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Matthieu Schaller authoredAdd an implementation of the sincos() function (absent on OSX) that is used in the COLIBRE fork of the project.
Matthieu Schaller authoredAdd an implementation of the sincos() function (absent on OSX) that is used in the COLIBRE fork of the project.
configure.ac 78.90 KiB
# This file is part of SWIFT.
# Copyright (C) 2012 pedro.gonnet@durham.ac.uk.
# 2016 p.w.draper@durham.ac.uk.
#
# This program 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 3 of the License, or
# (at your option) any later version.
#
# This program 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 program. If not, see <http://www.gnu.org/licenses/>.
# Init the project.
AC_INIT([SWIFT],[0.8.5],[https://gitlab.cosma.dur.ac.uk/swift/swiftsim])
swift_config_flags="$*"
# We want to stop when given unrecognised options. No subdirs so this is safe.
enable_option_checking=${enable_option_checking:-fatal}
if test -n "$ac_unrecognized_opts"; then
case $enable_option_checking in
no)
;;
fatal)
{ $as_echo "$as_me: error: unrecognized options: $ac_unrecognized_opts" >&2
{ (exit 1); exit 1; }; }
;;
*)
$as_echo "$as_me: WARNING: unrecognized options: $ac_unrecognized_opts" >&2
;;
esac
fi
AC_COPYRIGHT
AC_CONFIG_SRCDIR([src/space.c])
AC_CONFIG_AUX_DIR([.])
AM_INIT_AUTOMAKE([subdir-objects])
# Add local macro collection.
AC_CONFIG_MACRO_DIR([m4])
# Stop default CFLAGS from anyone except the environment.
: ${CFLAGS=""}
# Generate header file.
AM_CONFIG_HEADER(config.h)
# Find and test the compiler.
AX_CHECK_ENABLE_DEBUG
AC_PROG_CC
AM_PROG_CC_C_O
# If debug is selected then we also define SWIFT_DEVELOP_MODE to control
# any developer code options.
if test "x$ax_enable_debug" != "xno"; then
AC_DEFINE([SWIFT_DEVELOP_MODE],1,[Enable developer code options])
fi
# C++ in GCC 6 and above has an issue with undefined the min() and max()
# macros. This hack works around that.
AC_DEFINE([_GLIBCXX_INCLUDE_NEXT_C_HEADERS],1,[Hack for min() and max() using g++ 6+])
# Enable POSIX and platform extension preprocessor macros.
AC_USE_SYSTEM_EXTENSIONS
# Check for compiler version and vendor.AX_COMPILER_VENDOR
AX_COMPILER_VERSION
# Check whether we have a recent enough GCC
if test "$ax_cv_c_compiler_vendor" = "gnu"; then
AX_COMPARE_VERSION([$ax_cv_c_compiler_version], [ge], [8.1.0],
[gcc_handles_avx512="yes"],
[gcc_handles_avx512="no"])
fi
# Restrict support.
AC_C_RESTRICT
# logger
AC_ARG_ENABLE([logger],
[AS_HELP_STRING([--enable-logger],
[enable the particle logger]
)],
[with_logger="${enableval}"],
[with_logger="no"]
)
if test "$with_logger" = "yes"; then
AC_DEFINE([WITH_LOGGER], 1, [logger enabled])
# The logger requires that long long is a 64bit type, let's
# check that.
AC_CHECK_SIZEOF([long long int])
if test "$ac_cv_sizeof_long_long_int" != "8"; then
AC_MSG_ERROR([The particle logger requires that 'long long int' has size 8 bytes])
fi
fi
AM_CONDITIONAL([HAVELOGGER],[test $with_logger = "yes"])
# Interprocedural optimization support. Needs special handling for linking and
# archiving as well as compilation with Intels, needs to be done before
# libtool is configured (to use correct LD).
AC_ARG_ENABLE([ipo],
[AS_HELP_STRING([--enable-ipo],
[Enable interprocedural optimization @<:@no/yes@:>@]
)],
[enable_ipo="$enableval"],
[enable_ipo="no"]
)
if test "$enable_ipo" = "yes"; then
if test "$ax_cv_c_compiler_vendor" = "intel"; then
CFLAGS="$CFLAGS -ip -ipo"
LDFLAGS="$LDFLAGS -ipo"
: ${AR="xiar"}
: ${LD="xild"}
AC_MSG_RESULT([added Intel interprocedural optimization support])
elif test "$ax_cv_c_compiler_vendor" = "gnu"; then
CFLAGS="$CFLAGS -flto"
LDFLAGS="$LDFLAGS -flto"
AX_COMPARE_VERSION($ax_cv_c_compiler_version, [ge], [5.0.0],
[
: ${AR="gcc-ar"}
: ${RANLIB="gcc-ranlib"}
], [:] )
AC_MSG_RESULT([added GCC interprocedural optimization support])
elif test "$ax_cv_c_compiler_vendor" = "clang"; then
CFLAGS="$CFLAGS -flto -fuse-ld=gold"
LDFLAGS="$LDFLAGS -XCClinker -fuse-ld=gold"
: ${AR="llvm-ar"}
: ${LD="ld.gold"}
: ${RANLIB="llvm-ranlib"}
AC_MSG_RESULT([added LLVM interprocedural optimization support])
else
AC_MSG_WARN([Compiler does not support interprocedural optimization])
fifi
# Check for MPI. Need to do this before characterising the compiler (C99 mode),
# as this changes the compiler.
# We should consider using AX_PROG_CC_MPI to replace AC_PROG_CC when compiling
# whole applications. There are issues with mixing compilers when using this
# macro. See
# http://lists.gnu.org/archive/html/autoconf-archive-maintainers/2011-05/msg00004.html.
AC_ARG_ENABLE([mpi],
[AS_HELP_STRING([--enable-mpi],
[Compile with functionality for distributed-memory parallelism using MPI @<:@yes/no@:>@]
)],
[enable_mpi="$enableval"],
[enable_mpi="yes"]
)
good_mpi="yes"
if test "$enable_mpi" = "yes"; then
AX_MPI([CC="$MPICC" AC_DEFINE(HAVE_MPI, 1, [Define if you have the MPI library.]) ])
MPI_LIBRARY="Unknown MPI"
# Various MPI implementations require additional libraries when also using
# threads. Use mpirun (on PATH) as that seems to be only command with
# version flag, allow MPIRUN to override for systems that insist on
# a non-standard name (PRACE).
: ${MPIRUN='mpirun'}
if test "$MPIRUN" = "mpirun"; then
AC_PATH_PROG([MPIRUN],[mpirun],[notfound])
fi
if test "$MPIRUN" = "notfound"; then
# This may not be fatal (some systems do not allow mpirun on
# development nodes)., so push on.
AC_MSG_WARN([Cannot find mpirun command on PATH, thread support may not be correct])
else
# Special options we know about.
# Intel: -mt_mpi
# PLATFORM: -lmtmpi
# OpenMPI: nothing, but library should be built correctly.
# Set MPI_THREAD_LIBS and add to linker commands as necessary.
AC_MSG_CHECKING([MPI threads options])
version=`$MPIRUN -version 2>&1`
case "$version" in
*Intel*MPI*)
MPI_THREAD_LIBS="-mt_mpi"
MPI_LIBRARY="Intel MPI"
AC_MSG_RESULT([Intel MPI])
;;
*Platform*)
MPI_THREAD_LIBS="-lmtmpi"
MPI_LIBRARY="PLATFORM MPI"
AC_MSG_RESULT([PLATFORM MPI])
;;
*"Open MPI"*)
MPI_THREAD_LIBS=""
MPI_LIBRARY="Open MPI"
AC_MSG_RESULT([Open MPI])
# OpenMPI should be 1.8.6 or later, if not complain.
# Version is last word on first line of -version output.
revision=`mpirun -version 2>&1 | grep "Open MPI" | awk '{print $NF}'`
AX_COMPARE_VERSION( $revision, [ge], [1.8.6],,[good_mpi="no"] )
if test "$good_mpi" = "no"; then
AC_MSG_WARN([
Open MPI version should be at least 1.8.6 (is $revision)])
enable_mpi="yes (but with warning)"
fi
;;
*)
MPI_THREAD_LIBS=""
AC_MSG_RESULT([unknown])
;;
esac AC_SUBST([MPI_THREAD_LIBS])
fi
AC_DEFINE_UNQUOTED([SWIFT_MPI_LIBRARY], ["$MPI_LIBRARY"], [The MPI library name, if known.])
fi
AM_CONDITIONAL([HAVEMPI],[test $enable_mpi = "yes"])
# Indicate that MPIRUN can be modified by an environment variable
AC_ARG_VAR(MPIRUN, Path to the mpirun command if non-standard)
# Add libtool support (now that CC is defined).
LT_INIT
# Need C99 and inline support.
AC_PROG_CC_C99
AC_C_INLINE
# If debugging try to show inlined functions.
if test "x$enable_debug" = "xyes"; then
# Show inlined functions.
if test "$ax_cv_c_compiler_vendor" = "gnu"; then
# Would like to use -gdwarf and let the compiler pick a good version
# but that doesn't always work.
AX_CHECK_COMPILE_FLAG([-gdwarf -fvar-tracking-assignments],
[inline_EXTRA_FLAGS="-gdwarf -fvar-tracking-assignments"],
[inline_EXTRA_FLAGS="-gdwarf-2 -fvar-tracking-assignments"])
CFLAGS="$CFLAGS $inline_EXTRA_FLAGS"
elif test "$ax_cv_c_compiler_vendor" = "intel"; then
CFLAGS="$CFLAGS -debug inline-debug-info"
fi
fi
# Are we using the regular tasks (with atomics and no task conflicts) or
# are we using the atomic-free task-conflicting (slower) version?
AC_ARG_ENABLE([atomics-within-tasks],
[AS_HELP_STRING([--disable-atomics-within-tasks],
[Disable the use of atomic operations within tasks. This creates more task conflicts
but allows for atomic-free and lock-free code within the tasks. This likely slows down
the code @<:@yes/no@:>@]
)],
[enable_atomics_within_tasks="$enableval"],
[enable_atomics_within_tasks="yes"]
)
AS_IF([test "x$enable_atomics_within_tasks" != "xno"],
, # Note: atomics are allowed by default, we define the macro if we don't want them.
[AC_DEFINE([SWIFT_TASKS_WITHOUT_ATOMICS],1,[Makes SWIFT use atomic-free and lock-free tasks.])
])
# Check if task debugging is on.
AC_ARG_ENABLE([task-debugging],
[AS_HELP_STRING([--enable-task-debugging],
[Store extra information for generating task dump files @<:@yes/no@:>@]
)],
[enable_task_debugging="$enableval"],
[enable_task_debugging="no"]
)
if test "$enable_task_debugging" = "yes"; then
AC_DEFINE([SWIFT_DEBUG_TASKS],1,[Enable task debugging])
fi
# Check if threadpool debugging is on.
AC_ARG_ENABLE([threadpool-debugging],
[AS_HELP_STRING([--enable-threadpool-debugging],
[Store threadpool mapper timing information and generate threadpool dump files @<:@yes/no@:>@]
)],
[enable_threadpool_debugging="$enableval"],
[enable_threadpool_debugging="no"]
)
if test "$enable_threadpool_debugging" = "yes"; then
AC_DEFINE([SWIFT_DEBUG_THREADPOOL],1,[Enable threadpool debugging]) LDFLAGS="$LDFLAGS -rdynamic"
fi
# Check if the general timers are switched on.
AC_ARG_ENABLE([timers],
[AS_HELP_STRING([--enable-timers],
[Activate the basic timers @<:@yes/no@:>@]
)],
[enable_timers="$enableval"],
[enable_timers="no"]
)
if test "$enable_timers" = "yes"; then
AC_DEFINE([SWIFT_USE_TIMERS],1,[Enable individual timers])
fi
# Check if expensive debugging is on.
AC_ARG_ENABLE([debugging-checks],
[AS_HELP_STRING([--enable-debugging-checks],
[Activate expensive consistency checks @<:@yes/no@:>@]
)],
[enable_debugging_checks="$enableval"],
[enable_debugging_checks="no"]
)
if test "$enable_debugging_checks" = "yes"; then
AC_DEFINE([SWIFT_DEBUG_CHECKS],1,[Enable expensive debugging])
fi
# Check if cell graph is on.
AC_ARG_ENABLE([cell-graph],
[AS_HELP_STRING([--enable-cell-graph],
[Activate the cell graph @<:@yes/no@:>@]
)],
[enable_cell_graph="$enableval"],
[enable_cell_graph="no"]
)
if test "$enable_cell_graph" = "yes"; then
AC_DEFINE([SWIFT_CELL_GRAPH],1,[Enable cell graph])
fi
# Check if using our custom icbrtf is enalbled.
AC_ARG_ENABLE([custom-icbrtf],
[AS_HELP_STRING([--enable-custom-icbrtf],
[Use SWIFT's custom icbrtf function instead of the system cbrtf @<:@yes/no@:>@]
)],
[enable_custom_icbrtf="$enableval"],
[enable_custom_icbrtf="no"]
)
if test "$enable_custom_icbrtf" = "yes"; then
AC_DEFINE([WITH_ICBRTF],1,[Enable custom icbrtf])
fi
# Check whether we want to default to naive cell interactions
AC_ARG_ENABLE([naive-interactions],
[AS_HELP_STRING([--enable-naive-interactions],
[Activate use of naive cell interaction functions @<:@yes/no@:>@]
)],
[enable_naive_interactions="$enableval"],
[enable_naive_interactions="no"]
)
if test "$enable_naive_interactions" = "yes"; then
AC_DEFINE([SWIFT_USE_NAIVE_INTERACTIONS],1,[Enable use of naive cell interaction functions])
fi
# Check whether we want to default to naive cell interactions (stars)
AC_ARG_ENABLE([naive-interactions-stars],
[AS_HELP_STRING([--enable-naive-interactions-stars],
[Activate use of naive cell interaction functions for stars @<:@yes/no@:>@]
)],
[enable_naive_interactions_stars="$enableval"],
[enable_naive_interactions_stars="no"])
if test "$enable_naive_interactions_stars" = "yes"; then
AC_DEFINE([SWIFT_USE_NAIVE_INTERACTIONS_STARS],1,[Enable use of naive cell interaction functions for stars])
fi
# Check if gravity force checks are on for some particles.
AC_ARG_ENABLE([gravity-force-checks],
[AS_HELP_STRING([--enable-gravity-force-checks],
[Activate expensive brute-force gravity checks for a fraction 1/N of all particles @<:@N@:>@]
)],
[gravity_force_checks="$enableval"],
[gravity_force_checks="no"]
)
if test "$gravity_force_checks" == "yes"; then
AC_MSG_ERROR(Need to specify the fraction of particles to check when using --enable-gravity-force-checks!)
elif test "$gravity_force_checks" != "no"; then
AC_DEFINE_UNQUOTED([SWIFT_GRAVITY_FORCE_CHECKS], [$enableval] ,[Enable gravity brute-force checks])
fi
# Check whether we want to switch on glass making
AC_ARG_ENABLE([glass-making],
[AS_HELP_STRING([--enable-glass-making],
[Activate the glass-making procedure by reversing the sign of gravity @<:@yes/no@:>@]
)],
[gravity_glass_making="$enableval"],
[gravity_glass_making="no"]
)
if test "$gravity_glass_making" == "yes"; then
AC_DEFINE([SWIFT_MAKE_GRAVITY_GLASS], 1, [Make the code run in a way to produce a glass file for gravity/cosmology])
fi
# Check if we want to zero the gravity forces for all particles below some ID.
AC_ARG_ENABLE([no-gravity-below-id],
[AS_HELP_STRING([--enable-no-gravity-below-id],
[Zeros the gravitational acceleration of all particles with an ID smaller than @<:@N@:>@]
)],
[no_gravity_below_id="$enableval"],
[no_gravity_below_id="no"]
)
if test "$no_gravity_below_id" == "yes"; then
AC_MSG_ERROR(Need to specify the ID below which particles get zero forces when using --enable-no-gravity-below-id!)
elif test "$no_gravity_below_id" != "no"; then
AC_DEFINE_UNQUOTED([SWIFT_NO_GRAVITY_BELOW_ID], [$enableval] ,[Particles with smaller ID than this will have zero gravity forces])
fi
# Check if we want to use boundary particles.
AC_ARG_ENABLE([boundary-particles],
[AS_HELP_STRING([--enable-boundary-particles],
[Set all particles with an ID smaller than @<:@N@:>@ as boundary particles (i.e. receive zero gravity + hydro forces).]
)],
[boundary_particles="$enableval"],
[boundary_particles="no"]
)
if test "$boundary_particles" == "yes"; then
AC_MSG_ERROR(Need to specify the ID below which particles get zero forces when using --enable-boundary-particles!)
elif test "$boundary_particles" != "no"; then
AC_DEFINE_UNQUOTED([SWIFT_NO_GRAVITY_BELOW_ID], [$enableval] ,[Particles with smaller ID than this will have zero gravity forces])
AC_DEFINE_UNQUOTED([SWIFT_BOUNDARY_PARTICLES], [$enableval] ,[Particles with smaller ID than this will be considered as boundaries.])
fi
# Check whether we have any of the ARM v8.1 tick timers
AX_ASM_ARM_PMCCNTR
AX_ASM_ARM_CNTVCT
# See if we want memuse reporting.
AC_ARG_ENABLE([memuse-reports],
[AS_HELP_STRING([--enable-memuse-reports],
[Output reports about significant memory allocations@<:@yes/no@:>@]
)],
[enable_memuse_reports="$enableval"], [enable_memuse_reports="no"]
)
if test "$enable_memuse_reports" = "yes"; then
AC_DEFINE([SWIFT_MEMUSE_REPORTS],1,[Enable memory usage reports])
fi
# The system memory report depends on the presence of /proc/self/statm, i.e.
# a linux OS, check for that.
if test -f "/proc/self/statm"; then
AC_DEFINE([SWIFT_MEMUSE_STATM],1,[Have /proc/self/statm capability])
fi
# Check if we want to make the dumper thread active.
AC_ARG_ENABLE([dumper],
[AS_HELP_STRING([--enable-dumper],
[Dump active tasks and memory use (if configured)@<:@yes/no@:>@]
)],
[enable_dumper="$enableval"],
[enable_dumper="no"]
)
if test "$enable_dumper" = "yes"; then
AC_DEFINE([SWIFT_DUMPER_THREAD],1,[Enable dumper thread])
fi
# See if we want mpi reporting.
AC_ARG_ENABLE([mpiuse-reports],
[AS_HELP_STRING([--enable-mpiuse-reports],
[Output reports about MPI tasks requests@<:@yes/no@:>@]
)],
[enable_mpiuse_reports="$enableval"],
[enable_mpiuse_reports="no"]
)
if test "$enable_mpiuse_reports" = "yes"; then
AC_DEFINE([SWIFT_MPIUSE_REPORTS],1,[Enable MPI task reports])
fi
# Define HAVE_POSIX_MEMALIGN if it works.
AX_FUNC_POSIX_MEMALIGN
# Only optimize if allowed, otherwise assume user will set CFLAGS as
# appropriate.
AC_ARG_ENABLE([optimization],
[AS_HELP_STRING([--enable-optimization],
[Enable compile time optimization flags for host @<:@yes/no@:>@]
)],
[enable_opt="$enableval"],
[enable_opt="yes"]
)
# Disable vectorisation for known compilers. This switches off optimizations
# that could be enabled above, so in general should be appended. Slightly odd
# implementation as want to describe as --disable-vec, but macro is enable
# (there is no enable action).
AC_ARG_ENABLE([vec],
[AS_HELP_STRING([--disable-vec],
[Disable vectorization]
)],
[enable_vec="$enableval"],
[enable_vec="yes"]
)
# Disable hand written vectorisation. Slightly odd implementation as want
# to describe as --disable-hand-vec, but macro is enable (there is no enable action).
AC_ARG_ENABLE([hand-vec],
[AS_HELP_STRING([--disable-hand-vec],
[Disable intrinsic vectorization]
)],
[enable_hand_vec="$enableval"],
[enable_hand_vec="yes"])
HAVEVECTORIZATION=0
if test "$enable_opt" = "yes" ; then
# Choose the best flags for this compiler and architecture
ac_test_CFLAGS="no"
AX_CC_MAXOPT
ac_test_CFLAGS="yes"
# Choose the best flags for the gravity sub-library on this compiler and architecture
if test "$ax_cv_c_compiler_vendor" = "intel"; then
case "$icc_flags" in
*CORE-AVX512*)
GRAVITY_CFLAGS="$GRAVITY_CFLAGS -qopt-zmm-usage=high"
;;
*)
AC_MSG_WARN([No additional flags needed for gravity on this platform])
;;
esac
elif test "$ax_cv_c_compiler_vendor" = "gnu"; then
if test "$gcc_handles_avx512" = "yes"; then
case "$ax_gcc_arch" in
*skylake-avx512*)
GRAVITY_CFLAGS="$GRAVITY_CFLAGS -mprefer-vector-width=512"
;;
*)
AC_MSG_WARN([No additional flags needed for gravity on this platform])
;;
esac
else
AC_MSG_WARN([No additional flags needed for gravity on this platform])
fi
else
AC_MSG_WARN([Do not know what best gravity vectorization flags to choose for this compiler])
fi
AC_ARG_VAR([GRAVITY_CFLAGS], [C compiler flags added to the basic CFLAGS to compile
the gravity-related files.])
# Check SSE & AVX support (some overlap with AX_CC_MAXOPT).
# Don't use the SIMD_FLAGS result with Intel compilers. The -x<code>
# value from AX_CC_MAXOPT should be sufficient.
AX_EXT
if test "$SIMD_FLAGS" != ""; then
if test "$ax_cv_c_compiler_vendor" != "intel"; then
CFLAGS="$CFLAGS $SIMD_FLAGS"
fi
fi
if test "$enable_vec" = "no"; then
if test "$ax_cv_c_compiler_vendor" = "intel"; then
CFLAGS="$CFLAGS -no-vec -no-simd"
AC_MSG_RESULT([disabled Intel vectorization])
elif test "$ax_cv_c_compiler_vendor" = "gnu"; then
CFLAGS="$CFLAGS -fno-tree-vectorize"
AC_MSG_RESULT([disabled GCC vectorization])
elif test "$ax_cv_c_compiler_vendor" = "clang"; then
CFLAGS="$CFLAGS -fno-vectorize -fno-slp-vectorize"
AC_MSG_RESULT([disabled clang vectorization])
else
AC_MSG_WARN([Do not know how to disable vectorization for this compiler])
fi
elif test "$enable_hand_vec" = "yes"; then
AC_DEFINE([WITH_VECTORIZATION],1,[Enable hand-written vectorization])
HAVEVECTORIZATION=1
fi
fi
AM_CONDITIONAL([HAVEVECTORIZATION],[test -n "$HAVEVECTORIZATION"])
# Add address sanitizer options to flags, if requested. Only useful for GCC
# version 4.8 and later and clang.
AC_ARG_ENABLE([sanitizer],
[AS_HELP_STRING([--enable-sanitizer],
[Enable memory error detection using address sanitizer @<:@no/yes@:>@]
)],
[enable_san="$enableval"],
[enable_san="no"]
)
if test "$enable_san" = "yes"; then
if test "$ax_cv_c_compiler_vendor" = "gnu"; then
AX_COMPARE_VERSION( $ax_cv_c_compiler_version, [ge], [4.8.0],
[enable_san="yes"], [enable_san="no"] )
elif test "$ax_cv_c_compiler_vendor" = "clang"; then
AX_COMPARE_VERSION( $ax_cv_c_compiler_version, [ge], [3.2.0],
[enable_san="yes"], [enable_san="no"] )
fi
if test "$enable_san" = "yes"; then
CFLAGS="$CFLAGS -fsanitize=address -fno-omit-frame-pointer"
AC_MSG_RESULT([added address sanitizer support])
else
AC_MSG_WARN([Compiler does not support address sanitizer option])
fi
fi
# Add the undefined sanitizer option to flags. Only useful for GCC
# version 4.9 and later and clang to detected undefined code behaviour
# such as integer overflow and memory alignment issues.
AC_ARG_ENABLE([undefined-sanitizer],
[AS_HELP_STRING([--enable-undefined-sanitizer],
[Enable detection of code that causes undefined behaviour @<:@no/yes@:>@]
)],
[enable_ubsan="$enableval"],
[enable_ubsan="no"]
)
if test "$enable_ubsan" = "yes"; then
if test "$ax_cv_c_compiler_vendor" = "gnu"; then
AX_COMPARE_VERSION( $ax_cv_c_compiler_version, [ge], [4.9.0],
[enable_ubsan="yes"], [enable_ubsan="no"] )
elif test "$ax_cv_c_compiler_vendor" = "clang"; then
AX_COMPARE_VERSION( $ax_cv_c_compiler_version, [ge], [3.7.0],
[enable_ubsan="yes"], [enable_ubsan="no"] )
fi
if test "$enable_ubsan" = "yes"; then
CFLAGS="$CFLAGS -fsanitize=undefined"
AC_MSG_RESULT([added undefined sanitizer support])
else
AC_MSG_WARN([Compiler does not support undefined sanitizer option])
fi
fi
# Autoconf stuff.
AC_PROG_INSTALL
AC_PROG_MAKE_SET
AC_HEADER_STDC
# Check for the libraries we will need.
AC_CHECK_LIB(m,sqrt,,AC_MSG_ERROR(something is wrong with the math library!))
# Check for GSL. We test for this in the standard directories by default,
# and only disable if using --with-gsl=no or --without-gsl. When a value
# is given GSL must be found.
have_gsl="no"
AC_ARG_WITH([gsl],
[AS_HELP_STRING([--with-gsl=PATH],
[root directory where GSL is installed @<:@yes/no@:>@]
)], [with_gsl="$withval"],
[with_gsl="test"]
)
if test "x$with_gsl" != "xno"; then
if test "x$with_gsl" != "xyes" -a "x$with_gsl" != "xtest" -a "x$with_gsl" != "x"; then
GSL_LIBS="-L$with_gsl/lib -lgsl -lgslcblas"
GSL_INCS="-I$with_gsl/include"
else
GSL_LIBS="-lgsl -lgslcblas"
GSL_INCS=""
fi
# GSL is not specified, so just check if we have it.
if test "x$with_gsl" = "xtest"; then
AC_CHECK_LIB([gslcblas],[cblas_dgemm],[have_gsl="yes"],[have_gsl="no"],$GSL_LIBS)
if test "x$have_gsl" != "xno"; then
AC_DEFINE([HAVE_LIBGSLCBLAS],1,[The GSL CBLAS library appears to be present.])
AC_CHECK_LIB([gsl],[gsl_integration_qag],
AC_DEFINE([HAVE_LIBGSL],1,[The GSL library appears to be present.]),
[have_gsl="no"],$GSL_LIBS)
fi
else
AC_CHECK_LIB([gslcblas],[cblas_dgemm],
AC_DEFINE([HAVE_LIBGSLCBLAS],1,[The GSL CBLAS library appears to be present.]),
AC_MSG_ERROR(something is wrong with the GSL CBLAS library!), $GSL_LIBS)
AC_CHECK_LIB([gsl],[gsl_integration_qag],
AC_DEFINE([HAVE_LIBGSL],1,[The GSL library appears to be present.]),
AC_MSG_ERROR(something is wrong with the GSL library!), $GSL_LIBS)
have_gsl="yes"
fi
if test "$have_gsl" = "no"; then
GSL_LIBS=""
GSL_INCS=""
fi
fi
AC_SUBST([GSL_LIBS])
AC_SUBST([GSL_INCS])
AM_CONDITIONAL([HAVEGSL],[test -n "$GSL_LIBS"])
# Check for pthreads.
AX_PTHREAD([LIBS="$PTHREAD_LIBS $LIBS" CFLAGS="$CFLAGS $PTHREAD_CFLAGS"
CC="$PTHREAD_CC" LDFLAGS="$LDFLAGS $PTHREAD_LIBS $LIBS"],
AC_MSG_ERROR([Could not find a working version of
the pthread library. Make sure you have the library and header files installed
or use CPPFLAGS and LDFLAGS if the library is installed in a
non-standard location.]))
# Check whether POSIX thread barriers are implemented (e.g. OSX does not have them)
have_pthread_barrier="no"
AC_CHECK_LIB(pthread, pthread_barrier_init,
have_pthread_barrier="yes",
AC_MSG_WARN(POSIX implementation does not have barriers. SWIFT will use home-made ones.))
if test "x$have_pthread_barrier" == "xyes"; then
AC_DEFINE([HAVE_PTHREAD_BARRIERS], [1], [The posix library implements barriers])
fi
# Check whether POSIX file allocation functions exist (e.g. OSX does not have them)
AC_CHECK_LIB(pthread, posix_fallocate,
AC_DEFINE([HAVE_POSIX_FALLOCATE], [1], [The posix library implements file allocation functions.]),
AC_MSG_WARN(POSIX implementation does not have file allocation functions.))
# Check for METIS.
have_metis="no"
AC_ARG_WITH([metis],
[AS_HELP_STRING([--with-metis=PATH],
[root directory where METIS is installed @<:@yes/no@:>@]
)],
[with_metis="$withval"],
[with_metis="no"]
)
METIS_LIBS=""
if test "x$with_metis" != "xno"; then
# Check if we have METIS.
if test "x$with_metis" != "xyes" -a "x$with_metis" != "x"; then
METIS_LIBS="-L$with_metis/lib -lmetis"
METIS_INCS="-I$with_metis/include"
else
METIS_LIBS="-lmetis"
METIS_INCS=""
fi
AC_CHECK_LIB([metis],[METIS_PartGraphKway], [have_metis="yes"],
[have_metis="no"], $METIS_LIBS)
if test "$have_metis" == "yes"; then
AC_DEFINE([HAVE_METIS],1,[The METIS library is present.])
else
AC_MSG_ERROR("Failed to find a METIS library")
fi
fi
AC_SUBST([METIS_LIBS])
AC_SUBST([METIS_INCS])
AM_CONDITIONAL([HAVEMETIS],[test -n "$METIS_LIBS"])
# Check for ParMETIS note we can have both as ParMETIS uses METIS.
have_parmetis="no"
AC_ARG_WITH([parmetis],
[AS_HELP_STRING([--with-parmetis=PATH],
[root directory where ParMETIS is installed @<:@yes/no@:>@]
)],
[with_parmetis="$withval"],
[with_parmetis="no"]
)
if test "x$with_parmetis" != "xno"; then
# Check if we have ParMETIS.
if test "x$with_parmetis" != "xyes" -a "x$with_parmetis" != "x"; then
PARMETIS_LIBS="-L$with_parmetis/lib -lparmetis"
PARMETIS_INCS="-I$with_parmetis/include"
else
PARMETIS_LIBS="-lparmetis"
PARMETIS_INCS=""
fi
AC_CHECK_LIB([parmetis],[ParMETIS_V3_RefineKway], [have_parmetis="yes"],
[have_parmetis="no"], $PARMETIS_LIBS)
if test "$have_parmetis" == "no"; then
# A build may use an external METIS library, check for that.
if test "x$with_parmetis" != "xyes" -a "x$with_parmetis" != "x"; then
PARMETIS_LIBS="-L$with_parmetis/lib -lparmetis -lmetis"
PARMETIS_INCS="-I$with_parmetis/include"
else
PARMETIS_LIBS="-lparmetis -lmetis"
PARMETIS_INCS=""
fi
# Note use different function to avoid caching of first check.
AC_CHECK_LIB([parmetis],[ParMETIS_V3_PartKway], [have_parmetis="yes"],
[have_parmetis="no"], [$METIS_LIBS $PARMETIS_LIBS])
fi
if test "$have_parmetis" == "yes"; then
AC_DEFINE([HAVE_PARMETIS],1,[The ParMETIS library is present.])
else
AC_MSG_ERROR("Failed to find a ParMETIS library")
fi
fi
AC_SUBST([PARMETIS_LIBS])AC_SUBST([PARMETIS_INCS])
AM_CONDITIONAL([HAVEPARMETIS],[test -n "$PARMETIS_LIBS"])
# METIS fixed width integer printing can require this, so define. Only needed
# for some non C99 compilers, i.e. C++ pre C++11.
AH_VERBATIM([__STDC_FORMAT_MACROS],
[/* Needed to get PRIxxx macros from stdint.h when not using C99 */
#ifndef __STDC_FORMAT_MACROS
#define __STDC_FORMAT_MACROS 1
#endif])
# Check for FFTW. We test for this in the standard directories by default,
# and only disable if using --with-fftw=no or --without-fftw. When a value
# is given FFTW must be found.
# If FFTW is found, we check whether this is the threaded version.
have_fftw="no"
AC_ARG_WITH([fftw],
[AS_HELP_STRING([--with-fftw=PATH],
[root directory where fftw is installed @<:@yes/no@:>@]
)],
[with_fftw="$withval"],
[with_fftw="test"]
)
if test "x$with_fftw" != "xno"; then
# Was FFTW's location specifically given?
if test "x$with_fftw" != "xyes" -a "x$with_fftw" != "xtest" -a "x$with_fftw" != "x"; then
FFTW_LIBS="-L$with_fftw/lib -lfftw3"
FFTW_INCS="-I$with_fftw/include"
else
FFTW_LIBS="-lfftw3"
FFTW_INCS=""
fi
# FFTW is not specified, so just check if we have it.
if test "x$with_fftw" = "xtest"; then
AC_CHECK_LIB([fftw3],[fftw_malloc],[have_fftw="yes"],[have_fftw="no"],$FFTW_LIBS)
if test "x$have_fftw" != "xno"; then
AC_DEFINE([HAVE_FFTW],1,[The FFTW library appears to be present.])
fi
# FFTW was specified, check that it was a valid location.
else
AC_CHECK_LIB([fftw3],[fftw_malloc],
AC_DEFINE([HAVE_FFTW],1,[The FFTW library appears to be present.]),
AC_MSG_ERROR(something is wrong with the FFTW library!), $FFTW_LIBS)
have_fftw="yes"
fi
# FFTW was requested not to be used.
if test "$have_fftw" = "no"; then
FFTW_LIBS=""
FFTW_INCS=""
fi
# Now, check whether we have the threaded version of FFTW
if test "x$have_fftw" = "xyes"; then
# Was FFTW's location specifically given?
if test "x$with_fftw" != "xyes" -a "x$with_fftw" != "xtest" -a "x$with_fftw" != "x"; then
FFTW_THREADED_LIBS="-L$with_fftw/lib -lfftw3_threads -lfftw3"
FFTW_THREADED_INCS="-I$with_fftw/include"
else
FFTW_THREADED_LIBS="-lfftw3_threads -lfftw3"
FFTW_THREADED_INCS=""
fi
# Verify that the library is threaded
AC_CHECK_LIB([fftw3],[fftw_init_threads],[have_threaded_fftw="yes"],
[have_threaded_fftw="no"], $FFTW_THREADED_LIBS)
# If found, update things
if test "x$have_threaded_fftw" = "xyes"; then
AC_DEFINE([HAVE_THREADED_FFTW],1,[The threaded FFTW library appears to be present.])
FFTW_LIBS=$FFTW_THREADED_LIBS
FFTW_INCS=$FFTW_THREADED_INCS
have_fftw="yes - threaded"
fi
fi
fi
AC_ARG_WITH([arm-fftw],
[AS_HELP_STRING([--with-arm-fftw=PATH],
[root directory where arm fft library is installed @<:@yes/no@:>@]
)],
[with_arm_fftw="$withval"],
[with_arm_fftw=no]
)
if test "x$with_arm_fftw" != "xno"; then
# Was FFTW's location specifically given?
if test "x$with_arm_fftw" != "xyes" -a "x$with_arm_fftw" != "xtest" -a "x$with_arm_fftw" != "x"; then
FFTW_LIBS="-L$with_arm_fftw/lib -larmpl_lp64"
FFTW_INCS="-I$with_arm_fftw/include"
else
FFTW_LIBS="-larmpl_lp64"
FFTW_INCS=""
fi
# FFTW is not specified, so just check if we have it.
if test "x$with_arm_fftw" = "xtest"; then
AC_CHECK_LIB([armpl_lp64],[fftw_malloc],[have_fftw="yes"],[have_fftw="no"],$FFTW_LIBS)
if test "x$have_arm_fftw" != "xno"; then
AC_DEFINE([HAVE_FFTW],1,[The FFTW library appears to be present.])
have_fftw="yes - ARM"
fi
# FFTW was specified, check that it was a valid location.
else
AC_CHECK_LIB([armpl_lp64],[fftw_malloc],
AC_DEFINE([HAVE_FFTW],1,[The FFTW library appears to be present.]),
AC_MSG_ERROR(something is wrong with the FFTW library!), $FFTW_LIBS)
have_fftw="yes - ARM"
fi
# FFTW was requested not to be used.
if test "$have_arm_fftw" = "no"; then
FFTW_LIBS=""
FFTW_INCS=""
fi
# Now, check whether we have the threaded version of FFTW
if test "x$have_arm_fftw" = "xyes"; then
# Was FFTW's location specifically given?
if test "x$with_arm_fftw" != "xyes" -a "x$with_arm_fftw" != "xtest" -a "x$with_arm_fftw" != "x"; then
FFTW_THREADED_LIBS="-L$with_arm_fftw/lib -larmpl_lp64_threads -larmpl_lp64"
FFTW_THREADED_INCS="-I$with_arm_fftw/include"
else
FFTW_THREADED_LIBS="-larmpl_lp64_threads -larmpl_lp64"
FFTW_THREADED_INCS=""
fi
# Verify that the library is threaded
AC_CHECK_LIB([armpl_lp64],[fftw_init_threads],[have_threaded_fftw="yes"],
[have_threaded_fftw="no"], $FFTW_THREADED_LIBS)
# If found, update things
if test "x$have_threaded_fftw" = "xyes"; then
AC_DEFINE([HAVE_THREADED_FFTW],1,[The threaded FFTW library appears to be present.])
FFTW_LIBS=$FFTW_THREADED_LIBS
FFTW_INCS=$FFTW_THREADED_INCS have_fftw="yes - ARM - threaded"
fi
fi
fi
AC_SUBST([FFTW_LIBS])
AC_SUBST([FFTW_INCS])
AM_CONDITIONAL([HAVEFFTW],[test -n "$FFTW_LIBS"])
# Check for -lprofiler usually part of the gperftools along with tcmalloc.
have_profiler="no"
AC_ARG_WITH([profiler],
[AS_HELP_STRING([--with-profiler=PATH],
[use cpu profiler library or specify the directory with lib @<:@yes/no@:>@]
)],
[with_profiler="$withval"],
[with_profiler="no"]
)
if test "x$with_profiler" != "xno"; then
if test "x$with_profiler" != "xyes" -a "x$with_profiler" != "x"; then
proflibs="-L$with_profiler -lprofiler"
else
proflibs="-lprofiler"
fi
AC_CHECK_LIB([profiler],[ProfilerFlush],
[have_profiler="yes"
AC_DEFINE([WITH_PROFILER],1,[Link against the gperftools profiling library.])],
[have_profiler="no"], $proflibs)
if test "$have_profiler" = "yes"; then
PROFILER_LIBS="$proflibs"
else
PROFILER_LIBS=""
fi
fi
AC_SUBST([PROFILER_LIBS])
AM_CONDITIONAL([HAVEPROFILER],[test -n "$PROFILER_LIBS"])
# Check for special allocators
have_special_allocator="no"
# Check for tcmalloc a fast malloc that is part of the gperftools.
have_tcmalloc="no"
AC_ARG_WITH([tcmalloc],
[AS_HELP_STRING([--with-tcmalloc=PATH],
[use tcmalloc library or specify the directory with lib @<:@yes/no@:>@]
)],
[with_tcmalloc="$withval"],
[with_tcmalloc="no"]
)
if test "x$with_tcmalloc" != "xno" -a "x$have_special_allocator" != "xno"; then
AC_MSG_ERROR("Cannot activate more than one alternative malloc library")
fi
if test "x$with_tcmalloc" != "xno"; then
if test "x$with_tcmalloc" != "xyes" -a "x$with_tcmalloc" != "x"; then
tclibs="-L$with_tcmalloc -ltcmalloc"
else
tclibs="-ltcmalloc"
fi
AC_CHECK_LIB([tcmalloc],[tc_cfree],[have_tcmalloc="yes"],[have_tcmalloc="no"],
$tclibs)
# Could just have the minimal version.
if test "$have_tcmalloc" = "no"; then
if test "x$with_tcmalloc" != "xyes" -a "x$with_tcmalloc" != "x"; then
tclibs="-L$with_tcmalloc -ltcmalloc_minimal"
else
tclibs="-ltcmalloc_minimal"
fi
AC_CHECK_LIB([tcmalloc],[tc_cfree],[have_tcmalloc="yes"],[have_tcmalloc="no"], $tclibs)
fi
if test "$have_tcmalloc" = "yes"; then
TCMALLOC_LIBS="$tclibs"
AC_DEFINE([HAVE_TCMALLOC],1,[The tcmalloc library appears to be present.])
have_special_allocator="tcmalloc"
# Prevent compilers that replace the calls with built-ins (GNU 99) from doing so.
case "$ax_cv_c_compiler_vendor" in
intel | gnu | clang)
CFLAGS="$CFLAGS -fno-builtin-malloc -fno-builtin-calloc -fno-builtin-realloc -fno-builtin-free"
;;
esac
else
TCMALLOC_LIBS=""
fi
fi
AC_SUBST([TCMALLOC_LIBS])
AM_CONDITIONAL([HAVETCMALLOC],[test -n "$TCMALLOC_LIBS"])
# Check for jemalloc another fast malloc that is good with contention.
have_jemalloc="no"
AC_ARG_WITH([jemalloc],
[AS_HELP_STRING([--with-jemalloc=PATH],
[use jemalloc library or specify the directory with lib @<:@yes/no@:>@]
)],
[with_jemalloc="$withval"],
[with_jemalloc="no"]
)
if test "x$with_jemalloc" != "xno" -a "x$have_special_allocator" != "xno"; then
AC_MSG_ERROR("Cannot activate more than one alternative malloc library")
fi
if test "x$with_jemalloc" != "xno"; then
if test "x$with_jemalloc" != "xyes" -a "x$with_jemalloc" != "x"; then
jelibs="-L$with_jemalloc -ljemalloc"
else
jelibs="-ljemalloc"
fi
AC_CHECK_LIB([jemalloc],[malloc_usable_size],[have_jemalloc="yes"],[have_jemalloc="no"],
$jelibs)
if test "$have_jemalloc" = "yes"; then
JEMALLOC_LIBS="$jelibs"
AC_DEFINE([HAVE_JEMALLOC],1,[The jemalloc library appears to be present.])
have_special_allocator="jemalloc"
# Prevent compilers that replace the regular calls with built-ins (GNU 99) from doing so.
case "$ax_cv_c_compiler_vendor" in
intel | gnu | clang)
CFLAGS="$CFLAGS -fno-builtin-malloc -fno-builtin-calloc -fno-builtin-realloc -fno-builtin-free"
;;
esac
else
JEMALLOC_LIBS=""
fi
fi
AC_SUBST([JEMALLOC_LIBS])
AM_CONDITIONAL([HAVEJEMALLOC],[test -n "$JEMALLOC_LIBS"])
# Check for tbbmalloc, Intel's fast and parallel allocator
have_tbbmalloc="no"
AC_ARG_WITH([tbbmalloc], [AS_HELP_STRING([--with-tbbmalloc=PATH],
[use tbbmalloc library or specify the directory with lib @<:@yes/no@:>@]
)],
[with_tbbmalloc="$withval"],
[with_tbbmalloc="no"]
)
if test "x$with_tbbmalloc" != "xno" -a "x$have_special_allocator" != "xno"; then
AC_MSG_ERROR("Cannot activate more than one alternative malloc library")
fi
if test "x$with_tbbmalloc" != "xno"; then
if test "x$with_tbbmalloc" != "xyes" -a "x$with_tbbmalloc" != "x"; then
tbblibs="-L$with_tbbmalloc -ltbbmalloc_proxy -ltbbmalloc"
else
tbblibs="-ltbbmalloc_proxy -ltbbmalloc"
fi
AC_CHECK_LIB([tbbmalloc],[scalable_malloc],[have_tbbmalloc="yes"],[have_tbbmalloc="no"],
$tbblibs)
if test "$have_tbbmalloc" = "yes"; then
TBBMALLOC_LIBS="$tbblibs"
AC_DEFINE([HAVE_TBBMALLOC],1,[The TBBmalloc library appears to be present.])
have_special_allocator="TBBmalloc"
# Prevent compilers that replace the calls with built-ins (GNU 99) from doing so.
case "$ax_cv_c_compiler_vendor" in
intel | gnu | clang)
CFLAGS="$CFLAGS -fno-builtin-malloc -fno-builtin-calloc -fno-builtin-realloc -fno-builtin-free"
;;
esac
else
TBBMALLOC_LIBS=""
fi
fi
AC_SUBST([TBBMALLOC_LIBS])
AM_CONDITIONAL([HAVETBBMALLOC],[test -n "$TBBMALLOC_LIBS"])
# check for a random seed
AC_ARG_WITH([random-seed],
[AS_HELP_STRING([--with-random-seed=SHORT INT],
[Set the random seed.]
)],
[with_random_seed="$withval"],
[with_random_seed="0"]
)
AC_DEFINE_UNQUOTED([SWIFT_RANDOM_SEED_XOR], [$with_random_seed],[Value of the random seed.])
# Check for python.
have_python="no"
AC_ARG_WITH([python],
[AS_HELP_STRING([--with-python=PATH],
[root directory where python is installed @<:@yes/no@:>@]
)],
[with_python="$withval"],
[with_python="no"]
)
if test "x$with_python" != "xno"; then
if test "$with_python" == ""; then
# use linux default python
with_python="/usr/"
fi
AM_PATH_PYTHON([3], [], [AC_MSG_ERROR(python not found)])
AC_ARG_VAR([PYTHON_INCS], [Include flags for python, bypassing python-config])
AC_ARG_VAR([PYTHON_CONFIG], [Path to python-config])
AS_IF([test -z "$PYTHON_INCS"], [
AS_IF([test -z "$PYTHON_CONFIG"], [
AC_PATH_PROGS([PYTHON_CONFIG], [python$PYTHON_VERSION-config python-config],
[no],
[`dirname $PYTHON`])
AS_IF([test "$PYTHON_CONFIG" = no], [AC_MSG_ERROR([cannot find python-config for $PYTHON.])])
])
AC_MSG_CHECKING([python include flags])
PYTHON_INCS=`$PYTHON_CONFIG --includes`
AC_MSG_RESULT([$PYTHON_INCS])
])
have_python="yes"
fi
AC_SUBST([PYTHON_INCS])
AM_CONDITIONAL([HAVEPYTHON],[test -n "$PYTHON_INCS"])
# Check for HDF5. This is required.
AX_LIB_HDF5
if test "$with_hdf5" != "yes"; then
AC_MSG_ERROR([Could not find a working HDF5 library])
fi
# We want to know if this HDF5 supports MPI and whether we should use it.
# The default is to use MPI support if it is available, i.e. this is
# a parallel HDF5.
have_parallel_hdf5="no"
if test "$with_hdf5" = "yes"; then
AC_ARG_ENABLE([parallel-hdf5],
[AS_HELP_STRING([--enable-parallel-hdf5],
[Enable parallel HDF5 library MPI functions if available. @<:@yes/no@:>@]
)],
[enable_parallel_hdf5="$enableval"],
[enable_parallel_hdf5="yes"]
)
if test "$enable_parallel_hdf5" = "yes"; then
AC_MSG_CHECKING([for HDF5 parallel support])
# Check if the library is capable, the header should define H5_HAVE_PARALLEL.
old_CPPFLAGS="$CPPFLAGS"
CPPFLAGS="$CPPFLAGS $HDF5_CPPFLAGS"
AC_COMPILE_IFELSE([AC_LANG_SOURCE([[
#include "hdf5.h"
#ifndef H5_HAVE_PARALLEL
# error macro not defined
#endif
]])], [parallel="yes"], [parallel="no"])
if test "$parallel" = "yes"; then
have_parallel_hdf5="yes"
AC_DEFINE([HAVE_PARALLEL_HDF5],1,[HDF5 library supports parallel access])
fi
AC_MSG_RESULT($parallel)
CPPFLAGS="$old_CPPFLAGS"
fi
fi
AM_CONDITIONAL([HAVEPARALLELHDF5],[test "$have_parallel_hdf5" = "yes"])
# Check for grackle.
have_grackle="no"
AC_ARG_WITH([grackle],
[AS_HELP_STRING([--with-grackle=PATH],
[root directory where grackle is installed @<:@yes/no@:>@]
)],
[with_grackle="$withval"],
[with_grackle="no"]
)
if test "x$with_grackle" != "xno"; then
AC_PROG_FC
AC_FC_LIBRARY_LDFLAGS
if test "x$with_grackle" != "xyes" -a "x$with_grackle" != "x"; then
GRACKLE_LIBS="-L$with_grackle/lib -lgrackle" GRACKLE_INCS="-I$with_grackle/include"
else
GRACKLE_LIBS="-lgrackle"
GRACKLE_INCS=""
fi
have_grackle="yes"
echo $GRACKLE_LIBS
AC_CHECK_LIB(
[grackle],
[initialize_chemistry_data],
[AC_DEFINE([HAVE_GRACKLE],1,[The GRACKLE library appears to be present.])
AC_DEFINE([CONFIG_BFLOAT_8],1,[Use doubles in grackle])
],
[AC_MSG_ERROR(Cannot find grackle library!)],
[$GRACKLE_LIBS])
fi
AC_SUBST([GRACKLE_LIBS])
AC_SUBST([GRACKLE_INCS])
AM_CONDITIONAL([HAVEGRACKLE],[test -n "$GRACKLE_LIBS"])
# Check for VELOCIraptor.
have_velociraptor="no"
AC_ARG_WITH([velociraptor],
[AS_HELP_STRING([--with-velociraptor=PATH],
[Directory where velociraptor library exists @<:@yes/no@:>@]
)],
[with_velociraptor="$withval"],
[with_velociraptor="no"]
)
if test "x$with_velociraptor" != "xno"; then
AC_PROG_FC
AC_FC_LIBRARY_LDFLAGS
if test "x$with_velociraptor" != "xyes" -a "x$with_velociraptor" != "x"; then
VELOCIRAPTOR_LIBS="-L$with_velociraptor -lvelociraptor -lmpi -lstdc++ -lhdf5"
CFLAGS="$CFLAGS -fopenmp"
else
VELOCIRAPTOR_LIBS=""
fi
have_velociraptor="yes"
AC_CHECK_LIB(
[velociraptor],
[InitVelociraptor],
[AC_DEFINE([HAVE_VELOCIRAPTOR],1,[The VELOCIraptor library appears to be present.])],
[AC_MSG_ERROR(Cannot find VELOCIraptor library at $with_velociraptor or incompatible HDF5 library loaded.)],
[$VELOCIRAPTOR_LIBS $HDF5_LDFLAGS $HDF5_LIBS $GSL_LIBS]
)
fi
AC_SUBST([VELOCIRAPTOR_LIBS])
AM_CONDITIONAL([HAVEVELOCIRAPTOR],[test -n "$VELOCIRAPTOR_LIBS"])
# Now that we found VELOCIraptor, let's check how it was compiled.
if test "$have_velociraptor" == "yes"; then
AC_CHECK_LIB(
[velociraptor],
[VR_NOMASS],
[AC_DEFINE([HAVE_VELOCIRAPTOR_WITH_NOMASS],1,[The VELOCIraptor library has been compiled with the NOMASS option. Only useful if running a uniform box.])],
[AC_MSG_RESULT(VELOCIraptor not compiled to so as to *not* store masses per particle.)],
[$VELOCIRAPTOR_LIBS $HDF5_LDFLAGS $HDF5_LIBS $GSL_LIBS]
)
fi
# Check for dummy VELOCIraptor.
AC_ARG_ENABLE([dummy-velociraptor],
[AS_HELP_STRING([--enable-dummy-velociraptor],
[Enable dummy velociraptor compilation @<:@yes/no@:>@] )],
[enable_dummy_velociraptor="$enableval"],
[enable_dummy_velociraptor="no"]
)
if test "$enable_dummy_velociraptor" = "yes"; then
have_velociraptor="yes"
AC_DEFINE(HAVE_VELOCIRAPTOR,1,[The VELOCIraptor library appears to be present.])
AC_DEFINE(HAVE_DUMMY_VELOCIRAPTOR,1,[The dummy VELOCIraptor library is present.])
fi
# Check for floating-point execeptions
AC_CHECK_FUNC(feenableexcept, AC_DEFINE([HAVE_FE_ENABLE_EXCEPT],[1],
[Defined if the floating-point exception can be enabled using non-standard GNU functions.]))
# Check for setaffinity.
AC_CHECK_FUNC(pthread_setaffinity_np, AC_DEFINE([HAVE_SETAFFINITY],[1],
[Defined if pthread_setaffinity_np exists.]) )
AM_CONDITIONAL(HAVESETAFFINITY,
[test "$ac_cv_func_pthread_setaffinity_np" = "yes"])
# If available check for NUMA as well. There is a problem with the headers of
# this library, mainly that they do not pass the strict prototypes check when
# installed outside of the system directories. So we actually do this check
# in two phases. The basic ones first (before strict-prototypes is added to CFLAGS).
have_numa="no"
AC_ARG_WITH([numa],
[AS_HELP_STRING([--with-numa=PATH],
[Directory where the NUMA library exists @<:@yes/no@:>@]
)],
[with_numa="$withval"],
[with_numa="yes"]
)
if test "$ac_cv_func_pthread_setaffinity_np" = "yes" -a "x$with_numa" != "xno"; then
if test "x$with_numa" != "xyes" -a "x$with_numa" != "x"; then
NUMA_LIBS="-L$with_numa/lib -lnuma"
NUMA_INCS="-I$with_numa/include"
else
NUMA_LIBS="-lnuma"
NUMA_INCS=""
fi
# Test for header file.
old_CPPFLAGS="$CPPFLAGS"
CPPFLAGS="$CPPFLAGS $NUMA_INCS"
AC_CHECK_HEADER([numa.h])
CPPFLAGS="$old_CPPFLAGS"
if test "$ac_cv_header_numa_h" = "yes"; then
# If NUMA location is specified check if we have it.
if test "x$with_numa" != "xyes" -a "x$with_numa" != "x"; then
AC_CHECK_LIB([numa],[numa_available],
AC_DEFINE([HAVE_LIBNUMA],1,[The NUMA library appears to be present.]),
AC_MSG_ERROR(something is wrong with the NUMA library!), $NUMA_LIBS)
have_numa="yes"
else
AC_CHECK_LIB([numa],[numa_available],[have_numa="yes"],[have_numa="no"],$NUMA_LIBS)
if test "x$have_numa" != "xno"; then
AC_DEFINE([HAVE_LIBNUMA],1,[The NUMA library appears to be present.])
fi
fi
fi
# We can live without this.
if test "$have_numa" = "no"; then
NUMA_LIBS=""
fi
fiAC_SUBST([NUMA_LIBS])
# Check for Intel and PowerPC intrinsics header optionally used by vector.h.
AC_CHECK_HEADERS([immintrin.h], [], [],
[#ifdef HAVE_IMMINTRIN_H
# include <immintrin.h>
#endif
])
AC_CHECK_HEADERS([altivec.h], [], [],
[#ifdef HAVE_ALTIVEC_H
# include <altivec.h>
#endif
])
# Check for timing functions needed by cycle.h.
AC_HEADER_TIME
AC_CHECK_HEADERS([sys/time.h c_asm.h intrinsics.h mach/mach_time.h])
AC_CHECK_TYPE([hrtime_t],[AC_DEFINE(HAVE_HRTIME_T, 1, [Define to 1 if hrtime_t
is defined in <sys/time.h>])],,
[#if HAVE_SYS_TIME_H
#include <sys/time.h>
#endif])
AC_CHECK_FUNCS([gethrtime read_real_time time_base_to_time clock_gettime mach_absolute_time])
AC_MSG_CHECKING([for _rtc intrinsic])
rtc_ok=yes
AC_LINK_IFELSE([AC_LANG_PROGRAM(
[[#ifdef HAVE_INTRINSICS_H
#include <intrinsics.h>
#endif]],
[[_rtc()]])],
[AC_DEFINE(HAVE__RTC,1,[Define if you have the UNICOS _rtc() intrinsic.])],[rtc_ok=no])
AC_MSG_RESULT($rtc_ok)
# Special timers for the ARM v7 platforms (taken from FFTW-3 to match their cycle.h)
AC_ARG_ENABLE(armv7a-cntvct, [AC_HELP_STRING([--enable-armv7a-cntvct],[enable the cycle counter on Armv7a via the CNTVCT register])], have_armv7acntvct=$enableval)
if test "$have_armv7acntvct"x = "yes"x; then
AC_DEFINE(HAVE_ARMV7A_CNTVCT,1,[Define if you have enabled the CNTVCT cycle counter on ARMv7a])
fi
AC_ARG_ENABLE(armv7a-pmccntr, [AC_HELP_STRING([--enable-armv7a-pmccntr],[enable the cycle counter on Armv7a via the PMCCNTR register])], have_armv7apmccntr=$enableval)
if test "$have_armv7apmccntr"x = "yes"x; then
AC_DEFINE(HAVE_ARMV7A_PMCCNTR,1,[Define if you have enabled the PMCCNTR cycle counter on ARMv7a])
fi
# Check if we have native exp10 and exp10f functions. If not failback to our
# implementations. On Apple/CLANG we have __exp10, so also check for that
# if the compiler is clang.
AC_CHECK_LIB([m],[exp10], [AC_DEFINE([HAVE_EXP10],1,[The exp10 function is present.])])
AC_CHECK_LIB([m],[exp10f], [AC_DEFINE([HAVE_EXP10F],1,[The exp10f function is present.])])
if test "$ax_cv_c_compiler_vendor" = "clang"; then
AC_CHECK_LIB([m],[__exp10], [AC_DEFINE([HAVE___EXP10],1,[The __exp10 function is present.])])
AC_CHECK_LIB([m],[__exp10f], [AC_DEFINE([HAVE___EXP10F],1,[The __exp10f function is present.])])
fi
# Check if we have native sincos and sincosf functions. If not failback to our
# implementations. On Apple/CLANG we have __sincos, so also check for that
# if the compiler is clang.
AC_CHECK_LIB([m],[sincos], [AC_DEFINE([HAVE_SINCOS],1,[The sincos function is present.])])
AC_CHECK_LIB([m],[sincosf], [AC_DEFINE([HAVE_SINCOSF],1,[The sincosf function is present.])])
if test "$ax_cv_c_compiler_vendor" = "clang"; then
AC_CHECK_LIB([m],[__sincos], [AC_DEFINE([HAVE___SINCOS],1,[The __sincos function is present.])])
AC_CHECK_LIB([m],[__sincosf], [AC_DEFINE([HAVE___SINCOSF],1,[The __sincosf function is present.])])
fi
# Add warning flags by default, if these can be used. Option =error adds
# -Werror to GCC, clang and Intel. Note do this last as compiler tests may
# become errors, if that's an issue don't use CFLAGS for these, use an AC_SUBST().
AC_ARG_ENABLE([compiler-warnings],
[AS_HELP_STRING([--enable-compiler-warnings], [Enable compile time warning flags, if compiler is known @<:@error/no/yes)@:>@]
)],
[enable_warn="$enableval"],
[enable_warn="error"]
)
if test "$enable_warn" != "no"; then
# AX_CFLAGS_WARN_ALL does not give good warning flags for the Intel compiler
# We will do this by hand instead and only default to the macro for unknown compilers
case "$ax_cv_c_compiler_vendor" in
gnu | clang)
CFLAGS="$CFLAGS -Wall -Wextra -Wno-unused-parameter -Wshadow"
;;
intel)
CFLAGS="$CFLAGS -w2 -Wunused-variable -Wshadow"
;;
*)
AX_CFLAGS_WARN_ALL
;;
esac
# Add a "choke on warning" flag if it exists
if test "$enable_warn" = "error"; then
case "$ax_cv_c_compiler_vendor" in
intel | gnu | clang)
CFLAGS="$CFLAGS -Werror"
;;
esac
fi
# We want strict-prototypes, but this must still work even if warnings
# are an error.
AX_CHECK_COMPILE_FLAG([-Wstrict-prototypes],[CFLAGS="$CFLAGS -Wstrict-prototypes"],
[CFLAGS="$CFLAGS"],[$CFLAGS],[AC_LANG_SOURCE([int main(void){return 0;}])])
fi
# Second part of the NUMA library checks. We now decide if we need to use
# -isystem to get around the strict-prototypes problem. Assumes isystem
# is available when strict-prototypes is.
if test "$have_numa" != "no"; then
if test "x$with_numa" != "xyes" -a "x$with_numa" != "x"; then
case "$CFLAGS" in
*strict-prototypes*)
NUMA_INCS="-isystem$with_numa/include"
# This may still fail if CPATH is used, so we check if the
# headers are usable.
AS_UNSET(ac_cv_header_numa_h)
old_CPPFLAGS="$CPPFLAGS"
CPPFLAGS="$CPPFLAGS $NUMA_INCS"
numa_failed="no"
AC_CHECK_HEADER([numa.h],[numa_failed="no"],
[numa_failed="yes"])
if test "$numa_failed" = "yes"; then
AC_MSG_ERROR([Failed to compile the numa.h header file: you may need to set --enable-compiler-warnings to yes or no])
fi
CPPFLAGS="$old_CPPFLAGS"
;;
*)
NUMA_INCS="-I$with_numa/include"
;;
esac
fi
fi
AC_SUBST([NUMA_INCS])
# Various package configuration options.
# Master subgrid options
# If you add a restriction (e.g. no cooling, chemistry or hydro)
# you will need to check for overwrite after reading the additional options.# As an example for this, see the call to AC_ARG_WITH for cooling.
AC_ARG_WITH([subgrid],
[AS_HELP_STRING([--with-subgrid=<subgrid>],
[Master switch for subgrid methods. Inexperienced user should start here. Options are: @<:@none, GEAR, QLA, EAGLE default: none@:>@]
)],
[with_subgrid="$withval"],
[with_subgrid=none]
)
# Default values
with_subgrid_cooling=none
with_subgrid_chemistry=none
with_subgrid_tracers=none
with_subgrid_entropy_floor=none
with_subgrid_pressure_floor=none
with_subgrid_stars=none
with_subgrid_star_formation=none
with_subgrid_feedback=none
with_subgrid_task_order=default
with_subgrid_sink=none
case "$with_subgrid" in
yes)
AC_MSG_ERROR([Invalid option. A subgrid model must be chosen.])
;;
none)
;;
GEAR)
with_subgrid_cooling=grackle_0
with_subgrid_chemistry=GEAR_10
with_subgrid_pressure_floor=GEAR
with_subgrid_stars=GEAR
with_subgrid_star_formation=GEAR
with_subgrid_feedback=GEAR
with_subgrid_black_holes=none
with_subgrid_task_order=GEAR
with_subgrid_sink=none
enable_fof=no
;;
QLA)
with_subgrid_cooling=QLA
with_subgrid_chemistry=QLA
with_subgrid_tracers=none
with_subgrid_entropy_floor=QLA
with_subgrid_stars=none
with_subgrid_star_formation=QLA
with_subgrid_feedback=none
with_subgrid_black_holes=none
with_subgrid_task_order=default
with_subgrid_sink=none
enable_fof=no
;;
EAGLE)
with_subgrid_cooling=EAGLE
with_subgrid_chemistry=EAGLE
with_subgrid_tracers=EAGLE
with_subgrid_entropy_floor=EAGLE
with_subgrid_stars=EAGLE
with_subgrid_star_formation=EAGLE
with_subgrid_feedback=EAGLE
with_subgrid_black_holes=EAGLE
with_subgrid_task_order=EAGLE
with_subgrid_sink=none
enable_fof=yes
;;
*)
AC_MSG_ERROR([Unknown subgrid choice: $with_subgrid])
;;
esac
# Check if FoF is on.
AC_ARG_ENABLE([fof],
[AS_HELP_STRING([--enable-fof],
[Activate the friends-of-friends (FoF) code.],
)],
[enable_fof="$enableval"],
[enable_fof="no"]
)
if test "$enable_fof" = "yes"; then
AC_DEFINE([WITH_FOF], 1, [Enable FoF])
fi
# Check if stand-alone FoF is on.
AC_ARG_ENABLE([stand-alone-fof],
[AS_HELP_STRING([--enable-stand-alone-fof],
[Activate the compilation of the stand-alone friends-of-friends (FoF) post-processing tool.],
)],
[enable_standalone_fof="$enableval"],
[enable_standalone_fof="no"]
)
if test "$enable_standalone_fof" = "yes"; then
enable_fof="yes + stand-alone tool"
AC_DEFINE([WITH_FOF], 1, [Enable FoF])
AC_DEFINE([WITH_STAND_ALONE_FOF], 1, [Enable stand-alone FoF])
fi
AM_CONDITIONAL([HAVESTANDALONEFOF],[test $enable_standalone_fof = "yes"])
# Gravity scheme.
AC_ARG_WITH([gravity],
[AS_HELP_STRING([--with-gravity=<scheme>],
[Gravity scheme to use @<:@basic, with-potential, with-multi-softening default: with-multi-softening@:>@]
)],
[with_gravity="$withval"],
[with_gravity="with-multi-softening"]
)
case "$with_gravity" in
with-potential)
AC_DEFINE([POTENTIAL_GRAVITY], [1], [Basic gravity scheme with potential calculation])
;;
with-multi-softening)
AC_DEFINE([MULTI_SOFTENING_GRAVITY], [1], [Gravity scheme with per-particle type softening value and background particles])
;;
basic)
AC_DEFINE([DEFAULT_GRAVITY], [1], [Basic gravity scheme])
;;
*)
AC_MSG_ERROR([Unknown gravity scheme: $with_gravity])
;;
esac
# Hydro scheme.
AC_ARG_WITH([hydro],
[AS_HELP_STRING([--with-hydro=<scheme>],
[Hydro dynamics to use @<:@gadget2, minimal, pressure-entropy, pressure-energy, pressure-energy-monaghan, default, gizmo-mfv, gizmo-mfm, shadowfax, planetary, anarchy-du, anarchy-pu default: gadget2@:>@]
)],
[with_hydro="$withval"],
[with_hydro="gadget2"]
)
case "$with_hydro" in
gadget2)
AC_DEFINE([GADGET2_SPH], [1], [Gadget-2 SPH])
;;
minimal)
AC_DEFINE([MINIMAL_SPH], [1], [Minimal SPH])
;;
pressure-entropy)
AC_DEFINE([HOPKINS_PE_SPH], [1], [Pressure-Entropy SPH])
;; pressure-energy)
AC_DEFINE([HOPKINS_PU_SPH], [1], [Pressure-Energy SPH])
;;
pressure-energy-monaghan)
AC_DEFINE([HOPKINS_PU_SPH_MONAGHAN], [1], [Pressure-Energy SPH with M&M Variable A.V.])
;;
default)
AC_DEFINE([DEFAULT_SPH], [1], [Default SPH])
;;
gizmo-mfv)
AC_DEFINE([GIZMO_MFV_SPH], [1], [GIZMO MFV SPH])
;;
gizmo-mfm)
AC_DEFINE([GIZMO_MFM_SPH], [1], [GIZMO MFM SPH])
;;
shadowfax)
AC_DEFINE([SHADOWFAX_SPH], [1], [Shadowfax SPH])
;;
planetary)
AC_DEFINE([PLANETARY_SPH], [1], [Planetary SPH])
;;
sphenix)
AC_DEFINE([SPHENIX_SPH], [1], [SPHENIX SPH])
;;
anarchy-du)
AC_DEFINE([SPHENIX_SPH], [1], [SPHENIX SPH])
;;
anarchy-pu)
AC_DEFINE([ANARCHY_PU_SPH], [1], [ANARCHY (PU) SPH])
;;
*)
AC_MSG_ERROR([Unknown hydrodynamics scheme: $with_hydro])
;;
esac
# Check if debugging interactions stars is switched on.
AC_ARG_ENABLE([debug-interactions-stars],
[AS_HELP_STRING([--enable-debug-interactions-stars],
[Activate interaction debugging for stars, logging a maximum of @<:@N@:>@ neighbours. Defaults to 256 if no value set.]
)],
[enable_debug_interactions_stars="$enableval"],
[enable_debug_interactions_stars="no"]
)
if test "$enable_debug_interactions_stars" != "no"; then
AC_DEFINE([DEBUG_INTERACTIONS_STARS],1,[Enable interaction debugging for stars])
if test "$enable_debug_interactions_stars" == "yes"; then
AC_DEFINE([MAX_NUM_OF_NEIGHBOURS_STARS],256,[The maximum number of particle neighbours to be logged for stars])
[enable_debug_interactions_stars="yes (Logging up to 256 neighbours)"]
else
AC_DEFINE_UNQUOTED([MAX_NUM_OF_NEIGHBOURS_STARS], [$enableval] ,[The maximum number of particle neighbours to be logged for stars])
[enable_debug_interactions_stars="yes (Logging up to $enableval neighbours)"]
fi
fi
# Check if debugging interactions is switched on.
AC_ARG_ENABLE([debug-interactions],
[AS_HELP_STRING([--enable-debug-interactions],
[Activate interaction debugging, logging a maximum of @<:@N@:>@ neighbours. Defaults to 256 if no value set.]
)],
[enable_debug_interactions="$enableval"],
[enable_debug_interactions="no"]
)
if test "$enable_debug_interactions" != "no"; then
if test "$with_hydro" = "gadget2"; then
AC_DEFINE([DEBUG_INTERACTIONS_SPH],1,[Enable interaction debugging])
if test "$enable_debug_interactions" == "yes"; then
AC_DEFINE([MAX_NUM_OF_NEIGHBOURS],256,[The maximum number of particle neighbours to be logged])
[enable_debug_interactions="yes (Logging up to 256 neighbours)"] else
AC_DEFINE_UNQUOTED([MAX_NUM_OF_NEIGHBOURS], [$enableval] ,[The maximum number of particle neighbours to be logged])
[enable_debug_interactions="yes (Logging up to $enableval neighbours)"]
fi
else
[enable_debug_interactions="no (only available for gadget2 hydro scheme)"]
fi
fi
# SPH Kernel function
AC_ARG_WITH([kernel],
[AS_HELP_STRING([--with-kernel=<kernel>],
[Kernel function to use @<:@cubic-spline, quartic-spline, quintic-spline, wendland-C2, wendland-C4, wendland-C6 default: cubic-spline@:>@]
)],
[with_kernel="$withval"],
[with_kernel="cubic-spline"]
)
case "$with_kernel" in
cubic-spline)
AC_DEFINE([CUBIC_SPLINE_KERNEL], [1], [Cubic spline kernel])
;;
quartic-spline)
AC_DEFINE([QUARTIC_SPLINE_KERNEL], [1], [Quartic spline kernel])
;;
quintic-spline)
AC_DEFINE([QUINTIC_SPLINE_KERNEL], [1], [Quintic spline kernel])
;;
wendland-C2)
AC_DEFINE([WENDLAND_C2_KERNEL], [1], [Wendland-C2 kernel])
;;
wendland-C4)
AC_DEFINE([WENDLAND_C4_KERNEL], [1], [Wendland-C4 kernel])
;;
wendland-C6)
AC_DEFINE([WENDLAND_C6_KERNEL], [1], [Wendland-C6 kernel])
;;
*)
AC_MSG_ERROR([Unknown kernel function: $with_kernel])
;;
esac
# Dimensionality of the hydro scheme.
AC_ARG_WITH([hydro-dimension],
[AS_HELP_STRING([--with-hydro-dimension=<dim>],
[dimensionality of problem @<:@3/2/1 default: 3@:>@]
)],
[with_dimension="$withval"],
[with_dimension="3"]
)
case "$with_dimension" in
1)
AC_DEFINE([HYDRO_DIMENSION_1D], [1], [1D solver])
;;
2)
AC_DEFINE([HYDRO_DIMENSION_2D], [2], [2D solver])
;;
3)
AC_DEFINE([HYDRO_DIMENSION_3D], [3], [3D solver])
;;
*)
AC_MSG_ERROR([Dimensionality must be 1, 2 or 3])
;;
esac
# Equation of state
AC_ARG_WITH([equation-of-state],
[AS_HELP_STRING([--with-equation-of-state=<EoS>],
[equation of state @<:@ideal-gas, isothermal-gas, planetary default: ideal-gas@:>@]
)], [with_eos="$withval"],
[with_eos="ideal-gas"]
)
case "$with_eos" in
ideal-gas)
AC_DEFINE([EOS_IDEAL_GAS], [1], [Ideal gas equation of state])
;;
isothermal-gas)
AC_DEFINE([EOS_ISOTHERMAL_GAS], [1], [Isothermal gas equation of state])
;;
planetary)
AC_DEFINE([EOS_PLANETARY], [1], [All planetary equations of state])
;;
*)
AC_MSG_ERROR([Unknown equation of state: $with_eos])
;;
esac
# Adiabatic index
AC_ARG_WITH([adiabatic-index],
[AS_HELP_STRING([--with-adiabatic-index=<gamma>],
[adiabatic index @<:@5/3, 7/5, 4/3, 2 default: 5/3@:>@]
)],
[with_gamma="$withval"],
[with_gamma="5/3"]
)
case "$with_gamma" in
5/3)
AC_DEFINE([HYDRO_GAMMA_5_3], [5./3.], [Adiabatic index is 5/3])
;;
7/5)
AC_DEFINE([HYDRO_GAMMA_7_5], [7./5.], [Adiabatic index is 7/5])
;;
4/3)
AC_DEFINE([HYDRO_GAMMA_4_3], [4./3.], [Adiabatic index is 4/3])
;;
2)
AC_DEFINE([HYDRO_GAMMA_2_1], [2.], [Adiabatic index is 2])
;;
*)
AC_MSG_ERROR([Unknown adiabatic index: $with_gamma])
;;
esac
# Riemann solver
AC_ARG_WITH([riemann-solver],
[AS_HELP_STRING([--with-riemann-solver=<solver>],
[riemann solver (gizmo-sph only) @<:@none, exact, trrs, hllc, default: none@:>@]
)],
[with_riemann="$withval"],
[with_riemann="none"]
)
case "$with_riemann" in
none)
AC_DEFINE([RIEMANN_SOLVER_NONE], [1], [No Riemann solver])
;;
exact)
AC_DEFINE([RIEMANN_SOLVER_EXACT], [1], [Exact Riemann solver])
;;
trrs)
AC_DEFINE([RIEMANN_SOLVER_TRRS], [1], [Two Rarefaction Riemann Solver])
;;
hllc)
AC_DEFINE([RIEMANN_SOLVER_HLLC], [1], [Harten-Lax-van Leer-Contact Riemann solver])
;;
*)
AC_MSG_ERROR([Unknown Riemann solver: $with_riemann])
;;
esac
# Cooling functionAC_ARG_WITH([cooling],
[AS_HELP_STRING([--with-cooling=<function>],
[cooling function @<:@none, const-du, const-lambda, QLA, EAGLE, grackle_* default: none@:>@.
For Grackle, you need to provide the primordial chemistry parameter (e.g. grackle_0)]
)],
[with_cooling="$withval"],
[with_cooling="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_cooling" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-cooling together])
else
with_cooling="$with_subgrid_cooling"
fi
fi
case "$with_cooling" in
none)
AC_DEFINE([COOLING_NONE], [1], [No cooling function])
;;
const-du)
AC_DEFINE([COOLING_CONST_DU], [1], [Const du/dt cooling function])
;;
const-lambda)
AC_DEFINE([COOLING_CONST_LAMBDA], [1], [Const Lambda cooling function])
;;
compton)
AC_DEFINE([COOLING_COMPTON], [1], [Compton cooling off the CMB])
;;
grackle_*)
AC_DEFINE([COOLING_GRACKLE], [1], [Cooling via the grackle library])
primordial_chemistry=${with_cooling:8}
AC_DEFINE_UNQUOTED([COOLING_GRACKLE_MODE], [$primordial_chemistry], [Grackle chemistry network])
;;
QLA)
AC_DEFINE([COOLING_QLA], [1], [Cooling following the Quick-Lyman-alpha model])
;;
EAGLE)
AC_DEFINE([COOLING_EAGLE], [1], [Cooling following the EAGLE model])
;;
*)
AC_MSG_ERROR([Unknown cooling function: $with_cooling])
;;
esac
# chemistry function
AC_ARG_WITH([chemistry],
[AS_HELP_STRING([--with-chemistry=<function>],
[chemistry function @<:@none, GEAR_*, QLA, EAGLE default: none@:>@
For GEAR, you need to provide the number of elements (e.g. GEAR_10)]
)],
[with_chemistry="$withval"],
[with_chemistry="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_chemistry" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-chemistry together])
else
with_chemistry="$with_subgrid_chemistry"
fi
fi
case "$with_chemistry" in
none)
AC_DEFINE([CHEMISTRY_NONE], [1], [No chemistry function])
;;
GEAR_*)
AC_DEFINE([CHEMISTRY_GEAR], [1], [Chemistry taken from the GEAR model]) number_element=${with_chemistry:5}
AC_DEFINE_UNQUOTED([GEAR_CHEMISTRY_ELEMENT_COUNT], [$number_element], [Number of element to follow])
;;
QLA)
AC_DEFINE([CHEMISTRY_QLA], [1], [Chemistry taken from the Quick-Lyman-alpha model])
;;
EAGLE)
AC_DEFINE([CHEMISTRY_EAGLE], [1], [Chemistry taken from the EAGLE model])
;;
*)
AC_MSG_ERROR([Unknown chemistry function: $with_chemistry])
;;
esac
if test "$with_chemistry" != "none"; then
if test "$enable_hand_vec" == "yes"; then
if test "$enable_vec" == "yes"; then
if test "$with_hydro" == "gadget2"; then
AC_MSG_ERROR([Cannot run with hand vectorisation and chemistry yet. Please use --disable-hand-vec])
fi
fi
fi
fi
# Particle tracers
AC_ARG_WITH([tracers],
[AS_HELP_STRING([--with-tracers=<function>],
[chemistry function @<:@none, EAGLE default: none@:>@]
)],
[with_tracers="$withval"],
[with_tracers="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_tracers" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-tracers together])
else
with_tracers="$with_subgrid_tracers"
fi
fi
case "$with_tracers" in
none)
AC_DEFINE([TRACERS_NONE], [1], [No tracers function])
;;
EAGLE)
AC_DEFINE([TRACERS_EAGLE], [1], [Tracers taken from the EAGLE model])
;;
*)
AC_MSG_ERROR([Unknown tracers choice: $with_tracers])
;;
esac
# Stellar model.
AC_ARG_WITH([stars],
[AS_HELP_STRING([--with-stars=<model>],
[Stellar model to use @<:@none, EAGLE, GEAR, debug default: none@:>@]
)],
[with_stars="$withval"],
[with_stars="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_stars" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-stars together])
else
with_stars="$with_subgrid_stars"
fi
fi
case "$with_stars" in
EAGLE)
AC_DEFINE([STARS_EAGLE], [1], [EAGLE stellar model])
;;
GEAR)
AC_DEFINE([STARS_GEAR], [1], [GEAR stellar model])
;;
none)
AC_DEFINE([STARS_NONE], [1], [Basic stellar model])
;;
*)
AC_MSG_ERROR([Unknown stellar model: $with_stars])
;;
esac
# Feedback model
AC_ARG_WITH([feedback],
[AS_HELP_STRING([--with-feedback=<model>],
[Feedback model to use @<:@none, EAGLE, GEAR default: none@:>@]
)],
[with_feedback="$withval"],
[with_feedback="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_feedback" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-feedback together])
else
with_feedback="$with_subgrid_feedback"
fi
fi
case "$with_feedback" in
EAGLE)
AC_DEFINE([FEEDBACK_EAGLE], [1], [EAGLE stellar feedback and evolution model])
;;
GEAR)
AC_DEFINE([FEEDBACK_GEAR], [1], [GEAR stellar feedback and evolution model])
;;
none)
AC_DEFINE([FEEDBACK_NONE], [1], [No feedback])
;;
*)
AC_MSG_ERROR([Unknown feedback model: $with_feedback])
;;
esac
# Black hole model.
AC_ARG_WITH([black-holes],
[AS_HELP_STRING([--with-black-holes=<model>],
[Black holes model to use @<:@none, EAGLE default: none@:>@]
)],
[with_black_holes="$withval"],
[with_black_holes="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_black_holes" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-black-holes together])
else
with_black_holes="$with_subgrid_black_holes"
fi
fi
case "$with_black_holes" in
none)
AC_DEFINE([BLACK_HOLES_NONE], [1], [No black hole model])
;; EAGLE)
AC_DEFINE([BLACK_HOLES_EAGLE], [1], [EAGLE black hole model])
;;
*)
AC_MSG_ERROR([Unknown black-hole model: $with_black_holes])
;;
esac
# Sink model.
AC_ARG_WITH([sink],
[AS_HELP_STRING([--with-sink=<model>],
[Sink particle model to use @<:@none, default: none@:>@]
)],
[with_sink="$withval"],
[with_sink="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_sink" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-sink together])
else
with_sink="$with_subgrid_sink"
fi
fi
case "$with_sink" in
none)
AC_DEFINE([SINK_NONE], [1], [No sink particle model])
;;
*)
AC_MSG_ERROR([Unknown sink particle model model: $with_sink])
;;
esac
# Task order
AC_ARG_WITH([task-order],
[AS_HELP_STRING([--with-task-order=<model>],
[Task order to use @<:@default, EAGLE, GEAR default: default@:>@]
)],
[with_task_order="$withval"],
[with_task_order="default"]
)
if test "$with_subgrid" != "none"; then
if test "$with_task_order" != "default"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-task-order together])
else
with_task_order="$with_subgrid_task_order"
fi
fi
case "$with_task_order" in
EAGLE)
AC_DEFINE([TASK_ORDER_EAGLE], [1], [EAGLE task order])
;;
default)
AC_DEFINE([TASK_ORDER_DEFAULT], [1], [Default (i.e. EAGLE/OWLS) task order])
;;
GEAR)
AC_DEFINE([TASK_ORDER_GEAR], [1], [GEAR task order])
;;
*)
AC_MSG_ERROR([Unknown task ordering: $with_task_order])
;;
esac
# External potential
AC_ARG_WITH([ext-potential],
[AS_HELP_STRING([--with-ext-potential=<pot>],
[external potential @<:@none, point-mass, point-mass-ring, point-mass-softened, isothermal, nfw, hernquist, disc-patch, sine-wave, constant, default: none@:>@] )],
[with_potential="$withval"],
[with_potential="none"]
)
case "$with_potential" in
none)
AC_DEFINE([EXTERNAL_POTENTIAL_NONE], [1], [No external potential])
;;
point-mass)
AC_DEFINE([EXTERNAL_POTENTIAL_POINTMASS], [1], [Point-mass external potential])
;;
isothermal)
AC_DEFINE([EXTERNAL_POTENTIAL_ISOTHERMAL], [1], [Isothermal external potential])
;;
hernquist)
AC_DEFINE([EXTERNAL_POTENTIAL_HERNQUIST], [1], [Hernquist external potential])
;;
nfw)
AC_DEFINE([EXTERNAL_POTENTIAL_NFW], [1], [Navarro-Frenk-White external potential])
;;
disc-patch)
AC_DEFINE([EXTERNAL_POTENTIAL_DISC_PATCH], [1], [Disc-patch external potential])
;;
sine-wave)
AC_DEFINE([EXTERNAL_POTENTIAL_SINE_WAVE], [1], [Sine wave external potential in 1D])
;;
point-mass-ring)
AC_DEFINE([EXTERNAL_POTENTIAL_POINTMASS_RING], [1], [Point mass potential for Keplerian Ring (Hopkins 2015).])
;;
point-mass-softened)
AC_DEFINE([EXTERNAL_POTENTIAL_POINTMASS_SOFT], [1], [Softened point-mass potential with form 1/(r^2 + softening^2).])
;;
constant)
AC_DEFINE([EXTERNAL_POTENTIAL_CONSTANT], [1], [Constant gravitational acceleration.])
;;
*)
AC_MSG_ERROR([Unknown external potential: $with_potential])
;;
esac
# Entropy floor
AC_ARG_WITH([entropy-floor],
[AS_HELP_STRING([--with-entropy-floor=<floor>],
[entropy floor @<:@none, QLA, EAGLE, default: none@:>@]
)],
[with_entropy_floor="$withval"],
[with_entropy_floor="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_entropy_floor" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-entropy-floor together])
else
with_entropy_floor="$with_subgrid_entropy_floor"
fi
fi
case "$with_entropy_floor" in
none)
AC_DEFINE([ENTROPY_FLOOR_NONE], [1], [No entropy floor])
;;
QLA)
AC_DEFINE([ENTROPY_FLOOR_QLA], [1], [Quick Lyman-alpha entropy floor])
;;
EAGLE)
AC_DEFINE([ENTROPY_FLOOR_EAGLE], [1], [EAGLE entropy floor])
;;
*)
AC_MSG_ERROR([Unknown entropy floor model])
;;
esac
# Pressure floor
AC_ARG_WITH([pressure-floor],
[AS_HELP_STRING([--with-pressure-floor=<floor>],
[pressure floor @<:@none, GEAR, default: none@:>@
The hydro model needs to be compatible.]
)],
[with_pressure_floor="$withval"],
[with_pressure_floor="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_pressure_floor" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-pressure-floor together])
else
with_pressure_floor="$with_subgrid_pressure_floor"
fi
fi
case "$with_pressure_floor" in
none)
AC_DEFINE([PRESSURE_FLOOR_NONE], [1], [No pressure floor])
;;
GEAR)
AC_DEFINE([PRESSURE_FLOOR_GEAR], [1], [GEAR pressure floor])
;;
*)
AC_MSG_ERROR([Unknown pressure floor model])
;;
esac
# Star formation
AC_ARG_WITH([star-formation],
[AS_HELP_STRING([--with-star-formation=<sfm>],
[star formation @<:@none, QLA, EAGLE, GEAR, default: none@:>@]
)],
[with_star_formation="$withval"],
[with_star_formation="none"]
)
if test "$with_subgrid" != "none"; then
if test "$with_star_formation" != "none"; then
AC_MSG_ERROR([Cannot provide with-subgrid and with-star-formation together])
else
with_star_formation="$with_subgrid_star_formation"
fi
fi
case "$with_star_formation" in
none)
AC_DEFINE([STAR_FORMATION_NONE], [1], [No star formation])
;;
QLA)
AC_DEFINE([STAR_FORMATION_QLA], [1], [Quick Lyman-alpha star formation model)])
;;
EAGLE)
AC_DEFINE([STAR_FORMATION_EAGLE], [1], [EAGLE star formation model (Schaye and Dalla Vecchia (2008))])
;;
GEAR)
AC_DEFINE([STAR_FORMATION_GEAR], [1], [GEAR star formation model (Revaz and Jablonka (2018))])
;;
*)
AC_MSG_ERROR([Unknown star formation model])
;;
esac
AC_ARG_WITH([gadget2-physical-constants],
[AS_HELP_STRING([--with-gadget2-physical-constants],
[Use the same physical constants (G, Msun, Mpc) as the Gadget-2 code rather than more up-to-date values.]
)],
[with_gadget2_physical_constants="$withval"],
[with_gadget2_physical_constants="no"])
if test "$with_gadget2_physical_constants" = "yes"; then
AC_DEFINE([SWIFT_USE_GADGET2_PHYSICAL_CONSTANTS],1,[Use the same physical constants as Gadget-2])
fi
# Gravity multipole order
AC_ARG_WITH([multipole-order],
[AS_HELP_STRING([--with-multipole-order=<order>],
[order of the multipole and gravitational field expansion @<:@ default: 4@:>@]
)],
[with_multipole_order="$withval"],
[with_multipole_order="4"]
)
AC_DEFINE_UNQUOTED([SELF_GRAVITY_MULTIPOLE_ORDER], [$with_multipole_order], [Multipole order])
# Check for git, needed for revision stamps.
AC_PATH_PROG([GIT_CMD], [git])
AC_SUBST([GIT_CMD])
# Make the documentation. Add conditional to handle disable option.
DX_DOXYGEN_FEATURE(OFF)
DX_INIT_DOXYGEN(SWIFT, doc/Doxyfile, doc/)
AM_CONDITIONAL([HAVE_DOXYGEN], [test "$ac_cv_path_ac_pt_DX_DOXYGEN" != ""])
# Check if using QLA cooling
AM_CONDITIONAL([HAVEQLACOOLING], [test $with_cooling = "QLA"])
# Check if using EAGLE cooling
AM_CONDITIONAL([HAVEEAGLECOOLING], [test $with_cooling = "EAGLE"])
# Check if using EAGLE feedback
AM_CONDITIONAL([HAVEEAGLEFEEDBACK], [test $with_feedback = "EAGLE"])
# check if using grackle cooling
AM_CONDITIONAL([HAVEGRACKLECOOLING], [test ${with_cooling:0:7} == "grackle"])
# check if using gear feedback
AM_CONDITIONAL([HAVEGEARFEEDBACK], [test $with_feedback == "GEAR"])
# Handle .in files.
AC_CONFIG_FILES([Makefile src/Makefile examples/Makefile examples/Cooling/CoolingRates/Makefile doc/Makefile doc/Doxyfile tests/Makefile])
AC_CONFIG_FILES([argparse/Makefile tools/Makefile logger/Makefile logger/tests/Makefile])
AC_CONFIG_FILES([tests/testReading.sh], [chmod +x tests/testReading.sh])
AC_CONFIG_FILES([tests/testActivePair.sh], [chmod +x tests/testActivePair.sh])
AC_CONFIG_FILES([tests/test27cells.sh], [chmod +x tests/test27cells.sh])
AC_CONFIG_FILES([tests/test27cellsPerturbed.sh], [chmod +x tests/test27cellsPerturbed.sh])
AC_CONFIG_FILES([tests/test27cellsStars.sh], [chmod +x tests/test27cellsStars.sh])
AC_CONFIG_FILES([tests/test27cellsStarsPerturbed.sh], [chmod +x tests/test27cellsStarsPerturbed.sh])
AC_CONFIG_FILES([tests/test125cells.sh], [chmod +x tests/test125cells.sh])
AC_CONFIG_FILES([tests/test125cellsPerturbed.sh], [chmod +x tests/test125cellsPerturbed.sh])
AC_CONFIG_FILES([tests/testPeriodicBC.sh], [chmod +x tests/testPeriodicBC.sh])
AC_CONFIG_FILES([tests/testPeriodicBCPerturbed.sh], [chmod +x tests/testPeriodicBCPerturbed.sh])
AC_CONFIG_FILES([tests/testInteractions.sh], [chmod +x tests/testInteractions.sh])
AC_CONFIG_FILES([tests/testParser.sh], [chmod +x tests/testParser.sh])
AC_CONFIG_FILES([tests/testSelectOutput.sh], [chmod +x tests/testSelectOutput.sh])
AC_CONFIG_FILES([tests/testFormat.sh], [chmod +x tests/testFormat.sh])
# Save the compilation options
AC_DEFINE_UNQUOTED([SWIFT_CONFIG_FLAGS],["$swift_config_flags"],[Flags passed to configure])
# Make sure the latest git revision string gets included, when we are
# working in a checked out repository.
test -d ${srcdir}/.git && touch ${srcdir}/src/version.c
# Need to define this, instead of using fifth argument of AC_INIT, until
# 2.64. Defer until now as this redefines PACKAGE_URL, which can emit a
# compilation error when testing with -Werror.
AC_DEFINE([PACKAGE_URL],["www.swiftsim.com"], [Package web pages])
# Generate output.AC_OUTPUT
# Report general configuration.
AC_MSG_RESULT([
------- Summary --------
$PACKAGE_NAME v.$PACKAGE_VERSION
Compiler : $CC
- vendor : $ax_cv_c_compiler_vendor
- version : $ax_cv_c_compiler_version
- flags : $CFLAGS
MPI enabled : $enable_mpi
HDF5 enabled : $with_hdf5
- parallel : $have_parallel_hdf5
METIS/ParMETIS : $have_metis / $have_parmetis
FFTW3 enabled : $have_fftw
GSL enabled : $have_gsl
libNUMA enabled : $have_numa
GRACKLE enabled : $have_grackle
Special allocators : $have_special_allocator
CPU profiler : $have_profiler
Pthread barriers : $have_pthread_barrier
VELOCIraptor enabled : $have_velociraptor
FoF activated: : $enable_fof
Hydro scheme : $with_hydro
Dimensionality : $with_dimension
Kernel function : $with_kernel
Equation of state : $with_eos
Adiabatic index : $with_gamma
Riemann solver : $with_riemann
Gravity scheme : $with_gravity
Multipole order : $with_multipole_order
No gravity below ID : $no_gravity_below_id
Make gravity glass : $gravity_glass_making
External potential : $with_potential
Pressure floor : $with_pressure_floor
Entropy floor : $with_entropy_floor
Cooling function : $with_cooling
Chemistry : $with_chemistry
Tracers : $with_tracers
Stellar model : $with_stars
Star formation model : $with_star_formation
Star feedback model : $with_feedback
Sink particle model : $with_sink
Black holes model : $with_black_holes
Task dependencies : $with_task_order
Atomic operations in tasks : $enable_atomics_within_tasks
Individual timers : $enable_timers
Task debugging : $enable_task_debugging
Threadpool debugging : $enable_threadpool_debugging
Debugging checks : $enable_debugging_checks
Interaction debugging : $enable_debug_interactions
Stars interaction debugging : $enable_debug_interactions_stars
Naive interactions : $enable_naive_interactions
Naive stars interactions : $enable_naive_interactions_stars
Gravity checks : $gravity_force_checks
Custom icbrtf : $enable_custom_icbrtf
Boundary particles : $boundary_particles
Particle Logger : $with_logger
Python enabled : $have_python
------------------------])