; Options for the IA-32 and AMD64 ports of the compiler. ; Copyright (C) 2005, 2006, 2007, 2008, 2009, ; 2010, 2011 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 ; . HeaderInclude config/i386/i386-opts.h ; Bit flags that specify the ISA we are compiling for. Variable int ix86_isa_flags = TARGET_64BIT_DEFAULT | TARGET_SUBTARGET_ISA_DEFAULT ; A mask of ix86_isa_flags that includes bit X if X was set or cleared ; on the command line. Variable int ix86_isa_flags_explicit ;; Definitions to add to the cl_target_option structure ;; -march= processor TargetSave unsigned char arch ;; -mtune= processor TargetSave unsigned char tune ;; CPU schedule model TargetSave unsigned char schedule ;; branch cost TargetSave unsigned char branch_cost ;; which flags were passed by the user TargetSave int x_ix86_isa_flags_explicit ;; which flags were passed by the user TargetSave int ix86_target_flags_explicit ;; whether -mtune was not specified TargetSave unsigned char tune_defaulted ;; whether -march was specified TargetSave unsigned char arch_specified ;; x86 options m128bit-long-double Target RejectNegative Report Mask(128BIT_LONG_DOUBLE) Save sizeof(long double) is 16 m80387 Target Report Mask(80387) Save Use hardware fp m96bit-long-double Target RejectNegative Report InverseMask(128BIT_LONG_DOUBLE) Save sizeof(long double) is 12 maccumulate-outgoing-args Target Report Mask(ACCUMULATE_OUTGOING_ARGS) Save Reserve space for outgoing arguments in the function prologue malign-double Target Report Mask(ALIGN_DOUBLE) Save Align some doubles on dword boundary malign-functions= Target RejectNegative Joined UInteger Function starts are aligned to this power of 2 malign-jumps= Target RejectNegative Joined UInteger Jump targets are aligned to this power of 2 malign-loops= Target RejectNegative Joined UInteger Loop code aligned to this power of 2 malign-stringops Target RejectNegative Report InverseMask(NO_ALIGN_STRINGOPS, ALIGN_STRINGOPS) Save Align destination of the string operations march= Target RejectNegative Joined Var(ix86_arch_string) Generate code for given CPU masm= Target RejectNegative Joined Enum(asm_dialect) Var(ix86_asm_dialect) Init(ASM_ATT) Use given assembler dialect Enum Name(asm_dialect) Type(enum asm_dialect) Known assembler dialects (for use with the -masm-dialect= option): EnumValue Enum(asm_dialect) String(intel) Value(ASM_INTEL) EnumValue Enum(asm_dialect) String(att) Value(ASM_ATT) mbranch-cost= Target RejectNegative Joined UInteger Var(ix86_branch_cost) Branches are this expensive (1-5, arbitrary units) mlarge-data-threshold= Target RejectNegative Joined UInteger Var(ix86_section_threshold) Init(65536) Data greater than given threshold will go into .ldata section in x86-64 medium model mcmodel= Target RejectNegative Joined Enum(cmodel) Var(ix86_cmodel) Init(CM_32) Use given x86-64 code model Enum Name(cmodel) Type(enum cmodel) Known code models (for use with the -mcmodel= option): EnumValue Enum(cmodel) String(small) Value(CM_SMALL) EnumValue Enum(cmodel) String(medium) Value(CM_MEDIUM) EnumValue Enum(cmodel) String(large) Value(CM_LARGE) EnumValue Enum(cmodel) String(32) Value(CM_32) EnumValue Enum(cmodel) String(kernel) Value(CM_KERNEL) mcpu= Target RejectNegative Joined Undocumented Alias(mtune=) Warn(%<-mcpu=%> is deprecated; use %<-mtune=%> or %<-march=%> instead) mfancy-math-387 Target RejectNegative Report InverseMask(NO_FANCY_MATH_387, USE_FANCY_MATH_387) Save Generate sin, cos, sqrt for FPU mforce-drap Target Report Var(ix86_force_drap) Always use Dynamic Realigned Argument Pointer (DRAP) to realign stack mfp-ret-in-387 Target Report Mask(FLOAT_RETURNS) Save Return values of functions in FPU registers mfpmath= Target RejectNegative Joined Var(ix86_fpmath) Enum(fpmath_unit) Init(FPMATH_387) Save Generate floating point mathematics using given instruction set Enum Name(fpmath_unit) Type(enum fpmath_unit) Valid arguments to -mfpmath=: EnumValue Enum(fpmath_unit) String(387) Value(FPMATH_387) EnumValue Enum(fpmath_unit) String(sse) Value(FPMATH_SSE) EnumValue Enum(fpmath_unit) String(387,sse) Value({(enum fpmath_unit) (FPMATH_SSE | FPMATH_387)}) EnumValue Enum(fpmath_unit) String(387+sse) Value({(enum fpmath_unit) (FPMATH_SSE | FPMATH_387)}) EnumValue Enum(fpmath_unit) String(sse,387) Value({(enum fpmath_unit) (FPMATH_SSE | FPMATH_387)}) EnumValue Enum(fpmath_unit) String(sse+387) Value({(enum fpmath_unit) (FPMATH_SSE | FPMATH_387)}) EnumValue Enum(fpmath_unit) String(both) Value({(enum fpmath_unit) (FPMATH_SSE | FPMATH_387)}) mhard-float Target RejectNegative Mask(80387) MaskExists Save Use hardware fp mieee-fp Target Report Mask(IEEE_FP) Save Use IEEE math for fp comparisons minline-all-stringops Target Report Mask(INLINE_ALL_STRINGOPS) Save Inline all known string operations minline-stringops-dynamically Target Report Mask(INLINE_STRINGOPS_DYNAMICALLY) Save Inline memset/memcpy string operations, but perform inline version only for small blocks mintel-syntax Target Undocumented Alias(masm=, intel, att) Warn(%<-mintel-syntax%> and %<-mno-intel-syntax%> are deprecated; use %<-masm=intel%> and %<-masm=att%> instead) ;; Deprecated mms-bitfields Target Report Mask(MS_BITFIELD_LAYOUT) Save Use native (MS) bitfield layout mno-align-stringops Target RejectNegative Report Mask(NO_ALIGN_STRINGOPS) Undocumented Save mno-fancy-math-387 Target RejectNegative Report Mask(NO_FANCY_MATH_387) Undocumented Save mno-push-args Target RejectNegative Report Mask(NO_PUSH_ARGS) Undocumented Save mno-red-zone Target RejectNegative Report Mask(NO_RED_ZONE) Undocumented Save momit-leaf-frame-pointer Target Report Mask(OMIT_LEAF_FRAME_POINTER) Save Omit the frame pointer in leaf functions mpc32 Target RejectNegative Report Set 80387 floating-point precision to 32-bit mpc64 Target RejectNegative Report Set 80387 floating-point precision to 64-bit mpc80 Target RejectNegative Report Set 80387 floating-point precision to 80-bit mpreferred-stack-boundary= Target RejectNegative Joined UInteger Var(ix86_preferred_stack_boundary_arg) Attempt to keep stack aligned to this power of 2 mincoming-stack-boundary= Target RejectNegative Joined UInteger Var(ix86_incoming_stack_boundary_arg) Assume incoming stack aligned to this power of 2 mpush-args Target Report InverseMask(NO_PUSH_ARGS, PUSH_ARGS) Save Use push instructions to save outgoing arguments mred-zone Target RejectNegative Report InverseMask(NO_RED_ZONE, RED_ZONE) Save Use red-zone in the x86-64 code mregparm= Target RejectNegative Joined UInteger Var(ix86_regparm) Number of registers used to pass integer arguments mrtd Target Report Mask(RTD) Save Alternate calling convention msoft-float Target InverseMask(80387) Save Do not use hardware fp msseregparm Target RejectNegative Mask(SSEREGPARM) Save Use SSE register passing conventions for SF and DF mode mstackrealign Target Report Var(ix86_force_align_arg_pointer) Init(-1) Realign stack in prologue mstack-arg-probe Target Report Mask(STACK_PROBE) Save Enable stack probing mstringop-strategy= Target RejectNegative Joined Enum(stringop_alg) Var(ix86_stringop_alg) Init(no_stringop) Chose strategy to generate stringop using Enum Name(stringop_alg) Type(enum stringop_alg) Valid arguments to -mstringop-strategy=: EnumValue Enum(stringop_alg) String(rep_byte) Value(rep_prefix_1_byte) EnumValue Enum(stringop_alg) String(libcall) Value(libcall) EnumValue Enum(stringop_alg) String(rep_4byte) Value(rep_prefix_4_byte) EnumValue Enum(stringop_alg) String(rep_8byte) Value(rep_prefix_8_byte) EnumValue Enum(stringop_alg) String(byte_loop) Value(loop_1_byte) EnumValue Enum(stringop_alg) String(loop) Value(loop) EnumValue Enum(stringop_alg) String(unrolled_loop) Value(unrolled_loop) mtls-dialect= Target RejectNegative Joined Var(ix86_tls_dialect) Enum(tls_dialect) Init(TLS_DIALECT_GNU) Use given thread-local storage dialect Enum Name(tls_dialect) Type(enum tls_dialect) Known TLS dialects (for use with the -mtls-dialect= option): EnumValue Enum(tls_dialect) String(gnu) Value(TLS_DIALECT_GNU) EnumValue Enum(tls_dialect) String(gnu2) Value(TLS_DIALECT_GNU2) mtls-direct-seg-refs Target Report Mask(TLS_DIRECT_SEG_REFS) Use direct references against %gs when accessing tls data mtune= Target RejectNegative Joined Var(ix86_tune_string) Schedule code for given CPU mabi= Target RejectNegative Joined Var(ix86_abi) Enum(calling_abi) Init(SYSV_ABI) Generate code that conforms to the given ABI Enum Name(calling_abi) Type(enum calling_abi) Known ABIs (for use with the -mabi= option): EnumValue Enum(calling_abi) String(sysv) Value(SYSV_ABI) EnumValue Enum(calling_abi) String(ms) Value(MS_ABI) mveclibabi= Target RejectNegative Joined Var(ix86_veclibabi_type) Enum(ix86_veclibabi) Init(ix86_veclibabi_type_none) Vector library ABI to use Enum Name(ix86_veclibabi) Type(enum ix86_veclibabi) Known vectorization library ABIs (for use with the -mveclibabi= option): EnumValue Enum(ix86_veclibabi) String(svml) Value(ix86_veclibabi_type_svml) EnumValue Enum(ix86_veclibabi) String(acml) Value(ix86_veclibabi_type_acml) mvect8-ret-in-mem Target Report Mask(VECT8_RETURNS) Save Return 8-byte vectors in memory mrecip Target Report Mask(RECIP) Save Generate reciprocals instead of divss and sqrtss. mcld Target Report Mask(CLD) Save Generate cld instruction in the function prologue. mvzeroupper Target Report Mask(VZEROUPPER) Save Generate vzeroupper instruction before a transfer of control flow out of the function. mdispatch-scheduler Target RejectNegative Var(flag_dispatch_scheduler) Do dispatch scheduling if processor is bdver1 or bdver2 and Haifa scheduling is selected. mprefer-avx128 Target Report Mask(PREFER_AVX128) SAVE Use 128-bit AVX instructions instead of 256-bit AVX instructions in the auto-vectorizer. ;; ISA support m32 Target RejectNegative Negative(m64) Report InverseMask(ISA_64BIT) Var(ix86_isa_flags) Save Generate 32bit i386 code m64 Target RejectNegative Negative(mx32) Report Mask(ISA_64BIT) Var(ix86_isa_flags) Save Generate 64bit x86-64 code mx32 Target RejectNegative Negative(m32) Report Mask(ISA_X32) Var(ix86_isa_flags) Save Generate 32bit x86-64 code mmmx Target Report Mask(ISA_MMX) Var(ix86_isa_flags) Save Support MMX built-in functions m3dnow Target Report Mask(ISA_3DNOW) Var(ix86_isa_flags) Save Support 3DNow! built-in functions m3dnowa Target Undocumented Mask(ISA_3DNOW_A) Var(ix86_isa_flags) Save Support Athlon 3Dnow! built-in functions msse Target Report Mask(ISA_SSE) Var(ix86_isa_flags) Save Support MMX and SSE built-in functions and code generation msse2 Target Report Mask(ISA_SSE2) Var(ix86_isa_flags) Save Support MMX, SSE and SSE2 built-in functions and code generation msse3 Target Report Mask(ISA_SSE3) Var(ix86_isa_flags) Save Support MMX, SSE, SSE2 and SSE3 built-in functions and code generation mssse3 Target Report Mask(ISA_SSSE3) Var(ix86_isa_flags) Save Support MMX, SSE, SSE2, SSE3 and SSSE3 built-in functions and code generation msse4.1 Target Report Mask(ISA_SSE4_1) Var(ix86_isa_flags) Save Support MMX, SSE, SSE2, SSE3, SSSE3 and SSE4.1 built-in functions and code generation msse4.2 Target Report Mask(ISA_SSE4_2) Var(ix86_isa_flags) Save Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1 and SSE4.2 built-in functions and code generation msse4 Target RejectNegative Report Mask(ISA_SSE4_2) MaskExists Var(ix86_isa_flags) Save Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1 and SSE4.2 built-in functions and code generation mno-sse4 Target RejectNegative Report InverseMask(ISA_SSE4_1) MaskExists Var(ix86_isa_flags) Save Do not support SSE4.1 and SSE4.2 built-in functions and code generation msse5 Target Undocumented Alias(mavx) Warn(%<-msse5%> was removed) ;; Deprecated mavx Target Report Mask(ISA_AVX) Var(ix86_isa_flags) Save Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2 and AVX built-in functions and code generation mfma Target Report Mask(ISA_FMA) Var(ix86_isa_flags) Save Support MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX and FMA built-in functions and code generation msse4a Target Report Mask(ISA_SSE4A) Var(ix86_isa_flags) Save Support MMX, SSE, SSE2, SSE3 and SSE4A built-in functions and code generation mfma4 Target Report Mask(ISA_FMA4) Var(ix86_isa_flags) Save Support FMA4 built-in functions and code generation mxop Target Report Mask(ISA_XOP) Var(ix86_isa_flags) Save Support XOP built-in functions and code generation mlwp Target Report Mask(ISA_LWP) Var(ix86_isa_flags) Save Support LWP built-in functions and code generation mabm Target Report Mask(ISA_ABM) Var(ix86_isa_flags) Save Support code generation of Advanced Bit Manipulation (ABM) instructions. mpopcnt Target Report Mask(ISA_POPCNT) Var(ix86_isa_flags) Save Support code generation of popcnt instruction. mbmi Target Report Mask(ISA_BMI) Var(ix86_isa_flags) Save Support BMI built-in functions and code generation mtbm Target Report Mask(ISA_TBM) Var(ix86_isa_flags) Save Support TBM built-in functions and code generation mcx16 Target Report Mask(ISA_CX16) Var(ix86_isa_flags) Save Support code generation of cmpxchg16b instruction. msahf Target Report Mask(ISA_SAHF) Var(ix86_isa_flags) Save Support code generation of sahf instruction in 64bit x86-64 code. mmovbe Target Report Mask(ISA_MOVBE) Var(ix86_isa_flags) Save Support code generation of movbe instruction. mcrc32 Target Report Mask(ISA_CRC32) Var(ix86_isa_flags) Save Support code generation of crc32 instruction. maes Target Report Mask(ISA_AES) Var(ix86_isa_flags) Save Support AES built-in functions and code generation mpclmul Target Report Mask(ISA_PCLMUL) Var(ix86_isa_flags) Save Support PCLMUL built-in functions and code generation msse2avx Target Report Var(ix86_sse2avx) Encode SSE instructions with VEX prefix mfsgsbase Target Report Mask(ISA_FSGSBASE) Var(ix86_isa_flags) Save Support FSGSBASE built-in functions and code generation mrdrnd Target Report Mask(ISA_RDRND) Var(ix86_isa_flags) Save Support RDRND built-in functions and code generation mf16c Target Report Mask(ISA_F16C) Var(ix86_isa_flags) Save Support F16C built-in functions and code generation mfentry Target Report Var(flag_fentry) Init(-1) Emit profiling counter call at function entry before prologue. m8bit-idiv Target Report Mask(USE_8BIT_IDIV) Save Expand 32bit/64bit integer divide into 8bit unsigned integer divide with run-time check mavx256-split-unaligned-load Target Report Mask(AVX256_SPLIT_UNALIGNED_LOAD) Save Split 32-byte AVX unaligned load mavx256-split-unaligned-store Target Report Mask(AVX256_SPLIT_UNALIGNED_STORE) Save Split 32-byte AVX unaligned store