-; -*- buffer-read-only: t -*-
; Generated automatically by genopt.sh from powerpcspe-cpus.def.
; Copyright (C) 2011-2018 Free Software Foundation, Inc.
EnumValue
Enum(rs6000_cpu_opt_value) String(native) Value(RS6000_CPU_OPTION_NATIVE) DriverOnly
-EnumValue
-Enum(rs6000_cpu_opt_value) String(401) Value(0)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(403) Value(1)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(405) Value(2)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(405fp) Value(3)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(440) Value(4)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(440fp) Value(5)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(464) Value(6)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(464fp) Value(7)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(476) Value(8)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(476fp) Value(9)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(505) Value(10)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(601) Value(11)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(602) Value(12)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(603) Value(13)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(603e) Value(14)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(604) Value(15)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(604e) Value(16)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(620) Value(17)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(630) Value(18)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(740) Value(19)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(7400) Value(20)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(7450) Value(21)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(750) Value(22)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(801) Value(23)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(821) Value(24)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(823) Value(25)
-
EnumValue
Enum(rs6000_cpu_opt_value) String(8540) Value(26)
EnumValue
Enum(rs6000_cpu_opt_value) String(8548) Value(27)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(a2) Value(28)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(e300c2) Value(29)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(e300c3) Value(30)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(e500mc) Value(31)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(e500mc64) Value(32)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(e5500) Value(33)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(e6500) Value(34)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(860) Value(35)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(970) Value(36)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(cell) Value(37)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(ec603e) Value(38)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(G3) Value(39)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(G4) Value(40)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(G5) Value(41)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(titan) Value(42)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power3) Value(43)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power4) Value(44)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power5) Value(45)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power5+) Value(46)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power6) Value(47)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power6x) Value(48)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power7) Value(49)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power8) Value(50)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(power9) Value(51)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(powerpc) Value(52)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(powerpc64) Value(53)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(powerpc64le) Value(54)
-
-EnumValue
-Enum(rs6000_cpu_opt_value) String(rs64) Value(55)
-
;; Current processor
TargetVariable
-enum processor_type rs6000_cpu = PROCESSOR_PPC603
+enum processor_type rs6000_cpu = PROCESSOR_PPC8540
;; Always emit branch hint bits.
TargetVariable
Target RejectNegative Undocumented Ignore
mpowerpc64
-Target Report Mask(POWERPC64) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(POWERPC64) Var(rs6000_isa_flags)
Use PowerPC-64 instruction set.
mpowerpc-gpopt
-Target Report Mask(PPC_GPOPT) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(PPC_GPOPT) Var(rs6000_isa_flags)
Use PowerPC General Purpose group optional instructions.
mpowerpc-gfxopt
-Target Report Mask(PPC_GFXOPT) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(PPC_GFXOPT) Var(rs6000_isa_flags)
Use PowerPC Graphics group optional instructions.
mmfcrf
Use PowerPC V2.02 popcntb instruction.
mfprnd
-Target Report Mask(FPRND) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(FPRND) Var(rs6000_isa_flags)
Use PowerPC V2.02 floating point rounding instructions.
mcmpb
-Target Report Mask(CMPB) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(CMPB) Var(rs6000_isa_flags)
Use PowerPC V2.05 compare bytes instruction.
mmfpgpr
-Target Report Mask(MFPGPR) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(MFPGPR) Var(rs6000_isa_flags)
Use extended PowerPC V2.05 move floating point to/from GPR instructions.
maltivec
-Target Report Mask(ALTIVEC) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(ALTIVEC) Var(rs6000_isa_flags)
Use AltiVec instructions.
maltivec=le
-Target Report RejectNegative Var(rs6000_altivec_element_order, 1) Save
+Target Undocumented Report RejectNegative Var(rs6000_altivec_element_order, 1) Save
Generate AltiVec instructions using little-endian element order.
maltivec=be
-Target Report RejectNegative Var(rs6000_altivec_element_order, 2)
+Target Undocumented Report RejectNegative Var(rs6000_altivec_element_order, 2)
Generate AltiVec instructions using big-endian element order.
mhard-dfp
-Target Report Mask(DFP) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(DFP) Var(rs6000_isa_flags)
Use decimal floating point instructions.
mmulhw
-Target Report Mask(MULHW) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(MULHW) Var(rs6000_isa_flags)
Use 4xx half-word multiply instructions.
mdlmzb
-Target Report Mask(DLMZB) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(DLMZB) Var(rs6000_isa_flags)
Use 4xx string-search dlmzb instruction.
mmultiple
Generate load/store multiple instructions.
mstring
-Target Report Mask(STRING) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(STRING) Var(rs6000_isa_flags)
Generate string instructions for block moves.
msoft-float
Use hardware floating point.
mpopcntd
-Target Report Mask(POPCNTD) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(POPCNTD) Var(rs6000_isa_flags)
Use PowerPC V2.06 popcntd instruction.
mfriz
-Target Report Var(TARGET_FRIZ) Init(-1) Save
+Target Undocumented Report Var(TARGET_FRIZ) Init(-1) Save
Under -ffast-math, generate a FRIZ instruction for (double)(long long) conversions.
mveclibabi=
Vector library ABI to use.
mvsx
-Target Report Mask(VSX) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(VSX) Var(rs6000_isa_flags)
Use vector/scalar (VSX) instructions.
mvsx-scalar-float
Put everything in the regular TOC.
mvrsave
-Target Report Var(TARGET_ALTIVEC_VRSAVE) Save
+Target Undocumented Report Var(TARGET_ALTIVEC_VRSAVE) Save
Generate VRSAVE instructions when generating AltiVec code.
mvrsave=no
-Target RejectNegative Alias(mvrsave) NegativeAlias
+Target Undocumented RejectNegative Alias(mvrsave) NegativeAlias
Deprecated option. Use -mno-vrsave instead.
mvrsave=yes
-Target RejectNegative Alias(mvrsave)
+Target Undocumented RejectNegative Alias(mvrsave)
Deprecated option. Use -mvrsave instead.
mblock-move-inline-limit=
Generate SPE SIMD instructions on E500.
mpaired
-Target Var(rs6000_paired_float) Save
+Target Undocumented Var(rs6000_paired_float) Save
Generate PPC750CL paired-single instructions.
mspe=no
-mdebug= Enable debug output.
mabi=altivec
-Target RejectNegative Var(rs6000_altivec_abi) Save
+Target Undocumented RejectNegative Var(rs6000_altivec_abi) Save
Use the AltiVec ABI extensions.
mabi=no-altivec
-Target RejectNegative Var(rs6000_altivec_abi, 0)
+Target Undocumented RejectNegative Var(rs6000_altivec_abi, 0)
Do not use the AltiVec ABI extensions.
mabi=spe
Avoid all range limits on call instructions.
mgen-cell-microcode
-Target Report Var(rs6000_gen_cell_microcode) Init(-1) Save
+Target Undocumented Report Var(rs6000_gen_cell_microcode) Init(-1) Save
Generate Cell microcode.
mwarn-cell-microcode
-Target Var(rs6000_warn_cell_microcode) Init(0) Warning Save
+Target Undocumented Var(rs6000_warn_cell_microcode) Init(0) Warning Save
Warn when a Cell microcoded instruction is emitted.
mwarn-altivec-long
-Target Var(rs6000_warn_altivec_long) Init(1) Save
+Target Undocumented Var(rs6000_warn_altivec_long) Init(1) Save
Warn about deprecated 'vector long ...' AltiVec type usage.
mfloat-gprs=
Enum(fpu_type_t) String(dp_full) Value(FPU_DF_FULL)
mxilinx-fpu
-Target Var(rs6000_xilinx_fpu) Save
+Target Undocumented Var(rs6000_xilinx_fpu) Save
Specify Xilinx FPU.
mpointers-to-nested-functions
Allow 128-bit integers in VSX registers.
mpower8-fusion
-Target Report Mask(P8_FUSION) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(P8_FUSION) Var(rs6000_isa_flags)
Fuse certain integer operations together for better performance on power8.
mpower8-fusion-sign
Allow sign extension in fusion operations.
mpower8-vector
-Target Report Mask(P8_VECTOR) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(P8_VECTOR) Var(rs6000_isa_flags)
Use vector and scalar instructions added in ISA 2.07.
mcrypto
-Target Report Mask(CRYPTO) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(CRYPTO) Var(rs6000_isa_flags)
Use ISA 2.07 Category:Vector.AES and Category:Vector.SHA2 instructions.
mdirect-move
-Target Report Mask(DIRECT_MOVE) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(DIRECT_MOVE) Var(rs6000_isa_flags)
Use ISA 2.07 direct move between GPR & VSX register instructions.
mhtm
-Target Report Mask(HTM) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(HTM) Var(rs6000_isa_flags)
Use ISA 2.07 transactional memory (HTM) instructions.
mquad-memory
-Target Report Mask(QUAD_MEMORY) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(QUAD_MEMORY) Var(rs6000_isa_flags)
Generate the quad word memory instructions (lq/stq).
mquad-memory-atomic
-Target Report Mask(QUAD_MEMORY_ATOMIC) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(QUAD_MEMORY_ATOMIC) Var(rs6000_isa_flags)
Generate the quad word memory atomic instructions (lqarx/stqcx).
mcompat-align-parm
Generate aggregate parameter passing code with at most 64-bit alignment.
mupper-regs-df
-Target Report Mask(UPPER_REGS_DF) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(UPPER_REGS_DF) Var(rs6000_isa_flags)
Allow double variables in upper registers with -mcpu=power7 or -mvsx.
mupper-regs-sf
-Target Report Mask(UPPER_REGS_SF) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(UPPER_REGS_SF) Var(rs6000_isa_flags)
Allow float variables in upper registers with -mcpu=power8 or -mpower8-vector.
mupper-regs
-Target Report Var(TARGET_UPPER_REGS) Init(-1) Save
+Target Undocumented Report Var(TARGET_UPPER_REGS) Init(-1) Save
Allow float/double variables in upper registers if cpu allows it.
mupper-regs-di
-Target Report Mask(UPPER_REGS_DI) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(UPPER_REGS_DI) Var(rs6000_isa_flags)
Allow 64-bit integer variables in upper registers with -mcpu=power7 or -mvsx.
moptimize-swaps
Enable IEEE 128-bit floating point via the __float128 keyword.
mfloat128-hardware
-Target Report Mask(FLOAT128_HW) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(FLOAT128_HW) Var(rs6000_isa_flags)
Enable using IEEE 128-bit floating point instructions.
mfloat128-convert
Enable default conversions between __float128 & long double.
mvsx-small-integer
-Target Report Mask(VSX_SMALL_INTEGER) Var(rs6000_isa_flags)
+Target Undocumented Report Mask(VSX_SMALL_INTEGER) Var(rs6000_isa_flags)
Enable small integers to be in VSX registers.
mstack-protector-guard=
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