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|
#!/bin/sh
#
# Copyright 2011
# Kaz Kylheku <kaz@kylheku.com>
# Vancouver, Canada
# All rights reserved.
#
# BSD License:
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
#
# 1. Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in
# the documentation and/or other materials provided with the
# distribution.
# 3. The name of the author may not be used to endorse or promote
# products derived from this software without specific prior
# written permission.
#
# THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR
# IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED
# WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
#
# Save command line in a way that can be re-run.
# This takes care of spaces, but if there are shell-meta characters
# in the arguments, oops.
#
set -u
cmdline=
for arg in "$0" "$@" ; do
[ -n "$cmdline" ] && cmdline="$cmdline "
case $arg in
*" "* | " "* | *" " )
cmdline=$cmdline$(printf "\"%s\"" "$arg")
;;
* )
cmdline=$cmdline$arg
;;
esac
done
#
# Parse configuration variables
#
while [ $# -gt 0 ] ; do
case $1 in
--no-* )
var=${1#--no-}
val=
;;
--*=* )
var=${1%%=*}
var=${var#--}
val=${1#*=}
;;
--*= )
var=${1%%=*}
var=${var#--}
val=
;; --* )
var=${1#--}
val=y
;;
*=* )
var=${1%%=*}
val=${1#*=}
;;
*= )
var=${1%%=*}
val=
;;
* )
printf "$0: '$1' doesn't look like a configuration variable assignment\n"
printf "$0: use --help to get help\n"
exit 1
esac
if ! printf $var | grep -q -E '^[A-Za-z_][A-Za-z0-9_]*$' ; then
printf "$0: '$var' isn't a proper configuration variable name\n"
exit 1
fi
eval "$var='$val'"
shift
done
#
# Establish default values for any variables that are not specified
# on the command line. The default derivations from prefix are in
# Make syntax. They go verbatim into the generated config.make.
# This way they can be overridden more flexibly at make time.
#
#
# non-config
#
help=${help-}
#
# config
#
prefix=${prefix-/usr/local}
install_prefix=${install_prefix-}
bindir=${datadir-'$(prefix)/bin'}
datadir=${datadir-'$(prefix)/share/txr'}
mandir=${mandir-'$(prefix)/share/man'}
cross=${cross-}
compiler_prefix=${compiler_prefix-}
ccname=${ccname-gcc}
cc=${cc-'$(cross)$(compiler_prefix)$(ccname)'}
intptr=${intptr-}
tool_prefix=${tool_prefix-}
lex=${lex-'$(cross)$(tool_prefix)flex'}
lexlib=${lexlib--lfl}
yaccname_given=${yaccname+yes}
yaccname=${yaccname-}
yacc_given=${yacc+yes}
yacc=${yacc-'$(cross)$(tool_prefix)$(yaccname)'}
nm=${nm-'$(cross)$(tool_prefix)nm'}
opt_flags=${opt_flags--O2}
lang_flags=${lang_flags--ansi -D_POSIX_C_SOURCE=2}
diag_flags=${diag_flags--Wall -Wmissing-prototypes -Wstrict-prototypes}
debug_flags=${debug_flags--g}
inline=${inline-}
platform_flags=${platform_flags-}
remove_flags=${remove_flags-}
lex_dbg_flags=${lex_dbg_flags-}
txr_dbg_opts=${txr_dbg_opts---gc-debug}
valgrind=${valgrind-}
lit_align=${lit_align-}
extra_debugging=${extra_debugging-}
mpi_version=1.8.6
have_quilt=
have_patch=
#
# If --help was given (or --help=<nonempty> or help=<nonempty>) then
# print help and exit. The termination status is failed, to indicate
# that configuration was not done.
#
if [ -n "$help" ] ; then
cat <<!
usage: $0 { variable=value }*
The configure script prepares txr program for compilation and installation.
To configure a program means to establish the values of make variables
which influence how the software is built, where it is installed.
These variables can also influence what features are present in the
software, and can determine various defaults for those behaviors which are
dynamically configurable when the software is run.
Configuration variables are recorded in a file called config.make. This is a
GNU makefile, and consequently uses the GNU make syntax. It is included in the
main Makefile by an include statement.
The configure script is flexible. It allows variables to be entered in any
of these forms:
Canonical:
variable=value Defines the given variable as having the given value.
variable= Defines the variable as having an empty value.
An empty value serves as boolean false.
Long-option style:
--variable=value Same as 'variable=value', but resembles a GNU-style
long option.
--variable Same as 'variable=y'.
--no-variable Same as 'variable='.
No variables are required. The configure script establishes default values
for any variables which are needed by the build, but which are not specified
on the command line.
After running $0, check that the config.make contents are sane.
The following variables are supported. Note that make variable syntax may
be used in paths. Default values are shown in [square brackets].
prefix [$prefix]
Specifies root directory where the software will ultimately be installed and
run from.
install_prefix [$install_prefix]
Specifies an extra path prefix that will be prepended to all paths during
installation, which allows the software to be installed in a temporary
directory for packaging. This variable becomes the \$(DESTDIR)
variable in the config.make makefile.
bindir [$bindir]
Specifies where the program executable will be installed.
datadir [$datadir]
Specifies where read-only program data is to be stored.
mandir [$mandir]
Specifies the directory where to install man pages.
cross [$cross]
Specifies the root of a cross-compiling toolchain.
This becomes the \$(cross) variable in the config.make makefile, and by
default will be added as a prefix to all of the toolchain commands.
It should include the trailing slash, unless the \$compiler_prefix
and \$tool_prefix variables take care of this by providing a leading slash.
compiler_prefix [$compiler_prefix]
Specifies a prefix to be added to the compiler command.
This is added to the \$(cross) prefix. This can include some path name
components, and a name fragment. For instance, if
\$cross is "/cross/toolchain/" and \$compiler_prefix is
"bin/mips-linux-" then the compiler command, unless otherwise
specified, will be "/cross/toolchain/bin/mips-linux-gcc".
ccname [$ccname]
Specifies just the name of the compiler front-end program, without the path.
The following variable, cc, specifies the full name.
cc [$cc]
Specifies the name of the toolchain front-end driver command to use for
compiling C sources to object files, and for linking object files to
executables. This becomes the CC variable in config.make.
intptr [$intptr]
Specifies the name of the C integer type wide enough such that a pointer
value can be converted to it. If this is blank, the configure script
will try to auto detect it.
lit_align [$lit_align]
Specifies alignment for wide string literals. This is guessed
from the size of the wchar_t type. If your wchar_t type is two byte wide, but
wide literals are aligned to four bytes, then you should specify this. This
will eliminate some kludges in the program. There is no easy way to check
for this withut generating and running a C program, which is unfriendly
for cross-compiling!
inline [$inline]
Specifies the syntax for defining an inline function, in such
a way that the function definition can be included into multiple
translation units without clashes.
If blank, an attempt is made to auto-detect this which
falls back on "static".
tool_prefix [$tool_prefix]
Specifies a prefix to be added to tool commands other than the
compiler, like lex and yacc, in addition to \$cross.
lex [$lex]
Specifies the program to use for compiling lex scanners to C.
This must be compatible with GNU flex, since flex extensions are used.
lexlib [$lexlib]
Specifies the linker flag to use for linking the lex library.
yaccname [$yaccname]
Specifies just the name of the yacc program without the path.
The following variable, yacc, specifies the full name.
If blank, the choice yacc program will be auto-detected.
yacc [$yacc]
Specifies the program to use for compiling yacc scanners to C.
nm [$nm]
Specifies the nm program for dumping symbols from an object file.
opt_flags [$opt_flags]
Specifies optimization flags to use for compiling and linking
C sources.
lang_flags [$lang_flags]
Specifies compiler flags which control the C language dialect and standard
conformance in the language and header files. The txr program is written
in C90, and requires POSIX and possibly other extensions.
diag_flags [$diag_flags]
Specifies compiler flags for obtaining extra diagnostics.
debug_flags [$debug_flags]
Specifies flags for requesting that debugging information be
retained in the compile and link.
platform_flags [$platform_flags]
Specify additional compiler flags for anything else, such as CPU tuning,
target ABI selection, code generation options, et cetera.
remove_flags [$remove_flags]
This is a negative otpion. Any flags mentioned in this variable
will be removed from any of the other compiler flags options above.
The flags may contain GNU Make patterns.
lex_dbg_flags [$lex_dbg_flags]
Specifies debug flags to be passed to lex, perhaps to generate a debugging
scanner.
txr_dbg_opts [$txr_dbg_opts]
Specifies debug flags to pass to the txr program during the execution
of "make tests".
valgrind [$valgrind]
Use --valgrind to to build txr with valgrind integration.
Valgrind integration means that when the program is running under valgrind,
it advises valgrind about stack memory locations accessed by the garbage
collector, to suppress diagnostics about uninitialized accesses.
extra_debugging [$extra_debugging]
Use --extra_debugging to configure some additional debugging features,
which incur a run-time penalty.
!
exit 1
fi
#
# Variables are read, --help wasn't given, so let's configure!
#
txr_ver=049
#
# The all important banner.
#
if [ $txr_ver ] ; then
banner_text=$(printf " Configuring txr %s " "$txr_ver")
else
banner_text=" Configuring txr (unknown version) "
fi
banner_box=$(printf "%.${#banner_text}s\n" \
"-------------------------------------------")
printf "+%s+\n|%s|\n+%s+\n" $banner_box "$banner_text" $banner_box
#
# From here on in, we bail if any command fails.
#
set -e
#
# Check for GNU make
#
printf "Checking for GNU Make ... "
output=$(make --version 2>&1)
set -- $output
if [ $1 != "GNU" -o $2 != "Make" ] ; then
printf "missing\n"
exit 1
fi
make_version=$3
save_ifs=$IFS ; IFS=. ; set -- $make_version ; IFS=$save_ifs
if [ $1 -lt 3 -o \( $1 -eq 3 -a $2 -lt 80 \) ] ; then
printf "too old (%s found, 3.80 or newer needed)\n" $make_version
exit 1
else
printf "yes (%s found)\n" $make_version
fi
#
# Verify sanity of --prefix and other directories.
#
printf "Checking installation paths:\n"
for name in prefix bindir datadir mandir; do
eval path="\$install_prefix\${$name}"
printf "\$(install_prefix)\$(%s)=%s ... " $name "$path"
test_access=y
case "$path" in
" "* | *" "* | *" " )
printf "incorrect (contains spaces)\n"
exit 1
;;
-* )
printf "incorrect (resembles a command option)\n"
exit 1
;;
*'$('* )
# It's a make expression; can't test it
test_access=
;;
/* )
;;
* )
printf "incorrect (must be absolute path)\n"
exit 1
;;
esac
if [ $test_access ] ; then
test_prefix=$path
while true ; do
if [ -e $test_prefix ] ; then
if [ ! -d $test_prefix ] ; then
printf "incorrect ('%s' is not a directory)!\n" $test_prefix
exit 1
fi
if [ ! -w $test_prefix ] ; then
printf "okay\n (but no write access to '%s'\n" $test_prefix
printf " so 'make install' will require root privileges)\n"
else
printf "okay\n"
fi
break
fi
test_prefix=$(dirname $test_prefix)
done
else
printf "okay\n (make variable derivation)\n"
fi
done
#
# First, we have to figure out whether we are configured straight
# in the source directory, or whether we are in a separate build directory.
# In the latter case, we set up a symbolic link to the Makefile.
#
source_dir="$(dirname $0)"
#
# Compute an absolute path to the source directory.
#
top_srcdir="$(cd "$source_dir" ; pwd -P)"
printf "Checking source directory %s ..." "$top_srcdir"
case "$top_srcdir" in
" "* | *" "* | *" " )
printf " bad (contains spaces)\n"
exit 1
;;
* )
printf " okay\n"
;;
esac
if [ "$source_dir" != "." ] ; then
printf "Symlinking Makefile -> $source_dir/Makefile\n"
ln -sf "$source_dir/Makefile" .
else
printf "Warning: its recommended to build in a separate directory\n"
fi
gen_config_make()
{
cat > config.make <<!
#
# Make include file automatically generated by $0.
# Changes to this file are lost when the above is re-run.
#
# absolute path to source code directory
top_srcdir := $top_srcdir
# ultimate installation prefix, where the
# application will be run.
prefix := $prefix
# packaging installation prefix, where the
# application may be temporarily installed
# for creating pre-compiled packages,
# e.g. for an operating system distro.
DESTDIR := $install_prefix
# executable directory
bindir := $bindir
# read-only data directory
datadir := $datadir
# man page directory
mandir := $mandir
# cross compiler toolchain root directory
cross := $cross
# compiler name
ccname = $ccname
# name of yacc program
yaccname = $yaccname
# prefix for compiler command
compiler_prefix := $compiler_prefix
# prefix for non-compiler toolchain commands
tool_prefix := $tool_prefix
# MPI version
mpi_version := $mpi_version
CC := $cc
LEX := $lex
LEXLIB := $lexlib
YACC := $yacc
NM := $nm
OPT_FLAGS := $opt_flags
LANG_FLAGS := $lang_flags
DIAG_FLAGS := $diag_flags
DBG_FLAGS := $debug_flags
PLATFORM_FLAGS := $platform_flags
REMOVE_FLAGS := $remove_flags
LEX_DBG_FLAGS := $lex_dbg_flags
TXR_DBG_OPTS := $txr_dbg_opts
!
}
#
# Before doing some other tests, we need a config.make
#
printf "Generating config.make ... "
gen_config_make
printf "\n"
#
# Start config.h header
#
cat <<! > config.h
/*
* Header file automatically generated by $0.
* Tweaking this file may seem like a good temporary workaround
* than tweak the file, but you probably should fix the script
* to do the job. In any case, be aware that you will lose your
* changes if you re-run $0.
*/
!
#
# Check C compiler sanity
#
printf "Checking whether your C compiler can make a simple executable ... "
cat > conftest.c <<!
#include <stdio.h>
int main(void)
{
printf("Hello, world!\n");
return 0;
}
!
rm -f conftest
if ! make conftest > conftest.err 2>&1 || ! [ -x conftest ] ; then
printf "failed\n\n"
printf "Errors from compilation: \n\n"
cat conftest.err
exit 1
fi
rm -f conftest
printf "okay\n"
#
# Check what kind of C type we have for integers wider than long,
# if any.
#
printf "Checking what C type we have for integers wider than \"long\" ... "
longlong=
for try_type in int64 __int64 "long long" ; do
cat > conftest.c <<!
$try_type value;
!
rm -f conftest.o
if make conftest.o > conftest.err 2>&1 ; then
longlong=$try_type
break
fi
done
if [ -n "$longlong" ] ; then
printf '"%s"\n' "$longlong"
printf "#define HAVE_LONGLONG_T 1\n" >> config.h
printf "typedef $longlong longlong_t;\n" >> config.h
else
printf "none\n"
fi
printf "Checking what C type we have for unsigned integers wider than \"long\" ... "
ulonglong=
for try_type in uint64 __uint64 "unsigned long long" ; do
cat > conftest.c <<!
$try_type value;
!
rm -f conftest.o
if make conftest.o > conftest.err 2>&1 ; then
ulonglong=$try_type
break
fi
done
if [ -n "$ulonglong" ] ; then
printf '"%s"\n' "$ulonglong"
printf "#define HAVE_ULONGLONG_T 1\n" >> config.h
printf "typedef $ulonglong ulonglong_t;\n" >> config.h
else
printf "none\n"
fi
printf "Checking what C type we have for integers wider than \"long long\" ... "
superlong=
for try_type in int128 int128_t __int128 __int128_t ; do
cat > conftest.c <<!
$try_type value;
!
rm -f conftest.o
if make conftest.o > conftest.err 2>&1 ; then
superlong=$try_type
break
fi
done
if [ -n "$superlong" ] ; then
printf '"%s"\n' "$superlong"
printf "#define HAVE_SUPERLONG_T 1\n" >> config.h
printf "typedef $superlong superlong_t;\n" >> config.h
else
printf "none\n"
fi
printf "Checking what C type we have for u. integers wider than \"long long\" ... "
usuperlong=
for try_type in uint128 uint128_t __uint128 __uint128_t ; do
cat > conftest.c <<!
$try_type value;
!
rm -f conftest.o
if make conftest.o > conftest.err 2>&1 ; then
usuperlong=$try_type
break
fi
done
if [ -n "$usuperlong" ] ; then
printf '"%s"\n' "$usuperlong"
printf "#define HAVE_USUPERLONG_T 1\n" >> config.h
printf "typedef $usuperlong usuperlong_t;\n" >> config.h
else
printf "none\n"
fi
printf "Checking what C integer type can hold a pointer ... "
if [ -z "$intptr" ] ; then
cat > conftest.c <<!
#include "config.h"
char SIZEOF_PTR[sizeof (char *)];
char SIZEOF_SHORT[sizeof (short)];
char SIZEOF_INT[sizeof (int)];
char SIZEOF_LONG[sizeof (long)];
#ifdef HAVE_LONGLONG_T
char SIZEOF_LONGLONG_T[sizeof (longlong_t)];
#endif
#ifdef HAVE_SUPERLONG_T
char SIZEOF_SUPERLONG_T[sizeof (superlong_t)];
#endif
!
rm -f conftest.o conftest.syms
if ! make conftest.syms > conftest.err 2>&1 ; then
printf "failed\n\n"
printf "Errors from compilation: \n\n"
cat conftest.err
exit 1
fi
SIZEOF_PTR=0
SIZEOF_SHORT=0
SIZEOF_INT=0
SIZEOF_LONG=0
SIZEOF_LONGLONG_T=0
SIZEOF_SUPERLONG_T=0
while read symbol type offset size ; do
size=$(( 0$size + 0 ))
symbol=${symbol#_}
if [ "$type" = "C" ] ; then
size=$(( 0$offset + 0 ))
fi
case "$symbol" in
SIZEOF* )
eval $(printf "%s=%d\n" "$symbol" "$size")
printf "#define %s %s\n" "$symbol" "$size" >> config.h
;;
esac
done < conftest.syms
rm -f conftest.syms conftest.o
if [ $SIZEOF_PTR -eq 0 ] ; then
printf "failed\n"
exit 1
fi
if [ $SIZEOF_PTR -eq $SIZEOF_SHORT ] ; then
intptr="short"
elif [ $SIZEOF_PTR -eq $SIZEOF_INT ] ; then
intptr="int"
elif [ $SIZEOF_PTR -eq $SIZEOF_LONG ] ; then
intptr="long"
elif [ $SIZEOF_PTR -eq $SIZEOF_LONG_LONG_T ] ; then
intptr="longlong_t"
fi
if [ -z "$intptr" ] ; then
printf "failed\n"
exit 1
fi
fi
printf '"%s"\n' "$intptr"
printf "typedef $intptr int_ptr_t;\n" >> config.h
intptr_max_expr="((((($intptr) 1 << $((SIZEOF_PTR * 8 - 2))) - 1) << 1) + 1)"
printf "#define INT_PTR_MAX %s\n" "$intptr_max_expr" >> config.h
printf "#define INT_PTR_MIN (-INT_PTR_MAX)\n" >> config.h
if [ -n "$longlong" ] && [ $SIZEOF_LONGLONG_T -eq $(( 2 * $SIZEOF_PTR )) ]
then
printf "#define HAVE_DOUBLE_INTPTR_T 1\n" >> config.h
printf "typedef longlong_t double_intptr_t;\n" >> config.h
elif [ -n "$superlong" ] && [ $SIZEOF_SUPERLONG_T -eq $(( 2 * $SIZEOF_PTR )) ]
then
printf "#define HAVE_DOUBLE_INTPTR_T 1\n" >> config.h
printf "typedef superlong_t double_intptr_t;\n" >> config.h
fi
#if HAVE_LONGLONG_T &&
#
# Alignment of wchar_t
#
# What we really want to know is the alignment of wide string literals
# like L"wide literal".
#
# We make pessimistic assumption that the size of the wchar_t type is this
# alignment.
#
# There is no easy way to get the information without running a compiled
# program.
#
printf "Conservatively guessing the alignment of wide literals ... "
if [ -z "$lit_align" ] ; then
cat > conftest.c <<!
#include <wchar.h>
char sizeof_wchar_t[sizeof (wchar_t)];
!
rm -f conftest.o conftest.syms
if ! make conftest.syms > conftest.err 2>&1 ; then
printf "failed\n\n"
printf "Errors from compilation: \n\n"
cat conftest.err
exit 1
fi
sizeof_wchar_t=0
while read symbol type offset size ; do
size=$(( 0$size + 0 ))
symbol=${symbol#_}
if [ "$type" = "C" ] ; then
size=$(( 0$offset + 0 ))
fi
case "$symbol" in
sizeof* )
eval $(printf "%s=%d\n" "$symbol" "$size")
;;
esac
done < conftest.syms
rm -f conftest.syms conftest.o
if [ $sizeof_wchar_t -eq 0 ] ; then
printf "failed\n"
exit 1
fi
lit_align=$sizeof_wchar_t
fi
printf "%d\n" "$lit_align"
printf "#define LIT_ALIGN %d\n" "$lit_align" >> config.h
#
# Inline functions
#
printf "Checking how to declare inline functions ... "
if [ -z "$inline" ] ; then
for inline in \
"inline" "static inline" "extern inline" \
"__inline__" "static __inline__" "extern __inline__" \
"static"
do
cat > conftest1.c <<!
$inline int func(void)
{
return 0;
}
int main(void)
{
return func();
}
!
cat > conftest2.c <<!
$inline int func(void)
{
return 0;
}
!
rm -f conftest2
if ! make conftest2 > conftest.err 2>&1 ; then
continue
fi
break
done
fi
printf '"%s"\n' "$inline"
printf "#define INLINE $inline\n" >> config.h
#
# Valgrind
#
if [ -n "$valgrind" ] ; then
printf "Checking valgrind API availability ... "
cat > conftest.c <<!
#include <valgrind/memcheck.h>
#ifdef VALGRIND_DO_CLIENT_REQUEST
int main(void)
{
return 0;
}
#else
syntax error
#endif
!
rm -rf conftest
if ! make conftest > conftest.err 2>&1 || ! [ -x conftest ] ; then
printf "failed\n\n"
printf "Errors from compilation: \n\n"
cat conftest.err
exit 1
fi
printf "okay\n"
printf "#define HAVE_VALGRIND\n" >> config.h
fi
#
# Yacc tests
#
printf "Checking for yacc program ... "
if [ -z "$yacc_given" -a -z "$yaccname_given" ] ; then
rm -f conftest.yacc
for yaccname in "yacc" "byacc" "bison -y" "" ; do
yaccpath=$(make yaccname="$yaccname" conftest.yacc)
if command -v $yaccpath > /dev/null ; then
break;
fi
done
if [ -z "$yaccname" ] ; then
printf "not found\n"
exit 1
fi
printf '"%s"\n' "$yaccpath"
else
yaccpath=$(make conftest.yacc)
case $yaccpath in
*bison )
printf "error\n\n"
printf "GNU Bison needs -y to behave like yacc\n\n"
printf "This needs to be specified in the --yaccname or --yacc option\n\n"
exit 1
;;
* )
if ! command -v $yaccpath > /dev/null ; then
printf "not found\n\n"
exit 1
fi
printf "given\n"
;;
esac
fi
#
# sys/wait.h
#
printf "Checking whether we have <sys/wait.h> ... "
cat > conftest.c <<!
#include <sys/wait.h>
int main(void)
{
return 0;
}
!
rm -f conftest
if ! make conftest > conftest.err 2>&1 || ! [ -x conftest ] ; then
printf "no\n"
else
printf "yes\n"
printf "#define HAVE_SYS_WAIT 1\n" >> config.h
fi
#
# environ
#
printf "Checking whether we have environ ... "
cat > conftest.c <<!
#include <stdio.h>
int main(void)
{
extern char **environ;
puts(environ[0]);
return 0;
}
!
rm -f conftest
if ! make conftest > conftest.err 2>&1 || ! [ -x conftest ] ; then
printf "no\n"
else
printf "yes\n"
printf "#define HAVE_ENVIRON 1\n" >> config.h
fi
#
# GetEnvironmentStrings
#
printf "Checking whether we have GetEnvironmentStrings ... "
cat > conftest.c <<!
#include <windows.h>
int main(void)
{
WCHAR *ptr = GetEnvironmentStringsW();
return 0;
}
!
rm -f conftest
if ! make conftest > conftest.err 2>&1 || ! [ -x conftest ] ; then
printf "no\n"
else
printf "yes\n"
printf "#define HAVE_GETENVIRONMENTSTRINGS 1\n" >> config.h
fi
#
# Extra debugging.
#
if [ -n "$extra_debugging" ] ; then
printf "Configuring extra debugging, as requested ...\n"
printf "#define EXTRA_DEBUGGING 1\n" >> config.h
fi
#
# Clean up
#
rm -f conftest conftest.[co] conftest.{err,syms}
rm -f conftest2 conftest[12].[oc]
#
# What do we have for patch management.
#
printf "Checking for quilt ... "
if ! quilt --version > /dev/null 2>&1 ; then
printf "not found\n"
else
printf "found\n"
have_quilt=y
fi
printf "Checking for patch ... "
if ! patch --version > /dev/null 2>&1 ; then
printf "not found\n"
printf "\npatch tool required!\n\n"
exit 1
else
printf "found\n"
have_patch=y
fi
#
# Function to apply patches.
#
apply_patches()
{
if ! [ -e patches/series ] ; then
echo "no patches"
return 0
fi
while read patch patchlevel ; do
case patch in
'#' ) continue ;;
* ) patch ${patchlevel:--p1} < patches/$patch ;;
esac
done < patches/series
}
#
# Try to extract MPI if not already.
#
printf "Extracting MPI ... "
if [ -e $top_srcdir/mpi-${mpi_version} ] ; then
printf "already extracted\n"
else
tar -C $top_srcdir -xzf $top_srcdir/mpi-${mpi_version}.tar.gz
printf "\n"
printf "Symlinking MPI patches ...\n"
ln -sf ../mpi-patches \
$top_srcdir/mpi-${mpi_version}/patches
printf "Applying MPI patches ...\n"
if [ -n "$have_quilt" ] ; then
( cd $top_srcdir/mpi-${mpi_version}/patches ;
if [ -e series ] ; then quilt push -a ; else echo "no patches" ; fi )
else
( cd $top_srcdir/mpi-${mpi_version} ;
apply_patches )
fi
fi
#
# Regenerate config.make
#
printf "Regenerating config.make ... "
gen_config_make
printf "\n"
#
# Save configuration in config.log
#
cat > config.log <<!
Configured on $(date) using
$cmdline
!
#
# Parting message
#
cat <<!
The configuration seems to have been successful. That doesn't mean it's
correct! Please check the above output for any problems, and verify that the
contents of the generated files config.make and config.h are sane for the
target platform.
The next step is to build the program with make.
If that is successful, please follow the INSTALL guide.
Usually, most users just need to "make tests" and "make install",
possibly switching to superuser for "make install" if the prefix
points to a privileged location like /usr/local/.
!
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