/* IA-32 common hooks. Copyright (C) 1988-2021 Free Software Foundation, Inc. This file is part of GCC. GCC 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, or (at your option) any later version. GCC 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 GCC; see the file COPYING3. If not see . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "diagnostic-core.h" #include "tm.h" #include "memmodel.h" #include "tm_p.h" #include "common/common-target.h" #include "common/common-target-def.h" #include "opts.h" #include "flags.h" /* Define a set of ISAs which are available when a given ISA is enabled. MMX and SSE ISAs are handled separately. */ #define OPTION_MASK_ISA_MMX_SET OPTION_MASK_ISA_MMX #define OPTION_MASK_ISA_3DNOW_SET \ (OPTION_MASK_ISA_3DNOW | OPTION_MASK_ISA_MMX_SET) #define OPTION_MASK_ISA_3DNOW_A_SET \ (OPTION_MASK_ISA_3DNOW_A | OPTION_MASK_ISA_3DNOW_SET) #define OPTION_MASK_ISA_SSE_SET OPTION_MASK_ISA_SSE #define OPTION_MASK_ISA_SSE2_SET \ (OPTION_MASK_ISA_SSE2 | OPTION_MASK_ISA_SSE_SET) #define OPTION_MASK_ISA_SSE3_SET \ (OPTION_MASK_ISA_SSE3 | OPTION_MASK_ISA_SSE2_SET) #define OPTION_MASK_ISA_SSSE3_SET \ (OPTION_MASK_ISA_SSSE3 | OPTION_MASK_ISA_SSE3_SET) #define OPTION_MASK_ISA_SSE4_1_SET \ (OPTION_MASK_ISA_SSE4_1 | OPTION_MASK_ISA_SSSE3_SET) #define OPTION_MASK_ISA_SSE4_2_SET \ (OPTION_MASK_ISA_SSE4_2 | OPTION_MASK_ISA_SSE4_1_SET) #define OPTION_MASK_ISA_AVX_SET \ (OPTION_MASK_ISA_AVX | OPTION_MASK_ISA_SSE4_2_SET \ | OPTION_MASK_ISA_XSAVE_SET) #define OPTION_MASK_ISA_FMA_SET \ (OPTION_MASK_ISA_FMA | OPTION_MASK_ISA_AVX_SET) #define OPTION_MASK_ISA_AVX2_SET \ (OPTION_MASK_ISA_AVX2 | OPTION_MASK_ISA_AVX_SET) #define OPTION_MASK_ISA_FXSR_SET OPTION_MASK_ISA_FXSR #define OPTION_MASK_ISA_XSAVE_SET OPTION_MASK_ISA_XSAVE #define OPTION_MASK_ISA_XSAVEOPT_SET \ (OPTION_MASK_ISA_XSAVEOPT | OPTION_MASK_ISA_XSAVE_SET) #define OPTION_MASK_ISA_AVX512F_SET \ (OPTION_MASK_ISA_AVX512F | OPTION_MASK_ISA_AVX2_SET) #define OPTION_MASK_ISA_AVX512CD_SET \ (OPTION_MASK_ISA_AVX512CD | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512PF_SET \ (OPTION_MASK_ISA_AVX512PF | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512ER_SET \ (OPTION_MASK_ISA_AVX512ER | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512DQ_SET \ (OPTION_MASK_ISA_AVX512DQ | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512BW_SET \ (OPTION_MASK_ISA_AVX512BW | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512VL_SET \ (OPTION_MASK_ISA_AVX512VL | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512IFMA_SET \ (OPTION_MASK_ISA_AVX512IFMA | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512VBMI_SET \ (OPTION_MASK_ISA_AVX512VBMI | OPTION_MASK_ISA_AVX512BW_SET) #define OPTION_MASK_ISA2_AVX5124FMAPS_SET OPTION_MASK_ISA2_AVX5124FMAPS #define OPTION_MASK_ISA2_AVX5124VNNIW_SET OPTION_MASK_ISA2_AVX5124VNNIW #define OPTION_MASK_ISA_AVX512VBMI2_SET \ (OPTION_MASK_ISA_AVX512VBMI2 | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512VNNI_SET \ (OPTION_MASK_ISA_AVX512VNNI | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA2_AVXVNNI_SET OPTION_MASK_ISA2_AVXVNNI #define OPTION_MASK_ISA_AVX512VPOPCNTDQ_SET \ (OPTION_MASK_ISA_AVX512VPOPCNTDQ | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA_AVX512BITALG_SET \ (OPTION_MASK_ISA_AVX512BITALG | OPTION_MASK_ISA_AVX512F_SET) #define OPTION_MASK_ISA2_AVX512BF16_SET OPTION_MASK_ISA2_AVX512BF16 #define OPTION_MASK_ISA_RTM_SET OPTION_MASK_ISA_RTM #define OPTION_MASK_ISA_PRFCHW_SET OPTION_MASK_ISA_PRFCHW #define OPTION_MASK_ISA_RDSEED_SET OPTION_MASK_ISA_RDSEED #define OPTION_MASK_ISA_ADX_SET OPTION_MASK_ISA_ADX #define OPTION_MASK_ISA_PREFETCHWT1_SET OPTION_MASK_ISA_PREFETCHWT1 #define OPTION_MASK_ISA_CLFLUSHOPT_SET OPTION_MASK_ISA_CLFLUSHOPT #define OPTION_MASK_ISA_XSAVES_SET \ (OPTION_MASK_ISA_XSAVES | OPTION_MASK_ISA_XSAVE_SET) #define OPTION_MASK_ISA_XSAVEC_SET \ (OPTION_MASK_ISA_XSAVEC | OPTION_MASK_ISA_XSAVE_SET) #define OPTION_MASK_ISA_CLWB_SET OPTION_MASK_ISA_CLWB #define OPTION_MASK_ISA2_AVX512VP2INTERSECT_SET OPTION_MASK_ISA2_AVX512VP2INTERSECT #define OPTION_MASK_ISA2_AMX_TILE_SET OPTION_MASK_ISA2_AMX_TILE #define OPTION_MASK_ISA2_AMX_INT8_SET OPTION_MASK_ISA2_AMX_INT8 #define OPTION_MASK_ISA2_AMX_BF16_SET OPTION_MASK_ISA2_AMX_BF16 /* SSE4 includes both SSE4.1 and SSE4.2. -msse4 should be the same as -msse4.2. */ #define OPTION_MASK_ISA_SSE4_SET OPTION_MASK_ISA_SSE4_2_SET #define OPTION_MASK_ISA_SSE4A_SET \ (OPTION_MASK_ISA_SSE4A | OPTION_MASK_ISA_SSE3_SET) #define OPTION_MASK_ISA_FMA4_SET \ (OPTION_MASK_ISA_FMA4 | OPTION_MASK_ISA_SSE4A_SET \ | OPTION_MASK_ISA_AVX_SET) #define OPTION_MASK_ISA_XOP_SET \ (OPTION_MASK_ISA_XOP | OPTION_MASK_ISA_FMA4_SET) #define OPTION_MASK_ISA_LWP_SET \ OPTION_MASK_ISA_LWP /* AES, SHA and PCLMUL need SSE2 because they use xmm registers. */ #define OPTION_MASK_ISA_AES_SET \ (OPTION_MASK_ISA_AES | OPTION_MASK_ISA_SSE2_SET) #define OPTION_MASK_ISA_SHA_SET \ (OPTION_MASK_ISA_SHA | OPTION_MASK_ISA_SSE2_SET) #define OPTION_MASK_ISA_PCLMUL_SET \ (OPTION_MASK_ISA_PCLMUL | OPTION_MASK_ISA_SSE2_SET) #define OPTION_MASK_ISA_ABM_SET \ (OPTION_MASK_ISA_ABM | OPTION_MASK_ISA_POPCNT) #define OPTION_MASK_ISA2_PCONFIG_SET OPTION_MASK_ISA2_PCONFIG #define OPTION_MASK_ISA2_WBNOINVD_SET OPTION_MASK_ISA2_WBNOINVD #define OPTION_MASK_ISA2_SGX_SET OPTION_MASK_ISA2_SGX #define OPTION_MASK_ISA_BMI_SET OPTION_MASK_ISA_BMI #define OPTION_MASK_ISA_BMI2_SET OPTION_MASK_ISA_BMI2 #define OPTION_MASK_ISA_LZCNT_SET OPTION_MASK_ISA_LZCNT #define OPTION_MASK_ISA_TBM_SET OPTION_MASK_ISA_TBM #define OPTION_MASK_ISA_POPCNT_SET OPTION_MASK_ISA_POPCNT #define OPTION_MASK_ISA2_CX16_SET OPTION_MASK_ISA2_CX16 #define OPTION_MASK_ISA_SAHF_SET OPTION_MASK_ISA_SAHF #define OPTION_MASK_ISA2_MOVBE_SET OPTION_MASK_ISA2_MOVBE #define OPTION_MASK_ISA_CRC32_SET OPTION_MASK_ISA_CRC32 #define OPTION_MASK_ISA_FSGSBASE_SET OPTION_MASK_ISA_FSGSBASE #define OPTION_MASK_ISA_RDRND_SET OPTION_MASK_ISA_RDRND #define OPTION_MASK_ISA2_PTWRITE_SET OPTION_MASK_ISA2_PTWRITE #define OPTION_MASK_ISA_F16C_SET \ (OPTION_MASK_ISA_F16C | OPTION_MASK_ISA_AVX_SET) #define OPTION_MASK_ISA2_MWAITX_SET OPTION_MASK_ISA2_MWAITX #define OPTION_MASK_ISA2_CLZERO_SET OPTION_MASK_ISA2_CLZERO #define OPTION_MASK_ISA_PKU_SET OPTION_MASK_ISA_PKU #define OPTION_MASK_ISA2_RDPID_SET OPTION_MASK_ISA2_RDPID #define OPTION_MASK_ISA_GFNI_SET OPTION_MASK_ISA_GFNI #define OPTION_MASK_ISA_SHSTK_SET OPTION_MASK_ISA_SHSTK #define OPTION_MASK_ISA2_VAES_SET OPTION_MASK_ISA2_VAES #define OPTION_MASK_ISA_VPCLMULQDQ_SET OPTION_MASK_ISA_VPCLMULQDQ #define OPTION_MASK_ISA_MOVDIRI_SET OPTION_MASK_ISA_MOVDIRI #define OPTION_MASK_ISA2_MOVDIR64B_SET OPTION_MASK_ISA2_MOVDIR64B #define OPTION_MASK_ISA2_WAITPKG_SET OPTION_MASK_ISA2_WAITPKG #define OPTION_MASK_ISA2_CLDEMOTE_SET OPTION_MASK_ISA2_CLDEMOTE #define OPTION_MASK_ISA2_ENQCMD_SET OPTION_MASK_ISA2_ENQCMD #define OPTION_MASK_ISA2_SERIALIZE_SET OPTION_MASK_ISA2_SERIALIZE #define OPTION_MASK_ISA2_TSXLDTRK_SET OPTION_MASK_ISA2_TSXLDTRK #define OPTION_MASK_ISA2_UINTR_SET OPTION_MASK_ISA2_UINTR #define OPTION_MASK_ISA2_HRESET_SET OPTION_MASK_ISA2_HRESET #define OPTION_MASK_ISA2_KL_SET OPTION_MASK_ISA2_KL #define OPTION_MASK_ISA2_WIDEKL_SET \ (OPTION_MASK_ISA2_WIDEKL | OPTION_MASK_ISA2_KL_SET) /* Define a set of ISAs which aren't available when a given ISA is disabled. MMX and SSE ISAs are handled separately. */ #define OPTION_MASK_ISA_MMX_UNSET \ (OPTION_MASK_ISA_MMX | OPTION_MASK_ISA_3DNOW_UNSET) #define OPTION_MASK_ISA_3DNOW_UNSET \ (OPTION_MASK_ISA_3DNOW | OPTION_MASK_ISA_3DNOW_A_UNSET) #define OPTION_MASK_ISA_3DNOW_A_UNSET OPTION_MASK_ISA_3DNOW_A #define OPTION_MASK_ISA_SSE_UNSET \ (OPTION_MASK_ISA_SSE | OPTION_MASK_ISA_SSE2_UNSET) #define OPTION_MASK_ISA_SSE2_UNSET \ (OPTION_MASK_ISA_SSE2 | OPTION_MASK_ISA_SSE3_UNSET) #define OPTION_MASK_ISA_SSE3_UNSET \ (OPTION_MASK_ISA_SSE3 \ | OPTION_MASK_ISA_SSSE3_UNSET \ | OPTION_MASK_ISA_SSE4A_UNSET ) #define OPTION_MASK_ISA_SSSE3_UNSET \ (OPTION_MASK_ISA_SSSE3 | OPTION_MASK_ISA_SSE4_1_UNSET) #define OPTION_MASK_ISA_SSE4_1_UNSET \ (OPTION_MASK_ISA_SSE4_1 | OPTION_MASK_ISA_SSE4_2_UNSET) #define OPTION_MASK_ISA_SSE4_2_UNSET \ (OPTION_MASK_ISA_SSE4_2 | OPTION_MASK_ISA_AVX_UNSET ) #define OPTION_MASK_ISA_AVX_UNSET \ (OPTION_MASK_ISA_AVX | OPTION_MASK_ISA_FMA_UNSET \ | OPTION_MASK_ISA_FMA4_UNSET | OPTION_MASK_ISA_F16C_UNSET \ | OPTION_MASK_ISA_AVX2_UNSET ) #define OPTION_MASK_ISA_FMA_UNSET OPTION_MASK_ISA_FMA #define OPTION_MASK_ISA_FXSR_UNSET OPTION_MASK_ISA_FXSR #define OPTION_MASK_ISA_XSAVE_UNSET \ (OPTION_MASK_ISA_XSAVE | OPTION_MASK_ISA_XSAVEOPT_UNSET \ | OPTION_MASK_ISA_XSAVES_UNSET | OPTION_MASK_ISA_XSAVEC_UNSET \ | OPTION_MASK_ISA_AVX_UNSET) #define OPTION_MASK_ISA2_XSAVE_UNSET OPTION_MASK_ISA2_AMX_TILE_UNSET #define OPTION_MASK_ISA_XSAVEOPT_UNSET OPTION_MASK_ISA_XSAVEOPT #define OPTION_MASK_ISA_AVX2_UNSET \ (OPTION_MASK_ISA_AVX2 | OPTION_MASK_ISA_AVX512F_UNSET) #define OPTION_MASK_ISA2_AVX2_UNSET \ (OPTION_MASK_ISA2_AVXVNNI_UNSET | OPTION_MASK_ISA2_AVX512F_UNSET) #define OPTION_MASK_ISA_AVX512F_UNSET \ (OPTION_MASK_ISA_AVX512F | OPTION_MASK_ISA_AVX512CD_UNSET \ | OPTION_MASK_ISA_AVX512PF_UNSET | OPTION_MASK_ISA_AVX512ER_UNSET \ | OPTION_MASK_ISA_AVX512DQ_UNSET | OPTION_MASK_ISA_AVX512BW_UNSET \ | OPTION_MASK_ISA_AVX512VL_UNSET | OPTION_MASK_ISA_AVX512IFMA_UNSET \ | OPTION_MASK_ISA_AVX512VBMI2_UNSET \ | OPTION_MASK_ISA_AVX512VNNI_UNSET \ | OPTION_MASK_ISA_AVX512VPOPCNTDQ_UNSET \ | OPTION_MASK_ISA_AVX512BITALG_UNSET) #define OPTION_MASK_ISA_AVX512CD_UNSET OPTION_MASK_ISA_AVX512CD #define OPTION_MASK_ISA_AVX512PF_UNSET OPTION_MASK_ISA_AVX512PF #define OPTION_MASK_ISA_AVX512ER_UNSET OPTION_MASK_ISA_AVX512ER #define OPTION_MASK_ISA_AVX512DQ_UNSET OPTION_MASK_ISA_AVX512DQ #define OPTION_MASK_ISA_AVX512BW_UNSET \ (OPTION_MASK_ISA_AVX512BW | OPTION_MASK_ISA_AVX512VBMI_UNSET) #define OPTION_MASK_ISA_AVX512VL_UNSET OPTION_MASK_ISA_AVX512VL #define OPTION_MASK_ISA_AVX512IFMA_UNSET OPTION_MASK_ISA_AVX512IFMA #define OPTION_MASK_ISA_AVX512VBMI_UNSET OPTION_MASK_ISA_AVX512VBMI #define OPTION_MASK_ISA2_AVX5124FMAPS_UNSET OPTION_MASK_ISA2_AVX5124FMAPS #define OPTION_MASK_ISA2_AVX5124VNNIW_UNSET OPTION_MASK_ISA2_AVX5124VNNIW #define OPTION_MASK_ISA_AVX512VBMI2_UNSET OPTION_MASK_ISA_AVX512VBMI2 #define OPTION_MASK_ISA_AVX512VNNI_UNSET OPTION_MASK_ISA_AVX512VNNI #define OPTION_MASK_ISA2_AVXVNNI_UNSET OPTION_MASK_ISA2_AVXVNNI #define OPTION_MASK_ISA_AVX512VPOPCNTDQ_UNSET OPTION_MASK_ISA_AVX512VPOPCNTDQ #define OPTION_MASK_ISA_AVX512BITALG_UNSET OPTION_MASK_ISA_AVX512BITALG #define OPTION_MASK_ISA2_AVX512BF16_UNSET OPTION_MASK_ISA2_AVX512BF16 #define OPTION_MASK_ISA_RTM_UNSET OPTION_MASK_ISA_RTM #define OPTION_MASK_ISA_PRFCHW_UNSET OPTION_MASK_ISA_PRFCHW #define OPTION_MASK_ISA_RDSEED_UNSET OPTION_MASK_ISA_RDSEED #define OPTION_MASK_ISA_ADX_UNSET OPTION_MASK_ISA_ADX #define OPTION_MASK_ISA_PREFETCHWT1_UNSET OPTION_MASK_ISA_PREFETCHWT1 #define OPTION_MASK_ISA_CLFLUSHOPT_UNSET OPTION_MASK_ISA_CLFLUSHOPT #define OPTION_MASK_ISA_XSAVEC_UNSET OPTION_MASK_ISA_XSAVEC #define OPTION_MASK_ISA_XSAVES_UNSET OPTION_MASK_ISA_XSAVES #define OPTION_MASK_ISA_CLWB_UNSET OPTION_MASK_ISA_CLWB #define OPTION_MASK_ISA2_MWAITX_UNSET OPTION_MASK_ISA2_MWAITX #define OPTION_MASK_ISA2_CLZERO_UNSET OPTION_MASK_ISA2_CLZERO #define OPTION_MASK_ISA_PKU_UNSET OPTION_MASK_ISA_PKU #define OPTION_MASK_ISA2_RDPID_UNSET OPTION_MASK_ISA2_RDPID #define OPTION_MASK_ISA_GFNI_UNSET OPTION_MASK_ISA_GFNI #define OPTION_MASK_ISA_SHSTK_UNSET OPTION_MASK_ISA_SHSTK #define OPTION_MASK_ISA2_VAES_UNSET OPTION_MASK_ISA2_VAES #define OPTION_MASK_ISA_VPCLMULQDQ_UNSET OPTION_MASK_ISA_VPCLMULQDQ #define OPTION_MASK_ISA_MOVDIRI_UNSET OPTION_MASK_ISA_MOVDIRI #define OPTION_MASK_ISA2_MOVDIR64B_UNSET OPTION_MASK_ISA2_MOVDIR64B #define OPTION_MASK_ISA2_WAITPKG_UNSET OPTION_MASK_ISA2_WAITPKG #define OPTION_MASK_ISA2_CLDEMOTE_UNSET OPTION_MASK_ISA2_CLDEMOTE #define OPTION_MASK_ISA2_ENQCMD_UNSET OPTION_MASK_ISA2_ENQCMD #define OPTION_MASK_ISA2_SERIALIZE_UNSET OPTION_MASK_ISA2_SERIALIZE #define OPTION_MASK_ISA2_AVX512VP2INTERSECT_UNSET OPTION_MASK_ISA2_AVX512VP2INTERSECT #define OPTION_MASK_ISA2_TSXLDTRK_UNSET OPTION_MASK_ISA2_TSXLDTRK #define OPTION_MASK_ISA2_AMX_TILE_UNSET OPTION_MASK_ISA2_AMX_TILE #define OPTION_MASK_ISA2_AMX_INT8_UNSET OPTION_MASK_ISA2_AMX_INT8 #define OPTION_MASK_ISA2_AMX_BF16_UNSET OPTION_MASK_ISA2_AMX_BF16 #define OPTION_MASK_ISA2_UINTR_UNSET OPTION_MASK_ISA2_UINTR #define OPTION_MASK_ISA2_HRESET_UNSET OPTION_MASK_ISA2_HRESET #define OPTION_MASK_ISA2_KL_UNSET \ (OPTION_MASK_ISA2_KL | OPTION_MASK_ISA2_WIDEKL_UNSET) #define OPTION_MASK_ISA2_WIDEKL_UNSET OPTION_MASK_ISA2_WIDEKL /* SSE4 includes both SSE4.1 and SSE4.2. -mno-sse4 should the same as -mno-sse4.1. */ #define OPTION_MASK_ISA_SSE4_UNSET OPTION_MASK_ISA_SSE4_1_UNSET #define OPTION_MASK_ISA_SSE4A_UNSET \ (OPTION_MASK_ISA_SSE4A | OPTION_MASK_ISA_FMA4_UNSET) #define OPTION_MASK_ISA_FMA4_UNSET \ (OPTION_MASK_ISA_FMA4 | OPTION_MASK_ISA_XOP_UNSET) #define OPTION_MASK_ISA_XOP_UNSET OPTION_MASK_ISA_XOP #define OPTION_MASK_ISA_LWP_UNSET OPTION_MASK_ISA_LWP #define OPTION_MASK_ISA_AES_UNSET OPTION_MASK_ISA_AES #define OPTION_MASK_ISA_SHA_UNSET OPTION_MASK_ISA_SHA #define OPTION_MASK_ISA_PCLMUL_UNSET OPTION_MASK_ISA_PCLMUL #define OPTION_MASK_ISA_ABM_UNSET OPTION_MASK_ISA_ABM #define OPTION_MASK_ISA2_PCONFIG_UNSET OPTION_MASK_ISA2_PCONFIG #define OPTION_MASK_ISA2_WBNOINVD_UNSET OPTION_MASK_ISA2_WBNOINVD #define OPTION_MASK_ISA2_SGX_UNSET OPTION_MASK_ISA2_SGX #define OPTION_MASK_ISA_BMI_UNSET OPTION_MASK_ISA_BMI #define OPTION_MASK_ISA_BMI2_UNSET OPTION_MASK_ISA_BMI2 #define OPTION_MASK_ISA_LZCNT_UNSET OPTION_MASK_ISA_LZCNT #define OPTION_MASK_ISA_TBM_UNSET OPTION_MASK_ISA_TBM #define OPTION_MASK_ISA_POPCNT_UNSET OPTION_MASK_ISA_POPCNT #define OPTION_MASK_ISA2_CX16_UNSET OPTION_MASK_ISA2_CX16 #define OPTION_MASK_ISA_SAHF_UNSET OPTION_MASK_ISA_SAHF #define OPTION_MASK_ISA2_MOVBE_UNSET OPTION_MASK_ISA2_MOVBE #define OPTION_MASK_ISA_CRC32_UNSET OPTION_MASK_ISA_CRC32 #define OPTION_MASK_ISA_FSGSBASE_UNSET OPTION_MASK_ISA_FSGSBASE #define OPTION_MASK_ISA_RDRND_UNSET OPTION_MASK_ISA_RDRND #define OPTION_MASK_ISA2_PTWRITE_UNSET OPTION_MASK_ISA2_PTWRITE #define OPTION_MASK_ISA_F16C_UNSET OPTION_MASK_ISA_F16C #define OPTION_MASK_ISA_GENERAL_REGS_ONLY_UNSET \ (OPTION_MASK_ISA_MMX_UNSET \ | OPTION_MASK_ISA_SSE_UNSET) #define OPTION_MASK_ISA2_AVX512F_UNSET \ (OPTION_MASK_ISA2_AVX512BF16_UNSET \ | OPTION_MASK_ISA2_AVX5124FMAPS_UNSET \ | OPTION_MASK_ISA2_AVX5124VNNIW_UNSET \ | OPTION_MASK_ISA2_AVX512VP2INTERSECT_UNSET) #define OPTION_MASK_ISA2_GENERAL_REGS_ONLY_UNSET \ (OPTION_MASK_ISA2_AVX512F_UNSET) #define OPTION_MASK_ISA2_AVX_UNSET OPTION_MASK_ISA2_AVX2_UNSET #define OPTION_MASK_ISA2_SSE4_2_UNSET OPTION_MASK_ISA2_AVX_UNSET #define OPTION_MASK_ISA2_SSE4_1_UNSET OPTION_MASK_ISA2_SSE4_2_UNSET #define OPTION_MASK_ISA2_SSE4_UNSET OPTION_MASK_ISA2_SSE4_1_UNSET #define OPTION_MASK_ISA2_SSSE3_UNSET OPTION_MASK_ISA2_SSE4_1_UNSET #define OPTION_MASK_ISA2_SSE3_UNSET OPTION_MASK_ISA2_SSSE3_UNSET #define OPTION_MASK_ISA2_SSE2_UNSET \ (OPTION_MASK_ISA2_SSE3_UNSET | OPTION_MASK_ISA2_KL_UNSET) #define OPTION_MASK_ISA2_SSE_UNSET OPTION_MASK_ISA2_SSE2_UNSET #define OPTION_MASK_ISA2_AVX512BW_UNSET OPTION_MASK_ISA2_AVX512BF16_UNSET /* Set 1 << value as value of -malign-FLAG option. */ static void set_malign_value (const char **flag, unsigned value) { char *r = XNEWVEC (char, 6); sprintf (r, "%d", 1 << value); *flag = r; } /* Implement TARGET_HANDLE_OPTION. */ bool ix86_handle_option (struct gcc_options *opts, struct gcc_options *opts_set ATTRIBUTE_UNUSED, const struct cl_decoded_option *decoded, location_t loc) { size_t code = decoded->opt_index; int value = decoded->value; switch (code) { case OPT_mgeneral_regs_only: if (value) { /* Disable MMX, SSE and x87 instructions if only general registers are allowed. */ opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_GENERAL_REGS_ONLY_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_GENERAL_REGS_ONLY_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_GENERAL_REGS_ONLY_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_GENERAL_REGS_ONLY_UNSET; opts->x_target_flags &= ~MASK_80387; } else gcc_unreachable (); return true; case OPT_mmmx: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_MMX_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_MMX_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_MMX_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_MMX_UNSET; } return true; case OPT_m3dnow: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_3DNOW_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_3DNOW_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_3DNOW_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_3DNOW_UNSET; } return true; case OPT_m3dnowa: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_3DNOW_A_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_3DNOW_A_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_3DNOW_A_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_3DNOW_A_UNSET; } return true; case OPT_msse: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSE_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SSE_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SSE_UNSET; } return true; case OPT_msse2: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE2_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSE2_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE2_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SSE2_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SSE2_UNSET; } return true; case OPT_msse3: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE3_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE3_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSE3_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE3_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SSE3_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SSE3_UNSET; } return true; case OPT_mssse3: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSSE3_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSSE3_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSSE3_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSSE3_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SSSE3_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SSSE3_UNSET; } return true; case OPT_msse4_1: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE4_1_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_1_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSE4_1_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_1_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SSE4_1_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SSE4_1_UNSET; } return true; case OPT_msse4_2: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE4_2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_2_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSE4_2_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_2_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SSE4_2_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SSE4_2_UNSET; } return true; case OPT_mavx: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX_UNSET; } return true; case OPT_mavx2: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX2_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX2_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX2_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX2_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX2_UNSET; } return true; case OPT_mavx512f: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512F_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512F_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512F_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512F_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX512F_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX512F_UNSET; } return true; case OPT_mavx512cd: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512CD_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512CD_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512CD_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512CD_UNSET; } return true; case OPT_mavx512pf: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512PF_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512PF_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512PF_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512PF_UNSET; } return true; case OPT_mavx512er: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512ER_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512ER_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512ER_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512ER_UNSET; } return true; case OPT_mrdpid: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_RDPID_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_RDPID_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_RDPID_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_RDPID_UNSET; } return true; case OPT_mgfni: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_GFNI_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_GFNI_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_GFNI_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_GFNI_UNSET; } return true; case OPT_mshstk: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SHSTK_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SHSTK_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SHSTK_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SHSTK_UNSET; } return true; case OPT_mvaes: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_VAES_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_VAES_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_VAES_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_VAES_UNSET; } return true; case OPT_mvpclmulqdq: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_VPCLMULQDQ_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_VPCLMULQDQ_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_VPCLMULQDQ_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_VPCLMULQDQ_UNSET; } return true; case OPT_mmovdiri: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_MOVDIRI_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_MOVDIRI_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_MOVDIRI_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_MOVDIRI_UNSET; } return true; case OPT_mmovdir64b: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_MOVDIR64B_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_MOVDIR64B_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_MOVDIR64B_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_MOVDIR64B_UNSET; } return true; case OPT_mcldemote: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_CLDEMOTE_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_CLDEMOTE_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_CLDEMOTE_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_CLDEMOTE_UNSET; } return true; case OPT_mwaitpkg: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_WAITPKG_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_WAITPKG_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_WAITPKG_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_WAITPKG_UNSET; } return true; case OPT_menqcmd: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_ENQCMD_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_ENQCMD_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_ENQCMD_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_ENQCMD_UNSET; } return true; case OPT_mkl: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_KL_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_KL_SET; /* The Keylocker instructions need XMM registers from SSE2. */ opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE2_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_KL_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_KL_UNSET; } return true; case OPT_mwidekl: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_WIDEKL_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_WIDEKL_SET; /* The Widekl instructions need XMM registers from SSE2. */ opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE2_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_WIDEKL_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_WIDEKL_UNSET; } return true; case OPT_mserialize: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_SERIALIZE_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SERIALIZE_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SERIALIZE_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SERIALIZE_UNSET; } return true; case OPT_muintr: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_UINTR_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_UINTR_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_UINTR_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_UINTR_UNSET; } return true; case OPT_mhreset: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_HRESET_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_HRESET_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_HRESET_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_HRESET_UNSET; } return true; case OPT_mavx5124fmaps: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AVX5124FMAPS_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX5124FMAPS_SET; opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512F_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512F_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX5124FMAPS_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX5124FMAPS_UNSET; } return true; case OPT_mavx5124vnniw: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AVX5124VNNIW_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX5124VNNIW_SET; opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512F_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512F_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX5124VNNIW_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX5124VNNIW_UNSET; } return true; case OPT_mavx512vbmi2: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512VBMI2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VBMI2_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512VBMI2_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VBMI2_UNSET; } return true; case OPT_mavx512vnni: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512VNNI_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VNNI_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512VNNI_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VNNI_UNSET; } return true; case OPT_mavx512vpopcntdq: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512VPOPCNTDQ_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VPOPCNTDQ_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512VPOPCNTDQ_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VPOPCNTDQ_UNSET; } return true; case OPT_mavx512bitalg: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512BITALG_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512BITALG_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512BITALG_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512BITALG_UNSET; } return true; case OPT_mavx512bf16: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AVX512BF16_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX512BF16_SET; opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512BW_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512BW_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX512BF16_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX512BF16_UNSET; } return true; case OPT_mavxvnni: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AVXVNNI_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVXVNNI_SET; opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX2_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVXVNNI_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVXVNNI_UNSET; } return true; case OPT_msgx: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_SGX_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SGX_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SGX_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SGX_UNSET; } return true; case OPT_mpconfig: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_PCONFIG_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_PCONFIG_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_PCONFIG_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_PCONFIG_UNSET; } return true; case OPT_mwbnoinvd: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_WBNOINVD_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_WBNOINVD_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_WBNOINVD_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_WBNOINVD_UNSET; } return true; case OPT_mavx512dq: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512DQ_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512DQ_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512DQ_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512DQ_UNSET; } return true; case OPT_mavx512bw: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512BW_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512BW_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512BW_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512BW_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX512BW_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX512BW_UNSET; } return true; case OPT_mavx512vl: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512VL_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VL_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512VL_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VL_UNSET; } return true; case OPT_mavx512ifma: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512IFMA_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512IFMA_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512IFMA_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512IFMA_UNSET; } return true; case OPT_mavx512vbmi: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512VBMI_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VBMI_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AVX512VBMI_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512VBMI_UNSET; } return true; case OPT_mavx512vp2intersect: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AVX512VP2INTERSECT_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX512VP2INTERSECT_SET; opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AVX512DQ_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AVX512DQ_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AVX512VP2INTERSECT_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AVX512VP2INTERSECT_UNSET; } return true; case OPT_mtsxldtrk: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_TSXLDTRK_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_TSXLDTRK_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_TSXLDTRK_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_TSXLDTRK_UNSET; } return true; case OPT_mamx_tile: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AMX_TILE_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AMX_TILE_SET; opts->x_ix86_isa_flags |= OPTION_MASK_ISA_XSAVE_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVE_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AMX_TILE_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AMX_TILE_UNSET; } return true; case OPT_mamx_int8: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AMX_INT8_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AMX_INT8_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AMX_INT8_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AMX_INT8_UNSET; } return true; case OPT_mamx_bf16: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_AMX_BF16_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AMX_BF16_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_AMX_BF16_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_AMX_BF16_UNSET; } return true; case OPT_mfma: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_FMA_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FMA_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_FMA_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FMA_UNSET; } return true; case OPT_mrtm: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_RTM_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_RTM_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_RTM_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_RTM_UNSET; } return true; case OPT_msse4: opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE4_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_SET; return true; case OPT_mno_sse4: opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSE4_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_SSE4_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_SSE4_UNSET; return true; case OPT_msse4a: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SSE4A_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4A_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SSE4A_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SSE4A_UNSET; } return true; case OPT_mfma4: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_FMA4_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FMA4_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_FMA4_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FMA4_UNSET; } return true; case OPT_mxop: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_XOP_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XOP_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_XOP_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XOP_UNSET; } return true; case OPT_mlwp: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_LWP_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_LWP_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_LWP_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_LWP_UNSET; } return true; case OPT_mabm: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_ABM_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_ABM_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_ABM_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_ABM_UNSET; } return true; case OPT_mbmi: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_BMI_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_BMI_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_BMI_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_BMI_UNSET; } return true; case OPT_mbmi2: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_BMI2_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_BMI2_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_BMI2_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_BMI2_UNSET; } return true; case OPT_mlzcnt: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_LZCNT_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_LZCNT_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_LZCNT_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_LZCNT_UNSET; } return true; case OPT_mtbm: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_TBM_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_TBM_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_TBM_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_TBM_UNSET; } return true; case OPT_mpopcnt: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_POPCNT_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_POPCNT_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_POPCNT_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_POPCNT_UNSET; } return true; case OPT_msahf: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SAHF_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SAHF_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SAHF_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SAHF_UNSET; } return true; case OPT_mcx16: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_CX16_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_CX16_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_CX16_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_CX16_UNSET; } return true; case OPT_mmovbe: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_MOVBE_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_MOVBE_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_MOVBE_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_MOVBE_UNSET; } return true; case OPT_mcrc32: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_CRC32_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_CRC32_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_CRC32_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_CRC32_UNSET; } return true; case OPT_maes: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_AES_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AES_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_AES_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_AES_UNSET; } return true; case OPT_msha: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_SHA_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SHA_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_SHA_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_SHA_UNSET; } return true; case OPT_mpclmul: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_PCLMUL_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PCLMUL_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_PCLMUL_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PCLMUL_UNSET; } return true; case OPT_mfsgsbase: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_FSGSBASE_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FSGSBASE_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_FSGSBASE_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FSGSBASE_UNSET; } return true; case OPT_mrdrnd: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_RDRND_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_RDRND_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_RDRND_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_RDRND_UNSET; } return true; case OPT_mptwrite: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_PTWRITE_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_PTWRITE_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_PTWRITE_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_PTWRITE_UNSET; } return true; case OPT_mf16c: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_F16C_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_F16C_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_F16C_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_F16C_UNSET; } return true; case OPT_mfxsr: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_FXSR_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FXSR_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_FXSR_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_FXSR_UNSET; } return true; case OPT_mxsave: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_XSAVE_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVE_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_XSAVE_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVE_UNSET; opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_XSAVE_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_XSAVE_UNSET; } return true; case OPT_mxsaveopt: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_XSAVEOPT_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVEOPT_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_XSAVEOPT_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVEOPT_UNSET; } return true; case OPT_mxsavec: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_XSAVEC_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVEC_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_XSAVEC_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVEC_UNSET; } return true; case OPT_mxsaves: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_XSAVES_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVES_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_XSAVES_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_XSAVES_UNSET; } return true; case OPT_mrdseed: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_RDSEED_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_RDSEED_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_RDSEED_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_RDSEED_UNSET; } return true; case OPT_mprfchw: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_PRFCHW_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PRFCHW_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_PRFCHW_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PRFCHW_UNSET; } return true; case OPT_madx: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_ADX_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_ADX_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_ADX_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_ADX_UNSET; } return true; case OPT_mprefetchwt1: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_PREFETCHWT1_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PREFETCHWT1_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_PREFETCHWT1_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PREFETCHWT1_UNSET; } return true; case OPT_mclflushopt: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_CLFLUSHOPT_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_CLFLUSHOPT_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_CLFLUSHOPT_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_CLFLUSHOPT_UNSET; } return true; case OPT_mclwb: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_CLWB_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_CLWB_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_CLWB_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_CLWB_UNSET; } return true; case OPT_mmwaitx: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_MWAITX_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_MWAITX_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_MWAITX_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_MWAITX_UNSET; } return true; case OPT_mclzero: if (value) { opts->x_ix86_isa_flags2 |= OPTION_MASK_ISA2_CLZERO_SET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_CLZERO_SET; } else { opts->x_ix86_isa_flags2 &= ~OPTION_MASK_ISA2_CLZERO_UNSET; opts->x_ix86_isa_flags2_explicit |= OPTION_MASK_ISA2_CLZERO_UNSET; } return true; case OPT_mpku: if (value) { opts->x_ix86_isa_flags |= OPTION_MASK_ISA_PKU_SET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PKU_SET; } else { opts->x_ix86_isa_flags &= ~OPTION_MASK_ISA_PKU_UNSET; opts->x_ix86_isa_flags_explicit |= OPTION_MASK_ISA_PKU_UNSET; } return true; case OPT_malign_loops_: warning_at (loc, 0, "%<-malign-loops%> is obsolete, " "use %<-falign-loops%>"); if (value > MAX_CODE_ALIGN) error_at (loc, "%<-malign-loops=%d%> is not between 0 and %d", value, MAX_CODE_ALIGN); else set_malign_value (&opts->x_str_align_loops, value); return true; case OPT_malign_jumps_: warning_at (loc, 0, "%<-malign-jumps%> is obsolete, " "use %<-falign-jumps%>"); if (value > MAX_CODE_ALIGN) error_at (loc, "%<-malign-jumps=%d%> is not between 0 and %d", value, MAX_CODE_ALIGN); else set_malign_value (&opts->x_str_align_jumps, value); return true; case OPT_malign_functions_: warning_at (loc, 0, "%<-malign-functions%> is obsolete, " "use %<-falign-functions%>"); if (value > MAX_CODE_ALIGN) error_at (loc, "%<-malign-functions=%d%> is not between 0 and %d", value, MAX_CODE_ALIGN); else set_malign_value (&opts->x_str_align_functions, value); return true; case OPT_mbranch_cost_: if (value > 5) { error_at (loc, "%<-mbranch-cost=%d%> is not between 0 and 5", value); opts->x_ix86_branch_cost = 5; } return true; default: return true; } } static const struct default_options ix86_option_optimization_table[] = { /* Enable redundant extension instructions removal at -O2 and higher. */ { OPT_LEVELS_2_PLUS, OPT_free, NULL, 1 }, /* Enable function splitting at -O2 and higher. */ { OPT_LEVELS_2_PLUS, OPT_freorder_blocks_and_partition, NULL, 1 }, /* The STC algorithm produces the smallest code at -Os, for x86. */ { OPT_LEVELS_2_PLUS, OPT_freorder_blocks_algorithm_, NULL, REORDER_BLOCKS_ALGORITHM_STC }, /* Turn off -fschedule-insns by default. It tends to make the problem with not enough registers even worse. */ { OPT_LEVELS_ALL, OPT_fschedule_insns, NULL, 0 }, #ifdef SUBTARGET_OPTIMIZATION_OPTIONS SUBTARGET_OPTIMIZATION_OPTIONS, #endif { OPT_LEVELS_NONE, 0, NULL, 0 } }; /* Implement TARGET_OPTION_INIT_STRUCT. */ static void ix86_option_init_struct (struct gcc_options *opts) { if (TARGET_MACHO) /* The Darwin libraries never set errno, so we might as well avoid calling them when that's the only reason we would. */ opts->x_flag_errno_math = 0; opts->x_flag_pcc_struct_return = 2; opts->x_flag_asynchronous_unwind_tables = 2; } /* On the x86 -fsplit-stack and -fstack-protector both use the same field in the TCB, so they cannot be used together. */ static bool ix86_supports_split_stack (bool report ATTRIBUTE_UNUSED, struct gcc_options *opts ATTRIBUTE_UNUSED) { bool ret = true; #ifndef TARGET_THREAD_SPLIT_STACK_OFFSET if (report) error ("%<-fsplit-stack%> currently only supported on GNU/Linux"); ret = false; #else if (!HAVE_GAS_CFI_PERSONALITY_DIRECTIVE) { if (report) error ("%<-fsplit-stack%> requires " "assembler support for CFI directives"); ret = false; } #endif return ret; } /* Implement TARGET_EXCEPT_UNWIND_INFO. */ static enum unwind_info_type i386_except_unwind_info (struct gcc_options *opts) { /* Honor the --enable-sjlj-exceptions configure switch. */ #ifdef CONFIG_SJLJ_EXCEPTIONS if (CONFIG_SJLJ_EXCEPTIONS) return UI_SJLJ; #endif /* On windows 64, prefer SEH exceptions over anything else. */ if (TARGET_64BIT && DEFAULT_ABI == MS_ABI && opts->x_flag_unwind_tables) return UI_SEH; if (DWARF2_UNWIND_INFO) return UI_DWARF2; return UI_SJLJ; } #undef TARGET_EXCEPT_UNWIND_INFO #define TARGET_EXCEPT_UNWIND_INFO i386_except_unwind_info #undef TARGET_DEFAULT_TARGET_FLAGS #define TARGET_DEFAULT_TARGET_FLAGS \ (TARGET_DEFAULT \ | TARGET_SUBTARGET_DEFAULT \ | TARGET_TLS_DIRECT_SEG_REFS_DEFAULT) #undef TARGET_HANDLE_OPTION #define TARGET_HANDLE_OPTION ix86_handle_option #undef TARGET_OPTION_OPTIMIZATION_TABLE #define TARGET_OPTION_OPTIMIZATION_TABLE ix86_option_optimization_table #undef TARGET_OPTION_INIT_STRUCT #define TARGET_OPTION_INIT_STRUCT ix86_option_init_struct #undef TARGET_SUPPORTS_SPLIT_STACK #define TARGET_SUPPORTS_SPLIT_STACK ix86_supports_split_stack /* This table must be in sync with enum processor_type in i386.h. */ const char *const processor_names[] = { "generic", "i386", "i486", "pentium", "lakemont", "pentiumpro", "pentium4", "nocona", "core2", "nehalem", "sandybridge", "haswell", "bonnell", "silvermont", "goldmont", "goldmont-plus", "tremont", "knl", "knm", "skylake", "skylake-avx512", "cannonlake", "icelake-client", "icelake-server", "cascadelake", "tigerlake", "cooperlake", "sapphirerapids", "alderlake", "intel", "geode", "k6", "athlon", "k8", "amdfam10", "bdver1", "bdver2", "bdver3", "bdver4", "btver1", "btver2", "znver1", "znver2", "znver3" }; /* Guarantee that the array is aligned with enum processor_type. */ STATIC_ASSERT (ARRAY_SIZE (processor_names) == PROCESSOR_max); const pta processor_alias_table[] = { {"i386", PROCESSOR_I386, CPU_NONE, 0, 0, P_NONE}, {"i486", PROCESSOR_I486, CPU_NONE, 0, 0, P_NONE}, {"i586", PROCESSOR_PENTIUM, CPU_PENTIUM, 0, 0, P_NONE}, {"pentium", PROCESSOR_PENTIUM, CPU_PENTIUM, 0, 0, P_NONE}, {"lakemont", PROCESSOR_LAKEMONT, CPU_PENTIUM, PTA_NO_80387, 0, P_NONE}, {"pentium-mmx", PROCESSOR_PENTIUM, CPU_PENTIUM, PTA_MMX, 0, P_NONE}, {"winchip-c6", PROCESSOR_I486, CPU_NONE, PTA_MMX, 0, P_NONE}, {"winchip2", PROCESSOR_I486, CPU_NONE, PTA_MMX | PTA_3DNOW, 0, P_NONE}, {"c3", PROCESSOR_I486, CPU_NONE, PTA_MMX | PTA_3DNOW, 0, P_NONE}, {"samuel-2", PROCESSOR_I486, CPU_NONE, PTA_MMX | PTA_3DNOW, 0, P_NONE}, {"c3-2", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_SSE | PTA_FXSR, 0, P_NONE}, {"nehemiah", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_SSE | PTA_FXSR, 0, P_NONE}, {"c7", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_FXSR, 0, P_NONE}, {"esther", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_FXSR, 0, P_NONE}, {"i686", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, 0, 0, P_NONE}, {"pentiumpro", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, 0, 0, P_NONE}, {"pentium2", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_FXSR, 0, P_NONE}, {"pentium3", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_SSE | PTA_FXSR, 0, P_NONE}, {"pentium3m", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_SSE | PTA_FXSR, 0, P_NONE}, {"pentium-m", PROCESSOR_PENTIUMPRO, CPU_PENTIUMPRO, PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_FXSR, 0, P_NONE}, {"pentium4", PROCESSOR_PENTIUM4, CPU_NONE, PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_FXSR, 0, P_NONE}, {"pentium4m", PROCESSOR_PENTIUM4, CPU_NONE, PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_FXSR, 0, P_NONE}, {"prescott", PROCESSOR_NOCONA, CPU_NONE, PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_FXSR, 0, P_NONE}, {"nocona", PROCESSOR_NOCONA, CPU_NONE, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_CX16 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"core2", PROCESSOR_CORE2, CPU_CORE2, PTA_CORE2, M_CPU_TYPE (INTEL_CORE2), P_PROC_SSSE3}, {"nehalem", PROCESSOR_NEHALEM, CPU_NEHALEM, PTA_NEHALEM, M_CPU_SUBTYPE (INTEL_COREI7_NEHALEM), P_PROC_DYNAMIC}, {"corei7", PROCESSOR_NEHALEM, CPU_NEHALEM, PTA_NEHALEM, M_CPU_TYPE (INTEL_COREI7), P_PROC_DYNAMIC}, {"westmere", PROCESSOR_NEHALEM, CPU_NEHALEM, PTA_WESTMERE, M_CPU_SUBTYPE (INTEL_COREI7_WESTMERE), P_PROC_DYNAMIC}, {"sandybridge", PROCESSOR_SANDYBRIDGE, CPU_NEHALEM, PTA_SANDYBRIDGE, M_CPU_SUBTYPE (INTEL_COREI7_SANDYBRIDGE), P_PROC_DYNAMIC}, {"corei7-avx", PROCESSOR_SANDYBRIDGE, CPU_NEHALEM, PTA_SANDYBRIDGE, 0, P_PROC_DYNAMIC}, {"ivybridge", PROCESSOR_SANDYBRIDGE, CPU_NEHALEM, PTA_IVYBRIDGE, M_CPU_SUBTYPE (INTEL_COREI7_IVYBRIDGE), P_PROC_DYNAMIC}, {"core-avx-i", PROCESSOR_SANDYBRIDGE, CPU_NEHALEM, PTA_IVYBRIDGE, 0, P_PROC_DYNAMIC}, {"haswell", PROCESSOR_HASWELL, CPU_HASWELL, PTA_HASWELL, M_CPU_SUBTYPE (INTEL_COREI7_HASWELL), P_PROC_DYNAMIC}, {"core-avx2", PROCESSOR_HASWELL, CPU_HASWELL, PTA_HASWELL, 0, P_PROC_DYNAMIC}, {"broadwell", PROCESSOR_HASWELL, CPU_HASWELL, PTA_BROADWELL, M_CPU_SUBTYPE (INTEL_COREI7_BROADWELL), P_PROC_DYNAMIC}, {"skylake", PROCESSOR_SKYLAKE, CPU_HASWELL, PTA_SKYLAKE, M_CPU_SUBTYPE (INTEL_COREI7_SKYLAKE), P_PROC_AVX2}, {"skylake-avx512", PROCESSOR_SKYLAKE_AVX512, CPU_HASWELL, PTA_SKYLAKE_AVX512, M_CPU_SUBTYPE (INTEL_COREI7_SKYLAKE_AVX512), P_PROC_AVX512F}, {"cannonlake", PROCESSOR_CANNONLAKE, CPU_HASWELL, PTA_CANNONLAKE, M_CPU_SUBTYPE (INTEL_COREI7_CANNONLAKE), P_PROC_AVX512F}, {"icelake-client", PROCESSOR_ICELAKE_CLIENT, CPU_HASWELL, PTA_ICELAKE_CLIENT, M_CPU_SUBTYPE (INTEL_COREI7_ICELAKE_CLIENT), P_PROC_AVX512F}, {"icelake-server", PROCESSOR_ICELAKE_SERVER, CPU_HASWELL, PTA_ICELAKE_SERVER, M_CPU_SUBTYPE (INTEL_COREI7_ICELAKE_SERVER), P_PROC_AVX512F}, {"cascadelake", PROCESSOR_CASCADELAKE, CPU_HASWELL, PTA_CASCADELAKE, M_CPU_SUBTYPE (INTEL_COREI7_CASCADELAKE), P_PROC_AVX512F}, {"tigerlake", PROCESSOR_TIGERLAKE, CPU_HASWELL, PTA_TIGERLAKE, M_CPU_SUBTYPE (INTEL_COREI7_TIGERLAKE), P_PROC_AVX512F}, {"cooperlake", PROCESSOR_COOPERLAKE, CPU_HASWELL, PTA_COOPERLAKE, M_CPU_SUBTYPE (INTEL_COREI7_COOPERLAKE), P_PROC_AVX512F}, {"sapphirerapids", PROCESSOR_SAPPHIRERAPIDS, CPU_HASWELL, PTA_SAPPHIRERAPIDS, M_CPU_SUBTYPE (INTEL_COREI7_SAPPHIRERAPIDS), P_PROC_AVX512F}, {"alderlake", PROCESSOR_ALDERLAKE, CPU_HASWELL, PTA_ALDERLAKE, M_CPU_SUBTYPE (INTEL_COREI7_ALDERLAKE), P_PROC_AVX2}, {"bonnell", PROCESSOR_BONNELL, CPU_ATOM, PTA_BONNELL, M_CPU_TYPE (INTEL_BONNELL), P_PROC_SSSE3}, {"atom", PROCESSOR_BONNELL, CPU_ATOM, PTA_BONNELL, M_CPU_TYPE (INTEL_BONNELL), P_PROC_SSSE3}, {"silvermont", PROCESSOR_SILVERMONT, CPU_SLM, PTA_SILVERMONT, M_CPU_TYPE (INTEL_SILVERMONT), P_PROC_SSE4_2}, {"slm", PROCESSOR_SILVERMONT, CPU_SLM, PTA_SILVERMONT, M_CPU_TYPE (INTEL_SILVERMONT), P_PROC_SSE4_2}, {"goldmont", PROCESSOR_GOLDMONT, CPU_GLM, PTA_GOLDMONT, M_CPU_TYPE (INTEL_GOLDMONT), P_PROC_SSE4_2}, {"goldmont-plus", PROCESSOR_GOLDMONT_PLUS, CPU_GLM, PTA_GOLDMONT_PLUS, M_CPU_TYPE (INTEL_GOLDMONT_PLUS), P_PROC_SSE4_2}, {"tremont", PROCESSOR_TREMONT, CPU_GLM, PTA_TREMONT, M_CPU_TYPE (INTEL_TREMONT), P_PROC_SSE4_2}, {"knl", PROCESSOR_KNL, CPU_SLM, PTA_KNL, M_CPU_TYPE (INTEL_KNL), P_PROC_AVX512F}, {"knm", PROCESSOR_KNM, CPU_SLM, PTA_KNM, M_CPU_TYPE (INTEL_KNM), P_PROC_AVX512F}, {"intel", PROCESSOR_INTEL, CPU_SLM, PTA_NEHALEM, M_VENDOR (VENDOR_INTEL), P_NONE}, {"geode", PROCESSOR_GEODE, CPU_GEODE, PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_PREFETCH_SSE, 0, P_NONE}, {"k6", PROCESSOR_K6, CPU_K6, PTA_MMX, 0, P_NONE}, {"k6-2", PROCESSOR_K6, CPU_K6, PTA_MMX | PTA_3DNOW, 0, P_NONE}, {"k6-3", PROCESSOR_K6, CPU_K6, PTA_MMX | PTA_3DNOW, 0, P_NONE}, {"athlon", PROCESSOR_ATHLON, CPU_ATHLON, PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_PREFETCH_SSE, 0, P_NONE}, {"athlon-tbird", PROCESSOR_ATHLON, CPU_ATHLON, PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_PREFETCH_SSE, 0, P_NONE}, {"athlon-4", PROCESSOR_ATHLON, CPU_ATHLON, PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_FXSR, 0, P_NONE}, {"athlon-xp", PROCESSOR_ATHLON, CPU_ATHLON, PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_FXSR, 0, P_NONE}, {"athlon-mp", PROCESSOR_ATHLON, CPU_ATHLON, PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_FXSR, 0, P_NONE}, {"x86-64", PROCESSOR_K8, CPU_K8, PTA_X86_64_BASELINE, 0, P_NONE}, {"x86-64-v2", PROCESSOR_K8, CPU_GENERIC, PTA_X86_64_V2 | PTA_NO_TUNE, 0, P_NONE}, {"x86-64-v3", PROCESSOR_K8, CPU_GENERIC, PTA_X86_64_V3 | PTA_NO_TUNE, 0, P_NONE}, {"x86-64-v4", PROCESSOR_K8, CPU_GENERIC, PTA_X86_64_V4 | PTA_NO_TUNE, 0, P_NONE}, {"eden-x2", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_FXSR, 0, P_NONE}, {"nano", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_FXSR, 0, P_NONE}, {"nano-1000", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_FXSR, 0, P_NONE}, {"nano-2000", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_FXSR, 0, P_NONE}, {"nano-3000", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_SSE4_1 | PTA_FXSR, 0, P_NONE}, {"nano-x2", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_SSE4_1 | PTA_FXSR, 0, P_NONE}, {"eden-x4", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_SSE4_1 | PTA_FXSR, 0, P_NONE}, {"nano-x4", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_SSE4_1 | PTA_FXSR, 0, P_NONE}, {"k8", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"k8-sse3", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"opteron", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"opteron-sse3", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"athlon64", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"athlon64-sse3", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"athlon-fx", PROCESSOR_K8, CPU_K8, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_NO_SAHF | PTA_FXSR, 0, P_NONE}, {"amdfam10", PROCESSOR_AMDFAM10, CPU_AMDFAM10, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_PRFCHW | PTA_FXSR, 0, P_PROC_DYNAMIC}, {"barcelona", PROCESSOR_AMDFAM10, CPU_AMDFAM10, PTA_64BIT | PTA_MMX | PTA_3DNOW | PTA_3DNOW_A | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_PRFCHW | PTA_FXSR, M_CPU_SUBTYPE (AMDFAM10H_BARCELONA), P_PROC_DYNAMIC}, {"bdver1", PROCESSOR_BDVER1, CPU_BDVER1, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_SSSE3 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_FMA4 | PTA_XOP | PTA_LWP | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE, M_CPU_TYPE (AMDFAM15H_BDVER1), P_PROC_XOP}, {"bdver2", PROCESSOR_BDVER2, CPU_BDVER2, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_SSSE3 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_FMA4 | PTA_XOP | PTA_LWP | PTA_BMI | PTA_TBM | PTA_F16C | PTA_FMA | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE, M_CPU_TYPE (AMDFAM15H_BDVER2), P_PROC_FMA}, {"bdver3", PROCESSOR_BDVER3, CPU_BDVER3, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_SSSE3 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_FMA4 | PTA_XOP | PTA_LWP | PTA_BMI | PTA_TBM | PTA_F16C | PTA_FMA | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE | PTA_XSAVEOPT | PTA_FSGSBASE, M_CPU_SUBTYPE (AMDFAM15H_BDVER3), P_PROC_FMA}, {"bdver4", PROCESSOR_BDVER4, CPU_BDVER4, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_SSSE3 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_AVX2 | PTA_FMA4 | PTA_XOP | PTA_LWP | PTA_BMI | PTA_BMI2 | PTA_TBM | PTA_F16C | PTA_FMA | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE | PTA_XSAVEOPT | PTA_FSGSBASE | PTA_RDRND | PTA_MOVBE | PTA_MWAITX, M_CPU_SUBTYPE (AMDFAM15H_BDVER4), P_PROC_AVX2}, {"znver1", PROCESSOR_ZNVER1, CPU_ZNVER1, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_SSSE3 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_AVX2 | PTA_BMI | PTA_BMI2 | PTA_F16C | PTA_FMA | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE | PTA_XSAVEOPT | PTA_FSGSBASE | PTA_RDRND | PTA_MOVBE | PTA_MWAITX | PTA_ADX | PTA_RDSEED | PTA_CLZERO | PTA_CLFLUSHOPT | PTA_XSAVEC | PTA_XSAVES | PTA_SHA | PTA_LZCNT | PTA_POPCNT, M_CPU_SUBTYPE (AMDFAM17H_ZNVER1), P_PROC_AVX2}, {"znver2", PROCESSOR_ZNVER2, CPU_ZNVER2, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_SSSE3 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_AVX2 | PTA_BMI | PTA_BMI2 | PTA_F16C | PTA_FMA | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE | PTA_XSAVEOPT | PTA_FSGSBASE | PTA_RDRND | PTA_MOVBE | PTA_MWAITX | PTA_ADX | PTA_RDSEED | PTA_CLZERO | PTA_CLFLUSHOPT | PTA_XSAVEC | PTA_XSAVES | PTA_SHA | PTA_LZCNT | PTA_POPCNT | PTA_CLWB | PTA_RDPID | PTA_WBNOINVD, M_CPU_SUBTYPE (AMDFAM17H_ZNVER2), P_PROC_AVX2}, {"znver3", PROCESSOR_ZNVER3, CPU_ZNVER3, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSE4A | PTA_CX16 | PTA_ABM | PTA_SSSE3 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_AVX2 | PTA_BMI | PTA_BMI2 | PTA_F16C | PTA_FMA | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE | PTA_XSAVEOPT | PTA_FSGSBASE | PTA_RDRND | PTA_MOVBE | PTA_MWAITX | PTA_ADX | PTA_RDSEED | PTA_CLZERO | PTA_CLFLUSHOPT | PTA_XSAVEC | PTA_XSAVES | PTA_SHA | PTA_LZCNT | PTA_POPCNT | PTA_CLWB | PTA_RDPID | PTA_WBNOINVD | PTA_VAES | PTA_VPCLMULQDQ | PTA_PKU, M_CPU_SUBTYPE (AMDFAM19H_ZNVER3), P_PROC_AVX2}, {"btver1", PROCESSOR_BTVER1, CPU_GENERIC, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_SSE4A | PTA_ABM | PTA_CX16 | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE, M_CPU_SUBTYPE (AMDFAM15H_BDVER1), P_PROC_SSE4_A}, {"btver2", PROCESSOR_BTVER2, CPU_BTVER2, PTA_64BIT | PTA_MMX | PTA_SSE | PTA_SSE2 | PTA_SSE3 | PTA_SSSE3 | PTA_SSE4A | PTA_ABM | PTA_CX16 | PTA_SSE4_1 | PTA_SSE4_2 | PTA_AES | PTA_PCLMUL | PTA_AVX | PTA_BMI | PTA_F16C | PTA_MOVBE | PTA_PRFCHW | PTA_FXSR | PTA_XSAVE | PTA_XSAVEOPT, M_CPU_TYPE (AMD_BTVER2), P_PROC_BMI}, {"generic", PROCESSOR_GENERIC, CPU_GENERIC, PTA_64BIT | PTA_HLE /* flags are only used for -march switch. */, 0, P_NONE}, {"amd", PROCESSOR_GENERIC, CPU_GENERIC, 0, M_VENDOR (VENDOR_AMD), P_NONE}, {"amdfam10h", PROCESSOR_GENERIC, CPU_GENERIC, 0, M_CPU_TYPE (AMDFAM10H), P_NONE}, {"amdfam15h", PROCESSOR_GENERIC, CPU_GENERIC, 0, M_CPU_TYPE (AMDFAM15H), P_NONE}, {"amdfam17h", PROCESSOR_GENERIC, CPU_GENERIC, 0, M_CPU_TYPE (AMDFAM17H), P_NONE}, {"amdfam19h", PROCESSOR_GENERIC, CPU_GENERIC, 0, M_CPU_TYPE (AMDFAM19H), P_NONE}, {"shanghai", PROCESSOR_GENERIC, CPU_GENERIC, 0, M_CPU_TYPE (AMDFAM10H_SHANGHAI), P_NONE}, {"istanbul", PROCESSOR_GENERIC, CPU_GENERIC, 0, M_CPU_TYPE (AMDFAM10H_ISTANBUL), P_NONE}, }; /* NB: processor_alias_table stops at the "generic" entry. */ int const pta_size = ARRAY_SIZE (processor_alias_table) - 6; unsigned int const num_arch_names = ARRAY_SIZE (processor_alias_table); /* Provide valid option values for -march and -mtune options. */ vec ix86_get_valid_option_values (int option_code, const char *prefix ATTRIBUTE_UNUSED) { vec v; v.create (0); opt_code opt = (opt_code) option_code; switch (opt) { case OPT_march_: for (unsigned i = 0; i < pta_size; i++) { const char *name = processor_alias_table[i].name; gcc_checking_assert (name != NULL); v.safe_push (name); } #ifdef HAVE_LOCAL_CPU_DETECT /* Add also "native" as possible value. */ v.safe_push ("native"); #endif break; case OPT_mtune_: for (unsigned i = 0; i < PROCESSOR_max; i++) { const char *name = processor_names[i]; gcc_checking_assert (name != NULL); v.safe_push (name); } break; default: break; } return v; } #undef TARGET_GET_VALID_OPTION_VALUES #define TARGET_GET_VALID_OPTION_VALUES ix86_get_valid_option_values struct gcc_targetm_common targetm_common = TARGETM_COMMON_INITIALIZER;