gcc/libstdc++-v3/libio/gen-params
Benjamin Kosnik b2dad0e372 libstdc++-v3: New directory.
2000-04-21  Benjamin Kosnik  <bkoz@redhat.com>

	* libstdc++-v3: New directory.

From-SVN: r33317
2000-04-21 20:33:34 +00:00

752 lines
22 KiB
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Executable File

#!/bin/sh
# Copyright (C) 1992, 1993, 1994, 1997, 1998, 1999 Free Software Foundation
#
# This file is part of the GNU IO Library. This library is free
# software; you can redistribute it and/or modify it under the
# terms of the GNU General Public License as published by the
# Free Software Foundation; either version 2, or (at your option)
# any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this library; see the file COPYING. If not, write to the Free
# Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
# Written by Per Bothner (bothner@cygnus.com)
# This is a shell-script that figures out various things about a
# system, and writes (to stdout) a C-style include files with
# suitable definitions, including all the standard Posix types.
# It works by compiling various test programs -- some are run through
# the C pre-processor, and the output examined.
# The test programs are only compiled, not executed, so the script
# should even if you're cross-compiling.
# It uses $CC (which defaults to cc) to compile C programs (extension .c),
# and $CXX (which defaults to gcc) to compile C++ programs (extension .C).
# The shell-script is written for libg++.a.
# Usage: gen-params [NAME1=name1 ...]
# - where an assignment (such as size_t="unsigned int" means to
# use that value, instead of trying to figure it out.
# Uncomment following line for debugging
# set -x
SED=sed
# Evaluate the arguments (which should be assignments):
for arg in "$@"; do
# Quote arg (i.e. FOO=bar => FOO='bar'), then eval it.
eval `echo "$arg" | ${SED} -e "s|^\(.*\)=\(.*\)|\1='\2'|"`
done
macro_prefix=${macro_prefix-"_G_"}
rootdir=`pwd`/..
gccdir=${gccdir-${rootdir}/gcc}
binutilsdir=${binutilsdir-${rootdir}/binutils}
CC=${CC-`if [ -f ${gccdir}/xgcc ] ; \
then echo ${gccdir}/xgcc -B${gccdir}/ ; \
else echo cc ; fi`}
CXX=${CXX-`if [ -f ${gccdir}/xgcc ] ; \
then echo ${gccdir}/xgcc -B${gccdir}/ ; \
else echo gcc ; fi`}
CPP=${CPP-`echo ${CC} -E`}
CONFIG_NM=${CONFIG_NM-`if [ -f ${binutilsdir}/nm.new ] ; \
then echo ${binutilsdir}/nm.new ; \
else echo nm ; fi`}
# 2000-02-20 bkoz
# Eventually use AC_CHECK_PROG(NM,nm,nm) instead of this hackery.
# For now, as solaris and cygwin seem to require this, hardwire it.
if test -z "$CONFIG_NM"; then
CONFIG_NM=nm
fi
cat <<!EOF!
/* AUTOMATICALLY GENERATED; DO NOT EDIT! */
#ifndef ${macro_prefix}config_h
#define ${macro_prefix}config_h
!EOF!
if [ x"${LIB_VERSION}" != "x" ] ; then
echo "#define ${macro_prefix}LIB_VERSION" '"'${LIB_VERSION}'"'
fi
# This program is used to test if the compiler prepends '_' before identifiers.
# It is also used to check the g++ uses '$' or '.' various places.
if test -z "${NAMES_HAVE_UNDERSCORE}" \
|| test -z "${DOLLAR_IN_LABEL}" \
|| test -z "${VTABLE_LABEL_PREFIX}"; then
cat >dummy.h <<!EOF!
#ifdef __GNUG__
#pragma interface
#endif
struct filebuf {
virtual int foo();
};
!EOF!
cat >dummy.C <<!EOF!
#ifdef __GNUG__
#pragma implementation
#endif
#include "dummy.h"
int filebuf::foo() { return 0; }
extern "C" int FUNC(int);
int FUNC(int i) { return i+10; }
!EOF!
if ${CXX} -O -c dummy.C ; then
if test -z "${NAMES_HAVE_UNDERSCORE}" ; then
if test "`${CONFIG_NM} dummy.o | grep _FUNC`" != ""; then
NAMES_HAVE_UNDERSCORE=1
elif test "`${CONFIG_NM} dummy.o | grep FUNC`" != ""; then
NAMES_HAVE_UNDERSCORE=0
else
echo "${CONFIG_NM} failed to find FUNC in dummy.o!" 1>&2; exit -1;
fi
fi
echo "#define ${macro_prefix}NAMES_HAVE_UNDERSCORE ${NAMES_HAVE_UNDERSCORE}"
if test -z "${VTABLE_LABEL_PREFIX}" ; then
# Determine how virtual function tables are named. This is fragile,
# because different nm's produce output in different formats.
${CONFIG_NM} dummy.o >TMP
if [ -n "`${SED} -n -e 's/ virtual table/nope/p' <TMP`" ] ; then
${CONFIG_NM} --no-cplus dummy.o >TMP 2>/dev/null ||
${CONFIG_NM} --no-demangle dummy.o >TMP 2>/dev/null ||
${CONFIG_NM} dummy.o >TMP 2>/dev/null
fi
# First we look for a pattern that matches historical output from g++.
# We surround the actual label name by <> to separate it from
# other nm junk.
${SED} -n -e 's/_*vt[$_.]7*filebuf/<&>/p' <TMP >dummy.out
# For paranoia's sake (e.g. if we're using some other C++ compiler)
# we try a more general pattern, and append the result.
grep -v foo <TMP \
| ${SED} -n -e 's/[a-zA-Z0-9_.$]*filebuf[a-zA-Z0-9_.$]*/<&>/p' \
>>dummy.out
# Now we get rid of the <>, and any other junk on the nm output line.
# (We get rid of <filebuf> in case nm included debugging output for
# class filebuf itself.) On windows32, we also need to delete the
# unique sections (.data$_vt$*), otherwise we get the wrong result.
# Finally, we select the first line of the result, and hope that's
# what we wanted!
vtab_name=`${SED} -n -e '/<filebuf>/d' \
-e '/\.data[$_.]<_vt\$7filebuf>/d' \
-e 's/^.*<\(.*\)>.*$/\1/p' \
<dummy.out | ${SED} -n -e '1p'`
case "${vtab_name}" in
*7filebuf) echo "#define ${macro_prefix}VTABLE_LABEL_HAS_LENGTH 1" ;;
*) echo "#define ${macro_prefix}VTABLE_LABEL_HAS_LENGTH 0" ;;
esac
VTABLE_LABEL_PREFIX=`echo $vtab_name | ${SED} -e 's/7*filebuf//'`
fi
echo "#define ${macro_prefix}VTABLE_LABEL_PREFIX" '"'"${VTABLE_LABEL_PREFIX}"'"'
if [ "${VTABLE_LABEL_PREFIX}" = "__vt_" -o \
"${VTABLE_LABEL_PREFIX}" = "___vt_" ] ; then
echo "#define ${macro_prefix}USING_THUNKS"
fi
# VTABLE_LABEL_PREFIX_ID is the same as VTABLE_LABEL_PREFIX,
# but the former is a C identifier, while the latter is a quoted
# st
if [ -z ""`echo ${VTABLE_LABEL_PREFIX} | ${SED} -e 's/[a-zA-Z0-9_]//g'` ] ; then
if [ "${NAMES_HAVE_UNDERSCORE}" = "1" ] ; then
VTABLE_LABEL_PREFIX=`echo ${VTABLE_LABEL_PREFIX} | ${SED} -e 's/^_//'`
fi
echo "#define ${macro_prefix}VTABLE_LABEL_PREFIX_ID ${VTABLE_LABEL_PREFIX}"
fi
# if test -n "${DOLLAR_IN_LABEL}" ; then
# echo "#define ${macro_prefix}DOLLAR_IN_LABEL ${DOLLAR_IN_LABEL}"
# elif test "`${CONFIG_NM} dummy.o | grep 'vt[$$]7filebuf'`" != ""; then
# echo "#define ${macro_prefix}DOLLAR_IN_LABEL 1"
# elif test "`${CONFIG_NM} dummy.o | grep 'vt[.]7filebuf'`" != ""; then
# echo "#define ${macro_prefix}DOLLAR_IN_LABEL 0"
# elif test "`${CONFIG_NM} dummy.o | grep 'vtbl__7filebuf'`" != ""; then
# echo "#define ${macro_prefix}DOLLAR_IN_LABEL 0"
# else
# echo "gen-params: ${CONFIG_NM} failed to find vt[.\$]filebuf in dummy.o!" 1>&2; exit 1
# fi
else
# The compile failed for some reason (no C++?)
echo "gen-params: could not compile dummy.C with ${CXX}" 1>&2; exit 1;
fi
fi
# A little test program to check if struct stat has st_blksize.
cat >dummy.c <<!EOF!
#include <sys/types.h>
#include <sys/stat.h>
int BLKSIZE(struct stat *st)
{
return st->st_blksize;
}
!EOF!
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_ST_BLKSIZE 1"
else
echo "#define ${macro_prefix}HAVE_ST_BLKSIZE 0"
fi
# A little test program to check if the name 'clog' is defined in libm,
# as it is under DEC UNIX.
cat >dummy.c <<!EOF!
int clog;
main () {}
!EOF!
if ${CC} dummy.c -lm 2>&1 >/dev/null | grep clog >/dev/null; then
echo "#define ${macro_prefix}CLOG_CONFLICT 1"
fi
echo ""
# Next, generate definitions for the standard types (such as mode_t)
# compatible with those in the standard C header files.
# It works by a dummy program through the C pre-processor, and then
# using sed to search for typedefs in the output.
for hdr in wchar wctype; do
eval $hdr=0
cat >dummy.c <<EOF
#include <${hdr}.h>
EOF
if ${CPP} dummy.c >/dev/null 2>&1 ; then eval $hdr=1; fi
done
cat >dummy.c <<!EOF!
#include <sys/types.h>
#include <stddef.h>
#ifdef __STDC__
#include <stdarg.h>
#else /* !__STDC__ */
#include <varargs.h>
#endif /* __STDC__ */
#include <stdio.h>
#include <time.h>
#include <signal.h>
#ifdef __STDC__
#include <limits.h>
#endif
#if WCHAR == 1
#include <wchar.h>
#endif
#if WCTYPE == 1
#include <wctype.h>
#endif
#ifdef size_t
typedef size_t Xsize_t;
#elif defined(__SIZE_TYPE__)
typedef __SIZE_TYPE__ Xsize_t;
#endif
#ifdef ptrdiff_t
typedef ptrdiff_t Xptrdiff_t;
#elif defined(__PTRDIFF_TYPE__)
typedef __PTRDIFF_TYPE__ Xptrdiff_t;
#endif
#ifdef wchar_t
typedef wchar_t Xwchar_t;
#elif defined(__WCHAR_TYPE__)
typedef __WCHAR_TYPE__ Xwchar_t;
#endif
#ifdef va_list
typedef va_list XXXva_list;
#endif
#ifdef BUFSIZ
long XBUFSIZ=BUFSIZ;
#endif
#ifdef FOPEN_MAX
long XFOPEN_MAX=FOPEN_MAX;
#endif
#ifdef FILENAME_MAX
long XFILENAME_MAX=FILENAME_MAX;
#endif
#ifdef SHRT_MAX
long XSHRT_MAX=SHRT_MAX;
#endif
#ifdef INT_MAX
long XINT_MAX=INT_MAX;
#endif
#ifdef LONG_MAX
long XLONG_MAX=LONG_MAX;
#endif
#ifdef LONG_LONG_MAX
long XLONG_LONG_MAX=LONG_LONG_MAX;
#endif
!EOF!
if ${CPP} dummy.c -DWCHAR=$wchar -DWCTYPE=$wctype >TMP ; then true
else
echo "gen-params: could not invoke ${CPP} on dummy.c" 1>&2 ; exit 1
fi
tr ' ' ' ' <TMP >dummy.out
for TYPE in dev_t clock_t fpos_t gid_t ino_t mode_t nlink_t off_t pid_t ptrdiff_t sigset_t size_t ssize_t time_t uid_t va_list wchar_t wint_t int16_t uint16_t int32_t uint_32_t u_int16_t u_int32_t; do
eval IMPORTED=\$$TYPE
if [ -n "${IMPORTED}" ] ; then
eval "$TYPE='$IMPORTED'"
else
t=$TYPE
VALUE=''
# Follow `typedef VALUE TYPE' chains, but don't loop indefinitely.
for iteration in 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20; do
# Search dummy.out for a typedef for X*$t.
sed_script="
s/unsigned long long int/_G_ullong/g
s/long long int/_G_llong/g
s/unsigned long long/_G_ullong/g
s/long long/_G_llong/g
/.*typedef *\\(.*[^ ]\\) *X*$t *;.*/{s||\1|;p;q;}
/.*typedef *\\(.*[^ a-zA-Z0-9_]\\)X*$t *;.*/{s||\1|;p;q;}
"
t=`${SED} -n "$sed_script" <dummy.out`
case "$t" in
'')
break;;
*)
# Found a type $t; save it in VALUE.
VALUE=$t
# If it won't cause problems in matching,
# look for a typedef for it in turn.
case "$VALUE" in
*.* | */* | *\ * | *\** | *\[* | *\\*) break;;
esac;;
esac
done
case "$VALUE" in
?*) eval "$TYPE=\"$VALUE\""
esac
fi
done
# Look for some standard macros.
for NAME in BUFSIZ FOPEN_MAX FILENAME_MAX NULL; do
eval IMPORTED=\$$NAME
if [ -n "${IMPORTED}" ] ; then
eval "$NAME='$IMPORTED /* specified */'"
else
rm -f TMP
${SED} -n -e 's| *;|;|g' -e "s|long X${NAME}= *\(.*\);|\1|w TMP" \
<dummy.out>/dev/null
# Now select the first definition.
if [ -s TMP ]; then
eval "$NAME='"`${SED} -e '2,$d' <TMP`"'"
fi
fi
done
# These macros must be numerical constants; strip any trailing 'L's.
for NAME in SHRT_MAX INT_MAX LONG_MAX LONG_LONG_MAX; do
eval IMPORTED=\$$NAME
if [ -n "${IMPORTED}" ] ; then
eval "$NAME='$IMPORTED /* specified */'"
else
rm -f TMP
${SED} -n -e 's| *;|;|g' -e "s|long X${NAME}= *\([0-9]*\)L* *;|\1|w TMP" \
<dummy.out>/dev/null
# Now select the first definition.
if [ -s TMP ]; then
eval "$NAME='"`${SED} -e '2,$d' <TMP`"'"
fi
fi
done
# Figure out integral type sizes.
default_int16='short /* deduction failed */'
default_int32='long /* deduction failed */'
INT16=32767
INT32=2147483647
if [ "${SHRT_MAX}" = $INT16 ] ; then
default_int16='short /* deduced */'
if [ "${LONG_MAX}" = $INT32 ] ; then
default_int32='long /* deduced */'
elif [ "${INT_MAX}" = $INT32 ] ; then
default_int32='int /* deduced */'
fi
fi
[ -n "$u_int16_t" ] && uint16_t="$u_int16_t"
[ -n "$u_int32_t" ] && uint32_t="$u_int32_t"
[ -z "$int16_t" ] && int16_t="$default_int16"
[ -z "$uint16_t" ] && uint16_t="unsigned $int16_t"
[ -z "$int32_t" ] && int32_t="$default_int32"
[ -z "$uint32_t" ] && uint32_t="unsigned $int32_t"
cat <<!EOF!
#if __GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ >= 7)
typedef int ${macro_prefix}int8_t __attribute__((__mode__(__QI__)));
typedef unsigned int ${macro_prefix}uint8_t __attribute__((__mode__(__QI__)));
typedef int ${macro_prefix}int16_t __attribute__((__mode__(__HI__)));
typedef unsigned int ${macro_prefix}uint16_t __attribute__((__mode__(__HI__)));
typedef int ${macro_prefix}int32_t __attribute__((__mode__(__SI__)));
typedef unsigned int ${macro_prefix}uint32_t __attribute__((__mode__(__SI__)));
typedef int ${macro_prefix}int64_t __attribute__((__mode__(__DI__)));
typedef unsigned int ${macro_prefix}uint64_t __attribute__((__mode__(__DI__)));
#if __GNUC__ > 2 || __GNUC_MINOR__ >= 8
__extension__ typedef long long ${macro_prefix}llong;
__extension__ typedef unsigned long long ${macro_prefix}ullong;
#endif
#else
typedef $int16_t ${macro_prefix}int16_t;
typedef $uint16_t ${macro_prefix}uint16_t;
typedef $int32_t ${macro_prefix}int32_t;
typedef $uint32_t ${macro_prefix}uint32_t;
#endif
typedef ${clock_t-int /* default */} ${macro_prefix}clock_t;
typedef ${dev_t-int /* default */} ${macro_prefix}dev_t;
typedef ${fpos_t-long /* default */} ${macro_prefix}fpos_t;
typedef ${gid_t-int /* default */} ${macro_prefix}gid_t;
typedef ${ino_t-int /* default */} ${macro_prefix}ino_t;
typedef ${mode_t-int /* default */} ${macro_prefix}mode_t;
typedef ${nlink_t-int /* default */} ${macro_prefix}nlink_t;
typedef ${off_t-long /* default */} ${macro_prefix}off_t;
typedef ${pid_t-int /* default */} ${macro_prefix}pid_t;
#ifndef __PTRDIFF_TYPE__
#define __PTRDIFF_TYPE__ ${ptrdiff_t-long int /* default */}
#endif
typedef __PTRDIFF_TYPE__ ${macro_prefix}ptrdiff_t;
typedef ${sigset_t-int /* default */} ${macro_prefix}sigset_t;
#ifndef __SIZE_TYPE__
#define __SIZE_TYPE__ ${size_t-unsigned long /* default */}
#endif
typedef __SIZE_TYPE__ ${macro_prefix}size_t;
typedef ${time_t-int /* default */} ${macro_prefix}time_t;
typedef ${uid_t-int /* default */} ${macro_prefix}uid_t;
typedef ${wchar_t-int /* default */} ${macro_prefix}wchar_t;
#define ${macro_prefix}BUFSIZ ${BUFSIZ-1024 /* default */}
#define ${macro_prefix}FOPEN_MAX ${FOPEN_MAX-32 /* default */}
#define ${macro_prefix}FILENAME_MAX ${FILENAME_MAX-1024 /* default */}
#if defined (__cplusplus) || defined (__STDC__)
#define ${macro_prefix}ARGS(ARGLIST) ARGLIST
#else
#define ${macro_prefix}ARGS(ARGLIST) ()
#endif
#if !defined (__GNUG__) || defined (__STRICT_ANSI__)
#define ${macro_prefix}NO_NRV
#endif
#if !defined (__GNUG__)
#define _G_NO_EXTERN_TEMPLATES
#endif
!EOF!
# ssize_t is the signed version of size_t
if [ -n "${ssize_t}" ] ; then
echo "typedef ${ssize_t} ${macro_prefix}ssize_t;"
elif [ -z "${size_t}" ] ; then
echo "typedef long ${macro_prefix}ssize_t;"
else
# Remove "unsigned" from ${size_t} to get ${ssize_t}.
tmp="`echo ${size_t} | ${SED} -e 's|unsigned||g' -e 's| | |g'`"
if [ -z "$tmp" ] ; then
tmp=int
else
# check $tmp doesn't conflict with <unistd.h>
echo "#include <unistd.h>
extern $tmp read();" >dummy.c
${CC} -c dummy.c >/dev/null 2>&1 || tmp=int
fi
echo "typedef $tmp /* default */ ${macro_prefix}ssize_t;"
fi
# wint_t is often the integral type to which wchar_t promotes.
if [ -z "${wint_t}" ] ; then
for TYPE in int 'unsigned int' 'long int' 'long unsigned int'; do
cat >dummy.C <<!EOF!
#ifndef __WCHAR_TYPE__
#define __WCHAR_TYPE__ ${wchar_t-int /* default */}
#endif
typedef __WCHAR_TYPE__ ${macro_prefix}wchar_t;
void foo ($TYPE);
void foo (double);
void bar (${macro_prefix}wchar_t w)
{
foo (w);
}
!EOF!
if ${CXX} -c dummy.C >/dev/null 2>&1 ; then
wint_t="$TYPE /* default */"
break
fi
done
fi
echo "typedef ${wint_t-int /* wchar_t is broken */} ${macro_prefix}wint_t;"
# va_list can cause problems (e.g. some systems have va_list as a struct).
# Check to see if ${va_list-char*} really is compatible with stdarg.h.
cat >dummy.C <<!EOF!
#define X_va_list ${va_list-char* /* default */}
extern long foo(X_va_list ap); /* Check that X_va_list compiles on its own */
extern "C" {
#include <stdarg.h>
}
long foo(X_va_list ap) { return va_arg(ap, long); }
long bar(int i, ...)
{ va_list ap; long j; va_start(ap, i); j = foo(ap); va_end(ap); return j; }
!EOF!
if ${CXX} -c dummy.C >/dev/null 2>&1 ; then
# Ok: We have something that works.
echo "typedef ${va_list-char* /* default */} ${macro_prefix}va_list;"
else
echo "#define ${macro_prefix}NEED_STDARG_H"
# Check and see if we have __gnuc_va_list, as we might set up define
# loops if we use va_list.
cat >dummy.C <<!EOF!
#include <stdarg.h>
long foo(__gnuc_va_list ap) { return va_arg(ap, long); }
!EOF!
if ${CXX} -c dummy.C >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}va_list __gnuc_va_list"
else
echo "#define ${macro_prefix}va_list va_list"
fi
fi
cat >dummy.c <<!EOF!
#include <signal.h>
extern int (*signal())();
extern int dummy (int);
main()
{
int (*oldsig)(int) = signal (1, dummy);
(void) signal (2, oldsig);
return 0;
}
!EOF!
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}signal_return_type int"
else
echo "#define ${macro_prefix}signal_return_type void"
fi
# check sprintf return type
cat >dummy.c <<!EOF!
#include <stdio.h>
extern int sprintf(); char buf[100];
int main() { return sprintf(buf, "%d", 34); }
!EOF!
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}sprintf_return_type int"
else
echo "#define ${macro_prefix}sprintf_return_type char*"
fi
if test -n "${HAVE_ATEXIT}" ; then
echo "#define ${macro_prefix}HAVE_ATEXIT ${HAVE_ATEXIT}"
else
cat >dummy.c <<!EOF!
#include <stdlib.h>
int main()
{
atexit (0);
}
!EOF!
if ${CC} dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_ATEXIT 1"
else
echo "#define ${macro_prefix}HAVE_ATEXIT 0"
fi
fi
# *** Check for presence of certain include files ***
# check for sys/resource.h
if test -n "${HAVE_SYS_RESOURCE}" ; then
echo "#define ${macro_prefix}HAVE_SYS_RESOURCE ${HAVE_SYS_RESOURCE}"
else
cat >dummy.c <<!EOF!
#include <sys/types.h>
#include <sys/time.h>
#include <sys/resource.h>
int main()
{
struct rusage res;
getrusage(RUSAGE_SELF, &res);
return (int)(res.ru_utime.tv_sec + (res.ru_utime.tv_usec / 1000000.0));
}
!EOF!
# Note: We link because some systems have sys/resource, but not getrusage().
if ${CC} dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_SYS_RESOURCE 1"
else
echo "#define ${macro_prefix}HAVE_SYS_RESOURCE 0"
fi
fi
# check for struct tms in sys/times.h
if test -n "${HAVE_SYS_TIMES}" ; then
echo "#define ${macro_prefix}HAVE_SYS_TIMES ${HAVE_SYS_TIMES}"
else
cat >dummy.c <<!EOF!
#include <sys/types.h>
#include <sys/times.h>
int main()
{
struct tms s;
return s.tms_utime;
}
!EOF!
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_SYS_TIMES 1"
else
echo "#define ${macro_prefix}HAVE_SYS_TIMES 0"
fi
fi
# check for sys/socket.h
if test -n "${HAVE_SYS_SOCKET}" ; then
echo "#define ${macro_prefix}HAVE_SYS_SOCKET ${HAVE_SYS_SOCKET}"
else
echo '#include <sys/types.h>' >dummy.c
echo '#include <sys/socket.h>' >>dummy.c
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_SYS_SOCKET 1"
else
echo "#define ${macro_prefix}HAVE_SYS_SOCKET 0"
fi
fi
# check for sys/cdefs.h
if test -n "${HAVE_SYS_CDEFS}" ; then
echo "#define ${macro_prefix}HAVE_SYS_CDEFS ${HAVE_SYS_CDEFS}"
else
echo '#include <sys/cdefs.h>' >dummy.c
echo 'extern int myfunc __P((int, int));' >>dummy.c
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_SYS_CDEFS 1"
else
echo "#define ${macro_prefix}HAVE_SYS_CDEFS 0"
fi
fi
# Check for a (Posix-compatible) sys/wait.h */
if test -n "${HAVE_SYS_WAIT}" ; then
echo "#define ${macro_prefix}HAVE_SYS_WAIT ${HAVE_SYS_WAIT}"
else
cat >dummy.c <<!EOF!
#include <sys/types.h>
#include <sys/wait.h>
int f() { int i; wait(&i); return i; }
!EOF!
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_SYS_WAIT 1"
else
echo "#define ${macro_prefix}HAVE_SYS_WAIT 0"
fi
fi
if test -n "${HAVE_UNISTD}" ; then
echo "#define ${macro_prefix}HAVE_UNISTD ${HAVE_UNISTD}"
else
echo '#include <unistd.h>' >dummy.c
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_UNISTD 1"
else
echo "#define ${macro_prefix}HAVE_UNISTD 0"
fi
fi
if test -n "${HAVE_DIRENT}" ; then
echo "#define ${macro_prefix}HAVE_DIRENT ${HAVE_DIRENT}"
else
echo '#include <sys/types.h>
#include <dirent.h>' >dummy.c
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_DIRENT 1"
else
echo "#define ${macro_prefix}HAVE_DIRENT 0"
fi
fi
if test -n "${HAVE_CURSES}" ; then
echo "#define ${macro_prefix}HAVE_CURSES ${HAVE_CURSES}"
else
echo '#include <curses.h>' >dummy.c
if ${CC} -c dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_CURSES 1"
else
echo "#define ${macro_prefix}HAVE_CURSES 0"
fi
fi
# There is no test for this at the moment; it is just set by the
# configuration files.
if test -n "${MATH_H_INLINES}" ; then
echo "#define ${macro_prefix}MATH_H_INLINES ${MATH_H_INLINES}"
else
echo "#define ${macro_prefix}MATH_H_INLINES 0"
fi
if test -n "${HAVE_BOOL}" ; then
echo "#define ${macro_prefix}HAVE_BOOL ${HAVE_BOOL}"
else
echo 'bool i=true,j=false;' >dummy.C
if ${CXX} -c dummy.C >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_BOOL 1"
else
echo "#define ${macro_prefix}HAVE_BOOL 0"
fi
fi
if test -n "${NO_USE_DTOA}" ; then
echo "#define ${macro_prefix}NO_USE_DTOA 1"
fi
if test -n "${USE_INT32_FLAGS}" ; then
echo "#define ${macro_prefix}USE_INT32_FLAGS 1"
fi
if test -n "$HAVE_PRINTF_FP"; then
echo "#define ${macro_prefix}HAVE_PRINTF_FP $HAVE_PRINTF_FP"
echo "#define ${macro_prefix}HAVE_LONG_DOUBLE_IO $HAVE_LONG_DOUBLE_IO"
else
# A little test program to check if __printf_fp is available.
cat >dummy.c <<EOF
int main()
{
return __printf_fp ();
}
EOF
if ${CC} dummy.c >/dev/null 2>&1 ; then
echo "#define ${macro_prefix}HAVE_PRINTF_FP 1"
echo "#define ${macro_prefix}HAVE_LONG_DOUBLE_IO 1"
else
echo "#define ${macro_prefix}HAVE_PRINTF_FP 0"
echo "#define ${macro_prefix}HAVE_LONG_DOUBLE_IO 0"
fi
fi
# Uncomment the following line if you don't have working templates.
# echo "#define ${macro_prefix}NO_TEMPLATES"
# Override bogus definitions of NULL in system headers.
cat <<EOF
#undef NULL
#define __need_NULL
#include <stddef.h>
EOF
rm -f dummy.C dummy.o dummy.c dummy.out TMP core a.out
echo "#endif /* !${macro_prefix}config_h */"