706   41 4276   41 5308   41 10067   42 5998   43 6666   43 7430   44 420   44 3113   46 8871   46 9146   47 2265   47 2576   47 6810   47 7990   49 3708   50 741   51 4414   52 823   53 5786   54 8747   55 3320   55 7022   56 6623   56 6762   56 7284   57 2975   58 376   58 881   58 2323   58 4951   59 2745   59 3535   59 7387   59 9503   60 3380   61 5258   61 7776   62 1545   62 9299   63 5733   64 1798   65 4603   65 5029   65 8090   66 2065   67 8588   68 9406   69 950   70 2815   72 2137   72 2209   72 5380   73 4001   73 4498   73 5197   74 2918   74 4677   74 7850   74 10026   74 10141   75 1873   75 3265   75 6551   76 6253   77 3190   77 8315   78 5926   78 8825   79 3928   80 2529   80 5544   81 1734   81 6177   81 9680   82 106   83 216   84 597   84 691   84 5464   84 8399   85 3060   85 7515   85 7624   86 7936   87 4363   87 5668   88 3849   89 6440   89 6924   89 9769   90 2449   90 3625   90 7112   91 1356   91 1483   91 7225   91 7715   91 9237   93 1966   93 8183   93 8492   94 6092   95 1045   95 4118   95 5124   96 3476   96 4893   96 9599   97 8693   97 8995   98 4797   98 6351   99 1147   99 9094   99 9929}














































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} {}

do_execsql_test 4.1 {
  SELECT a, sum(b) OVER (
    PARTITION BY (b%10)
    ORDER BY b
  ) FROM t2 ORDER BY a;
} {1 0   2 754   3 251   4 754   5 101   6 1247   7 132   8 266   9 6   10 950
  11 667   12 1052   13 535   14 128   15 428   16 250   17 336   18 1122
  19 368   20 6   21 1247   22 1000   23 92   24 368   25 584   26 320
  27 1000   28 24   29 478   30 133   31 1049   32 1090   33 632   34 101
  35 54   36 54   37 1049   38 450   39 145   40 354   41 21   42 764
  43 754   44 424   45 1122   46 930   47 42   48 930   49 352   50 535
  51 42   52 118   53 536   54 6   55 1122   56 86   57 770   58 255   59 50
  60 52   61 950   62 75   63 354   64 2   65 536   66 160   67 352   68 536
  69 54   70 675   71 276   72 950   73 868   74 678   75 667   76 4
  77 1184   78 160   79 120   80 584   81 266   82 133   83 405   84 468
  85 6   86 806   87 166   88 500   89 1090   90 552   91 251   92 27
  93 424   94 687   95 1215   96 450   97 32   98 360   99 1052   100 868
  101 2   102 66   103 754   104 450   105 145   106 5   107 687   108 24
  109 302   110 806   111 251   112 42   113 24   114 30   115 128   116 128
  117 50   118 1215   119 86   120 687   121 683   122 672   123 178   124 24
  125 24   126 299   127 178   128 770   129 535   130 1052   131 270
  132 255   133 675   134 632   135 266   136 6   137 21   138 930   139 411
  140 754   141 133   142 340   143 535   144 46   145 250   146 132
  147 132   148 354   149 500   150 770   151 276   152 360   153 354
  154 27   155 552   156 552   157 602   158 266   159 1049   160 675
  161 384   162 667   163 27   164 101   165 166   166 32   167 42   168 18
  169 336   170 1122   171 276   172 1122   173 266   174 50   175 178
  176 276   177 1247   178 6   179 1215   180 604   181 360   182 212
  183 120   184 210   185 1090   186 10   187 1090   188 266   189 66
  190 250   191 266   192 360   193 120   194 128   195 178   196 770
  197 92   198 634   199 38   200 21}

do_execsql_test 4.2 {
  SELECT a, sum(b) OVER (
    PARTITION BY (b%10)
    ORDER BY b
    RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY a;
} {1 0   2 754   3 251   4 754   5 101   6 1247   7 132   8 266   9 6   10 950
  11 667   12 1052   13 535   14 128   15 428   16 250   17 336   18 1122
  19 368   20 6   21 1247   22 1000   23 92   24 368   25 584   26 320
  27 1000   28 24   29 478   30 133   31 1049   32 1090   33 632   34 101
  35 54   36 54   37 1049   38 450   39 145   40 354   41 21   42 764
  43 754   44 424   45 1122   46 930   47 42   48 930   49 352   50 535
  51 42   52 118   53 536   54 6   55 1122   56 86   57 770   58 255   59 50
  60 52   61 950   62 75   63 354   64 2   65 536   66 160   67 352   68 536
  69 54   70 675   71 276   72 950   73 868   74 678   75 667   76 4
  77 1184   78 160   79 120   80 584   81 266   82 133   83 405   84 468
  85 6   86 806   87 166   88 500   89 1090   90 552   91 251   92 27
  93 424   94 687   95 1215   96 450   97 32   98 360   99 1052   100 868
  101 2   102 66   103 754   104 450   105 145   106 5   107 687   108 24
  109 302   110 806   111 251   112 42   113 24   114 30   115 128   116 128
  117 50   118 1215   119 86   120 687   121 683   122 672   123 178   124 24
  125 24   126 299   127 178   128 770   129 535   130 1052   131 270
  132 255   133 675   134 632   135 266   136 6   137 21   138 930   139 411
  140 754   141 133   142 340   143 535   144 46   145 250   146 132
  147 132   148 354   149 500   150 770   151 276   152 360   153 354
  154 27   155 552   156 552   157 602   158 266   159 1049   160 675
  161 384   162 667   163 27   164 101   165 166   166 32   167 42   168 18
  169 336   170 1122   171 276   172 1122   173 266   174 50   175 178
  176 276   177 1247   178 6   179 1215   180 604   181 360   182 212
  183 120   184 210   185 1090   186 10   187 1090   188 266   189 66
  190 250   191 266   192 360   193 120   194 128   195 178   196 770
  197 92   198 634   199 38   200 21}

do_execsql_test 4.3 {
  SELECT b, sum(b) OVER (
    ORDER BY b
    ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY b;
} {0 0   1 1   1 2   2 4   2 6   2 8   3 11   3 14   4 18   5 23   6 29   7 36
  7 43   7 50   8 58   8 66   8 74   9 83   9 92   9 101   10 111   11 122
  11 133   12 145   12 157   12 169   13 182   13 195   14 209   15 224
  15 239   15 254   16 270   16 286   16 302   17 319   19 338   20 358
  21 379   21 400   22 422   22 444   23 467   23 490   23 513   24 537
  25 562   26 588   26 614   26 640   27 667   27 694   28 722   29 751
  29 780   29 809   30 839   30 869   30 899   31 930   31 961   32 993
  33 1026   33 1059   33 1092   33 1125   33 1158   34 1192   34 1226
  34 1260   34 1294   35 1329   35 1364   36 1400   36 1436   36 1472
  36 1508   37 1545   37 1582   38 1620   38 1658   39 1697   39 1736
  39 1775   40 1815   41 1856   41 1897   41 1938   42 1980   43 2023
  43 2066   44 2110   44 2154   46 2200   46 2246   47 2293   47 2340
  47 2387   47 2434   49 2483   50 2533   51 2584   52 2636   53 2689
  54 2743   55 2798   55 2853   56 2909   56 2965   56 3021   57 3078
  58 3136   58 3194   58 3252   58 3310   59 3369   59 3428   59 3487
  59 3546   60 3606   61 3667   61 3728   62 3790   62 3852   63 3915
  64 3979   65 4044   65 4109   65 4174   66 4240   67 4307   68 4375
  69 4444   70 4514   72 4586   72 4658   72 4730   73 4803   73 4876
  73 4949   74 5023   74 5097   74 5171   74 5245   74 5319   75 5394
  75 5469   75 5544   76 5620   77 5697   77 5774   78 5852   78 5930
  79 6009   80 6089   80 6169   81 6250   81 6331   81 6412   82 6494
  83 6577   84 6661   84 6745   84 6829   84 6913   85 6998   85 7083
  85 7168   86 7254   87 7341   87 7428   88 7516   89 7605   89 7694
  89 7783   90 7873   90 7963   90 8053   91 8144   91 8235   91 8326
  91 8417   91 8508   93 8601   93 8694   93 8787   94 8881   95 8976
  95 9071   95 9166   96 9262   96 9358   96 9454   97 9551   97 9648
  98 9746   98 9844   99 9943   99 10042   99 10141}

do_execsql_test 4.4 {
  SELECT b, sum(b) OVER (
    ORDER BY b
    RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141
  3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141
  8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141
  11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141
  14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141
  17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141
  23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141
  26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141
  30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141
  33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141
  34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141
  37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141
  40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141
  44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141
  47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141
  55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141
  58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141
  60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141
  65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141
  70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141
  74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141
  75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141
  80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141
  84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141
  86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141
  90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141
  91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141
  95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141
  98 10141   99 10141   99 10141   99 10141}

do_execsql_test 4.5 {
  SELECT b, sum(b) OVER (
    ORDER BY b
    RANGE BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY b;
} {0 0   1 2   1 2   2 6   2 6   2 6   3 6   3 6   4 4   5 5   6 6   7 21
  7 21   7 21   8 24   8 24   8 24   9 27   9 27   9 27   10 10   11 22
  11 22   12 36   12 36   12 36   13 26   13 26   14 14   15 45   15 45
  15 45   16 48   16 48   16 48   17 17   19 19   20 20   21 42   21 42
  22 44   22 44   23 69   23 69   23 69   24 24   25 25   26 78   26 78
  26 78   27 54   27 54   28 28   29 87   29 87   29 87   30 90   30 90
  30 90   31 62   31 62   32 32   33 165   33 165   33 165   33 165   33 165
  34 136   34 136   34 136   34 136   35 70   35 70   36 144   36 144
  36 144   36 144   37 74   37 74   38 76   38 76   39 117   39 117   39 117
  40 40   41 123   41 123   41 123   42 42   43 86   43 86   44 88   44 88
  46 92   46 92   47 188   47 188   47 188   47 188   49 49   50 50   51 51
  52 52   53 53   54 54   55 110   55 110   56 168   56 168   56 168   57 57
  58 232   58 232   58 232   58 232   59 236   59 236   59 236   59 236
  60 60   61 122   61 122   62 124   62 124   63 63   64 64   65 195   65 195
  65 195   66 66   67 67   68 68   69 69   70 70   72 216   72 216   72 216
  73 219   73 219   73 219   74 370   74 370   74 370   74 370   74 370
  75 225   75 225   75 225   76 76   77 154   77 154   78 156   78 156
  79 79   80 160   80 160   81 243   81 243   81 243   82 82   83 83   84 336
  84 336   84 336   84 336   85 255   85 255   85 255   86 86   87 174
  87 174   88 88   89 267   89 267   89 267   90 270   90 270   90 270
  91 455   91 455   91 455   91 455   91 455   93 279   93 279   93 279
  94 94   95 285   95 285   95 285   96 288   96 288   96 288   97 194
  97 194   98 196   98 196   99 297   99 297   99 297}

do_execsql_test 4.6.1 {
  SELECT b, sum(b) OVER (
    RANGE BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141
  3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141
  8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141
  11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141
  14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141
  17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141
  23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141
  26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141
  30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141
  33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141
  34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141
  37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141
  40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141
  44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141
  47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141
  55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141
  58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141
  60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141
  65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141
  70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141
  74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141
  75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141
  80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141
  84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141
  86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141
  90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141
  91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141
  95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141
  98 10141   99 10141   99 10141   99 10141}

do_execsql_test 4.6.2 {
  SELECT b, sum(b) OVER () FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141
  3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141
  8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141
  11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141
  14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141
  17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141
  23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141
  26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141
  30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141
  33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141
  34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141
  37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141
  40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141
  44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141
  47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141
  55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141
  58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141
  60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141
  65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141
  70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141
  74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141
  75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141
  80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141
  84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141
  86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141
  90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141
  91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141
  95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141
  98 10141   99 10141   99 10141   99 10141}

do_execsql_test 4.6.3 {
  SELECT b, sum(b) OVER (
    RANGE BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141
  3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141
  8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141
  11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141
  14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141
  17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141
  23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141
  26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141
  30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141
  33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141
  34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141
  37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141
  40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141
  44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141
  47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141
  55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141
  58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141
  60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141
  65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141
  70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141
  74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141
  75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141
  80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141
  84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141
  86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141
  90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141
  91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141
  95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141
  98 10141   99 10141   99 10141   99 10141}

do_execsql_test 4.6.4 {
  SELECT b, sum(b) OVER (
    RANGE BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY b;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141
  3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141
  8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141
  11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141
  14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141
  17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141
  23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141
  26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141
  30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141
  33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141
  34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141
  37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141
  40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141
  44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141
  47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141
  55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141
  58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141
  60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141
  65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141
  70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141
  74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141
  75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141
  80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141
  84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141
  86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141
  90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141
  91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141
  95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141
  98 10141   99 10141   99 10141   99 10141}

do_execsql_test 4.7.1 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 1   1 1   2 2   2 2   2 2   3 3   3 3   4 4   5 5   6 6   7 7   7 7
  7 7   8 8   8 8   8 8   9 9   9 9   9 9   10 10   11 11   11 11   12 12
  12 12   12 12   13 13   13 13   14 14   15 15   15 15   15 15   16 16
  16 16   16 16   17 17   19 19   20 20   21 21   21 21   22 22   22 22
  23 23   23 23   23 23   24 24   25 25   26 26   26 26   26 26   27 27
  27 27   28 28   29 29   29 29   29 29   30 30   30 30   30 30   31 31
  31 31   32 32   33 33   33 33   33 33   33 33   33 33   34 34   34 34
  34 34   34 34   35 35   35 35   36 36   36 36   36 36   36 36   37 37
  37 37   38 38   38 38   39 39   39 39   39 39   40 40   41 41   41 41
  41 41   42 42   43 43   43 43   44 44   44 44   46 46   46 46   47 47
  47 47   47 47   47 47   49 49   50 50   51 51   52 52   53 53   54 54
  55 55   55 55   56 56   56 56   56 56   57 57   58 58   58 58   58 58
  58 58   59 59   59 59   59 59   59 59   60 60   61 61   61 61   62 62
  62 62   63 63   64 64   65 65   65 65   65 65   66 66   67 67   68 68
  69 69   70 70   72 72   72 72   72 72   73 73   73 73   73 73   74 74
  74 74   74 74   74 74   74 74   75 75   75 75   75 75   76 76   77 77
  77 77   78 78   78 78   79 79   80 80   80 80   81 81   81 81   81 81
  82 82   83 83   84 84   84 84   84 84   84 84   85 85   85 85   85 85
  86 86   87 87   87 87   88 88   89 89   89 89   89 89   90 90   90 90
  90 90   91 91   91 91   91 91   91 91   91 91   93 93   93 93   93 93
  94 94   95 95   95 95   95 95   96 96   96 96   96 96   97 97   97 97
  98 98   98 98   99 99   99 99   99 99}

do_execsql_test 4.7.2 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 3379   1 5443   2 372   2 4473   2 7074   3 2916   3 9096   4 4049
  5 5643   6 1047   7 2205   7 7081   7 10141   8 1553   8 5926   8 6422
  9 4883   9 7932   9 8497   10 9544   11 5727   11 6433   12 2825   12 5918
  12 8582   13 5190   13 8570   14 8596   15 3189   15 6023   15 8924
  16 1942   16 1958   16 3590   17 10134   19 7474   20 5946   21 5464
  21 9682   22 3029   22 6140   23 212   23 1926   23 8520   24 2626
  25 3331   26 337   26 7539   26 7565   27 1270   27 10035   28 3217
  29 1649   29 4355   29 7326   30 4215   30 9400   30 9853   31 5977
  31 6008   32 2857   33 370   33 4326   33 8175   33 8909   33 9661
  34 6414   34 6516   34 8958   34 9925   35 2151   35 5638   36 3701
  36 7818   36 8785   36 8994   37 4597   37 8557   38 735   38 9891   39 842
  39 7513   39 9721   40 3475   41 115   41 4874   41 5906   42 4185
  43 2754   43 3518   44 7072   44 9765   46 1041   46 1316   47 2198
  47 3378   47 7612   47 7923   49 6482   50 9450   51 5778   52 9370
  53 4408   54 1448   55 3174   55 6876   56 2913   56 3435   56 3574
  57 7223   58 5248   58 7876   58 9318   58 9823   59 697   59 2813
  59 6665   59 7455   60 6821   61 2426   61 4944   62 904   62 8658
  63 4471   64 8407   65 2116   65 5177   65 5603   66 8142   67 1620
  68 803   69 9260   70 7396   72 4833   72 8004   72 8076   73 5017
  73 5716   73 6213   74 74   74 189   74 2365   74 5538   74 7297   75 3665
  75 6951   75 8343   76 3964   77 1903   77 7028   78 1394   78 4293
  79 6292   80 4677   80 7692   81 542   81 4045   81 8488   82 10117
  83 10008   84 1826   84 4761   84 9534   84 9628   85 2602   85 2711
  85 7166   86 2291   87 4560   87 5865   88 6380   89 461   89 3306
  89 3790   90 3119   90 6606   90 7782   91 995   91 2517   91 3007
  91 8749   91 8876   93 1742   93 2051   93 8268   94 4143   95 5112
  95 6118   95 9191   96 638   96 5344   96 6761   97 1243   97 1545
  98 3888   98 5442   99 311   99 1146   99 9093}

do_execsql_test 4.7.3 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141
  3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141
  8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141
  11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141
  14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141
  17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141
  23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141
  26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141
  30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141
  33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141
  34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141
  37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141
  40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141
  44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141
  47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141
  55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141
  58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141
  60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141
  65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141
  70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141
  74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141
  75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141
  80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141
  84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141
  86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141
  90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141
  91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141
  95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141
  98 10141   99 10141   99 10141   99 10141}

do_execsql_test 4.7.4 {
  SELECT b, sum(b) OVER (
    ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
} {0 10141   1 4699   1 6763   2 3069   2 5670   2 9771   3 1048   3 7228
  4 6096   5 4503   6 9100   7 7   7 3067   7 7943   8 3727   8 4223   8 8596
  9 1653   9 2218   9 5267   10 607   11 3719   11 4425   12 1571   12 4235
  12 7328   13 1584   13 4964   14 1559   15 1232   15 4133   15 6967
  16 6567   16 8199   16 8215   17 24   19 2686   20 4215   21 480   21 4698
  22 4023   22 7134   23 1644   23 8238   23 9952   24 7539   25 6835
  26 2602   26 2628   26 9830   27 133   27 8898   28 6952   29 2844
  29 5815   29 8521   30 318   30 771   30 5956   31 4164   31 4195   32 7316
  33 513   33 1265   33 1999   33 5848   33 9804   34 250   34 1217   34 3659
  34 3761   35 4538   35 8025   36 1183   36 1392   36 2359   36 6476
  37 1621   37 5581   38 288   38 9444   39 459   39 2667   39 9338   40 6706
  41 4276   41 5308   41 10067   42 5998   43 6666   43 7430   44 420
  44 3113   46 8871   46 9146   47 2265   47 2576   47 6810   47 7990
  49 3708   50 741   51 4414   52 823   53 5786   54 8747   55 3320   55 7022
  56 6623   56 6762   56 7284   57 2975   58 376   58 881   58 2323   58 4951
  59 2745   59 3535   59 7387   59 9503   60 3380   61 5258   61 7776
  62 1545   62 9299   63 5733   64 1798   65 4603   65 5029   65 8090
  66 2065   67 8588   68 9406   69 950   70 2815   72 2137   72 2209
  72 5380   73 4001   73 4498   73 5197   74 2918   74 4677   74 7850
  74 10026   74 10141   75 1873   75 3265   75 6551   76 6253   77 3190
  77 8315   78 5926   78 8825   79 3928   80 2529   80 5544   81 1734
  81 6177   81 9680   82 106   83 216   84 597   84 691   84 5464   84 8399
  85 3060   85 7515   85 7624   86 7936   87 4363   87 5668   88 3849
  89 6440   89 6924   89 9769   90 2449   90 3625   90 7112   91 1356
  91 1483   91 7225   91 7715   91 9237   93 1966   93 8183   93 8492
  94 6092   95 1045   95 4118   95 5124   96 3476   96 4893   96 9599
  97 8693   97 8995   98 4797   98 6351   99 1147   99 9094   99 9929}

do_execsql_test 4.8.1 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN CURRENT ROW AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 1   1 1   2 2   2 2   2 2   3 3   3 3   4 4   5 5   6 6   7 7   7 7
  7 7   8 8   8 8   8 8   9 9   9 9   9 9   10 10   11 11   11 11   12 12
  12 12   12 12   13 13   13 13   14 14   15 15   15 15   15 15   16 16
  16 16   16 16   17 17   19 19   20 20   21 21   21 21   22 22   22 22
  23 23   23 23   23 23   24 24   25 25   26 26   26 26   26 26   27 27
  27 27   28 28   29 29   29 29   29 29   30 30   30 30   30 30   31 31
  31 31   32 32   33 33   33 33   33 33   33 33   33 33   34 34   34 34
  34 34   34 34   35 35   35 35   36 36   36 36   36 36   36 36   37 37
  37 37   38 38   38 38   39 39   39 39   39 39   40 40   41 41   41 41
  41 41   42 42   43 43   43 43   44 44   44 44   46 46   46 46   47 47
  47 47   47 47   47 47   49 49   50 50   51 51   52 52   53 53   54 54
  55 55   55 55   56 56   56 56   56 56   57 57   58 58   58 58   58 58
  58 58   59 59   59 59   59 59   59 59   60 60   61 61   61 61   62 62
  62 62   63 63   64 64   65 65   65 65   65 65   66 66   67 67   68 68
  69 69   70 70   72 72   72 72   72 72   73 73   73 73   73 73   74 74
  74 74   74 74   74 74   74 74   75 75   75 75   75 75   76 76   77 77
  77 77   78 78   78 78   79 79   80 80   80 80   81 81   81 81   81 81
  82 82   83 83   84 84   84 84   84 84   84 84   85 85   85 85   85 85
  86 86   87 87   87 87   88 88   89 89   89 89   89 89   90 90   90 90
  90 90   91 91   91 91   91 91   91 91   91 91   93 93   93 93   93 93
  94 94   95 95   95 95   95 95   96 96   96 96   96 96   97 97   97 97
  98 98   98 98   99 99   99 99   99 99}

do_execsql_test 4.8.2 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW
  ) FROM t2 ORDER BY 1, 2;
} {0 0   1 3379   1 5443   2 372   2 4473   2 7074   3 2916   3 9096   4 4049
  5 5643   6 1047   7 2205   7 7081   7 10141   8 1553   8 5926   8 6422
  9 4883   9 7932   9 8497   10 9544   11 5727   11 6433   12 2825   12 5918
  12 8582   13 5190   13 8570   14 8596   15 3189   15 6023   15 8924
  16 1942   16 1958   16 3590   17 10134   19 7474   20 5946   21 5464
  21 9682   22 3029   22 6140   23 212   23 1926   23 8520   24 2626
  25 3331   26 337   26 7539   26 7565   27 1270   27 10035   28 3217
  29 1649   29 4355   29 7326   30 4215   30 9400   30 9853   31 5977
  31 6008   32 2857   33 370   33 4326   33 8175   33 8909   33 9661
  34 6414   34 6516   34 8958   34 9925   35 2151   35 5638   36 3701
  36 7818   36 8785   36 8994   37 4597   37 8557   38 735   38 9891   39 842
  39 7513   39 9721   40 3475   41 115   41 4874   41 5906   42 4185
  43 2754   43 3518   44 7072   44 9765   46 1041   46 1316   47 2198
  47 3378   47 7612   47 7923   49 6482   50 9450   51 5778   52 9370
  53 4408   54 1448   55 3174   55 6876   56 2913   56 3435   56 3574
  57 7223   58 5248   58 7876   58 9318   58 9823   59 697   59 2813
  59 6665   59 7455   60 6821   61 2426   61 4944   62 904   62 8658
  63 4471   64 8407   65 2116   65 5177   65 5603   66 8142   67 1620
  68 803   69 9260   70 7396   72 4833   72 8004   72 8076   73 5017
  73 5716   73 6213   74 74   74 189   74 2365   74 5538   74 7297   75 3665
  75 6951   75 8343   76 3964   77 1903   77 7028   78 1394   78 4293
  79 6292   80 4677   80 7692   81 542   81 4045   81 8488   82 10117
  83 10008   84 1826   84 4761   84 9534   84 9628   85 2602   85 2711
  85 7166   86 2291   87 4560   87 5865   88 6380   89 461   89 3306
  89 3790   90 3119   90 6606   90 7782   91 995   91 2517   91 3007
  91 8749   91 8876   93 1742   93 2051   93 8268   94 4143   95 5112
  95 6118   95 9191   96 638   96 5344   96 6761   97 1243   97 1545
  98 3888   98 5442   99 311   99 1146   99 9093}

do_execsql_test 4.8.3 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
} {0 10141   1 10141   1 10141   2 10141   2 10141   2 10141   3 10141
  3 10141   4 10141   5 10141   6 10141   7 10141   7 10141   7 10141
  8 10141   8 10141   8 10141   9 10141   9 10141   9 10141   10 10141
  11 10141   11 10141   12 10141   12 10141   12 10141   13 10141   13 10141
  14 10141   15 10141   15 10141   15 10141   16 10141   16 10141   16 10141
  17 10141   19 10141   20 10141   21 10141   21 10141   22 10141   22 10141
  23 10141   23 10141   23 10141   24 10141   25 10141   26 10141   26 10141
  26 10141   27 10141   27 10141   28 10141   29 10141   29 10141   29 10141
  30 10141   30 10141   30 10141   31 10141   31 10141   32 10141   33 10141
  33 10141   33 10141   33 10141   33 10141   34 10141   34 10141   34 10141
  34 10141   35 10141   35 10141   36 10141   36 10141   36 10141   36 10141
  37 10141   37 10141   38 10141   38 10141   39 10141   39 10141   39 10141
  40 10141   41 10141   41 10141   41 10141   42 10141   43 10141   43 10141
  44 10141   44 10141   46 10141   46 10141   47 10141   47 10141   47 10141
  47 10141   49 10141   50 10141   51 10141   52 10141   53 10141   54 10141
  55 10141   55 10141   56 10141   56 10141   56 10141   57 10141   58 10141
  58 10141   58 10141   58 10141   59 10141   59 10141   59 10141   59 10141
  60 10141   61 10141   61 10141   62 10141   62 10141   63 10141   64 10141
  65 10141   65 10141   65 10141   66 10141   67 10141   68 10141   69 10141
  70 10141   72 10141   72 10141   72 10141   73 10141   73 10141   73 10141
  74 10141   74 10141   74 10141   74 10141   74 10141   75 10141   75 10141
  75 10141   76 10141   77 10141   77 10141   78 10141   78 10141   79 10141
  80 10141   80 10141   81 10141   81 10141   81 10141   82 10141   83 10141
  84 10141   84 10141   84 10141   84 10141   85 10141   85 10141   85 10141
  86 10141   87 10141   87 10141   88 10141   89 10141   89 10141   89 10141
  90 10141   90 10141   90 10141   91 10141   91 10141   91 10141   91 10141
  91 10141   93 10141   93 10141   93 10141   94 10141   95 10141   95 10141
  95 10141   96 10141   96 10141   96 10141   97 10141   97 10141   98 10141
  98 10141   99 10141   99 10141   99 10141}

do_execsql_test 4.8.4 {
  SELECT b, sum(b) OVER (
    ORDER BY a
    ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING
  ) FROM t2 ORDER BY 1, 2;
} {0 10141   1 4699   1 6763   2 3069   2 5670   2 9771   3 1048   3 7228
  4 6096   5 4503   6 9100   7 7   7 3067   7 7943   8 3727   8 4223   8 8596
  9 1653   9 2218   9 5267   10 607   11 3719   11 4425   12 1571   12 4235
  12 7328   13 1584   13 4964   14 1559   15 1232   15 4133   15 6967
  16 6567   16 8199   16 8215   17 24   19 2686   20 4215   21 480   21 4698
  22 4023   22 7134   23 1644   23 8238   23 9952   24 7539   25 6835
  26 2602   26 2628   26 9830   27 133   27 8898   28 6952   29 2844
  29 5815   29 8521   30 318   30 771   30 5956   31 4164   31 4195   32 7316
  33 513   33 1265   33 1999   33 5848   33 9804   34 250   34 1217   34 3659
  34 3761   35 4538   35 8025   36 1183   36 1392   36 2359   36 6476
  37 1621   37 5581   38 288   38 9444   39 459   39 2667   39 9338   40 6706
  41 4276   41 5308   41 10067   42 5998   43 6666   43 7430   44 420
  44 3113   46 8871   46 9146   47 2265   47 2576   47 6810   47 7990
  49 3708   50 741   51 4414   52 823   53 5786   54 8747   55 3320   55 7022
  56 6623   56 6762   56 7284   57 2975   58 376   58 881   58 2323   58 4951
  59 2745   59 3535   59 7387   59 9503   60 3380   61 5258   61 7776
  62 1545   62 9299   63 5733   64 1798   65 4603   65 5029   65 8090
  66 2065   67 8588   68 9406   69 950   70 2815   72 2137   72 2209
  72 5380   73 4001   73 4498   73 5197   74 2918   74 4677   74 7850
  74 10026   74 10141   75 1873   75 3265   75 6551   76 6253   77 3190
  77 8315   78 5926   78 8825   79 3928   80 2529   80 5544   81 1734
  81 6177   81 9680   82 106   83 216   84 597   84 691   84 5464   84 8399
  85 3060   85 7515   85 7624   86 7936   87 4363   87 5668   88 3849
  89 6440   89 6924   89 9769   90 2449   90 3625   90 7112   91 1356
  91 1483   91 7225   91 7715   91 9237   93 1966   93 8183   93 8492
  94 6092   95 1045   95 4118   95 5124   96 3476   96 4893   96 9599
  97 8693   97 8995   98 4797   98 6351   99 1147   99 9094   99 9929}


do_test 4.9 {
  set myres {}
  foreach r [db eval {SELECT 
    rank() OVER win AS rank,
    cume_dist() OVER win AS cume_dist FROM t1
  WINDOW win AS (ORDER BY 1);}] {
    lappend myres [format %.4f [set r]]
  }
  set res2 {1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000}
  set i 0
  foreach r [set myres] r2 [set res2] {
    if {[set r]<([set r2]-0.0001) || [set r]>([set r2]+0.0001)} {
      error "list element [set i] does not match: got=[set r] expected=[set r2]"
    }
    incr i
  }
  set {} {}
} {}

finish_test

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  |  `--RECURSIVE STEP
  |     |--SCAN TABLE w1
  |     `--SCAN TABLE c
  |--SCAN SUBQUERY xxxxxx
  |--SEARCH TABLE w2 USING INTEGER PRIMARY KEY (rowid=?)
  `--SEARCH TABLE w1 USING INTEGER PRIMARY KEY (rowid=?)
}





































finish_test








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  |  `--RECURSIVE STEP
  |     |--SCAN TABLE w1
  |     `--SCAN TABLE c
  |--SCAN SUBQUERY xxxxxx
  |--SEARCH TABLE w2 USING INTEGER PRIMARY KEY (rowid=?)
  `--SEARCH TABLE w1 USING INTEGER PRIMARY KEY (rowid=?)
}

do_execsql_test 4.0 {
  WITH t5(t5col1) AS (
    SELECT (
      WITH t3(t3col1) AS (
        WITH t2 AS (
          WITH t1 AS (SELECT 1 AS c1 GROUP BY 1) 
          SELECT a.c1 FROM t1 AS a, t1 AS b
          WHERE anoncol1 = 1
        )
        SELECT (SELECT 1 FROM t2) FROM t2
      ) 
      SELECT t3col1 FROM t3 WHERE t3col1
    ) FROM (SELECT 1 AS anoncol1)
  )
  SELECT t5col1, t5col1 FROM t5
} {1 1}
do_execsql_test 4.1 {
  SELECT EXISTS (
    WITH RECURSIVE Table0 AS (
      WITH RECURSIVE Table0(Col0) AS (SELECT ALL 1  ) 
      SELECT ALL (
        WITH RECURSIVE Table0 AS (
          WITH RECURSIVE Table0 AS (
            WITH RECURSIVE Table0 AS (SELECT DISTINCT 1  GROUP BY 1  ) 
            SELECT DISTINCT * FROM Table0 NATURAL INNER JOIN Table0
            WHERE Col0 = 1  
          )
          SELECT ALL (SELECT DISTINCT * FROM Table0) FROM Table0 WHERE Col0 = 1
        ) 
        SELECT ALL * FROM Table0  NATURAL INNER JOIN  Table0      
      ) FROM Table0 ) 
      SELECT DISTINCT * FROM Table0  NATURAL INNER JOIN  Table0      
    ); 
} {1}


finish_test

Changes to test/without_rowid1.test.

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do_execsql_test 10.6 {
  CREATE TRIGGER t1_tr BEFORE UPDATE ON t1 BEGIN
    DELETE FROM t1 WHERE a = new.a;
  END;
  UPDATE t1 SET c = c+1 WHERE a = 'a';
  SELECT * FROM t1;
} {b a 3  b b 4}



















  
finish_test







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do_execsql_test 10.6 {
  CREATE TRIGGER t1_tr BEFORE UPDATE ON t1 BEGIN
    DELETE FROM t1 WHERE a = new.a;
  END;
  UPDATE t1 SET c = c+1 WHERE a = 'a';
  SELECT * FROM t1;
} {b a 3  b b 4}

# 2019-04-29 ticket https://www.sqlite.org/src/info/3182d3879020ef3
do_execsql_test 11.1 {
  CREATE TABLE t11(a TEXT PRIMARY KEY, b INT) WITHOUT ROWID;
  CREATE INDEX t11a ON t11(a COLLATE NOCASE);
  INSERT INTO t11(a,b) VALUES ('A',1),('a',2);
  PRAGMA integrity_check;
  SELECT a FROM t11 ORDER BY a COLLATE binary;
} {ok A a}

# 2019-05-13 ticket https://www.sqlite.org/src/info/bba7b69f9849b5b
do_execsql_test 12.1 {
  DROP TABLE IF EXISTS t0;
  CREATE TABLE t0 (c0 INTEGER PRIMARY KEY DESC, c1 UNIQUE DEFAULT NULL) WITHOUT ROWID;
  INSERT INTO t0(c0) VALUES (1), (2), (3), (4), (5);
  REINDEX;
  PRAGMA integrity_check;
} {ok}

  
finish_test

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/****************** From the file "action.c" *******************************/
/*
** Routines processing parser actions in the LEMON parser generator.
*/

/* Allocate a new parser action */
static struct action *Action_new(void){
  static struct action *freelist = 0;
  struct action *newaction;

  if( freelist==0 ){
    int i;
    int amt = 100;
    freelist = (struct action *)calloc(amt, sizeof(struct action));
    if( freelist==0 ){
      fprintf(stderr,"Unable to allocate memory for a new parser action.");
      exit(1);
    }
    for(i=0; i<amt-1; i++) freelist[i].next = &freelist[i+1];
    freelist[amt-1].next = 0;
  }
  newaction = freelist;
  freelist = freelist->next;
  return newaction;
}

/* Compare two actions for sorting purposes.  Return negative, zero, or
** positive if the first action is less than, equal to, or greater than
** the first
*/
................................................................................
    set[i] = ep;
  }
  ep = 0;
  for(i=0; i<LISTSIZE; i++) if( set[i] ) ep = merge(set[i],ep,cmp,offset);
  return ep;
}
/************************ From the file "option.c" **************************/
static char **argv;
static struct s_options *op;
static FILE *errstream;

#define ISOPT(X) ((X)[0]=='-'||(X)[0]=='+'||strchr((X),'=')!=0)

/*
** Print the command line with a carrot pointing to the k-th character
** of the n-th field.
*/
static void errline(int n, int k, FILE *err)
{
  int spcnt, i;
  if( argv[0] ) fprintf(err,"%s",argv[0]);
  spcnt = lemonStrlen(argv[0]) + 1;
  for(i=1; i<n && argv[i]; i++){
    fprintf(err," %s",argv[i]);
    spcnt += lemonStrlen(argv[i])+1;
  }
  spcnt += k;
  for(; argv[i]; i++) fprintf(err," %s",argv[i]);
  if( spcnt<20 ){
    fprintf(err,"\n%*s^-- here\n",spcnt,"");
  }else{
    fprintf(err,"\n%*shere --^\n",spcnt-7,"");
  }
}

................................................................................
** Return the index of the N-th non-switch argument.  Return -1
** if N is out of range.
*/
static int argindex(int n)
{
  int i;
  int dashdash = 0;
  if( argv!=0 && *argv!=0 ){
    for(i=1; argv[i]; i++){
      if( dashdash || !ISOPT(argv[i]) ){
        if( n==0 ) return i;
        n--;
      }
      if( strcmp(argv[i],"--")==0 ) dashdash = 1;
    }
  }
  return -1;
}

static char emsg[] = "Command line syntax error: ";

................................................................................
*/
static int handleflags(int i, FILE *err)
{
  int v;
  int errcnt = 0;
  int j;
  for(j=0; op[j].label; j++){
    if( strncmp(&argv[i][1],op[j].label,lemonStrlen(op[j].label))==0 ) break;
  }
  v = argv[i][0]=='-' ? 1 : 0;
  if( op[j].label==0 ){
    if( err ){
      fprintf(err,"%sundefined option.\n",emsg);
      errline(i,1,err);
    }
    errcnt++;
  }else if( op[j].arg==0 ){
    /* Ignore this option */
  }else if( op[j].type==OPT_FLAG ){
    *((int*)op[j].arg) = v;
  }else if( op[j].type==OPT_FFLAG ){
    (*(void(*)(int))(op[j].arg))(v);
  }else if( op[j].type==OPT_FSTR ){
    (*(void(*)(char *))(op[j].arg))(&argv[i][2]);
  }else{
    if( err ){
      fprintf(err,"%smissing argument on switch.\n",emsg);
      errline(i,1,err);
    }
    errcnt++;
  }
................................................................................
{
  int lv = 0;
  double dv = 0.0;
  char *sv = 0, *end;
  char *cp;
  int j;
  int errcnt = 0;
  cp = strchr(argv[i],'=');
  assert( cp!=0 );
  *cp = 0;
  for(j=0; op[j].label; j++){
    if( strcmp(argv[i],op[j].label)==0 ) break;
  }
  *cp = '=';
  if( op[j].label==0 ){
    if( err ){
      fprintf(err,"%sundefined option.\n",emsg);
      errline(i,0,err);
    }
................................................................................
      case OPT_DBL:
      case OPT_FDBL:
        dv = strtod(cp,&end);
        if( *end ){
          if( err ){
            fprintf(err,
               "%sillegal character in floating-point argument.\n",emsg);
            errline(i,(int)((char*)end-(char*)argv[i]),err);
          }
          errcnt++;
        }
        break;
      case OPT_INT:
      case OPT_FINT:
        lv = strtol(cp,&end,0);
        if( *end ){
          if( err ){
            fprintf(err,"%sillegal character in integer argument.\n",emsg);
            errline(i,(int)((char*)end-(char*)argv[i]),err);
          }
          errcnt++;
        }
        break;
      case OPT_STR:
      case OPT_FSTR:
        sv = cp;
................................................................................
  }
  return errcnt;
}

int OptInit(char **a, struct s_options *o, FILE *err)
{
  int errcnt = 0;
  argv = a;
  op = o;
  errstream = err;
  if( argv && *argv && op ){
    int i;
    for(i=1; argv[i]; i++){
      if( argv[i][0]=='+' || argv[i][0]=='-' ){
        errcnt += handleflags(i,err);
      }else if( strchr(argv[i],'=') ){
        errcnt += handleswitch(i,err);
      }
    }
  }
  if( errcnt>0 ){
    fprintf(err,"Valid command line options for \"%s\" are:\n",*a);
    OptPrint();
................................................................................
  return 0;
}

int OptNArgs(void){
  int cnt = 0;
  int dashdash = 0;
  int i;
  if( argv!=0 && argv[0]!=0 ){
    for(i=1; argv[i]; i++){
      if( dashdash || !ISOPT(argv[i]) ) cnt++;
      if( strcmp(argv[i],"--")==0 ) dashdash = 1;
    }
  }
  return cnt;
}

char *OptArg(int n)
{
  int i;
  i = argindex(n);
  return i>=0 ? argv[i] : 0;
}

void OptErr(int n)
{
  int i;
  i = argindex(n);
  if( i>=0 ) errline(i,0,errstream);
................................................................................
          psp->errorcnt++;
        }
      }
      break;
    case WAITING_FOR_CLASS_ID:
      if( !ISLOWER(x[0]) ){
        ErrorMsg(psp->filename, psp->tokenlineno,
          "%%token_class must be followed by an identifier: ", x);
        psp->errorcnt++;
        psp->state = RESYNC_AFTER_DECL_ERROR;
     }else if( Symbol_find(x) ){
        ErrorMsg(psp->filename, psp->tokenlineno,
          "Symbol \"%s\" already used", x);
        psp->errorcnt++;
        psp->state = RESYNC_AFTER_DECL_ERROR;
................................................................................
    if( rp->rhsalias[i] ){
      if( i>0 ){
        int j;
        if( rp->lhsalias && strcmp(rp->lhsalias,rp->rhsalias[i])==0 ){
          ErrorMsg(lemp->filename,rp->ruleline,
            "%s(%s) has the same label as the LHS but is not the left-most "
            "symbol on the RHS.",
            rp->rhs[i]->name, rp->rhsalias);
          lemp->errorcnt++;
        }
        for(j=0; j<i; j++){
          if( rp->rhsalias[j] && strcmp(rp->rhsalias[j],rp->rhsalias[i])==0 ){
            ErrorMsg(lemp->filename,rp->ruleline,
              "Label %s used for multiple symbols on the RHS of a rule.",
              rp->rhsalias[i]);







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3858
/****************** From the file "action.c" *******************************/
/*
** Routines processing parser actions in the LEMON parser generator.
*/

/* Allocate a new parser action */
static struct action *Action_new(void){
  static struct action *actionfreelist = 0;
  struct action *newaction;

  if( actionfreelist==0 ){
    int i;
    int amt = 100;
    actionfreelist = (struct action *)calloc(amt, sizeof(struct action));
    if( actionfreelist==0 ){
      fprintf(stderr,"Unable to allocate memory for a new parser action.");
      exit(1);
    }
    for(i=0; i<amt-1; i++) actionfreelist[i].next = &actionfreelist[i+1];
    actionfreelist[amt-1].next = 0;
  }
  newaction = actionfreelist;
  actionfreelist = actionfreelist->next;
  return newaction;
}

/* Compare two actions for sorting purposes.  Return negative, zero, or
** positive if the first action is less than, equal to, or greater than
** the first
*/
................................................................................
    set[i] = ep;
  }
  ep = 0;
  for(i=0; i<LISTSIZE; i++) if( set[i] ) ep = merge(set[i],ep,cmp,offset);
  return ep;
}
/************************ From the file "option.c" **************************/
static char **g_argv;
static struct s_options *op;
static FILE *errstream;

#define ISOPT(X) ((X)[0]=='-'||(X)[0]=='+'||strchr((X),'=')!=0)

/*
** Print the command line with a carrot pointing to the k-th character
** of the n-th field.
*/
static void errline(int n, int k, FILE *err)
{
  int spcnt, i;
  if( g_argv[0] ) fprintf(err,"%s",g_argv[0]);
  spcnt = lemonStrlen(g_argv[0]) + 1;
  for(i=1; i<n && g_argv[i]; i++){
    fprintf(err," %s",g_argv[i]);
    spcnt += lemonStrlen(g_argv[i])+1;
  }
  spcnt += k;
  for(; g_argv[i]; i++) fprintf(err," %s",g_argv[i]);
  if( spcnt<20 ){
    fprintf(err,"\n%*s^-- here\n",spcnt,"");
  }else{
    fprintf(err,"\n%*shere --^\n",spcnt-7,"");
  }
}

................................................................................
** Return the index of the N-th non-switch argument.  Return -1
** if N is out of range.
*/
static int argindex(int n)
{
  int i;
  int dashdash = 0;
  if( g_argv!=0 && *g_argv!=0 ){
    for(i=1; g_argv[i]; i++){
      if( dashdash || !ISOPT(g_argv[i]) ){
        if( n==0 ) return i;
        n--;
      }
      if( strcmp(g_argv[i],"--")==0 ) dashdash = 1;
    }
  }
  return -1;
}

static char emsg[] = "Command line syntax error: ";

................................................................................
*/
static int handleflags(int i, FILE *err)
{
  int v;
  int errcnt = 0;
  int j;
  for(j=0; op[j].label; j++){
    if( strncmp(&g_argv[i][1],op[j].label,lemonStrlen(op[j].label))==0 ) break;
  }
  v = g_argv[i][0]=='-' ? 1 : 0;
  if( op[j].label==0 ){
    if( err ){
      fprintf(err,"%sundefined option.\n",emsg);
      errline(i,1,err);
    }
    errcnt++;
  }else if( op[j].arg==0 ){
    /* Ignore this option */
  }else if( op[j].type==OPT_FLAG ){
    *((int*)op[j].arg) = v;
  }else if( op[j].type==OPT_FFLAG ){
    (*(void(*)(int))(op[j].arg))(v);
  }else if( op[j].type==OPT_FSTR ){
    (*(void(*)(char *))(op[j].arg))(&g_argv[i][2]);
  }else{
    if( err ){
      fprintf(err,"%smissing argument on switch.\n",emsg);
      errline(i,1,err);
    }
    errcnt++;
  }
................................................................................
{
  int lv = 0;
  double dv = 0.0;
  char *sv = 0, *end;
  char *cp;
  int j;
  int errcnt = 0;
  cp = strchr(g_argv[i],'=');
  assert( cp!=0 );
  *cp = 0;
  for(j=0; op[j].label; j++){
    if( strcmp(g_argv[i],op[j].label)==0 ) break;
  }
  *cp = '=';
  if( op[j].label==0 ){
    if( err ){
      fprintf(err,"%sundefined option.\n",emsg);
      errline(i,0,err);
    }
................................................................................
      case OPT_DBL:
      case OPT_FDBL:
        dv = strtod(cp,&end);
        if( *end ){
          if( err ){
            fprintf(err,
               "%sillegal character in floating-point argument.\n",emsg);
            errline(i,(int)((char*)end-(char*)g_argv[i]),err);
          }
          errcnt++;
        }
        break;
      case OPT_INT:
      case OPT_FINT:
        lv = strtol(cp,&end,0);
        if( *end ){
          if( err ){
            fprintf(err,"%sillegal character in integer argument.\n",emsg);
            errline(i,(int)((char*)end-(char*)g_argv[i]),err);
          }
          errcnt++;
        }
        break;
      case OPT_STR:
      case OPT_FSTR:
        sv = cp;
................................................................................
  }
  return errcnt;
}

int OptInit(char **a, struct s_options *o, FILE *err)
{
  int errcnt = 0;
  g_argv = a;
  op = o;
  errstream = err;
  if( g_argv && *g_argv && op ){
    int i;
    for(i=1; g_argv[i]; i++){
      if( g_argv[i][0]=='+' || g_argv[i][0]=='-' ){
        errcnt += handleflags(i,err);
      }else if( strchr(g_argv[i],'=') ){
        errcnt += handleswitch(i,err);
      }
    }
  }
  if( errcnt>0 ){
    fprintf(err,"Valid command line options for \"%s\" are:\n",*a);
    OptPrint();
................................................................................
  return 0;
}

int OptNArgs(void){
  int cnt = 0;
  int dashdash = 0;
  int i;
  if( g_argv!=0 && g_argv[0]!=0 ){
    for(i=1; g_argv[i]; i++){
      if( dashdash || !ISOPT(g_argv[i]) ) cnt++;
      if( strcmp(g_argv[i],"--")==0 ) dashdash = 1;
    }
  }
  return cnt;
}

char *OptArg(int n)
{
  int i;
  i = argindex(n);
  return i>=0 ? g_argv[i] : 0;
}

void OptErr(int n)
{
  int i;
  i = argindex(n);
  if( i>=0 ) errline(i,0,errstream);
................................................................................
          psp->errorcnt++;
        }
      }
      break;
    case WAITING_FOR_CLASS_ID:
      if( !ISLOWER(x[0]) ){
        ErrorMsg(psp->filename, psp->tokenlineno,
          "%%token_class must be followed by an identifier: %s", x);
        psp->errorcnt++;
        psp->state = RESYNC_AFTER_DECL_ERROR;
     }else if( Symbol_find(x) ){
        ErrorMsg(psp->filename, psp->tokenlineno,
          "Symbol \"%s\" already used", x);
        psp->errorcnt++;
        psp->state = RESYNC_AFTER_DECL_ERROR;
................................................................................
    if( rp->rhsalias[i] ){
      if( i>0 ){
        int j;
        if( rp->lhsalias && strcmp(rp->lhsalias,rp->rhsalias[i])==0 ){
          ErrorMsg(lemp->filename,rp->ruleline,
            "%s(%s) has the same label as the LHS but is not the left-most "
            "symbol on the RHS.",
            rp->rhs[i]->name, rp->rhsalias[i]);
          lemp->errorcnt++;
        }
        for(j=0; j<i; j++){
          if( rp->rhsalias[j] && strcmp(rp->rhsalias[j],rp->rhsalias[i])==0 ){
            ErrorMsg(lemp->filename,rp->ruleline,
              "Label %s used for multiple symbols on the RHS of a rule.",
              rp->rhsalias[i]);

Changes to tool/mkpragmatab.tcl.

303
304
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306
307
308
309

310
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316
  TYPE: FLAG
  ARG:  SQLITE_ParserTrace
  IF:   !defined(SQLITE_OMIT_FLAG_PRAGMAS)
  IF:   defined(SQLITE_DEBUG)

  NAME: case_sensitive_like
  FLAG: NoColumns


  NAME: integrity_check
  FLAG: NeedSchema Result0 Result1
  IF:   !defined(SQLITE_OMIT_INTEGRITY_CHECK)

  NAME: quick_check
  TYPE: INTEGRITY_CHECK







>







303
304
305
306
307
308
309
310
311
312
313
314
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  TYPE: FLAG
  ARG:  SQLITE_ParserTrace
  IF:   !defined(SQLITE_OMIT_FLAG_PRAGMAS)
  IF:   defined(SQLITE_DEBUG)

  NAME: case_sensitive_like
  FLAG: NoColumns
  IF:   !defined(SQLITE_OMIT_CASE_SENSITIVE_LIKE_PRAGMA)

  NAME: integrity_check
  FLAG: NeedSchema Result0 Result1
  IF:   !defined(SQLITE_OMIT_INTEGRITY_CHECK)

  NAME: quick_check
  TYPE: INTEGRITY_CHECK

Changes to tool/mkshellc.tcl.

36
37
38
39
40
41
42

43
44
45

46
47
48

49
50
51
52


53
54
55
56
57
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60

61
62
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64
65
66
    if {[info exists typedef_seen($line)]} {
      return "/* $line */"
    }
    set typedef_seen($line) 1
  }
  return $line
}

while {1} {
  set lx [omit_redundant_typedefs [gets $in]]
  if {[eof $in]} break;

  if {[regexp {^INCLUDE } $lx]} {
    set cfile [lindex $lx 1]
    puts $out "/************************* Begin $cfile ******************/"

    set in2 [open $topdir/src/$cfile rb]
    while {![eof $in2]} {
      set lx [omit_redundant_typedefs [gets $in2]]
      if {[regexp {^#include "sqlite} $lx]} continue


      if {[regexp {^# *include "test_windirent.h"} $lx]} {
        set lx "/* $lx */"
      }
      set lx [string map [list __declspec(dllexport) {}] $lx]
      puts $out $lx
    }
    close $in2
    puts $out "/************************* End $cfile ********************/"

    continue
  }
  puts $out $lx
}
close $in
close $out







>



>



>



|
>
>








>






36
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70
71
72
    if {[info exists typedef_seen($line)]} {
      return "/* $line */"
    }
    set typedef_seen($line) 1
  }
  return $line
}
set iLine 0
while {1} {
  set lx [omit_redundant_typedefs [gets $in]]
  if {[eof $in]} break;
  incr iLine
  if {[regexp {^INCLUDE } $lx]} {
    set cfile [lindex $lx 1]
    puts $out "/************************* Begin $cfile ******************/"
#   puts $out "#line 1 \"$cfile\""
    set in2 [open $topdir/src/$cfile rb]
    while {![eof $in2]} {
      set lx [omit_redundant_typedefs [gets $in2]]
      if {[regexp {^#include "sqlite} $lx]} {
        set lx "/* $lx */"
      }
      if {[regexp {^# *include "test_windirent.h"} $lx]} {
        set lx "/* $lx */"
      }
      set lx [string map [list __declspec(dllexport) {}] $lx]
      puts $out $lx
    }
    close $in2
    puts $out "/************************* End $cfile ********************/"
#   puts $out "#line [expr $iLine+1] \"shell.c.in\""
    continue
  }
  puts $out $lx
}
close $in
close $out

Changes to tool/showdb.c.

831
832
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838


839
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841
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846
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861







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864


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...
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990

991
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997
      a = fileRead((ovfl-1)*(sqlite3_int64)g.pagesize, 4);
      ovfl = decodeInt32(a);
      sqlite3_free(a);
    }
  }
}










/*
** Describe the usages of a b-tree page



*/
static void page_usage_btree(
  int pgno,             /* Page to describe */
  int parent,           /* Parent of this page.  0 for root pages */
  int idx,              /* Which child of the parent */
  const char *zName     /* Name of the table */
){
  unsigned char *a;
  const char *zType = "corrupt node";
  int nCell;
  int i;
  int hdr = pgno==1 ? 100 : 0;


  if( pgno<=0 || pgno>g.mxPage ) return;
  a = fileRead((pgno-1)*g.pagesize, g.pagesize);
  switch( a[hdr] ){










    case 2:  zType = "interior node of index";  break;
    case 5:  zType = "interior node of table";  break;
    case 10: zType = "leaf of index";           break;
    case 13: zType = "leaf of table";           break;



  }







  if( parent ){
    page_usage_msg(pgno, "%s [%s], child %d of page %d",
                   zType, zName, idx, parent);


  }else{
    page_usage_msg(pgno, "root %s [%s]", zType, zName);
  }
  nCell = a[hdr+3]*256 + a[hdr+4];
  if( a[hdr]==2 || a[hdr]==5 ){
    int cellstart = hdr+12;
    unsigned int child;
    for(i=0; i<nCell; i++){
      int ofst;

      ofst = cellstart + i*2;
................................................................................
    rc = sqlite3_finalize(pStmt);
    if( rc==SQLITE_OK ) break;
  }
  sqlite3_close(db);

  /* Print the report and free memory used */
  for(i=1; i<=g.mxPage; i++){

    printf("%5d: %s\n", i, zPageUse[i] ? zPageUse[i] : "???");
    sqlite3_free(zPageUse[i]);
  }
  sqlite3_free(zPageUse);
  zPageUse = 0;
}








>
>
>
>
>
>
|
>
>

|
>
>
>












>




>
>
>
>
>
>
>
>
>
>




>
>
>
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>
>
>
>
>
>
>
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>
>

|

<







 







>







831
832
833
834
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840
841
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843
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845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
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864
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      a = fileRead((ovfl-1)*(sqlite3_int64)g.pagesize, 4);
      ovfl = decodeInt32(a);
      sqlite3_free(a);
    }
  }
}

/*
** True if the memory is all zeros
*/
static int allZero(unsigned char *a, int n){
  while( n && (a++)[0]==0 ){ n--; }
  return n==0;
}


/*
** Describe the usages of a b-tree page.
**
** If parent==0, then this is the root of a btree.  If parent<0 then
** this is an orphan page.
*/
static void page_usage_btree(
  int pgno,             /* Page to describe */
  int parent,           /* Parent of this page.  0 for root pages */
  int idx,              /* Which child of the parent */
  const char *zName     /* Name of the table */
){
  unsigned char *a;
  const char *zType = "corrupt node";
  int nCell;
  int i;
  int hdr = pgno==1 ? 100 : 0;
  char zEntry[30];

  if( pgno<=0 || pgno>g.mxPage ) return;
  a = fileRead((pgno-1)*g.pagesize, g.pagesize);
  switch( a[hdr] ){
    case 0: {
      if( allZero(a, g.pagesize) ){
        zType = "zeroed page";
      }else if( parent<0 ){
        return;
      }else{
        zType = "corrupt node";
      }
      break;
    }
    case 2:  zType = "interior node of index";  break;
    case 5:  zType = "interior node of table";  break;
    case 10: zType = "leaf of index";           break;
    case 13: zType = "leaf of table";           break;
    default: {
      if( parent<0 ) return;
      zType = "corrupt node";
    }
  }
  nCell = a[hdr+3]*256 + a[hdr+4];
  if( nCell==1 ){
    sqlite3_snprintf(sizeof(zEntry),zEntry,"1 row");
  }else{
    sqlite3_snprintf(sizeof(zEntry),zEntry,"%d rows", nCell);
  }
  if( parent>0 ){
    page_usage_msg(pgno, "%s [%s], child %d of page %d, %s",
                   zType, zName, idx, parent, zEntry);
  }else if( parent==0 ){
    page_usage_msg(pgno, "root %s [%s], %s", zType, zName, zEntry);
  }else{
    page_usage_msg(pgno, "orphaned %s, %s", zType, zEntry);
  }

  if( a[hdr]==2 || a[hdr]==5 ){
    int cellstart = hdr+12;
    unsigned int child;
    for(i=0; i<nCell; i++){
      int ofst;

      ofst = cellstart + i*2;
................................................................................
    rc = sqlite3_finalize(pStmt);
    if( rc==SQLITE_OK ) break;
  }
  sqlite3_close(db);

  /* Print the report and free memory used */
  for(i=1; i<=g.mxPage; i++){
    if( zPageUse[i]==0 ) page_usage_btree(i, -1, 0, 0);
    printf("%5d: %s\n", i, zPageUse[i] ? zPageUse[i] : "???");
    sqlite3_free(zPageUse[i]);
  }
  sqlite3_free(zPageUse);
  zPageUse = 0;
}