gcc/config/sh/sh.opt - chromiumos/third_party/gcc - Git at Google

 ; Options for the SH port of the compiler.

 ; Copyright (C) 2005-2013 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
 ; <http://www.gnu.org/licenses/>.

 ;; Used for various architecture options.
 Mask(SH_E)

 ;; Set if the default precision of the FPU is single.
 Mask(FPU_SINGLE)

 ;; Set if the a double-precision FPU is present but is restricted to
 ;; single precision usage only.
 Mask(FPU_SINGLE_ONLY)

 ;; Set if we should generate code using type 2A insns.
 Mask(HARD_SH2A)

 ;; Set if we should generate code using type 2A DF insns.
 Mask(HARD_SH2A_DOUBLE)

 ;; Set if compiling for SH4 hardware (to be used for insn costs etc.)
 Mask(HARD_SH4)

 ;; Set if we should generate code for a SH5 CPU (either ISA).
 Mask(SH5)

 ;; Set if we should save all target registers.
 Mask(SAVE_ALL_TARGET_REGS)

 m1
 Target RejectNegative Mask(SH1) Condition(SUPPORT_SH1)
 Generate SH1 code

 m2
 Target RejectNegative Mask(SH2) Condition(SUPPORT_SH2)
 Generate SH2 code

 m2a
 Target RejectNegative Condition(SUPPORT_SH2A)
 Generate default double-precision SH2a-FPU code

 m2a-nofpu
 Target RejectNegative Condition(SUPPORT_SH2A_NOFPU)
 Generate SH2a FPU-less code

 m2a-single
 Target RejectNegative Condition(SUPPORT_SH2A_SINGLE)
 Generate default single-precision SH2a-FPU code

 m2a-single-only
 Target RejectNegative Condition(SUPPORT_SH2A_SINGLE_ONLY)
 Generate only single-precision SH2a-FPU code

 m2e
 Target RejectNegative Condition(SUPPORT_SH2E)
 Generate SH2e code

 m3
 Target RejectNegative Mask(SH3) Condition(SUPPORT_SH3)
 Generate SH3 code

 m3e
 Target RejectNegative Condition(SUPPORT_SH3E)
 Generate SH3e code

 m4
 Target RejectNegative Mask(SH4) Condition(SUPPORT_SH4)
 Generate SH4 code

 m4-100
 Target RejectNegative Condition(SUPPORT_SH4)
 Generate SH4-100 code

 m4-200
 Target RejectNegative Condition(SUPPORT_SH4)
 Generate SH4-200 code

 ;; TARGET_SH4_300 indicates if we have the ST40-300 instruction set and
 ;; pipeline - irrespective of ABI.
 m4-300
 Target RejectNegative Condition(SUPPORT_SH4) Var(TARGET_SH4_300)
 Generate SH4-300 code

 m4-nofpu
 Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
 Generate SH4 FPU-less code

 m4-100-nofpu
 Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
 Generate SH4-100 FPU-less code

 m4-200-nofpu
 Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
 Generate SH4-200 FPU-less code

 m4-300-nofpu
 Target RejectNegative Condition(SUPPORT_SH4_NOFPU) Var(TARGET_SH4_300)
 Generate SH4-300 FPU-less code

 m4-340
 Target RejectNegative Condition(SUPPORT_SH4_NOFPU) Var(TARGET_SH4_300)
 Generate code for SH4 340 series (MMU/FPU-less)
 ;; passes -isa=sh4-nommu-nofpu to the assembler.

 m4-400
 Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
 Generate code for SH4 400 series (MMU/FPU-less)
 ;; passes -isa=sh4-nommu-nofpu to the assembler.

 m4-500
 Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
 Generate code for SH4 500 series (FPU-less).
 ;; passes -isa=sh4-nofpu to the assembler.

 m4-single
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE)
 Generate default single-precision SH4 code

 m4-100-single
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE)
 Generate default single-precision SH4-100 code

 m4-200-single
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE)
 Generate default single-precision SH4-200 code

 m4-300-single
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE) Var(TARGET_SH4_300)
 Generate default single-precision SH4-300 code

 m4-single-only
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY)
 Generate only single-precision SH4 code

 m4-100-single-only
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY)
 Generate only single-precision SH4-100 code

 m4-200-single-only
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY)
 Generate only single-precision SH4-200 code

 m4-300-single-only
 Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY) Var(TARGET_SH4_300)
 Generate only single-precision SH4-300 code

 m4a
 Target RejectNegative Mask(SH4A) Condition(SUPPORT_SH4A)
 Generate SH4a code

 m4a-nofpu
 Target RejectNegative Condition(SUPPORT_SH4A_NOFPU)
 Generate SH4a FPU-less code

 m4a-single
 Target RejectNegative Condition(SUPPORT_SH4A_SINGLE)
 Generate default single-precision SH4a code

 m4a-single-only
 Target RejectNegative Condition(SUPPORT_SH4A_SINGLE_ONLY)
 Generate only single-precision SH4a code

 m4al
 Target RejectNegative Condition(SUPPORT_SH4AL)
 Generate SH4al-dsp code

 m5-32media
 Target RejectNegative Condition(SUPPORT_SH5_32MEDIA)
 Generate 32-bit SHmedia code

 m5-32media-nofpu
 Target RejectNegative Condition(SUPPORT_SH5_32MEDIA_NOFPU)
 Generate 32-bit FPU-less SHmedia code

 m5-64media
 Target RejectNegative Condition(SUPPORT_SH5_64MEDIA)
 Generate 64-bit SHmedia code

 m5-64media-nofpu
 Target RejectNegative Condition(SUPPORT_SH5_64MEDIA_NOFPU)
 Generate 64-bit FPU-less SHmedia code

 m5-compact
 Target RejectNegative Condition(SUPPORT_SH5_32MEDIA)
 Generate SHcompact code

 m5-compact-nofpu
 Target RejectNegative Condition(SUPPORT_SH5_32MEDIA_NOFPU)
 Generate FPU-less SHcompact code

 maccumulate-outgoing-args
 Target Report Var(TARGET_ACCUMULATE_OUTGOING_ARGS) Init(1)
 Reserve space for outgoing arguments in the function prologue

 madjust-unroll
 Target Ignore
 Does nothing.  Preserved for backward compatibility.

 mb
 Target Report RejectNegative InverseMask(LITTLE_ENDIAN)
 Generate code in big endian mode

 mbigtable
 Target Report RejectNegative Mask(BIGTABLE)
 Generate 32-bit offsets in switch tables

 mbitops
 Target Report RejectNegative Mask(BITOPS)
 Generate bit instructions

 mbranch-cost=
 Target RejectNegative Joined UInteger Var(sh_branch_cost) Init(-1)
 Cost to assume for a branch insn

 mzdcbranch
 Target Var(TARGET_ZDCBRANCH)
 Assume that zero displacement conditional branches are fast

 mcbranchdi
 Target Var(TARGET_CBRANCHDI4)
 Enable cbranchdi4 pattern

 mcmpeqdi
 Target Var(TARGET_CMPEQDI_T)
 Emit cmpeqdi_t pattern even when -mcbranchdi is in effect.

 mcut2-workaround
 Target RejectNegative Var(TARGET_SH5_CUT2_WORKAROUND)
 Enable SH5 cut2 workaround

 mdalign
 Target Report RejectNegative Mask(ALIGN_DOUBLE)
 Align doubles at 64-bit boundaries

 mdiv=
 Target RejectNegative Joined Var(sh_div_str) Init("")
 Division strategy, one of: call, call2, fp, inv, inv:minlat, inv20u, inv20l, inv:call, inv:call2, inv:fp, call-div1, call-fp, call-table

 mdivsi3_libfunc=
 Target RejectNegative Joined Var(sh_divsi3_libfunc) Init("")
 Specify name for 32 bit signed division function

 mfmovd
 Target RejectNegative Mask(FMOVD)
 Enable the use of 64-bit floating point registers in fmov instructions.  See -mdalign if 64-bit alignment is required.

 mfixed-range=
 Target RejectNegative Joined Var(sh_fixed_range_str)
 Specify range of registers to make fixed

 mgettrcost=
 Target RejectNegative Joined UInteger Var(sh_gettrcost) Init(-1)
 Cost to assume for gettr insn

 mhitachi
 Target Report RejectNegative Mask(HITACHI)
 Follow Renesas (formerly Hitachi) / SuperH calling conventions

 mieee
 Target Var(TARGET_IEEE)
 Increase the IEEE compliance for floating-point comparisons

 mindexed-addressing
 Target Report Mask(ALLOW_INDEXED_ADDRESS) Condition(SUPPORT_ANY_SH5_32MEDIA)
 Enable the use of the indexed addressing mode for SHmedia32/SHcompact

 minline-ic_invalidate
 Target Report Var(TARGET_INLINE_IC_INVALIDATE)
 inline code to invalidate instruction cache entries after setting up nested function trampolines

 minvalid-symbols
 Target Report Mask(INVALID_SYMBOLS) Condition(SUPPORT_ANY_SH5)
 Assume symbols might be invalid

 misize
 Target Report RejectNegative Mask(DUMPISIZE)
 Annotate assembler instructions with estimated addresses

 ml
 Target Report RejectNegative Mask(LITTLE_ENDIAN)
 Generate code in little endian mode

 mnomacsave
 Target Report RejectNegative Mask(NOMACSAVE)
 Mark MAC register as call-clobbered

 ;; ??? This option is not useful, but is retained in case there are people
 ;; who are still relying on it.  It may be deleted in the future.
 mpadstruct
 Target Report RejectNegative Mask(PADSTRUCT)
 Make structs a multiple of 4 bytes (warning: ABI altered)

 mprefergot
 Target Report RejectNegative Mask(PREFERGOT)
 Emit function-calls using global offset table when generating PIC

 mpt-fixed
 Target Report Mask(PT_FIXED) Condition(SUPPORT_ANY_SH5)
 Assume pt* instructions won't trap

 mrelax
 Target Report RejectNegative Mask(RELAX)
 Shorten address references during linking

 mrenesas
 Target Mask(HITACHI)
 Follow Renesas (formerly Hitachi) / SuperH calling conventions

 msoft-atomic
 Target Undocumented Alias(matomic-model=, soft-gusa, none)
 Deprecated.  Use -matomic= instead to select the atomic model

 matomic-model=
 Target Report RejectNegative Joined Var(sh_atomic_model_str)
 Specify the model for atomic operations

 mtas
 Target Report RejectNegative Var(TARGET_ENABLE_TAS)
 Use tas.b instruction for __atomic_test_and_set

 mspace
 Target RejectNegative Alias(Os)
 Deprecated.  Use -Os instead

 multcost=
 Target RejectNegative Joined UInteger Var(sh_multcost) Init(-1)
 Cost to assume for a multiply insn

 musermode
 Target Report RejectNegative Var(TARGET_USERMODE)
 Don't generate privileged-mode only code; implies -mno-inline-ic_invalidate if the inline code would not work in user mode.

 ;; We might want to enable this by default for TARGET_HARD_SH4, because
 ;; zero-offset branches have zero latency.  Needs some benchmarking.
 mpretend-cmove
 Target Var(TARGET_PRETEND_CMOVE)
 Pretend a branch-around-a-move is a conditional move.

 mfsca
 Target Var(TARGET_FSCA)
 Enable the use of the fsca instruction

 mfsrra
 Target Var(TARGET_FSRRA)
 Enable the use of the fsrra instruction
	; Options for the SH port of the compiler.

	; Copyright (C) 2005-2013 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
	; <http://www.gnu.org/licenses/>.

	;; Used for various architecture options.
	Mask(SH_E)

	;; Set if the default precision of the FPU is single.
	Mask(FPU_SINGLE)

	;; Set if the a double-precision FPU is present but is restricted to
	;; single precision usage only.
	Mask(FPU_SINGLE_ONLY)

	;; Set if we should generate code using type 2A insns.
	Mask(HARD_SH2A)

	;; Set if we should generate code using type 2A DF insns.
	Mask(HARD_SH2A_DOUBLE)

	;; Set if compiling for SH4 hardware (to be used for insn costs etc.)
	Mask(HARD_SH4)

	;; Set if we should generate code for a SH5 CPU (either ISA).
	Mask(SH5)

	;; Set if we should save all target registers.
	Mask(SAVE_ALL_TARGET_REGS)

	m1
	Target RejectNegative Mask(SH1) Condition(SUPPORT_SH1)
	Generate SH1 code

	m2
	Target RejectNegative Mask(SH2) Condition(SUPPORT_SH2)
	Generate SH2 code

	m2a
	Target RejectNegative Condition(SUPPORT_SH2A)
	Generate default double-precision SH2a-FPU code

	m2a-nofpu
	Target RejectNegative Condition(SUPPORT_SH2A_NOFPU)
	Generate SH2a FPU-less code

	m2a-single
	Target RejectNegative Condition(SUPPORT_SH2A_SINGLE)
	Generate default single-precision SH2a-FPU code

	m2a-single-only
	Target RejectNegative Condition(SUPPORT_SH2A_SINGLE_ONLY)
	Generate only single-precision SH2a-FPU code

	m2e
	Target RejectNegative Condition(SUPPORT_SH2E)
	Generate SH2e code

	m3
	Target RejectNegative Mask(SH3) Condition(SUPPORT_SH3)
	Generate SH3 code

	m3e
	Target RejectNegative Condition(SUPPORT_SH3E)
	Generate SH3e code

	m4
	Target RejectNegative Mask(SH4) Condition(SUPPORT_SH4)
	Generate SH4 code

	m4-100
	Target RejectNegative Condition(SUPPORT_SH4)
	Generate SH4-100 code

	m4-200
	Target RejectNegative Condition(SUPPORT_SH4)
	Generate SH4-200 code

	;; TARGET_SH4_300 indicates if we have the ST40-300 instruction set and
	;; pipeline - irrespective of ABI.
	m4-300
	Target RejectNegative Condition(SUPPORT_SH4) Var(TARGET_SH4_300)
	Generate SH4-300 code

	m4-nofpu
	Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
	Generate SH4 FPU-less code

	m4-100-nofpu
	Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
	Generate SH4-100 FPU-less code

	m4-200-nofpu
	Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
	Generate SH4-200 FPU-less code

	m4-300-nofpu
	Target RejectNegative Condition(SUPPORT_SH4_NOFPU) Var(TARGET_SH4_300)
	Generate SH4-300 FPU-less code

	m4-340
	Target RejectNegative Condition(SUPPORT_SH4_NOFPU) Var(TARGET_SH4_300)
	Generate code for SH4 340 series (MMU/FPU-less)
	;; passes -isa=sh4-nommu-nofpu to the assembler.

	m4-400
	Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
	Generate code for SH4 400 series (MMU/FPU-less)
	;; passes -isa=sh4-nommu-nofpu to the assembler.

	m4-500
	Target RejectNegative Condition(SUPPORT_SH4_NOFPU)
	Generate code for SH4 500 series (FPU-less).
	;; passes -isa=sh4-nofpu to the assembler.

	m4-single
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE)
	Generate default single-precision SH4 code

	m4-100-single
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE)
	Generate default single-precision SH4-100 code

	m4-200-single
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE)
	Generate default single-precision SH4-200 code

	m4-300-single
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE) Var(TARGET_SH4_300)
	Generate default single-precision SH4-300 code

	m4-single-only
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY)
	Generate only single-precision SH4 code

	m4-100-single-only
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY)
	Generate only single-precision SH4-100 code

	m4-200-single-only
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY)
	Generate only single-precision SH4-200 code

	m4-300-single-only
	Target RejectNegative Condition(SUPPORT_SH4_SINGLE_ONLY) Var(TARGET_SH4_300)
	Generate only single-precision SH4-300 code

	m4a
	Target RejectNegative Mask(SH4A) Condition(SUPPORT_SH4A)
	Generate SH4a code

	m4a-nofpu
	Target RejectNegative Condition(SUPPORT_SH4A_NOFPU)
	Generate SH4a FPU-less code

	m4a-single
	Target RejectNegative Condition(SUPPORT_SH4A_SINGLE)
	Generate default single-precision SH4a code

	m4a-single-only
	Target RejectNegative Condition(SUPPORT_SH4A_SINGLE_ONLY)
	Generate only single-precision SH4a code

	m4al
	Target RejectNegative Condition(SUPPORT_SH4AL)
	Generate SH4al-dsp code

	m5-32media
	Target RejectNegative Condition(SUPPORT_SH5_32MEDIA)
	Generate 32-bit SHmedia code

	m5-32media-nofpu
	Target RejectNegative Condition(SUPPORT_SH5_32MEDIA_NOFPU)
	Generate 32-bit FPU-less SHmedia code

	m5-64media
	Target RejectNegative Condition(SUPPORT_SH5_64MEDIA)
	Generate 64-bit SHmedia code

	m5-64media-nofpu
	Target RejectNegative Condition(SUPPORT_SH5_64MEDIA_NOFPU)
	Generate 64-bit FPU-less SHmedia code

	m5-compact
	Target RejectNegative Condition(SUPPORT_SH5_32MEDIA)
	Generate SHcompact code

	m5-compact-nofpu
	Target RejectNegative Condition(SUPPORT_SH5_32MEDIA_NOFPU)
	Generate FPU-less SHcompact code

	maccumulate-outgoing-args
	Target Report Var(TARGET_ACCUMULATE_OUTGOING_ARGS) Init(1)
	Reserve space for outgoing arguments in the function prologue

	madjust-unroll
	Target Ignore
	Does nothing. Preserved for backward compatibility.

	mb
	Target Report RejectNegative InverseMask(LITTLE_ENDIAN)
	Generate code in big endian mode

	mbigtable
	Target Report RejectNegative Mask(BIGTABLE)
	Generate 32-bit offsets in switch tables

	mbitops
	Target Report RejectNegative Mask(BITOPS)
	Generate bit instructions

	mbranch-cost=
	Target RejectNegative Joined UInteger Var(sh_branch_cost) Init(-1)
	Cost to assume for a branch insn

	mzdcbranch
	Target Var(TARGET_ZDCBRANCH)
	Assume that zero displacement conditional branches are fast

	mcbranchdi
	Target Var(TARGET_CBRANCHDI4)
	Enable cbranchdi4 pattern

	mcmpeqdi
	Target Var(TARGET_CMPEQDI_T)
	Emit cmpeqdi_t pattern even when -mcbranchdi is in effect.

	mcut2-workaround
	Target RejectNegative Var(TARGET_SH5_CUT2_WORKAROUND)
	Enable SH5 cut2 workaround

	mdalign
	Target Report RejectNegative Mask(ALIGN_DOUBLE)
	Align doubles at 64-bit boundaries

	mdiv=
	Target RejectNegative Joined Var(sh_div_str) Init("")
	Division strategy, one of: call, call2, fp, inv, inv:minlat, inv20u, inv20l, inv:call, inv:call2, inv:fp, call-div1, call-fp, call-table

	mdivsi3_libfunc=
	Target RejectNegative Joined Var(sh_divsi3_libfunc) Init("")
	Specify name for 32 bit signed division function

	mfmovd
	Target RejectNegative Mask(FMOVD)
	Enable the use of 64-bit floating point registers in fmov instructions. See -mdalign if 64-bit alignment is required.

	mfixed-range=
	Target RejectNegative Joined Var(sh_fixed_range_str)
	Specify range of registers to make fixed

	mgettrcost=
	Target RejectNegative Joined UInteger Var(sh_gettrcost) Init(-1)
	Cost to assume for gettr insn

	mhitachi
	Target Report RejectNegative Mask(HITACHI)
	Follow Renesas (formerly Hitachi) / SuperH calling conventions

	mieee
	Target Var(TARGET_IEEE)
	Increase the IEEE compliance for floating-point comparisons

	mindexed-addressing
	Target Report Mask(ALLOW_INDEXED_ADDRESS) Condition(SUPPORT_ANY_SH5_32MEDIA)
	Enable the use of the indexed addressing mode for SHmedia32/SHcompact

	minline-ic_invalidate
	Target Report Var(TARGET_INLINE_IC_INVALIDATE)
	inline code to invalidate instruction cache entries after setting up nested function trampolines

	minvalid-symbols
	Target Report Mask(INVALID_SYMBOLS) Condition(SUPPORT_ANY_SH5)
	Assume symbols might be invalid

	misize
	Target Report RejectNegative Mask(DUMPISIZE)
	Annotate assembler instructions with estimated addresses

	ml
	Target Report RejectNegative Mask(LITTLE_ENDIAN)
	Generate code in little endian mode

	mnomacsave
	Target Report RejectNegative Mask(NOMACSAVE)
	Mark MAC register as call-clobbered

	;; ??? This option is not useful, but is retained in case there are people
	;; who are still relying on it. It may be deleted in the future.
	mpadstruct
	Target Report RejectNegative Mask(PADSTRUCT)
	Make structs a multiple of 4 bytes (warning: ABI altered)

	mprefergot
	Target Report RejectNegative Mask(PREFERGOT)
	Emit function-calls using global offset table when generating PIC

	mpt-fixed
	Target Report Mask(PT_FIXED) Condition(SUPPORT_ANY_SH5)
	Assume pt* instructions won't trap

	mrelax
	Target Report RejectNegative Mask(RELAX)
	Shorten address references during linking

	mrenesas
	Target Mask(HITACHI)
	Follow Renesas (formerly Hitachi) / SuperH calling conventions

	msoft-atomic
	Target Undocumented Alias(matomic-model=, soft-gusa, none)
	Deprecated. Use -matomic= instead to select the atomic model

	matomic-model=
	Target Report RejectNegative Joined Var(sh_atomic_model_str)
	Specify the model for atomic operations

	mtas
	Target Report RejectNegative Var(TARGET_ENABLE_TAS)
	Use tas.b instruction for __atomic_test_and_set

	mspace
	Target RejectNegative Alias(Os)
	Deprecated. Use -Os instead

	multcost=
	Target RejectNegative Joined UInteger Var(sh_multcost) Init(-1)
	Cost to assume for a multiply insn

	musermode
	Target Report RejectNegative Var(TARGET_USERMODE)
	Don't generate privileged-mode only code; implies -mno-inline-ic_invalidate if the inline code would not work in user mode.

	;; We might want to enable this by default for TARGET_HARD_SH4, because
	;; zero-offset branches have zero latency. Needs some benchmarking.
	mpretend-cmove
	Target Var(TARGET_PRETEND_CMOVE)
	Pretend a branch-around-a-move is a conditional move.

	mfsca
	Target Var(TARGET_FSCA)
	Enable the use of the fsca instruction

	mfsrra
	Target Var(TARGET_FSRRA)
	Enable the use of the fsrra instruction