2 # This file is part of the GROMACS molecular simulation package.
4 # Copyright (c) 2012,2013,2014,2015,2016,2017,2018, by the GROMACS development team, led by
5 # Mark Abraham, David van der Spoel, Berk Hess, and Erik Lindahl,
6 # and including many others, as listed in the AUTHORS file in the
7 # top-level source directory and at http://www.gromacs.org.
9 # GROMACS is free software; you can redistribute it and/or
10 # modify it under the terms of the GNU Lesser General Public License
11 # as published by the Free Software Foundation; either version 2.1
12 # of the License, or (at your option) any later version.
14 # GROMACS is distributed in the hope that it will be useful,
15 # but WITHOUT ANY WARRANTY; without even the implied warranty of
16 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
17 # Lesser General Public License for more details.
19 # You should have received a copy of the GNU Lesser General Public
20 # License along with GROMACS; if not, see
21 # http://www.gnu.org/licenses, or write to the Free Software Foundation,
22 # Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
24 # If you want to redistribute modifications to GROMACS, please
25 # consider that scientific software is very special. Version
26 # control is crucial - bugs must be traceable. We will be happy to
27 # consider code for inclusion in the official distribution, but
28 # derived work must not be called official GROMACS. Details are found
29 # in the README & COPYING files - if they are missing, get the
30 # official version at http://www.gromacs.org.
32 # To help us fund GROMACS development, we humbly ask that you cite
33 # the research papers on the package. Check out http://www.gromacs.org.
38 # Issue a fatal error with an appropriate message, when the toolchain
39 # was not able to compile code for SIMD support.
42 # SIMD_STRING A string describing the kind of SIMD support that didn't work.
43 # ALTERNATIVE_SUGGESTION A string describing anything the user could try other than getting a new compiler.
44 # SUGGEST_BINUTILS_UPDATE True when there's information that the compiler was OK, but something else was not.
45 function(gmx_give_fatal_error_when_simd_support_not_found SIMD_STRING ALTERNATIVE_SUGGESTION SUGGEST_BINUTILS_UPDATE)
46 if(SUGGEST_BINUTILS_UPDATE)
47 set(_msg "Found a compiler flag for ${SIMD_STRING} support, but some other problem exists. Update your assembler and/or linker, e.g. in the binutils package of your distribution.")
49 set(_msg "Cannot find ${SIMD_STRING} compiler flag. Use a newer compiler, or ${ALTERNATIVE_SUGGESTION}.")
51 message(FATAL_ERROR ${_msg})
54 macro(gmx_manage_simd)
56 set(GMX_SIMD_ACCURACY_BITS_SINGLE 22 CACHE STRING "Target mantissa bits for SIMD single math")
58 # Note that we typically restrict double precision target accuracy to be twice that
59 # of single. This means we only need one more N-R iteration for 1/sqrt(x) and 1(x),
60 # and the first iteration can sometimes be done as a pair in single precision. This should
61 # be plenty enough for Molecular Dynamics applications. Many of our double precision math
62 # functions still achieve very close to full double precision, but we do not guarantee that
63 # they will be able to achieve higher accuracy if you set this beyond 44 bits. GROMACS will
64 # work - but some unit tests might fail.
66 set(GMX_SIMD_ACCURACY_BITS_DOUBLE 44 CACHE STRING "Target mantissa bits for SIMD double math")
67 mark_as_advanced(GMX_SIMD_ACCURACY_BITS_SINGLE)
68 mark_as_advanced(GMX_SIMD_ACCURACY_BITS_DOUBLE)
70 if(${GMX_SIMD_ACCURACY_BITS_SINGLE} GREATER 22)
71 message(STATUS "Note: Full mantissa accuracy (including least significant bit) requested for SIMD single math. Presently we cannot get the least significant bit correct since that would require different algorithms - reducing to 22 bits.")
72 set(GMX_SIMD_ACCURACY_BITS_SINGLE 22 CACHE STRING "Target mantissa bits for SIMD single math" FORCE)
75 if(${GMX_SIMD_ACCURACY_BITS_DOUBLE} GREATER 51)
76 message(STATUS "Note: Full mantissa accuracy (including least significant bit) requested for SIMD double math. Presently we cannot get the least significant bit correct since that would require different algorithms - reducing to 51 bits.")
77 set(GMX_SIMD_ACCURACY_BITS_DOUBLE 51 CACHE STRING "Target mantissa bits for SIMD double math" FORCE)
81 # Section to set (and test) compiler flags for SIMD.
83 # If the user chose the (default) automatic behaviour, then detection
84 # is run to suggest a SIMD choice suitable for the build
85 # host. Otherwise, the users's choice is always honoured. The compiler
86 # flags will be set based on that choice.
89 set(GMX_SIMD_ACTIVE ${GMX_SIMD})
90 if(GMX_SIMD STREQUAL "AUTO")
91 include(gmxDetectSimd)
92 gmx_detect_simd(GMX_SUGGESTED_SIMD)
93 set(GMX_SIMD_ACTIVE ${GMX_SUGGESTED_SIMD})
96 if(GMX_SIMD_ACTIVE STREQUAL "NONE")
97 # nothing to do configuration-wise
98 set(SIMD_STATUS_MESSAGE "SIMD instructions disabled")
99 elseif(GMX_SIMD_ACTIVE STREQUAL "SSE2")
101 gmx_find_simd_sse2_flags(SIMD_SSE2_C_SUPPORTED SIMD_SSE2_CXX_SUPPORTED
102 SIMD_SSE2_C_FLAGS SIMD_SSE2_CXX_FLAGS)
104 if(NOT SIMD_SSE2_C_SUPPORTED OR NOT SIMD_SSE2_CXX_SUPPORTED)
105 gmx_give_fatal_error_when_simd_support_not_found("SSE2" "disable SIMD support (slow)" "${SUGGEST_BINUTILS_UPDATE}")
108 set(SIMD_C_FLAGS "${SIMD_SSE2_C_FLAGS}")
109 set(SIMD_CXX_FLAGS "${SIMD_SSE2_CXX_FLAGS}")
110 set(GMX_SIMD_X86_${GMX_SIMD_ACTIVE} 1)
111 set(SIMD_STATUS_MESSAGE "Enabling SSE2 SIMD instructions using CXX flags: ${SIMD_SSE2_CXX_FLAGS}")
113 elseif(GMX_SIMD_ACTIVE STREQUAL "SSE4.1")
115 gmx_find_simd_sse4_1_flags(SIMD_SSE4_1_C_SUPPORTED SIMD_SSE4_1_CXX_SUPPORTED
116 SIMD_SSE4_1_C_FLAGS SIMD_SSE4_1_CXX_FLAGS)
118 if(NOT SIMD_SSE4_1_C_SUPPORTED OR NOT SIMD_SSE4_1_CXX_SUPPORTED)
119 gmx_give_fatal_error_when_simd_support_not_found("SSE4.1" "choose SSE2 SIMD (slower)" "${SUGGEST_BINUTILS_UPDATE}")
122 set(SIMD_C_FLAGS "${SIMD_SSE4_1_C_FLAGS}")
123 set(SIMD_CXX_FLAGS "${SIMD_SSE4_1_CXX_FLAGS}")
124 set(GMX_SIMD_X86_SSE4_1 1)
125 set(SIMD_STATUS_MESSAGE "Enabling SSE4.1 SIMD instructions using CXX flags: ${SIMD_SSE4_1_CXX_FLAGS}")
127 elseif(GMX_SIMD_ACTIVE STREQUAL "AVX_128_FMA")
129 gmx_find_simd_avx_128_fma_flags(SIMD_AVX_128_FMA_C_SUPPORTED SIMD_AVX_128_FMA_CXX_SUPPORTED
130 SIMD_AVX_128_FMA_C_FLAGS SIMD_AVX_128_FMA_CXX_FLAGS)
132 if(NOT SIMD_AVX_128_FMA_C_SUPPORTED OR NOT SIMD_AVX_128_FMA_CXX_SUPPORTED)
133 gmx_give_fatal_error_when_simd_support_not_found("128-bit AVX with FMA support" "choose SSE4.1 SIMD (slower)" "${SUGGEST_BINUTILS_UPDATE}")
136 set(SIMD_C_FLAGS "${SIMD_AVX_128_FMA_C_FLAGS}")
137 set(SIMD_CXX_FLAGS "${SIMD_AVX_128_FMA_CXX_FLAGS}")
138 set(GMX_SIMD_X86_${GMX_SIMD_ACTIVE} 1)
139 set(SIMD_STATUS_MESSAGE "Enabling 128-bit AMD FMA SIMD instructions using CXX flags: ${SIMD_AVX_128_FMA_CXX_FLAGS}")
141 elseif(GMX_SIMD_ACTIVE STREQUAL "AVX_256")
143 gmx_find_simd_avx_flags(SIMD_AVX_C_SUPPORTED SIMD_AVX_CXX_SUPPORTED
144 SIMD_AVX_C_FLAGS SIMD_AVX_CXX_FLAGS)
146 if(NOT SIMD_AVX_C_SUPPORTED OR NOT SIMD_AVX_CXX_SUPPORTED)
147 gmx_give_fatal_error_when_simd_support_not_found("AVX" "choose SSE4.1 SIMD (slower)" "${SUGGEST_BINUTILS_UPDATE}")
150 set(SIMD_C_FLAGS "${SIMD_AVX_C_FLAGS}")
151 set(SIMD_CXX_FLAGS "${SIMD_AVX_CXX_FLAGS}")
152 set(GMX_SIMD_X86_${GMX_SIMD_ACTIVE} 1)
153 set(SIMD_STATUS_MESSAGE "Enabling 256-bit AVX SIMD instructions using CXX flags: ${SIMD_AVX_CXX_FLAGS}")
155 elseif(GMX_SIMD_ACTIVE MATCHES "AVX2_")
157 gmx_find_simd_avx2_flags(SIMD_AVX2_C_SUPPORTED SIMD_AVX2_CXX_SUPPORTED
158 SIMD_AVX2_C_FLAGS SIMD_AVX2_CXX_FLAGS)
160 if(NOT SIMD_AVX2_C_SUPPORTED OR NOT SIMD_AVX2_CXX_SUPPORTED)
161 gmx_give_fatal_error_when_simd_support_not_found("AVX2" "choose AVX SIMD (slower)" "${SUGGEST_BINUTILS_UPDATE}")
164 set(SIMD_C_FLAGS "${SIMD_AVX2_C_FLAGS}")
165 set(SIMD_CXX_FLAGS "${SIMD_AVX2_CXX_FLAGS}")
166 set(GMX_SIMD_X86_${GMX_SIMD_ACTIVE} 1)
168 if(GMX_SIMD_ACTIVE STREQUAL "AVX2_128")
169 set(SIMD_STATUS_MESSAGE "Enabling 128-bit AVX2 SIMD instructions using CXX flags: ${SIMD_AVX2_CXX_FLAGS}")
171 set(SIMD_STATUS_MESSAGE "Enabling 256-bit AVX2 SIMD instructions using CXX flags: ${SIMD_AVX2_CXX_FLAGS}")
174 elseif(GMX_SIMD_ACTIVE STREQUAL "MIC")
176 # No flags needed. Not testing.
177 set(GMX_SIMD_X86_MIC 1)
178 set(SIMD_STATUS_MESSAGE "Enabling MIC (Xeon Phi) SIMD instructions without special flags.")
180 elseif(GMX_SIMD_ACTIVE STREQUAL "AVX_512")
182 gmx_find_simd_avx_512_flags(SIMD_AVX_512_C_SUPPORTED SIMD_AVX_512_CXX_SUPPORTED
183 SIMD_AVX_512_C_FLAGS SIMD_AVX_512_CXX_FLAGS)
185 if(NOT SIMD_AVX_512_C_SUPPORTED OR NOT SIMD_AVX_512_CXX_SUPPORTED)
186 gmx_give_fatal_error_when_simd_support_not_found("AVX 512F" "choose a lower level of SIMD (slower)" "${SUGGEST_BINUTILS_UPDATE}")
189 set(SIMD_C_FLAGS "${SIMD_AVX_512_C_FLAGS}")
190 set(SIMD_CXX_FLAGS "${SIMD_AVX_512_CXX_FLAGS}")
191 set(GMX_SIMD_X86_${GMX_SIMD_ACTIVE} 1)
192 set(SIMD_STATUS_MESSAGE "Enabling 512-bit AVX-512 SIMD instructions using CXX flags: ${SIMD_AVX_512_CXX_FLAGS}")
194 elseif(GMX_SIMD_ACTIVE STREQUAL "AVX_512_KNL")
196 gmx_find_simd_avx_512_knl_flags(SIMD_AVX_512_KNL_C_SUPPORTED SIMD_AVX_512_KNL_CXX_SUPPORTED
197 SIMD_AVX_512_KNL_C_FLAGS SIMD_AVX_512_KNL_CXX_FLAGS)
199 if(NOT SIMD_AVX_512_KNL_C_SUPPORTED OR NOT SIMD_AVX_512_KNL_CXX_SUPPORTED)
200 gmx_give_fatal_error_when_simd_support_not_found("AVX 512ER" "choose a lower level of SIMD (slower)" "${SUGGEST_BINUTILS_UPDATE}")
203 set(SIMD_C_FLAGS "${SIMD_AVX_512_KNL_C_FLAGS}")
204 set(SIMD_CXX_FLAGS "${SIMD_AVX_512_KNL_CXX_FLAGS}")
205 set(GMX_SIMD_X86_${GMX_SIMD_ACTIVE} 1)
206 set(SIMD_STATUS_MESSAGE "Enabling 512-bit AVX-512-KNL SIMD instructions using CXX flags: ${SIMD_AVX_512_KNL_CXX_FLAGS}")
208 elseif(GMX_SIMD_ACTIVE STREQUAL "ARM_NEON")
211 message(FATAL_ERROR "ARM_NEON SIMD support is not available for a double precision build because the architecture lacks double-precision support")
214 gmx_find_simd_arm_neon_flags(SIMD_ARM_NEON_C_SUPPORTED SIMD_ARM_NEON_CXX_SUPPORTED
215 SIMD_ARM_NEON_C_FLAGS SIMD_ARM_NEON_CXX_FLAGS)
217 if(NOT SIMD_ARM_NEON_C_SUPPORTED OR NOT SIMD_ARM_NEON_CXX_SUPPORTED)
218 gmx_give_fatal_error_when_simd_support_not_found("ARM NEON" "disable SIMD support (slower)" "${SUGGEST_BINUTILS_UPDATE}")
221 set(SIMD_C_FLAGS "${SIMD_ARM_NEON_C_FLAGS}")
222 set(SIMD_CXX_FLAGS "${SIMD_ARM_NEON_CXX_FLAGS}")
223 set(GMX_SIMD_${GMX_SIMD_ACTIVE} 1)
224 set(SIMD_STATUS_MESSAGE "Enabling 32-bit ARM NEON SIMD instructions using CXX flags: ${SIMD_ARM_NEON_CXX_FLAGS}")
226 elseif(GMX_SIMD_ACTIVE STREQUAL "ARM_NEON_ASIMD")
228 gmx_find_simd_arm_neon_asimd_flags(SIMD_ARM_NEON_ASIMD_C_SUPPORTED SIMD_ARM_NEON_ASIMD_CXX_SUPPORTED
229 SIMD_ARM_NEON_ASIMD_C_FLAGS SIMD_ARM_NEON_ASIMD_CXX_FLAGS)
231 if(NOT SIMD_ARM_NEON_ASIMD_C_SUPPORTED OR NOT SIMD_ARM_NEON_ASIMD_CXX_SUPPORTED)
232 gmx_give_fatal_error_when_simd_support_not_found("ARM (AArch64) NEON Advanced SIMD" "particularly gcc version 4.9 or later, or disable SIMD support (slower)" "${SUGGEST_BINUTILS_UPDATE}")
235 set(SIMD_C_FLAGS "${SIMD_ARM_NEON_ASIMD_C_FLAGS}")
236 set(SIMD_CXX_FLAGS "${SIMD_ARM_NEON_ASIMD_CXX_FLAGS}")
237 set(GMX_SIMD_${GMX_SIMD_ACTIVE} 1)
238 set(SIMD_STATUS_MESSAGE "Enabling ARM (AArch64) NEON Advanced SIMD instructions using CXX flags: ${SIMD_ARM_NEON_ASIMD_CXX_FLAGS}")
240 elseif(GMX_SIMD_ACTIVE STREQUAL "IBM_VMX")
242 gmx_find_simd_ibm_vmx_flags(SIMD_IBM_VMX_C_SUPPORTED SIMD_IBM_VMX_CXX_SUPPORTED
243 SIMD_IBM_VMX_C_FLAGS SIMD_IBM_VMX_CXX_FLAGS)
245 if(NOT SIMD_IBM_VMX_C_SUPPORTED OR NOT SIMD_IBM_VMX_CXX_SUPPORTED)
246 gmx_give_fatal_error_when_simd_support_not_found("IBM VMX" "disable SIMD support (slower)" "${SUGGEST_BINUTILS_UPDATE}")
249 set(SIMD_C_FLAGS "${SIMD_IBM_VMX_C_FLAGS}")
250 set(SIMD_CXX_FLAGS "${SIMD_IBM_VMX_CXX_FLAGS}")
251 set(GMX_SIMD_${GMX_SIMD_ACTIVE} 1)
252 set(SIMD_STATUS_MESSAGE "Enabling IBM VMX SIMD instructions using CXX flags: ${SIMD_IBM_VMX_CXX_FLAGS}")
254 elseif(GMX_SIMD_ACTIVE STREQUAL "IBM_VSX")
256 gmx_find_simd_ibm_vsx_flags(SIMD_IBM_VSX_C_SUPPORTED SIMD_IBM_VSX_CXX_SUPPORTED
257 SIMD_IBM_VSX_C_FLAGS SIMD_IBM_VSX_CXX_FLAGS)
259 # Usually we check also for the C compiler here, but a C compiler
260 # is not required for SIMD support on this platform. cmake through
261 # at least version 3.7 cannot pass this check with the C compiler
262 # in the latest xlc 13.1.5, but the C++ compiler has different
263 # behaviour and is OK. See Redmine #2102.
264 if(NOT SIMD_IBM_VSX_CXX_SUPPORTED)
265 gmx_give_fatal_error_when_simd_support_not_found("IBM VSX" "disable SIMD support (slower)" "${SUGGEST_BINUTILS_UPDATE}")
268 set(SIMD_C_FLAGS "${SIMD_IBM_VSX_C_FLAGS}")
269 set(SIMD_CXX_FLAGS "${SIMD_IBM_VSX_CXX_FLAGS}")
270 set(GMX_SIMD_${GMX_SIMD_ACTIVE} 1)
271 set(SIMD_STATUS_MESSAGE "Enabling IBM VSX SIMD instructions using CXX flags: ${SIMD_IBM_VSX_CXX_FLAGS}")
273 elseif(GMX_SIMD_ACTIVE STREQUAL "SPARC64_HPC_ACE")
275 # Note that GMX_RELAXED_DOUBLE_PRECISION is enabled by default in the top-level CMakeLists.txt
277 set(GMX_SIMD_${GMX_SIMD_ACTIVE} 1)
278 set(SIMD_STATUS_MESSAGE "Enabling Sparc64 HPC-ACE SIMD instructions without special flags.")
280 elseif(GMX_SIMD_ACTIVE STREQUAL "REFERENCE")
282 # NB: This file handles settings for the SIMD module, so in the interest
283 # of proper modularization, please do NOT put any verlet kernel settings in this file.
285 if(GMX_SIMD_REF_FLOAT_WIDTH)
286 add_definitions(-DGMX_SIMD_REF_FLOAT_WIDTH=${GMX_SIMD_REF_FLOAT_WIDTH})
288 if(GMX_SIMD_REF_DOUBLE_WIDTH)
289 add_definitions(-DGMX_SIMD_REF_DOUBLE_WIDTH=${GMX_SIMD_REF_DOUBLE_WIDTH})
292 set(GMX_SIMD_${GMX_SIMD_ACTIVE} 1)
293 set(SIMD_STATUS_MESSAGE "Enabling reference (emulated) SIMD instructions without special flags.")
296 gmx_invalid_option_value(GMX_SIMD_ACTIVE)
300 gmx_check_if_changed(SIMD_CHANGED GMX_SIMD_ACTIVE)
301 if (SIMD_CHANGED AND DEFINED SIMD_STATUS_MESSAGE)
302 message(STATUS "${SIMD_STATUS_MESSAGE}")
305 # While AVX-512 is a more recent SIMD ISA than AVX2, some Intel CPUs only have
306 # a single AVX-512 FMA unit, but two AVX2 FMA units, and then it is better to
307 # use AVX2. The only way to test this is to execute a small timing loop.
308 # To be able to recommend the user whether s/he should try AVX-512 instead of
309 # AVX2, we need to compile a single file with AVX512 flags. We do this
310 # automatically, but this option provides a way to turn it off in case it
311 # breaks something. The actual test source file is built if
312 # SIMD_AVX_512_CXX_SUPPORTED is set, so it will always be included if we have
314 set(GMX_ENABLE_AVX512_TESTS ON CACHE BOOL "Compile AVX512 code to test FMA units, even when not using AVX512 SIMD")
315 mark_as_advanced(GMX_ENABLE_AVX512_TESTS)
317 if(GMX_ENABLE_AVX512_TESTS AND
318 (GMX_SIMD_ACTIVE STREQUAL "AVX_256" OR GMX_SIMD_ACTIVE STREQUAL "AVX2_256" OR GMX_SIMD_ACTIVE STREQUAL "AVX2_128"))
319 if(NOT DEFINED SIMD_AVX_512_CXX_SUPPORTED)
320 message(STATUS "Detecting flags to enable runtime detection of AVX-512 units on newer CPUs")
321 set(SIMD_AVX_512_REPORT_STATUS 1)
323 gmx_find_simd_avx_512_flags(SIMD_AVX_512_C_SUPPORTED SIMD_AVX_512_CXX_SUPPORTED
324 SIMD_AVX_512_C_FLAGS SIMD_AVX_512_CXX_FLAGS)
325 if(SIMD_AVX_512_REPORT_STATUS)
326 if(SIMD_AVX_512_CXX_SUPPORTED)
327 message(STATUS "Detecting flags to enable runtime detection of AVX-512 units on newer CPUs - ${SIMD_AVX_512_CXX_FLAGS}")
329 message(STATUS "Detecting flags to enable runtime detection of AVX-512 units on newer CPUs - not supported")
332 # Since we might be overriding AVX2 architecture flags with the AVX512 flags for the
333 # files where it is used, we also check for a flag not to warn about the first (unused) arch.
334 # To avoid spamming the user with lots of gromacs tests we just call the CMake flag test directly.
335 foreach(_testflag "-Wno-unused-command-line-argument" "-wd10121")
336 string(REGEX REPLACE "[^a-zA-Z0-9]+" "_" FLAG_ACCEPTED_VARIABLE "${_testflag}_FLAG_ACCEPTED")
337 check_cxx_compiler_flag("${_testflag}" ${FLAG_ACCEPTED_VARIABLE})
338 if(${FLAG_ACCEPTED_VARIABLE})
339 set(CXX_NO_UNUSED_OPTION_WARNING_FLAGS "${_testflag}")
342 endforeach(_testflag)
345 # By default, 32-bit windows cannot pass SIMD (SSE/AVX) arguments in registers,
346 # and even on 64-bit (all platforms) it is only used for a handful of arguments.
347 # The __vectorcall (MSVC, from MSVC2013) or __regcall (ICC) calling conventions
348 # enable this, which is critical to enable 32-bit SIMD and improves performance
350 # Check if the compiler supports one of these, and in that case set gmx_simdcall
351 # to that string. If we do not have any such calling convention modifier, set it
352 # to an empty string.
354 # Update 2015-11-04: As of version 3.6, clang has added support for __vectorcall
355 # (also on Linux). This appears to be buggy for the reference SIMD
356 # implementation when using the Debug build (when functions are not inlined)
357 # while it seems works fine for the actual SIMD implementations. This is likely
358 # because the reference build ends up passing lots of structures with arrays
359 # rather than actual vector data. For now we disable __vectorcall with clang
360 # when using the reference build.
362 # xlc 13.1.5 does not seem recognize any attribute, and warns about invalid ones
363 # so we avoid searching for any.
365 if(NOT DEFINED GMX_SIMD_CALLING_CONVENTION)
366 if(CMAKE_CXX_COMPILER_ID MATCHES "Clang" AND GMX_SIMD_ACTIVE STREQUAL "REFERENCE")
367 set(CALLCONV_LIST __regcall " ")
368 elseif(CMAKE_CXX_COMPILER_ID MATCHES "XL")
369 set(CALLCONV_LIST " ")
371 set(CALLCONV_LIST __vectorcall __regcall " ")
373 foreach(callconv ${CALLCONV_LIST})
374 set(callconv_compile_var "_callconv_${callconv}")
375 # Some compilers warn about targets for which attributes are
376 # ignored (e.g. clang on ARM), and in such cases we want this
377 # check to lead to using no attribute in subsequent GROMACS
378 # compilation, to avoid issuing the warning for lots of files.
379 check_c_source_compiles("
380 #pragma GCC diagnostic error \"-Wignored-attributes\"
381 int ${callconv} f(int i) {return i;} int main(void) {return f(0);}
382 " ${callconv_compile_var})
383 if(${callconv_compile_var})
384 set(GMX_SIMD_CALLING_CONVENTION_VALUE "${callconv}" CACHE INTERNAL "Calling convention for SIMD routines" FORCE)
388 # If the build is not using SIMD, then we should not manage the
389 # calling convention. Doing so seems to confuse
390 # clang-static-analyzer in at least version 6.0.
391 if(GMX_SIMD_ACTIVE STREQUAL "NONE")
392 set(GMX_SIMD_CALLING_CONVENTION " ")
394 set(GMX_SIMD_CALLING_CONVENTION ${GMX_SIMD_CALLING_CONVENTION_VALUE})
398 if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU")
399 # GCC bug 49001, 54412 on Windows (just warn, since it might be fixed in later versions)
400 if((CMAKE_CXX_COMPILER_VERSION VERSION_LESS "4.9.0" OR CMAKE_SIZEOF_VOID_P EQUAL 8)
401 AND (WIN32 OR CYGWIN)
402 AND (GMX_SIMD_ACTIVE MATCHES "AVX") AND NOT (GMX_SIMD_ACTIVE STREQUAL "AVX_128_FMA"))
403 message(WARNING "GCC on Windows (GCC older than 4.9 in 32-bit mode, or any version in 64-bit mode) with 256-bit AVX will probably crash. You might want to choose a different GMX_SIMD or a different compiler.")