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configure.ac
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configure.ac
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dnl Process this file with autoconf to produce a configure script.
define(GMP_COPYRIGHT,[[
Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006
Free Software Foundation, Inc.
Copyright 2008 William Hart.
This file is part of the MPIR Library.
The MPIR Library is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published
by the Free Software Foundation; either version 2.1 of the License, or (at
your option) any later version.
The MPIR 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 Lesser General Public
License for more details.
You should have received a copy of the GNU Lesser General Public License
along with the MPIR Library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA.
]])
AC_COPYRIGHT(GMP_COPYRIGHT)
AH_TOP(/*GMP_COPYRIGHT*/)
AC_REVISION($Revision: 1.11 $)
AC_PREREQ(2.68)
AC_INIT(MPIR, MPIR_VERSION, http://groups.google.co.uk/group/mpir-devel/, mpir)
AC_CONFIG_SRCDIR(gmp-impl.h)
m4_pattern_forbid([^[ \t]*GMP_])
m4_pattern_allow(GMP_LDFLAGS)
m4_pattern_allow(GMP_LIMB_BITS)
m4_pattern_allow(GMP_MPARAM_H_SUGGEST)
m4_pattern_allow(GMP_NAIL_BITS)
m4_pattern_allow(GMP_NUMB_BITS)
m4_pattern_allow(WANT_GMP_CC)
# If --target is not used then $target_alias is empty, but if say
# "./configure athlon-pc-freebsd3.5" is used, then all three of
# $build_alias, $host_alias and $target_alias are set to
# "athlon-pc-freebsd3.5".
#
if test -n "$target_alias" && test "$target_alias" != "$host_alias"; then
AC_MSG_ERROR([--target is not appropriate for GMP
Use --build=CPU-VENDOR-OS if you need to specify your CPU and/or system
explicitly. Use --host if cross-compiling (see "Installing GMP" in the
manual for more on this).])
fi
GMP_INIT(config.m4)
AC_CANONICAL_HOST
dnl Automake "no-dependencies" is used because include file dependencies
dnl are not useful to us. Pretty much everything depends just on mpir.h,
dnl gmp-impl.h and longlong.h, and yet only rarely does everything need to
dnl be rebuilt for changes to those files.
dnl
dnl Note that there's a copy of these options in the top-level Makefile.am,
dnl so update there too if changing anything.
dnl
AM_INIT_AUTOMAKE([1.11 gnu no-dependencies parallel-tests no-dist-gzip dist-bzip2 dist-zip dist-lzip])
AC_CONFIG_HEADERS(config.h:config.in)
AM_MAINTAINER_MODE
dnl Yasm configuration
AC_ARG_WITH([yasm],
[AC_HELP_STRING([--with-yasm],[use a custom Yasm [[default=no]]])],
[case "$withval" in
no) ;;
*) AC_MSG_ERROR([bad value $withval for --with-yasm, need no or path to Yasm's executable]) ;;
esac],
[with_yasm=no]
)
AC_ARG_WITH([system-yasm],
[AC_HELP_STRING([--with-system-yasm],[use a system-wide Yasm [[default=no]]])],
[case "$withval" in
yes|no) ;;
*) AC_MSG_ERROR([bad value $withval for --with-system-yasm, need yes or no]) ;;
esac],
[with_system_yasm=no]
)
AC_ARG_ENABLE(assert,
AC_HELP_STRING([--enable-assert],[enable ASSERT checking [[default=no]]]),
[case $enableval in
yes|no) ;;
*) AC_MSG_ERROR([bad value $enableval for --enable-assert, need yes or no]) ;;
esac],
[enable_assert=no])
if test "$enable_assert" = "yes"; then
AC_DEFINE(WANT_ASSERT,1,
[Define to 1 to enable ASSERT checking, per --enable-assert])
want_assert_01=1
else
want_assert_01=0
fi
GMP_DEFINE_RAW(["define(<WANT_ASSERT>,$want_assert_01)"])
AC_ARG_ENABLE(alloca,
AC_HELP_STRING([--enable-alloca],[how to get temp memory [[default=reentrant]]]),
[case $enableval in
alloca|malloc-reentrant|malloc-notreentrant) ;;
yes|no|reentrant|notreentrant) ;;
debug) ;;
*)
AC_MSG_ERROR([bad value $enableval for --enable-alloca, need one of:
yes no reentrant notreentrant alloca malloc-reentrant malloc-notreentrant debug]) ;;
esac],
[enable_alloca=reentrant])
# IMPROVE ME: The default for C++ is disabled. The tests currently
# performed below for a working C++ compiler are not particularly strong,
# and in general can't be expected to get the right setup on their own. The
# most significant problem is getting the ABI the same. Defaulting CXXFLAGS
# to CFLAGS takes only a small step towards this. It's also probably worth
# worrying whether the C and C++ runtimes from say gcc and a vendor C++ can
# work together. Some rather broken C++ installations were encountered
# during testing, and though such things clearly aren't GMP's problem, if
# --enable-cxx=detect were to be the default then some careful checks of
# which, if any, C++ compiler on the system is up to scratch would be
# wanted.
#
AC_ARG_ENABLE(cxx,
AC_HELP_STRING([--enable-cxx],[enable C++ support [[default=no]]]),
[case $enableval in
yes|no|detect) ;;
*) AC_MSG_ERROR([bad value $enableval for --enable-cxx, need yes/no/detect]) ;;
esac],
[enable_cxx=no])
AC_ARG_ENABLE(fft,
AC_HELP_STRING([--enable-fft],[enable FFTs for multiplication [[default=yes]]]),
[case $enableval in
yes|no) ;;
*) AC_MSG_ERROR([bad value $enableval for --enable-fft, need yes or no]) ;;
esac],
[enable_fft=yes])
if test "$enable_fft" = "yes"; then
AC_DEFINE(WANT_FFT,1,
[Define to 1 to enable FFTs for multiplication, per --enable-fft])
fi
AC_ARG_ENABLE(gmpcompat,
AC_HELP_STRING([--enable-gmpcompat],
[create library and header files named gmp as well as mpir [[default=no]]]),
[case $enableval in
yes|no) ;;
*) AC_MSG_ERROR([bad value $enableval for --enable-gmpcompat, need yes or no]) ;;
esac],
[enable_gmpcompat=no])
AM_CONDITIONAL(WANT_GMPCOMPAT, test "$enable_gmpcompat" = "yes")
AC_ARG_ENABLE(nails,
AC_HELP_STRING([--enable-nails],[use nails on limbs [[default=no]]]),
[case $enableval in
[no|[0]]) ;;
*) AC_MSG_ERROR([bad value $enableval for --enable-nails, Sorry nails not available in this build]) ;;
esac],
[enable_nails=no])
case $enable_nails in
yes) GMP_NAIL_BITS=2 ;;
no) GMP_NAIL_BITS=0 ;;
*) GMP_NAIL_BITS=$enable_nails ;;
esac
AC_SUBST(GMP_NAIL_BITS)
AC_ARG_ENABLE(profiling,
AC_HELP_STRING([--enable-profiling],
[build with profiler support [[default=no]]]),
[case $enableval in
no|prof|gprof|instrument) ;;
*) AC_MSG_ERROR([bad value $enableval for --enable-profiling, need no/prof/gprof/instrument]) ;;
esac],
[enable_profiling=no])
case $enable_profiling in
prof)
AC_DEFINE(WANT_PROFILING_PROF, 1,
[Define to 1 if --enable-profiling=prof])
;;
gprof)
AC_DEFINE(WANT_PROFILING_GPROF, 1,
[Define to 1 if --enable-profiling=gprof])
;;
instrument)
AC_DEFINE(WANT_PROFILING_INSTRUMENT, 1,
[Define to 1 if --enable-profiling=instrument])
;;
esac
GMP_DEFINE_RAW(["define(<WANT_PROFILING>,<\`$enable_profiling'>)"])
# -fomit-frame-pointer is incompatible with -pg on some chips
if test "$enable_profiling" = gprof; then
fomit_frame_pointer=
else
fomit_frame_pointer="-fomit-frame-pointer"
fi
AC_ARG_ENABLE(fat,
AC_HELP_STRING([--enable-fat],
[build a fat binary on systems that support it [[default=no]]]),
[case $enableval in
yes|no) ;;
*) AC_MSG_ERROR([bad value $enableval for --enable-fat, need yes or no]) ;;
esac],
[enable_fat=no])
# Table of compilers, options, and mpn paths. This code has various related
# purposes
#
# - better default CC/CFLAGS selections than autoconf otherwise gives
# - default CC/CFLAGS selections for extra CPU types specific to GMP
# - a few tests for known bad compilers
# - choice of ABIs on suitable systems
# - selection of corresponding mpn search path
#
# After GMP specific searches and tests, the standard autoconf AC_PROG_CC is
# called. User selections of CC etc are respected.
#
# Care is taken not to use macros like AC_TRY_COMPILE during the GMP
# pre-testing, since they of course depend on AC_PROG_CC, and also some of
# them cache their results, which is not wanted.
#
# The ABI selection mechanism is unique to GMP. All that reaches autoconf
# is a different selection of CC/CFLAGS according to the best ABI the system
# supports, and/or what the user selects. Naturally the mpn assembler code
# selected is very dependent on the ABI.
#
# The closest the standard tools come to a notion of ABI is something like
# "sparc64" which encodes a CPU and an ABI together. This doesn't seem to
# scale well for GMP, where exact CPU types like "ultrasparc2" are wanted,
# separate from the ABI used on them.
#
#
# The variables set here are
#
# cclist the compiler choices
# xx_cflags flags for compiler xx
# xx_cflags_maybe flags for compiler xx, if they work
# xx_cppflags cpp flags for compiler xx
# xx_cflags_optlist list of sets of optional flags
# xx_cflags_yyy set yyy of optional flags for compiler xx
# xx_ldflags -Wc,-foo flags for libtool linking with compiler xx
# ar_flags extra flags for $AR
# nm_flags extra flags for $NM
# limb limb size, can be "longlong"
# path mpn search path
# extra_functions extra mpn functions
# fat_path fat binary mpn search path [if fat binary desired]
# fat_functions fat functions
# fat_thresholds fat thresholds
#
# Suppose xx_cflags_optlist="arch", then flags from $xx_cflags_arch are
# tried, and the first flag that works will be used. An optlist like "arch
# cpu optimize" can be used to get multiple independent sets of flags tried.
# The first that works from each will be used. If no flag in a set works
# then nothing from that set is added.
#
# For multiple ABIs, the scheme extends as follows.
#
# abilist set of ABI choices
# cclist_aa compiler choices in ABI aa
# xx_aa_cflags flags for xx in ABI aa
# xx_aa_cflags_maybe flags for xx in ABI aa, if they work
# xx_aa_cppflags cpp flags for xx in ABI aa
# xx_aa_cflags_optlist list of sets of optional flags in ABI aa
# xx_aa_cflags_yyy set yyy of optional flags for compiler xx in ABI aa
# xx_aa_ldflags -Wc,-foo flags for libtool linking
# ar_aa_flags extra flags for $AR in ABI aa
# nm_aa_flags extra flags for $NM in ABI aa
# limb_aa limb size in ABI aa, can be "longlong"
# path_aa mpn search path in ABI aa
# extra_functions_aa extra mpn functions in ABI aa
#
# As a convenience, the unadorned xx_cflags (etc) are used for the last ABI
# in ablist, if an xx_aa_cflags for that ABI isn't given. For example if
# abilist="64 32" then $cc_64_cflags will be used for the 64-bit ABI, but
# for the 32-bit either $cc_32_cflags or $cc_cflags is used, whichever is
# defined. This makes it easy to add some 64-bit compilers and flags to an
# unadorned 32-bit set.
#
# limb=longlong (or limb_aa=longlong) applies to all compilers within that
# ABI. It won't work to have some needing long long and some not, since a
# single instantiated mpir.h will be used by both.
#
# SPEED_CYCLECOUNTER, cyclecounter_size and CALLING_CONVENTIONS_OBJS are
# also set here, with an ABI suffix.
#
#
#
# A table-driven approach like this to mapping cpu type to good compiler
# options is a bit of a maintenance burden, but there's not much uniformity
# between options specifications on different compilers. Some sort of
# separately updatable tool might be cute.
#
# The use of lots of variables like this, direct and indirect, tends to
# obscure when and how various things are done, but unfortunately it's
# pretty much the only way. If shell subroutines were portable then actual
# code like "if this .. do that" could be written, but attempting the same
# with full copies of GMP_PROG_CC_WORKS etc expanded at every point would
# hugely bloat the output.
AC_ARG_VAR(ABI, [desired ABI (for processors supporting more than one ABI)])
# abilist needs to be non-empty, "standard" is just a generic name here
abilist="standard"
# FIXME: We'd like to prefer an ANSI compiler, perhaps by preferring
# c89 over cc here. But note that on HP-UX c89 provides a castrated
# environment, and would want to be excluded somehow. Maybe
# AC_PROG_CC_STDC already does enough to stick cc into ANSI mode and
# we don't need to worry.
#
cclist="gcc cc"
gcc_cflags="-O2"
gcc_64_cflags="-O2"
cc_cflags="-O"
cc_64_cflags="-O"
SPEED_CYCLECOUNTER_OBJ=
cyclecounter_size=2
case $host in
alpha*-*-*)
case $host_cpu in
alphaev5* | alphapca5*) path="alpha/ev5 alpha" ;;
alphaev67 | alphaev68 | alphaev7*)
path="alpha/ev67 alpha/ev6 alpha/ev5 alpha" ;;
alphaev6* | alphaev7*) path="alpha/ev6 alpha/ev5 alpha" ;;
*) path="alpha" ;;
esac
extra_functions="cntlz"
gcc_cflags_optlist="asm cpu" # need asm ahead of cpu, see below
# gcc 2.7.2.3 doesn't know any -mcpu= for alpha, apparently.
# gcc 2.95 knows -mcpu= ev4, ev5, ev56, pca56, ev6.
# gcc 3.0 adds nothing.
# gcc 3.1 adds ev45, ev67 (but ev45 is the same as ev4).
# gcc 3.2 adds nothing.
#
# gcc version "2.9-gnupro-99r1" under "-O2 -mcpu=ev6" strikes internal
# compiler errors too easily and is rejected by GMP_PROG_CC_WORKS. Each
# -mcpu=ev6 below has a fallback to -mcpu=ev56 for this reason.
#
case $host_cpu in
alpha) gcc_cflags_cpu="-mcpu=ev4" ;;
alphaev5) gcc_cflags_cpu="-mcpu=ev5" ;;
alphaev56) gcc_cflags_cpu="-mcpu=ev56" ;;
alphapca56 | alphapca57)
gcc_cflags_cpu="-mcpu=pca56" ;;
alphaev6) gcc_cflags_cpu="-mcpu=ev6 -mcpu=ev56" ;;
alphaev67 | alphaev68 | alphaev7*)
gcc_cflags_cpu="-mcpu=ev67 -mcpu=ev6 -mcpu=ev56" ;;
esac
# On old versions of gcc, which don't know -mcpu=, we believe an
# explicit -Wa,-mev5 etc will be necessary to put the assembler in
# the right mode for our .asm files and longlong.h asm blocks.
#
# On newer versions of gcc, when -mcpu= is known, we must give a -Wa
# which is at least as high as the code gcc will generate. gcc
# establishes what it needs with a ".arch" directive, our command line
# option seems to override that.
#
# gas prior to 2.14 doesn't accept -mev67, but -mev6 seems enough for
# ctlz and cttz (in 2.10.0 at least).
#
case $host_cpu in
alpha) gcc_cflags_asm="-Wa,-arch,ev4 -Wa,-mev4" ;;
alphaev5) gcc_cflags_asm="-Wa,-arch,ev5 -Wa,-mev5" ;;
alphaev56) gcc_cflags_asm="-Wa,-arch,ev56 -Wa,-mev56" ;;
alphapca56 | alphapca57)
gcc_cflags_asm="-Wa,-arch,pca56 -Wa,-mpca56" ;;
alphaev6) gcc_cflags_asm="-Wa,-arch,ev6 -Wa,-mev6" ;;
alphaev67 | alphaev68 | alphaev7*)
gcc_cflags_asm="-Wa,-arch,ev67 -Wa,-mev67 -Wa,-arch,ev6 -Wa,-mev6" ;;
esac
# It might be better to ask "cc" whether it's Cray C or DEC C,
# instead of relying on the OS part of $host. But it's hard to
# imagine either of those compilers anywhere except their native
# systems.
#
GMP_INCLUDE_MPN(alpha/alpha-defs.m4)
GMP_INCLUDE_MPN(alpha/default.m4)
SPEED_CYCLECOUNTER_OBJ=alpha.lo
cyclecounter_size=1
;;
arm*-*-*)
path="arm"
gcc_cflags="$gcc_cflags $fomit_frame_pointer"
gcc_testlist="gcc-arm-umodsi"
GMP_INCLUDE_MPN(arm/arm-defs.m4)
;;
IA64_PATTERN)
abilist="64"
GMP_INCLUDE_MPN(ia64/ia64-defs.m4)
SPEED_CYCLECOUNTER_OBJ=ia64.lo
gcc_64_cflags="-O2"
case $host_cpu in
itanium) path="ia64/itanium ia64" ;;
itanium2) path="ia64/itanium2 ia64" ;;
*) path="ia64" ;;
esac
gcc_64_cflags_optlist="tune"
gcc_32_cflags_optlist=$gcc_64_cflags_optlist
# gcc pre-release 3.4 adds -mtune itanium and itanium2
case $host_cpu in
itanium) gcc_cflags_tune="-mtune=itanium" ;;
itanium2) gcc_cflags_tune="-mtune=itanium2" ;;
esac
case $host in
*-*-linux*)
cclist="gcc icc"
icc_cflags="-no-gcc -fpic"
icc_cflags_optlist="opt"
# FIXME: Check if -O3 is really right. The manual warns it is for
# large data sets, for which GMP uses assembly loops.
icc_cflags_opt="-O3 -O2 -O1"
;;
*-*-hpux*)
# HP cc sometimes gets internal errors if the optimization level is
# too high. GMP_PROG_CC_WORKS detects this, the "_opt" fallbacks
# let us use whatever seems to work.
#
abilist="32 64"
cclist_32="gcc cc"
path_32="ia64"
cc_32_cflags=""
cc_32_cflags_optlist="opt"
cc_32_cflags_opt="+O3 +O2 +O1"
gcc_32_cflags="-milp32 -O2"
limb_32=longlong
SPEED_CYCLECOUNTER_OBJ_32=ia64.lo
cyclecounter_size_32=2
# Must have +DD64 in CPPFLAGS to get the right __LP64__ for headers,
# but also need it in CFLAGS for linking programs, since automake
# only uses CFLAGS when linking, not CPPFLAGS.
# FIXME: Maybe should use cc_64_ldflags for this, but that would
# need GMP_LDFLAGS used consistently by all the programs.
#
cc_64_cflags="+DD64"
cc_64_cppflags="+DD64"
cc_64_cflags_optlist="opt"
cc_64_cflags_opt="+O3 +O2 +O1"
gcc_64_cflags="-mlp64 -O2"
;;
esac
;;
# Irix 5 and earlier can only run 32-bit o32.
#
# IRIX 6 and up always has a 64-bit mips CPU can run n32 or 64. n32 is
# preferred over 64, but only because that's been the default in past
# versions of GMP. The two are equally efficient.
#
# Linux kernel 2.2.13 arch/mips/kernel/irixelf.c has a comment about not
# supporting n32 or 64.
#
# For reference, libtool (eg. 1.5.6) recognises the n32 ABI and knows the
# right options to use when linking (both cc and gcc), so no need for
# anything special from us.
#
mips*-*-*)
abilist="o32"
gcc_cflags_optlist="abi"
gcc_cflags_abi="-mabi=32"
gcc_testlist="gcc-mips-o32"
path="mips32"
cc_cflags="-O2 -o32" # no -g, it disables all optimizations
# this suits both mips32 and mips64
GMP_INCLUDE_MPN(mips32/mips-defs.m4)
case $host in
[mips64*-*-*])
abilist="64 n32 o32"
cclist_n32="gcc cc"
gcc_n32_cflags="-O2 -mabi=n32"
cc_n32_cflags="-O2 -n32" # no -g, it disables all optimizations
limb_n32=longlong
path_n32="mips64"
cclist_64="pathcc gcc cc"
gcc_64_cflags="-O2 -mabi=64"
gcc_64_ldflags="-Wc,-mabi=64"
cc_64_cflags="-O2 -64" # no -g, it disables all optimizations
cc_64_ldflags="-Wc,-64"
pathcc_64_cflags="-O0 -mabi=64"
pathcc_64_ldflags="-Wc,-mabi=64"
path_64="mips64"
;;
esac
;;
# Darwin (powerpc-apple-darwin1.3) has it's hacked gcc installed as cc.
# Our usual "gcc in disguise" detection means gcc_cflags etc here gets
# used.
#
# The darwin pre-compiling preprocessor is disabled with -no-cpp-precomp
# since it doesn't like "__attribute__ ((mode (SI)))" etc in gmp-impl.h,
# and so always ends up running the plain preprocessor anyway. This could
# be done in CPPFLAGS rather than CFLAGS, but there's not many places
# preprocessing is done separately, and this is only a speedup, the normal
# preprocessor gets run if there's any problems.
#
# We used to use -Wa,-mppc with gcc, but can't remember exactly why.
# Presumably it was for old versions of gcc where -mpowerpc doesn't put
# the assembler in the right mode. In any case -Wa,-mppc is not good, for
# instance -mcpu=604 makes recent gcc use -m604 to get access to the
# "fsel" instruction, but a -Wa,-mppc overrides that, making code that
# comes out with fsel fail.
#
# (Note also that the darwin assembler doesn't accept "-mppc", so any
# -Wa,-mppc was used only if it worked. The right flag on darwin would be
# "-arch ppc" or some such, but that's already the default.)
#
[powerpc*-*-* | power[3-9]-*-*])
abilist="32"
cclist="gcc cc"
cc_cflags="-O2"
gcc_cflags="-O2 -mpowerpc"
gcc_cflags_optlist="precomp subtype asm cpu"
gcc_cflags_precomp="-no-cpp-precomp"
gcc_cflags_subtype="-force_cpusubtype_ALL" # for vmx on darwin
gcc_cflags_asm=""
gcc_cflags_cpu=""
# grab this object, though it's not a true cycle counter routine
SPEED_CYCLECOUNTER_OBJ=powerpc.lo
cyclecounter_size=0
case $host_cpu in
powerpc740 | powerpc750)
path="powerpc32/750 powerpc32" ;;
powerpc7400)
path="powerpc32/vmx powerpc32/750 powerpc32" ;;
[powerpc74[45]?])
path="powerpc32/vmx powerpc32 powerpc32" ;;
*)
path="powerpc32" ;;
esac
# gcc 2.7.2 knows -mcpu=403, 601, 603, 604.
# gcc 2.95 adds 401, 505, 602, 603e, ec603e, 604e, 620, 740, 750,
# 801, 821, 823, 860.
# gcc 3.0 adds 630, rs64a.
# gcc 3.1 adds 405, 7400, 7450.
# gcc 3.2 adds nothing.
# gcc 3.3 adds power3, power4, 8540. power3 seems to be a synonym for 630.
# gcc pre-release 3.4 adds 405fp, 440, 440fp, 970.
#
# FIXME: The way 603e falls back to 603 for gcc 2.7.2 should be
# done for all the others too. But what would be the correct
# arrangements?
#
case $host_cpu in
powerpc401) gcc_cflags_cpu="-mcpu=401" ;;
powerpc403) gcc_cflags_cpu="-mcpu=403" ;;
powerpc405) gcc_cflags_cpu="-mcpu=405" ;;
powerpc505) gcc_cflags_cpu="-mcpu=505" ;;
powerpc601) gcc_cflags_cpu="-mcpu=601" ;;
powerpc602) gcc_cflags_cpu="-mcpu=602" ;;
powerpc603) gcc_cflags_cpu="-mcpu=603" ;;
powerpc603e) gcc_cflags_cpu="-mcpu=603e -mcpu=603" ;;
powerpc604) gcc_cflags_cpu="-mcpu=604" ;;
powerpc604e) gcc_cflags_cpu="-mcpu=604e -mcpu=604" ;;
powerpc620) gcc_cflags_cpu="-mcpu=620" ;;
powerpc630) gcc_cflags_cpu="-mcpu=630" ;;
powerpc740) gcc_cflags_cpu="-mcpu=740" ;;
powerpc7400 | powerpc7410)
gcc_cflags_asm="-Wa,-maltivec"
gcc_cflags_cpu="-mcpu=7400 -mcpu=750" ;;
powerpc74[45]?)
gcc_cflags_asm="-Wa,-maltivec"
gcc_cflags_cpu="-mcpu=7450" ;;
powerpc750) gcc_cflags_cpu="-mcpu=750" ;;
powerpc801) gcc_cflags_cpu="-mcpu=801" ;;
powerpc821) gcc_cflags_cpu="-mcpu=821" ;;
powerpc823) gcc_cflags_cpu="-mcpu=823" ;;
powerpc860) gcc_cflags_cpu="-mcpu=860" ;;
powerpc970) gcc_cflags_cpu="-mcpu=970" ;;
esac
case $host in
*-*-aix*)
cclist="gcc xlc cc"
xlc_cflags="-O2 -qmaxmem=20000"
xlc_cflags_optlist="arch"
# xlc (what version?) knows -qarch=ppc, ppcgr, 601, 602, 603, 604,
# 403, rs64a
# -qarch=ppc is needed, so ensure everything falls back to that.
# FIXME: Perhaps newer versions know more flavours.
#
case $host_cpu in
powerpc403) xlc_cflags_arch="-qarch=403 -qarch=ppc" ;;
powerpc601) xlc_cflags_arch="-qarch=601 -qarch=ppc" ;;
powerpc602) xlc_cflags_arch="-qarch=602 -qarch=ppc" ;;
powerpc603) xlc_cflags_arch="-qarch=603 -qarch=ppc" ;;
powerpc603e) xlc_cflags_arch="-qarch=603 -qarch=ppc" ;;
powerpc604) xlc_cflags_arch="-qarch=604 -qarch=ppc" ;;
powerpc604e) xlc_cflags_arch="-qarch=604 -qarch=ppc" ;;
*) xlc_cflags_arch="-qarch=ppc" ;;
esac
;;
esac
case $host in
POWERPC64_PATTERN)
case $host_cpu in
powerpc970) vmx_path="powerpc64/vmx" ;;
*) vmx_path="" ;;
esac
case $host in
*-*-aix*)
# On AIX a true 64-bit ABI is available.
# Need -Wc to pass object type flags through to the linker.
abilist="aix64 $abilist"
cclist_aix64="gcc xlc"
gcc_aix64_cflags="-O2 -maix64 -mpowerpc64"
gcc_aix64_cflags_optlist="cpu"
gcc_aix64_ldflags="-Wc,-maix64"
xlc_aix64_cflags="-O2 -q64 -qtune=pwr3 -qmaxmem=20000"
xlc_aix64_ldflags="-Wc,-q64"
# Must indicate object type to ar and nm
ar_aix64_flags="-X64"
nm_aix64_flags="-X64"
path_aix64="powerpc64/mode64 $vmx_path powerpc64"
# grab this object, though it's not a true cycle counter routine
SPEED_CYCLECOUNTER_OBJ_aix64=powerpc64.lo
cyclecounter_size_aix64=0
;;
*-*-darwin*)
# On Darwin we can use 64-bit instructions with a longlong limb,
# but the chip still in 32-bit mode.
# In theory this can be used on any OS which knows how to save
# 64-bit registers in a context switch.
#
# Note that we must use -mpowerpc64 with gcc, since the
# longlong.h macros expect limb operands in a single 64-bit
# register, not two 32-bit registers as would be given for a
# long long without -mpowerpc64. In theory we could detect and
# accomodate both styles, but the proper 64-bit registers will
# be fastest and are what we really want to use.
#
# One would think -mpowerpc64 would set the assembler in the right
# mode to handle 64-bit instructions. But for that, also
# -force_cpusubtype_ALL is needed.
#
# Do not use -fast for Darwin, it actually adds options
# incompatible with a shared library.
#
abilist="mode64 mode32 $abilist"
gcc_cflags_opt="-O3 -O2 -O1" # will this become used?
cclist_mode32="gcc"
gcc_mode32_cflags="-mpowerpc64"
gcc_mode32_cflags_optlist="subtype cpu opt"
gcc_mode32_cflags_subtype="-force_cpusubtype_ALL"
gcc_mode32_cflags_opt="-O3 -O2 -O1"
path_mode32="powerpc64/mode32 $vmx_path powerpc64"
limb_mode32=longlong
cclist_mode64="gcc"
gcc_mode64_cflags="-m64"
gcc_mode64_cflags_optlist="cpu opt"
gcc_mode64_cflags_opt="-O3 -O2 -O1"
path_mode64="powerpc64/mode64 $vmx_path powerpc64"
SPEED_CYCLECOUNTER_OBJ_mode64=powerpc64.lo
cyclecounter_size_mode64=0
any_mode64_testlist="sizeof-long-8"
;;
*-*-linux* | *-*-*bsd*)
# On GNU/Linux, assume the processor is in 64-bit mode. Some
# environments have a gcc that is always in 64-bit mode, while
# others require -m64, hence the use of cflags_maybe. The
# sizeof-long-8 test checks the mode is right (for the no option
# case).
#
# -mpowerpc64 is not used, since it should be the default in
# 64-bit mode. (We need its effect for the various longlong.h
# asm macros to be right of course.)
#
# gcc64 was an early port of gcc to 64-bit mode, but should be
# obsolete before too long. We prefer plain gcc when it knows
# 64-bits.
#
abilist="mode64 mode32 $abilist"
cclist_mode32="gcc"
gcc_mode32_cflags="-mpowerpc64 -Wa,-mppc64"
gcc_mode32_cflags_optlist="cpu opt"
gcc_mode32_cflags_opt="-O3 -O2 -O1"
path_mode32="powerpc64/mode32 $vmx_path powerpc64"
limb_mode32=longlong
cclist_mode64="gcc gcc64"
gcc_mode64_cflags_maybe="-m64"
gcc_mode64_cflags_optlist="cpu opt"
gcc_mode64_cflags_opt="-O3 -O2 -O1"
path_mode64="powerpc64/mode64 $vmx_path powerpc64"
SPEED_CYCLECOUNTER_OBJ_mode64=powerpc64.lo
cyclecounter_size_mode64=0
any_mode64_testlist="sizeof-long-8"
;;
esac
;;
esac
;;
*sparc*-*-*)
# sizeof(long)==4 or 8 is tested, to ensure we get the right ABI. We've
# had various bug reports where users have set CFLAGS for their desired
# mode, but not set our ABI. For some reason it's sparc where this
# keeps coming up, presumably users there are accustomed to driving the
# compiler mode that way. The effect of our testlist setting is to
# reject ABI=64 in favour of ABI=32 if the user has forced the flags to
# 32-bit mode.
#
abilist="32"
cclist="gcc acc cc"
any_testlist="sizeof-long-4"
GMP_INCLUDE_MPN(sparc32/sparc-defs.m4)
case $host_cpu in
sparcv8 | microsparc | turbosparc)
path="sparc32" ;;
supersparc)
path="sparc32" ;;
sparc64 | sparcv9* | ultrasparc*)
path="sparc32/v9 sparc32" ;;
*)
path="sparc32" ;;
esac
# gcc 2.7.2 doesn't know about v9 and doesn't pass -xarch=v8plus to the
# assembler. Add it explicitly since the solaris assembler won't accept
# our sparc32/v9 asm code without it. gas accepts -xarch=v8plus too, so
# it can be in the cflags unconditionally (though gas doesn't need it).
#
# gcc -m32 is needed to force 32-bit mode on a dual-ABI system, but past
# gcc doesn't know that flag, hence cflags_maybe. Note that -m32 cannot
# be done through the optlist since the plain cflags would be run first
# and we don't want to require the default mode (whatever it is) works.
#
# Note it's gcc_32_cflags_maybe and not gcc_cflags_maybe because the
# latter would be used in the 64-bit ABI on systems like "*bsd" where
# abilist="64" only.
#
case $host_cpu in
sparc64 | sparcv9* | ultrasparc*)
gcc_cflags="-O2 -Wa,-xarch=v8plus" ;;
*)
gcc_cflags="-O2" ;;
esac
gcc_32_cflags_maybe="-m32"
gcc_cflags_optlist="cpu"
# gcc 2.7.2 knows -mcypress, -msupersparc, -mv8, -msparclite.
# gcc 2.95 knows -mcpu= v7, hypersparc, sparclite86x, f930, f934,
# sparclet, tsc701, v9, ultrasparc. A warning is given that the
# plain -m forms will disappear.
# gcc 3.0 adds nothing.
# gcc 3.1 adds nothing.
# gcc 3.2 adds nothing.
# gcc 3.3 adds ultrasparc3.
#
case $host_cpu in
supersparc) gcc_cflags_cpu="-mcpu=supersparc -msupersparc" ;;
sparcv8 | microsparc | turbosparc)
gcc_cflags_cpu="-mcpu=v8 -mv8" ;;
sparc64 | sparcv9*) gcc_cflags_cpu="-mcpu=v9 -mv8" ;;
ultrasparc3) gcc_cflags_cpu="-mcpu=ultrasparc3 -mcpu=ultrasparc -mv8" ;;
ultrasparc*) gcc_cflags_cpu="-mcpu=ultrasparc -mv8" ;;
*) gcc_cflags_cpu="-mcpu=v7 -mcypress" ;;
esac
# SunPRO cc and acc, and SunOS bundled cc
case $host in
*-*-solaris* | *-*-sunos*)
# Note no -g, it disables all optimizations.
cc_cflags=
cc_cflags_optlist="opt arch cpu"
# SunOS cc doesn't know -xO4, fallback to -O2.
cc_cflags_opt="-xO4 -O2"
# SunOS cc doesn't know -xarch, apparently always generating v7
# code, so make this optional
case $host_cpu in
sparcv8 | microsparc | supersparc | turbosparc)
cc_cflags_arch="-xarch=v8" ;;
sparc64 | sparcv9* | ultrasparc*) cc_cflags_arch="-xarch=v8plus" ;;
*) cc_cflags_arch="-xarch=v7" ;;
esac
# SunOS cc doesn't know -xchip and doesn't seem to have an equivalent.
# SunPRO cc 5 recognises -xchip=generic, old, super, super2, micro,
# micro2, hyper, hyper2, powerup, ultra, ultra2, ultra2i.
# SunPRO cc 6 adds -xchip=ultra2e, ultra3cu.
#
# FIXME: Which of ultra, ultra2 or ultra2i is the best fallback for
# ultrasparc3?
#
case $host_cpu in
supersparc) cc_cflags_cpu="-xchip=super" ;;
microsparc) cc_cflags_cpu="-xchip=micro" ;;
turbosparc) cc_cflags_cpu="-xchip=micro2" ;;
ultrasparc) cc_cflags_cpu="-xchip=ultra" ;;
ultrasparc2) cc_cflags_cpu="-xchip=ultra2" ;;
ultrasparc2i) cc_cflags_cpu="-xchip=ultra2i" ;;
ultrasparc3) cc_cflags_cpu="-xchip=ultra3 -xchip=ultra" ;;
*) cc_cflags_cpu="-xchip=generic" ;;
esac
esac
case $host_cpu in
sparc64 | sparcv9* | ultrasparc*)
case $host in
# Solaris 6 and earlier cannot run ABI=64 since it doesn't save
# registers properly, so ABI=32 is left as the only choice.
#
[*-*-solaris2.[0-6] | *-*-solaris2.[0-6].*]) ;;
# BSD sparc64 ports are 64-bit-only systems, so ABI=64 is the only
# choice. In fact they need no special compiler flags, gcc -m64
# is the default, but it doesn't hurt to add it. v9 CPUs always
# use the sparc64 port, since the plain 32-bit sparc ports don't
# run on a v9.
#
*-*-*bsd*) abilist="64" ;;
# For all other systems, we try both 64 and 32.
#
# GNU/Linux sparc64 has only recently gained a 64-bit user mode.
# In the past sparc64 meant a v9 cpu, but there were no 64-bit
# operations in user mode. We assume that if "gcc -m64" works
# then the system is suitable. Hopefully even if someone attempts
# to put a new gcc and/or glibc on an old system it won't run.
#
*) abilist="64 32" ;;
esac
path_64="sparc64"
cclist_64="gcc"
any_64_testlist="sizeof-long-8"
# gcc -mptr64 is probably implied by -m64, but we're not sure if
# this was always so. On Solaris in the past we always used both
# "-m64 -mptr64".
#
# gcc -Wa,-xarch=v9 is thought to be necessary in some cases on
# solaris, but it would seem likely that if gcc is going to generate
# 64-bit code it will have to add that option itself where needed.
# An extra copy of this option should be harmless though, but leave
# it until we're sure. (Might want -xarch=v9a or -xarch=v9b for the
# higher cpu types instead.)
#
gcc_64_cflags="-O2 -m64 -mptr64"
gcc_64_ldflags="-Wc,-m64"
gcc_64_cflags_optlist="cpu"
case $host in
*-*-solaris*)
# Sun cc.
#
# -fast enables different optimizations depending on compiler
# version. Unfortunately it does things according to the native
# system, which may not be optimal when cross compiling (to a
# different sparc). -xchip from cc_cflags_cpu will override at
# least that part of its selections.
#
# -fns=no and -fsimple=1 disable some transformations that
# conflict with IEEE 754, which some compiler versions perform
# under -fast.
#
# In any case -fast can result in incorrect optimisations and so
# has been removed (see
# http://swox.com/list-archives/gmp-bugs/2008-April/000987.html)
#
cclist_64="$cclist_64 cc"
cc_64_cflags="-xarch=v9"
cc_64_cflags_optlist="cpu"
;;
esac
# using the v9 %tick register
SPEED_CYCLECOUNTER_OBJ_32=sparcv9.lo
SPEED_CYCLECOUNTER_OBJ_64=sparcv9.lo
cyclecounter_size_32=2
cyclecounter_size_64=2
;;
esac
;;
# AMD and Intel x86 configurations, including AMD64
#
# Rumour has it gcc -O2 used to give worse register allocation than just
# -O, but lets assume that's no longer true.
#
# -m32 forces 32-bit mode on a bi-arch 32/64 amd64 build of gcc. -m64 is
# the default in such a build (we think), so -m32 is essential for ABI=32.
# This is, of course, done for any $host_cpu, not just x86_64, so we can
# get such a gcc into the right mode to cross-compile to say i486-*-*.
#
# -m32 is not available in gcc 2.95 and earlier, hence cflags_maybe to use
# it when it works. We check sizeof(long)==4 to ensure we get the right
# mode, in case -m32 has failed not because it's an old gcc, but because
# it's a dual 32/64-bit gcc without a 32-bit libc, or whatever.
#
X86_PATTERN | X86_64_PATTERN)
abilist="32"
cclist="gcc icc cc"
gcc_cflags="-O2 $fomit_frame_pointer"
case $host in
*-*-linux-gnu)
gcc_32_ldflags="-Wl,-z,noexecstack" ;;
esac
gcc_32_cflags_maybe="-m32"
icc_cflags="-no-gcc"
icc_cflags_optlist="opt"
icc_cflags_opt="-O3 -O2 -O1"
any_32_testlist="sizeof-long-4"
CALLING_CONVENTIONS_OBJS='x86call.lo x86check$U.lo'
# Currently yasm is only needed to build x86 assembly files on some hosts
want_yasm="yes"
# Availability of rdtsc is checked at run-time.
SPEED_CYCLECOUNTER_OBJ=pentium.lo
case $host in
*-*-solaris* | *-*-sunos*)
# Note no -g, it disables all optimizations.
cc_cflags=
cc_cflags_optlist="opt arch cpu"
# SunOS cc doesn't know -xO4, fallback to -O2.
cc_cflags_opt="-xO4 -O2" ;;
esac
# gcc 2.7.2 only knows i386 and i486, using -m386 or -m486. These
# represent -mcpu= since -m486 doesn't generate 486 specific insns.
# gcc 2.95 adds k6, pentium and pentiumpro, and takes -march= and -mcpu=.
# gcc 3.0 adds athlon.
# gcc 3.1 adds k6-2, k6-3, pentium-mmx, pentium2, pentium3, pentium4,
# athlon-tbird, athlon-4, athlon-xp, athlon-mp.
# gcc 3.2 adds winchip2.
# gcc 3.3 adds winchip-c6.
# gcc 3.3.1 from mandrake adds k8 and knows -mtune.
# gcc 3.4 adds c3, c3-2, k8, and deprecates -mcpu in favour of -mtune.
#
# In gcc 2.95.[0123], -march=pentiumpro provoked a stack slot bug in an
# old version of mpz/powm.c. Seems to be fine with the current code, so
# no need for any restrictions on that option.
#
# -march=pentiumpro can fail if the assembler doesn't know "cmov"
# (eg. solaris 2.8 native "as"), so always have -march=pentium after
# that as a fallback.
#
# -march=pentium4 and -march=k8 enable SSE2 instructions, which may or
# may not be supported by the assembler and/or the OS, and is bad in gcc
# prior to 3.3. The tests will reject these if no good, so fallbacks
# like "-march=pentium4 -mno-sse2" are given to try also without SSE2.
# Note the relevant -march types are listed in the optflags handling
# below, be sure to update there if adding new types emitting SSE2.
#
# -mtune is used at the start of each cpu option list to give something
# gcc 3.4 will use, thereby avoiding warnings from -mcpu. -mcpu forms
# are retained for use by prior gcc. For example pentium has
# "-mtune=pentium -mcpu=pentium ...", the -mtune is for 3.4 and the
# -mcpu for prior. If there's a brand new choice in 3.4 for a chip,
# like k8 for x86_64, then it can be the -mtune at the start, no need to
# duplicate anything.
#
gcc_cflags_optlist="cpu arch"