dnl GMP specific autoconf macros dnl Copyright 2000, 2001, 2002, 2003, 2004, 2005, 2006 Free Software dnl Foundation, Inc. dnl dnl This file is part of the GNU MP Library. dnl dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of the GNU Lesser General Public License as published dnl by the Free Software Foundation; either version 2.1 of the License, or (at dnl your option) any later version. dnl dnl The GNU MP Library is distributed in the hope that it will be useful, but dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public dnl License for more details. dnl dnl You should have received a copy of the GNU Lesser General Public License dnl along with the GNU MP Library; see the file COPYING.LIB. If not, write to dnl the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, dnl MA 02110-1301, USA. dnl Some tests use, or must delete, the default compiler output. The dnl possible filenames are based on what autoconf looks for, namely dnl dnl a.out - normal unix style dnl b.out - i960 systems, including gcc there dnl a.exe - djgpp dnl a_out.exe - OpenVMS DEC C called via GNV wrapper (gnv.sourceforge.net) dnl conftest.exe - various DOS compilers define(IA64_PATTERN, [[ia64*-*-* | itanium-*-* | itanium2-*-*]]) dnl Need to be careful not to match m6811, m6812, m68hc11 and m68hc12, all dnl of which config.sub accepts. (Though none of which are likely to work dnl with GMP.) dnl define(M68K_PATTERN, [[m68k-*-* | m68[0-9][0-9][0-9]-*-*]]) define(POWERPC64_PATTERN, [[powerpc64-*-* | powerpc64le-*-* | powerpc620-*-* | powerpc630-*-* | powerpc970-*-* | power[3-9]-*-*]]) define(X86_PATTERN, [[i?86*-*-* | k[5-8]*-*-* | pentium*-*-* | athlon-*-* | viac3*-*-*]]) dnl GMP_FAT_SUFFIX(DSTVAR, DIRECTORY) dnl --------------------------------- dnl Emit code to set shell variable DSTVAR to the suffix for a fat binary dnl routine from DIRECTORY. DIRECTORY can be a shell expression like $foo dnl etc. dnl dnl The suffix is directory separators / or \ changed to underscores, and dnl if there's more than one directory part, then the first is dropped. dnl dnl For instance, dnl dnl x86 -> x86 dnl x86/k6 -> k6 dnl x86/k6/mmx -> k6_mmx define(GMP_FAT_SUFFIX, [[$1=`echo $2 | sed -e '/\//s:^[^/]*/::' -e 's:[\\/]:_:g'`]]) dnl GMP_REMOVE_FROM_LIST(listvar,item) dnl ---------------------------------- dnl Emit code to remove any occurance of ITEM from $LISTVAR. ITEM can be a dnl shell expression like $foo if desired. define(GMP_REMOVE_FROM_LIST, [remove_from_list_tmp= for remove_from_list_i in $[][$1]; do if test $remove_from_list_i = [$2]; then :; else remove_from_list_tmp="$remove_from_list_tmp $remove_from_list_i" fi done [$1]=$remove_from_list_tmp ]) dnl GMP_STRIP_PATH(subdir) dnl ---------------------- dnl Strip entries */subdir from $path and $fat_path. define(GMP_STRIP_PATH, [GMP_STRIP_PATH_VAR(path, [$1]) GMP_STRIP_PATH_VAR(fat_path, [$1]) ]) define(GMP_STRIP_PATH_VAR, [tmp_path= for i in $[][$1]; do case $i in */[$2]) ;; *) tmp_path="$tmp_path $i" ;; esac done [$1]="$tmp_path" ]) dnl GMP_INCLUDE_GMP_H dnl ----------------- dnl Expand to the right way to #include gmp-h.in. This must be used dnl instead of gmp.h, since that file isn't generated until the end of the dnl configure. dnl dnl Dummy values for __GMP_BITS_PER_MP_LIMB and GMP_LIMB_BITS are enough dnl for all current configure-time uses of gmp.h. define(GMP_INCLUDE_GMP_H, [[#define __GMP_WITHIN_CONFIGURE 1 /* ignore template stuff */ #define GMP_NAIL_BITS $GMP_NAIL_BITS #define __GMP_BITS_PER_MP_LIMB 123 /* dummy for GMP_NUMB_BITS etc */ #define GMP_LIMB_BITS 123 $DEFN_LONG_LONG_LIMB #include "$srcdir/gmp-h.in"] ]) dnl GMP_HEADER_GETVAL(NAME,FILE) dnl ---------------------------- dnl Expand at autoconf time to the value of a "#define NAME" from the given dnl FILE. The regexps here aren't very rugged, but are enough for gmp. dnl /dev/null as a parameter prevents a hang if $2 is accidentally omitted. define(GMP_HEADER_GETVAL, [patsubst(patsubst( esyscmd([grep "^#define $1 " $2 /dev/null 2>/dev/null]), [^.*$1[ ]+],[]), [[ ]*$],[])]) dnl GMP_VERSION dnl ----------- dnl The gmp version number, extracted from the #defines in gmp-h.in at dnl autoconf time. Two digits like 3.0 if patchlevel <= 0, or three digits dnl like 3.0.1 if patchlevel > 0. define(GMP_VERSION, [GMP_HEADER_GETVAL(__GNU_MP_VERSION,gmp-h.in)[]dnl .GMP_HEADER_GETVAL(__GNU_MP_VERSION_MINOR,gmp-h.in)[]dnl ifelse(m4_eval(GMP_HEADER_GETVAL(__GNU_MP_VERSION_PATCHLEVEL,gmp-h.in) > 0),1, [.GMP_HEADER_GETVAL(__GNU_MP_VERSION_PATCHLEVEL,gmp-h.in)])]) dnl MPIR_VERSION dnl ----------- dnl The mpir version number, extracted from the #defines in gmp-h.in at dnl autoconf time. Two digits like 3.0 if patchlevel <= 0, or three digits dnl like 3.0.1 if patchlevel > 0. define(MPIR_VERSION, [GMP_HEADER_GETVAL(__MPIR_VERSION,gmp-h.in)[]dnl .GMP_HEADER_GETVAL(__MPIR_VERSION_MINOR,gmp-h.in)[]dnl ifelse(m4_eval(GMP_HEADER_GETVAL(__MPIR_VERSION_PATCHLEVEL,gmp-h.in) > 0),1, [.GMP_HEADER_GETVAL(__MPIR_VERSION_PATCHLEVEL,gmp-h.in)])]) dnl GMP_SUBST_CHECK_FUNCS(func,...) dnl ------------------------------ dnl Setup an AC_SUBST of HAVE_FUNC_01 for each argument. AC_DEFUN([GMP_SUBST_CHECK_FUNCS], [m4_if([$1],,, [_GMP_SUBST_CHECK_FUNCS(ac_cv_func_[$1],HAVE_[]m4_translit([$1],[a-z],[A-Z])_01) GMP_SUBST_CHECK_FUNCS(m4_shift($@))])]) dnl Called: _GMP_SUBST_CHECK_FUNCS(cachevar,substvar) AC_DEFUN([_GMP_SUBST_CHECK_FUNCS], [case $[$1] in yes) AC_SUBST([$2],1) ;; no) [$2]=0 ;; esac ]) dnl GMP_SUBST_CHECK_HEADERS(foo.h,...) dnl ---------------------------------- dnl Setup an AC_SUBST of HAVE_FOO_H_01 for each argument. AC_DEFUN([GMP_SUBST_CHECK_HEADERS], [m4_if([$1],,, [_GMP_SUBST_CHECK_HEADERS(ac_cv_header_[]m4_translit([$1],[./],[__]), HAVE_[]m4_translit([$1],[a-z./],[A-Z__])_01) GMP_SUBST_CHECK_HEADERS(m4_shift($@))])]) dnl Called: _GMP_SUBST_CHECK_HEADERS(cachevar,substvar) AC_DEFUN([_GMP_SUBST_CHECK_HEADERS], [case $[$1] in yes) AC_SUBST([$2],1) ;; no) [$2]=0 ;; esac ]) dnl GMP_COMPARE_GE(A1,B1, A2,B2, ...) dnl --------------------------------- dnl Compare two version numbers A1.A2.etc and B1.B2.etc. Set dnl $gmp_compare_ge to yes or no accoring to the result. The A parts dnl should be variables, the B parts fixed numbers. As many parts as dnl desired can be included. An empty string in an A part is taken to be dnl zero, the B parts should be non-empty and non-zero. dnl dnl For example, dnl dnl GMP_COMPARE($major,10, $minor,3, $subminor,1) dnl dnl would test whether $major.$minor.$subminor is greater than or equal to dnl 10.3.1. AC_DEFUN([GMP_COMPARE_GE], [gmp_compare_ge=no GMP_COMPARE_GE_INTERNAL($@) ]) AC_DEFUN([GMP_COMPARE_GE_INTERNAL], [ifelse(len([$3]),0, [if test -n "$1" && test "$1" -ge $2; then gmp_compare_ge=yes fi], [if test -n "$1"; then if test "$1" -gt $2; then gmp_compare_ge=yes else if test "$1" -eq $2; then GMP_COMPARE_GE_INTERNAL(m4_shift(m4_shift($@))) fi fi fi]) ]) dnl GMP_PROG_AR dnl ----------- dnl GMP additions to $AR. dnl dnl A cross-"ar" may be necessary when cross-compiling since the build dnl system "ar" might try to interpret the object files to build a symbol dnl table index, hence the use of AC_CHECK_TOOL. dnl dnl A user-selected $AR is always left unchanged. AC_CHECK_TOOL is still dnl run to get the "checking" message printed though. dnl dnl If extra flags are added to AR, then ac_cv_prog_AR and dnl ac_cv_prog_ac_ct_AR are set too, since libtool (cvs 2003-03-31 at dnl least) will do an AC_CHECK_TOOL and that will AR from one of those two dnl cached variables. (ac_cv_prog_AR is used if there's an ac_tool_prefix, dnl or ac_cv_prog_ac_ct_AR is used otherwise.) FIXME: This is highly dnl dependent on autoconf internals, perhaps it'd work to put our extra dnl flags into AR_FLAGS instead. dnl dnl $AR_FLAGS is set to "cq" rather than leaving it to libtool "cru". The dnl latter fails when libtool goes into piecewise mode and is unlucky dnl enough to have two same-named objects in separate pieces, as happens dnl for instance to random.o (and others) on vax-dec-ultrix4.5. Naturally dnl a user-selected $AR_FLAGS is left unchanged. dnl dnl For reference, $ARFLAGS is used by automake (1.8) for its ".a" archive dnl file rules. This doesn't get used by the piecewise linking, so we dnl leave it at the default "cru". dnl dnl FIXME: Libtool 1.5.2 has its own arrangments for "cq", but that version dnl is broken in other ways. When we can upgrade, remove the forcible dnl AR_FLAGS=cq. AC_DEFUN([GMP_PROG_AR], [dnl Want to establish $AR before libtool initialization. AC_BEFORE([$0],[AC_PROG_LIBTOOL]) gmp_user_AR=$AR AC_CHECK_TOOL(AR, ar, ar) if test -z "$gmp_user_AR"; then eval arflags=\"\$ar${abi1}_flags\" test -n "$arflags" || eval arflags=\"\$ar${abi2}_flags\" if test -n "$arflags"; then AC_MSG_CHECKING([for extra ar flags]) AR="$AR $arflags" ac_cv_prog_AR="$AR $arflags" ac_cv_prog_ac_ct_AR="$AR $arflags" AC_MSG_RESULT([$arflags]) fi fi if test -z "$AR_FLAGS"; then AR_FLAGS=cq fi ]) dnl GMP_PROG_M4 dnl ----------- dnl Find a working m4, either in $PATH or likely locations, and setup $M4 dnl and an AC_SUBST accordingly. If $M4 is already set then it's a user dnl choice and is accepted with no checks. GMP_PROG_M4 is like dnl AC_PATH_PROG or AC_CHECK_PROG, but tests each m4 found to see if it's dnl good enough. dnl dnl See mpn/asm-defs.m4 for details on the known bad m4s. AC_DEFUN([GMP_PROG_M4], [AC_ARG_VAR(M4,[m4 macro processor]) AC_CACHE_CHECK([for suitable m4], gmp_cv_prog_m4, [if test -n "$M4"; then gmp_cv_prog_m4="$M4" else cat >conftest.m4 <<\EOF dnl Must protect this against being expanded during autoconf m4! dnl Dont put "dnl"s in this as autoconf will flag an error for unexpanded dnl macros. [define(dollarhash,``$][#'')ifelse(dollarhash(x),1,`define(t1,Y)', ``bad: $][# not supported (SunOS /usr/bin/m4) '')ifelse(eval(89),89,`define(t2,Y)', `bad: eval() doesnt support 8 or 9 in a constant (OpenBSD 2.6 m4) ')ifelse(t1`'t2,YY,`good ')] EOF dnl ' <- balance the quotes for emacs sh-mode echo "trying m4" >&AC_FD_CC gmp_tmp_val=`(m4 conftest.m4) 2>&AC_FD_CC` echo "$gmp_tmp_val" >&AC_FD_CC if test "$gmp_tmp_val" = good; then gmp_cv_prog_m4="m4" else IFS="${IFS= }"; ac_save_ifs="$IFS"; IFS=":" dnl $ac_dummy forces splitting on constant user-supplied paths. dnl POSIX.2 word splitting is done only on the output of word expansions, dnl not every word. This closes a longstanding sh security hole. ac_dummy="$PATH:/usr/5bin" for ac_dir in $ac_dummy; do test -z "$ac_dir" && ac_dir=. echo "trying $ac_dir/m4" >&AC_FD_CC gmp_tmp_val=`($ac_dir/m4 conftest.m4) 2>&AC_FD_CC` echo "$gmp_tmp_val" >&AC_FD_CC if test "$gmp_tmp_val" = good; then gmp_cv_prog_m4="$ac_dir/m4" break fi done IFS="$ac_save_ifs" if test -z "$gmp_cv_prog_m4"; then AC_MSG_ERROR([No usable m4 in \$PATH or /usr/5bin (see config.log for reasons).]) fi fi rm -f conftest.m4 fi]) M4="$gmp_cv_prog_m4" AC_SUBST(M4) ]) dnl GMP_M4_M4WRAP_SPURIOUS dnl ---------------------- dnl Check for spurious output from m4wrap(), as described in mpn/asm-defs.m4. dnl dnl The following systems have been seen with the problem. dnl dnl - Unicos alpha, but its assembler doesn't seem to mind. dnl - MacOS X Darwin, its assembler fails. dnl - NetBSD 1.4.1 m68k, and gas 1.92.3 there gives a warning and ignores dnl the bad last line since it doesn't have a newline. dnl - NetBSD 1.4.2 alpha, but its assembler doesn't seem to mind. dnl - HP-UX ia64. dnl dnl Enhancement: Maybe this could be in GMP_PROG_M4, and attempt to prefer dnl an m4 with a working m4wrap, if it can be found. AC_DEFUN([GMP_M4_M4WRAP_SPURIOUS], [AC_REQUIRE([GMP_PROG_M4]) AC_CACHE_CHECK([if m4wrap produces spurious output], gmp_cv_m4_m4wrap_spurious, [# hide the d-n-l from autoconf's error checking tmp_d_n_l=d""nl cat >conftest.m4 <&AC_FD_CC cat conftest.m4 >&AC_FD_CC tmp_chars=`$M4 conftest.m4 | wc -c` echo produces $tmp_chars chars output >&AC_FD_CC rm -f conftest.m4 if test $tmp_chars = 0; then gmp_cv_m4_m4wrap_spurious=no else gmp_cv_m4_m4wrap_spurious=yes fi ]) GMP_DEFINE_RAW(["define(,<$gmp_cv_m4_m4wrap_spurious>)"]) ]) dnl GMP_PROG_NM dnl ----------- dnl GMP additions to libtool AC_PROG_NM. dnl dnl Note that if AC_PROG_NM can't find a working nm it still leaves dnl $NM set to "nm", so $NM can't be assumed to actually work. dnl dnl A user-selected $NM is always left unchanged. AC_PROG_NM is still run dnl to get the "checking" message printed though. dnl dnl Perhaps it'd be worthwhile checking that nm works, by running it on an dnl actual object file. For instance on sparcv9 solaris old versions of dnl GNU nm don't recognise 64-bit objects. Checking would give a better dnl error message than just a failure in later tests like GMP_ASM_W32 etc. dnl dnl On the other hand it's not really normal autoconf practice to take too dnl much trouble over detecting a broken set of tools. And libtool doesn't dnl do anything at all for say ranlib or strip. So for now we're inclined dnl to just demand that the user provides a coherent environment. AC_DEFUN([GMP_PROG_NM], [dnl Make sure we're the first to call AC_PROG_NM, so our extra flags are dnl used by everyone. AC_BEFORE([$0],[AC_PROG_NM]) gmp_user_NM=$NM AC_PROG_NM # FIXME: When cross compiling (ie. $ac_tool_prefix not empty), libtool # defaults to plain "nm" if a "${ac_tool_prefix}nm" is not found. In this # case run it again to try the native "nm", firstly so that likely locations # are searched, secondly so that -B or -p are added if necessary for BSD # format. This is necessary for instance on OSF with "./configure # --build=alphaev5-dec-osf --host=alphaev6-dec-osf". # if test -z "$gmp_user_NM" && test -n "$ac_tool_prefix" && test "$NM" = nm; then $as_unset lt_cv_path_NM gmp_save_ac_tool_prefix=$ac_tool_prefix ac_tool_prefix= NM= AC_PROG_NM ac_tool_prefix=$gmp_save_ac_tool_prefix fi if test -z "$gmp_user_NM"; then eval nmflags=\"\$nm${abi1}_flags\" test -n "$nmflags" || eval nmflags=\"\$nm${abi2}_flags\" if test -n "$nmflags"; then AC_MSG_CHECKING([for extra nm flags]) NM="$NM $nmflags" AC_MSG_RESULT([$nmflags]) fi fi ]) dnl GMP_PROG_CC_WORKS(cc+cflags,[ACTION-IF-WORKS][,ACTION-IF-NOT-WORKS]) dnl -------------------------------------------------------------------- dnl Check if cc+cflags can compile and link. dnl dnl This test is designed to be run repeatedly with different cc+cflags dnl selections, so the result is not cached. dnl dnl For a native build, meaning $cross_compiling == no, we require that the dnl generated program will run. This is the same as AC_PROG_CC does in dnl _AC_COMPILER_EXEEXT_WORKS, and checking here will ensure we don't pass dnl a CC/CFLAGS combination that it rejects. dnl dnl sparc-*-solaris2.7 can compile ABI=64 but won't run it if the kernel dnl was booted in 32-bit mode. The effect of requiring the compiler output dnl will run is that a plain native "./configure" falls back on ABI=32, but dnl ABI=64 is still available as a cross-compile. dnl dnl The various specific problems we try to detect are done in separate dnl compiles. Although this is probably a bit slower than one test dnl program, it makes it easy to indicate the problem in AC_MSG_RESULT, dnl hence giving the user a clue about why we rejected the compiler. AC_DEFUN([GMP_PROG_CC_WORKS], [AC_MSG_CHECKING([compiler $1]) gmp_prog_cc_works=yes # first see a simple "main()" works, then go on to other checks GMP_PROG_CC_WORKS_PART([$1], []) GMP_PROG_CC_WORKS_PART([$1], [function pointer return], [/* The following provokes an internal error from gcc 2.95.2 -mpowerpc64 (without -maix64), hence detecting an unusable compiler */ void *g() { return (void *) 0; } void *f() { return g(); } ]) GMP_PROG_CC_WORKS_PART([$1], [cmov instruction], [/* The following provokes an invalid instruction syntax from i386 gcc -march=pentiumpro on Solaris 2.8. The native sun assembler requires a non-standard syntax for cmov which gcc (as of 2.95.2 at least) doesn't know. */ int n; int cmov () { return (n >= 0 ? n : 0); } ]) GMP_PROG_CC_WORKS_PART([$1], [double -> ulong conversion], [/* The following provokes a linker invocation problem with gcc 3.0.3 on AIX 4.3 under "-maix64 -mpowerpc64 -mcpu=630". The -mcpu=630 option causes gcc to incorrectly select the 32-bit libgcc.a, not the 64-bit one, and consequently it misses out on the __fixunsdfdi helper (double -> uint64 conversion). */ double d; unsigned long gcc303 () { return (unsigned long) d; } ]) GMP_PROG_CC_WORKS_PART([$1], [double negation], [/* The following provokes an error from hppa gcc 2.95 under -mpa-risc-2-0 if the assembler doesn't know hppa 2.0 instructions. fneg is a 2.0 instruction, and a negation like this comes out using it. */ double fneg_data; unsigned long fneg () { return -fneg_data; } ]) GMP_PROG_CC_WORKS_PART([$1], [double -> float conversion], [/* The following makes gcc 3.3 -march=pentium4 generate an SSE2 xmm insn (cvtsd2ss) which will provoke an error if the assembler doesn't recognise those instructions. Not sure how much of the gmp code will come out wanting sse2, but it's easiest to reject an option we know is bad. */ double ftod_data; float ftod () { return (float) ftod_data; } ]) GMP_PROG_CC_WORKS_PART([$1], [gnupro alpha ev6 char spilling], [/* The following provokes an internal compiler error from gcc version "2.9-gnupro-99r1" under "-O2 -mcpu=ev6", apparently relating to char values being spilled into floating point registers. The problem doesn't show up all the time, but has occurred enough in GMP for us to reject this compiler+flags. */ struct try_t { char dst[2]; char size; long d0, d1, d2, d3, d4, d5, d6; char overlap; }; struct try_t param[6]; int param_init () { struct try_t *p; memcpy (p, ¶m[ 2 ], sizeof (*p)); memcpy (p, ¶m[ 2 ], sizeof (*p)); p->size = 2; memcpy (p, ¶m[ 1 ], sizeof (*p)); p->dst[0] = 1; p->overlap = 2; memcpy (p, ¶m[ 3 ], sizeof (*p)); p->dst[0] = 1; p->overlap = 8; memcpy (p, ¶m[ 4 ], sizeof (*p)); memcpy (p, ¶m[ 4 ], sizeof (*p)); p->overlap = 8; memcpy (p, ¶m[ 5 ], sizeof (*p)); memcpy (p, ¶m[ 5 ], sizeof (*p)); memcpy (p, ¶m[ 5 ], sizeof (*p)); return 0; } ]) # __builtin_alloca is not available everywhere, check it exists before # seeing that it works GMP_PROG_CC_WORKS_PART_TEST([$1],[__builtin_alloca availability], [int k; int foo () { __builtin_alloca (k); }], [GMP_PROG_CC_WORKS_PART([$1], [alloca array], [/* The following provokes an internal compiler error from Itanium HP-UX cc under +O2 or higher. We use this sort of code in mpn/generic/mul_fft.c. */ int k; int foo () { int i, **a; a = __builtin_alloca (k); for (i = 0; i <= k; i++) a[i] = __builtin_alloca (1 << i); } ])]) GMP_PROG_CC_WORKS_PART([$1], [abs int -> double conversion], [/* The following provokes an internal error from the assembler on power2-ibm-aix4.3.1.0. gcc -mrios2 compiles to nabs+fcirz, and this results in "Internal error related to the source program domain". For reference it seems to be the combination of nabs+fcirz which is bad, not either alone. This sort of thing occurs in mpz/get_str.c with the way double chars_per_bit_exactly is applied in MPN_SIZEINBASE. Perhaps if that code changes to a scaled-integer style then we won't need this test. */ double fp[1]; int x; int f () { int a; a = (x >= 0 ? x : -x); return a * fp[0]; } ]) GMP_PROG_CC_WORKS_PART([$1], [long long reliability test 1], [/* The following provokes a segfault in the compiler on powerpc-apple-darwin. Extracted from tests/mpn/t-iord_u.c. Causes Apple's gcc 3.3 build 1640 and 1666 to segfault with e.g., -O2 -mpowerpc64. */ #ifdef __GNUC__ typedef unsigned long long t1;typedef t1*t2; __inline__ t1 e(t2 rp,t2 up,int n,t1 v0) {t1 c,x,r;int i;if(v0){c=1;for(i=1;i> tnc; high_limb = low_limb << cnt; for (i = n - 1; i != 0; i--) { low_limb = *up++; *rp++ = ~(high_limb | (low_limb >> tnc)); high_limb = low_limb << cnt; } return retval; } int main () { unsigned long cy, rp[2], up[2]; up[0] = ~ 0L; up[1] = 0; cy = lshift_com (rp, up, 2L, 1); if (cy != 1L) return 1; return 0; } ]) GMP_PROG_CC_WORKS_PART_MAIN([$1], [mpn_lshift_com optimization 2], [/* The following is mis-compiled by Intel ia-64 icc version 1.8 under "icc -O3", After several calls, the function writes parial garbage to the result vector. Perhaps relates to the chk.a.nc insn. This code needs to be run to show the problem, but that's fine, the offending cc is a native-only compiler so we don't have to worry about cross compiling. */ #include void lshift_com (rp, up, n, cnt) unsigned long *rp; unsigned long *up; long n; unsigned cnt; { unsigned long high_limb, low_limb; unsigned tnc; long i; up += n; rp += n; tnc = 8 * sizeof (unsigned long) - cnt; low_limb = *--up; high_limb = low_limb << cnt; for (i = n - 1; i != 0; i--) { low_limb = *--up; *--rp = ~(high_limb | (low_limb >> tnc)); high_limb = low_limb << cnt; } *--rp = ~high_limb; } int main () { unsigned long *r, *r2; unsigned long a[88 + 1]; long i; for (i = 0; i < 88 + 1; i++) a[i] = ~0L; r = malloc (10000 * sizeof (unsigned long)); r2 = r; for (i = 0; i < 528; i += 22) { lshift_com (r2, a, i / (8 * sizeof (unsigned long)) + 1, i % (8 * sizeof (unsigned long))); r2 += 88 + 1; } if (r[2048] != 0 || r[2049] != 0 || r[2050] != 0 || r[2051] != 0 || r[2052] != 0 || r[2053] != 0 || r[2054] != 0) abort (); return 0; } ]) # A certain _GLOBAL_OFFSET_TABLE_ problem in past versions of gas, tickled # by recent versions of gcc. # if test "$gmp_prog_cc_works" = yes; then case $host in X86_PATTERN) # this problem only arises in PIC code, so don't need to test when # --disable-shared. We don't necessarily have $enable_shared set to # yes at this point, it will still be unset for the default (which is # yes); hence the use of "!= no". if test "$enable_shared" != no; then GMP_PROG_CC_X86_GOT_EAX_EMITTED([$1], [GMP_ASM_X86_GOT_EAX_OK([$1],, [gmp_prog_cc_works="no, bad gas GOT with eax"])]) fi ;; esac fi AC_MSG_RESULT($gmp_prog_cc_works) case $gmp_prog_cc_works in yes) [$2] ;; *) [$3] ;; esac ]) dnl Called: GMP_PROG_CC_WORKS_PART(CC+CFLAGS,FAIL-MESSAGE [,CODE]) dnl A dummy main() is appended to the CODE given. dnl AC_DEFUN([GMP_PROG_CC_WORKS_PART], [GMP_PROG_CC_WORKS_PART_MAIN([$1],[$2], [$3] [int main () { return 0; }]) ]) dnl Called: GMP_PROG_CC_WORKS_PART_MAIN(CC+CFLAGS,FAIL-MESSAGE,CODE) dnl CODE must include a main(). dnl AC_DEFUN([GMP_PROG_CC_WORKS_PART_MAIN], [GMP_PROG_CC_WORKS_PART_TEST([$1],[$2],[$3], [], gmp_prog_cc_works="no[]m4_if([$2],,,[[, ]])[$2]", gmp_prog_cc_works="no[]m4_if([$2],,,[[, ]])[$2][[, program does not run]]") ]) dnl Called: GMP_PROG_CC_WORKS_PART_TEST(CC+CFLAGS,TITLE,[CODE], dnl [ACTION-GOOD],[ACTION-BAD][ACTION-NORUN]) dnl AC_DEFUN([GMP_PROG_CC_WORKS_PART_TEST], [if test "$gmp_prog_cc_works" = yes; then # remove anything that might look like compiler output to our "||" expression rm -f conftest* a.out b.out a.exe a_out.exe cat >conftest.c <&AC_FD_CC gmp_compile="$1 conftest.c >&AC_FD_CC" if AC_TRY_EVAL(gmp_compile); then cc_works_part=yes if test "$cross_compiling" = no; then if AC_TRY_COMMAND([./a.out || ./b.out || ./a.exe || ./a_out.exe || ./conftest]); then :; else cc_works_part=norun fi fi else cc_works_part=no fi if test "$cc_works_part" != yes; then echo "failed program was:" >&AC_FD_CC cat conftest.c >&AC_FD_CC fi rm -f conftest* a.out b.out a.exe a_out.exe case $cc_works_part in yes) $4 ;; no) $5 ;; norun) $6 ;; esac fi ]) dnl GMP_PROG_CC_WORKS_LONGLONG(cc+cflags,[ACTION-YES][,ACTION-NO]) dnl -------------------------------------------------------------- dnl Check that cc+cflags accepts "long long". dnl dnl This test is designed to be run repeatedly with different cc+cflags dnl selections, so the result is not cached. AC_DEFUN([GMP_PROG_CC_WORKS_LONGLONG], [AC_MSG_CHECKING([compiler $1 has long long]) cat >conftest.c <&AC_FD_CC cat conftest.c >&AC_FD_CC fi rm -f conftest* a.out b.out a.exe a_out.exe AC_MSG_RESULT($gmp_prog_cc_works) if test $gmp_prog_cc_works = yes; then ifelse([$2],,:,[$2]) else ifelse([$3],,:,[$3]) fi ]) dnl GMP_C_TEST_SIZEOF(cc/cflags,test,[ACTION-GOOD][,ACTION-BAD]) dnl ------------------------------------------------------------ dnl The given cc/cflags compiler is run to check the size of a type dnl specified by the "test" argument. "test" can either be a string, or a dnl variable like $foo. The value should be for instance "sizeof-long-4", dnl to test that sizeof(long)==4. dnl dnl This test is designed to be run for different compiler and/or flags dnl combinations, so the result is not cached. dnl dnl The idea for making an array that has a negative size if the desired dnl condition test is false comes from autoconf AC_CHECK_SIZEOF. The cast dnl to "long" in the array dimension also follows autoconf, apparently it's dnl a workaround for a HP compiler bug. AC_DEFUN([GMP_C_TEST_SIZEOF], [echo "configure: testlist $2" >&AC_FD_CC [gmp_sizeof_type=`echo "$2" | sed 's/sizeof-\([a-z]*\).*/\1/'`] [gmp_sizeof_want=`echo "$2" | sed 's/sizeof-[a-z]*-\([0-9]*\).*/\1/'`] AC_MSG_CHECKING([compiler $1 has sizeof($gmp_sizeof_type)==$gmp_sizeof_want]) cat >conftest.c <conftest.c <