/* Definitions of target machine for GCC for IA-32.
Copyright (C) 1988, 1992, 1994, 1995, 1996, 1997, 1998, 1999, 2000,
- 2001, 2002, 2003, 2004 Free Software Foundation, Inc.
+ 2001, 2002, 2003, 2004, 2005, 2006 Free Software Foundation, Inc.
This file is part of GCC.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING. If not, write to
-the Free Software Foundation, 59 Temple Place - Suite 330,
-Boston, MA 02111-1307, USA. */
+the Free Software Foundation, 51 Franklin Street, Fifth Floor,
+Boston, MA 02110-1301, USA. */
/* The purpose of this file is to define the characteristics of the i386,
independent of assembler syntax or operating system.
extern const struct processor_costs *ix86_cost;
-/* Run-time compilation parameters selecting different hardware subsets. */
-
-extern int target_flags;
-
/* Macros used in the machine description to test the flags. */
/* configure can arrange to make this 2, to force a 486. */
#ifndef TARGET_CPU_DEFAULT
-#ifdef TARGET_64BIT_DEFAULT
-#define TARGET_CPU_DEFAULT TARGET_CPU_DEFAULT_k8
-#else
-#define TARGET_CPU_DEFAULT 0
+#define TARGET_CPU_DEFAULT TARGET_CPU_DEFAULT_generic
#endif
+
+#ifndef TARGET_FPMATH_DEFAULT
+#define TARGET_FPMATH_DEFAULT \
+ (TARGET_64BIT && TARGET_SSE ? FPMATH_SSE : FPMATH_387)
#endif
-/* Masks for the -m switches */
-#define MASK_80387 0x00000001 /* Hardware floating point */
-#define MASK_RTD 0x00000002 /* Use ret that pops args */
-#define MASK_ALIGN_DOUBLE 0x00000004 /* align doubles to 2 word boundary */
-#define MASK_SVR3_SHLIB 0x00000008 /* Uninit locals into bss */
-#define MASK_IEEE_FP 0x00000010 /* IEEE fp comparisons */
-#define MASK_FLOAT_RETURNS 0x00000020 /* Return float in st(0) */
-#define MASK_NO_FANCY_MATH_387 0x00000040 /* Disable sin, cos, sqrt */
-#define MASK_OMIT_LEAF_FRAME_POINTER 0x080 /* omit leaf frame pointers */
-#define MASK_STACK_PROBE 0x00000100 /* Enable stack probing */
-#define MASK_NO_ALIGN_STROPS 0x00000200 /* Enable aligning of string ops. */
-#define MASK_INLINE_ALL_STROPS 0x00000400 /* Inline stringops in all cases */
-#define MASK_NO_PUSH_ARGS 0x00000800 /* Use push instructions */
-#define MASK_ACCUMULATE_OUTGOING_ARGS 0x00001000/* Accumulate outgoing args */
-#define MASK_MMX 0x00002000 /* Support MMX regs/builtins */
-#define MASK_SSE 0x00004000 /* Support SSE regs/builtins */
-#define MASK_SSE2 0x00008000 /* Support SSE2 regs/builtins */
-#define MASK_SSE3 0x00010000 /* Support SSE3 regs/builtins */
-#define MASK_3DNOW 0x00020000 /* Support 3Dnow builtins */
-#define MASK_3DNOW_A 0x00040000 /* Support Athlon 3Dnow builtins */
-#define MASK_128BIT_LONG_DOUBLE 0x00080000 /* long double size is 128bit */
-#define MASK_64BIT 0x00100000 /* Produce 64bit code */
-#define MASK_MS_BITFIELD_LAYOUT 0x00200000 /* Use native (MS) bitfield layout */
-#define MASK_TLS_DIRECT_SEG_REFS 0x00400000 /* Avoid adding %gs:0 */
-
-/* Unused: 0x03e0000 */
-
-/* ... overlap with subtarget options starts by 0x04000000. */
-#define MASK_NO_RED_ZONE 0x04000000 /* Do not use red zone */
-
-/* Use the floating point instructions */
-#define TARGET_80387 (target_flags & MASK_80387)
-
-/* Compile using ret insn that pops args.
- This will not work unless you use prototypes at least
- for all functions that can take varying numbers of args. */
-#define TARGET_RTD (target_flags & MASK_RTD)
-
-/* Align doubles to a two word boundary. This breaks compatibility with
- the published ABI's for structures containing doubles, but produces
- faster code on the pentium. */
-#define TARGET_ALIGN_DOUBLE (target_flags & MASK_ALIGN_DOUBLE)
-
-/* Use push instructions to save outgoing args. */
-#define TARGET_PUSH_ARGS (!(target_flags & MASK_NO_PUSH_ARGS))
-
-/* Accumulate stack adjustments to prologue/epilogue. */
-#define TARGET_ACCUMULATE_OUTGOING_ARGS \
- (target_flags & MASK_ACCUMULATE_OUTGOING_ARGS)
-
-/* Put uninitialized locals into bss, not data.
- Meaningful only on svr3. */
-#define TARGET_SVR3_SHLIB (target_flags & MASK_SVR3_SHLIB)
-
-/* Use IEEE floating point comparisons. These handle correctly the cases
- where the result of a comparison is unordered. Normally SIGFPE is
- generated in such cases, in which case this isn't needed. */
-#define TARGET_IEEE_FP (target_flags & MASK_IEEE_FP)
-
-/* Functions that return a floating point value may return that value
- in the 387 FPU or in 386 integer registers. If set, this flag causes
- the 387 to be used, which is compatible with most calling conventions. */
-#define TARGET_FLOAT_RETURNS_IN_80387 (target_flags & MASK_FLOAT_RETURNS)
-
-/* Long double is 128bit instead of 96bit, even when only 80bits are used.
- This mode wastes cache, but avoid misaligned data accesses and simplifies
- address calculations. */
-#define TARGET_128BIT_LONG_DOUBLE (target_flags & MASK_128BIT_LONG_DOUBLE)
-
-/* Disable generation of FP sin, cos and sqrt operations for 387.
- This is because FreeBSD lacks these in the math-emulator-code */
-#define TARGET_NO_FANCY_MATH_387 (target_flags & MASK_NO_FANCY_MATH_387)
-
-/* Don't create frame pointers for leaf functions */
-#define TARGET_OMIT_LEAF_FRAME_POINTER \
- (target_flags & MASK_OMIT_LEAF_FRAME_POINTER)
-
-/* Debug GO_IF_LEGITIMATE_ADDRESS */
-#define TARGET_DEBUG_ADDR (ix86_debug_addr_string != 0)
-
-/* Debug FUNCTION_ARG macros */
-#define TARGET_DEBUG_ARG (ix86_debug_arg_string != 0)
+#define TARGET_FLOAT_RETURNS_IN_80387 TARGET_FLOAT_RETURNS
/* 64bit Sledgehammer mode. For libgcc2 we make sure this is a
compile-time constant. */
#ifdef IN_LIBGCC2
+#undef TARGET_64BIT
#ifdef __x86_64__
#define TARGET_64BIT 1
#else
#define TARGET_64BIT 0
#endif
#else
-#ifdef TARGET_BI_ARCH
-#define TARGET_64BIT (target_flags & MASK_64BIT)
-#else
+#ifndef TARGET_BI_ARCH
+#undef TARGET_64BIT
#if TARGET_64BIT_DEFAULT
#define TARGET_64BIT 1
#else
#define HAS_LONG_COND_BRANCH 1
#define HAS_LONG_UNCOND_BRANCH 1
-/* Avoid adding %gs:0 in TLS references; use %gs:address directly. */
-#define TARGET_TLS_DIRECT_SEG_REFS (target_flags & MASK_TLS_DIRECT_SEG_REFS)
-
#define TARGET_386 (ix86_tune == PROCESSOR_I386)
#define TARGET_486 (ix86_tune == PROCESSOR_I486)
#define TARGET_PENTIUM (ix86_tune == PROCESSOR_PENTIUM)
#define TARGET_K8 (ix86_tune == PROCESSOR_K8)
#define TARGET_ATHLON_K8 (TARGET_K8 || TARGET_ATHLON)
#define TARGET_NOCONA (ix86_tune == PROCESSOR_NOCONA)
+#define TARGET_GENERIC32 (ix86_tune == PROCESSOR_GENERIC32)
+#define TARGET_GENERIC64 (ix86_tune == PROCESSOR_GENERIC64)
+#define TARGET_GENERIC (TARGET_GENERIC32 || TARGET_GENERIC64)
#define TUNEMASK (1 << ix86_tune)
extern const int x86_use_leave, x86_push_memory, x86_zero_extend_with_and;
-extern const int x86_use_bit_test, x86_cmove, x86_deep_branch;
+extern const int x86_use_bit_test, x86_cmove, x86_fisttp, x86_deep_branch;
extern const int x86_branch_hints, x86_unroll_strlen;
extern const int x86_double_with_add, x86_partial_reg_stall, x86_movx;
-extern const int x86_use_loop, x86_use_fiop, x86_use_mov0;
-extern const int x86_use_cltd, x86_read_modify_write;
+extern const int x86_use_himode_fiop, x86_use_simode_fiop;
+extern const int x86_use_mov0, x86_use_cltd, x86_read_modify_write;
extern const int x86_read_modify, x86_split_long_moves;
extern const int x86_promote_QImode, x86_single_stringop, x86_fast_prefix;
extern const int x86_himode_math, x86_qimode_math, x86_promote_qi_regs;
extern const int x86_accumulate_outgoing_args, x86_prologue_using_move;
extern const int x86_epilogue_using_move, x86_decompose_lea;
extern const int x86_arch_always_fancy_math_387, x86_shift1;
-extern const int x86_sse_partial_reg_dependency, x86_sse_partial_regs;
+extern const int x86_sse_partial_reg_dependency, x86_sse_split_regs;
extern const int x86_sse_typeless_stores, x86_sse_load0_by_pxor;
-extern const int x86_use_ffreep, x86_sse_partial_regs_for_cvtsd2ss;
+extern const int x86_use_ffreep;
extern const int x86_inter_unit_moves, x86_schedule;
+extern const int x86_use_bt;
+extern const int x86_cmpxchg, x86_cmpxchg8b, x86_cmpxchg16b, x86_xadd;
+extern const int x86_use_incdec;
+extern const int x86_pad_returns;
extern int x86_prefetch_sse;
#define TARGET_USE_LEAVE (x86_use_leave & TUNEMASK)
/* For sane SSE instruction set generation we need fcomi instruction. It is
safe to enable all CMOVE instructions. */
#define TARGET_CMOVE ((x86_cmove & (1 << ix86_arch)) || TARGET_SSE)
+#define TARGET_FISTTP (((x86_fisttp & (1 << ix86_arch)) || TARGET_SSE3) \
+ && TARGET_80387)
#define TARGET_DEEP_BRANCH_PREDICTION (x86_deep_branch & TUNEMASK)
#define TARGET_BRANCH_PREDICTION_HINTS (x86_branch_hints & TUNEMASK)
#define TARGET_DOUBLE_WITH_ADD (x86_double_with_add & TUNEMASK)
#define TARGET_USE_SAHF ((x86_use_sahf & TUNEMASK) && !TARGET_64BIT)
#define TARGET_MOVX (x86_movx & TUNEMASK)
#define TARGET_PARTIAL_REG_STALL (x86_partial_reg_stall & TUNEMASK)
-#define TARGET_USE_LOOP (x86_use_loop & TUNEMASK)
-#define TARGET_USE_FIOP (x86_use_fiop & TUNEMASK)
+#define TARGET_USE_HIMODE_FIOP (x86_use_himode_fiop & TUNEMASK)
+#define TARGET_USE_SIMODE_FIOP (x86_use_simode_fiop & TUNEMASK)
#define TARGET_USE_MOV0 (x86_use_mov0 & TUNEMASK)
#define TARGET_USE_CLTD (x86_use_cltd & TUNEMASK)
#define TARGET_SPLIT_LONG_MOVES (x86_split_long_moves & TUNEMASK)
#define TARGET_PARTIAL_REG_DEPENDENCY (x86_partial_reg_dependency & TUNEMASK)
#define TARGET_SSE_PARTIAL_REG_DEPENDENCY \
(x86_sse_partial_reg_dependency & TUNEMASK)
-#define TARGET_SSE_PARTIAL_REGS (x86_sse_partial_regs & TUNEMASK)
-#define TARGET_SSE_PARTIAL_REGS_FOR_CVTSD2SS \
- (x86_sse_partial_regs_for_cvtsd2ss & TUNEMASK)
+#define TARGET_SSE_SPLIT_REGS (x86_sse_split_regs & TUNEMASK)
#define TARGET_SSE_TYPELESS_STORES (x86_sse_typeless_stores & TUNEMASK)
-#define TARGET_SSE_TYPELESS_LOAD0 (x86_sse_typeless_load0 & TUNEMASK)
#define TARGET_SSE_LOAD0_BY_PXOR (x86_sse_load0_by_pxor & TUNEMASK)
#define TARGET_MEMORY_MISMATCH_STALL (x86_memory_mismatch_stall & TUNEMASK)
#define TARGET_PROLOGUE_USING_MOVE (x86_prologue_using_move & TUNEMASK)
#define TARGET_EPILOGUE_USING_MOVE (x86_epilogue_using_move & TUNEMASK)
-#define TARGET_DECOMPOSE_LEA (x86_decompose_lea & TUNEMASK)
#define TARGET_PREFETCH_SSE (x86_prefetch_sse)
#define TARGET_SHIFT1 (x86_shift1 & TUNEMASK)
#define TARGET_USE_FFREEP (x86_use_ffreep & TUNEMASK)
#define TARGET_INTER_UNIT_MOVES (x86_inter_unit_moves & TUNEMASK)
#define TARGET_FOUR_JUMP_LIMIT (x86_four_jump_limit & TUNEMASK)
#define TARGET_SCHEDULE (x86_schedule & TUNEMASK)
-
-#define TARGET_STACK_PROBE (target_flags & MASK_STACK_PROBE)
-
-#define TARGET_ALIGN_STRINGOPS (!(target_flags & MASK_NO_ALIGN_STROPS))
-#define TARGET_INLINE_ALL_STRINGOPS (target_flags & MASK_INLINE_ALL_STROPS)
+#define TARGET_USE_BT (x86_use_bt & TUNEMASK)
+#define TARGET_USE_INCDEC (x86_use_incdec & TUNEMASK)
+#define TARGET_PAD_RETURNS (x86_pad_returns & TUNEMASK)
#define ASSEMBLER_DIALECT (ix86_asm_dialect)
-#define TARGET_SSE ((target_flags & MASK_SSE) != 0)
-#define TARGET_SSE2 ((target_flags & MASK_SSE2) != 0)
-#define TARGET_SSE3 ((target_flags & MASK_SSE3) != 0)
#define TARGET_SSE_MATH ((ix86_fpmath & FPMATH_SSE) != 0)
#define TARGET_MIX_SSE_I387 ((ix86_fpmath & FPMATH_SSE) \
&& (ix86_fpmath & FPMATH_387))
-#define TARGET_MMX ((target_flags & MASK_MMX) != 0)
-#define TARGET_3DNOW ((target_flags & MASK_3DNOW) != 0)
-#define TARGET_3DNOW_A ((target_flags & MASK_3DNOW_A) != 0)
-
-#define TARGET_RED_ZONE (!(target_flags & MASK_NO_RED_ZONE))
-
-#define TARGET_USE_MS_BITFIELD_LAYOUT (target_flags & MASK_MS_BITFIELD_LAYOUT)
#define TARGET_GNU_TLS (ix86_tls_dialect == TLS_DIALECT_GNU)
+#define TARGET_GNU2_TLS (ix86_tls_dialect == TLS_DIALECT_GNU2)
+#define TARGET_ANY_GNU_TLS (TARGET_GNU_TLS || TARGET_GNU2_TLS)
#define TARGET_SUN_TLS (ix86_tls_dialect == TLS_DIALECT_SUN)
-/* WARNING: Do not mark empty strings for translation, as calling
- gettext on an empty string does NOT return an empty
- string. */
-
-
-#define TARGET_SWITCHES \
-{ { "80387", MASK_80387, N_("Use hardware fp") }, \
- { "no-80387", -MASK_80387, N_("Do not use hardware fp") }, \
- { "hard-float", MASK_80387, N_("Use hardware fp") }, \
- { "soft-float", -MASK_80387, N_("Do not use hardware fp") }, \
- { "no-soft-float", MASK_80387, N_("Use hardware fp") }, \
- { "386", 0, "" /*Deprecated.*/}, \
- { "486", 0, "" /*Deprecated.*/}, \
- { "pentium", 0, "" /*Deprecated.*/}, \
- { "pentiumpro", 0, "" /*Deprecated.*/}, \
- { "intel-syntax", 0, "" /*Deprecated.*/}, \
- { "no-intel-syntax", 0, "" /*Deprecated.*/}, \
- { "rtd", MASK_RTD, \
- N_("Alternate calling convention") }, \
- { "no-rtd", -MASK_RTD, \
- N_("Use normal calling convention") }, \
- { "align-double", MASK_ALIGN_DOUBLE, \
- N_("Align some doubles on dword boundary") }, \
- { "no-align-double", -MASK_ALIGN_DOUBLE, \
- N_("Align doubles on word boundary") }, \
- { "svr3-shlib", MASK_SVR3_SHLIB, \
- N_("Uninitialized locals in .bss") }, \
- { "no-svr3-shlib", -MASK_SVR3_SHLIB, \
- N_("Uninitialized locals in .data") }, \
- { "ieee-fp", MASK_IEEE_FP, \
- N_("Use IEEE math for fp comparisons") }, \
- { "no-ieee-fp", -MASK_IEEE_FP, \
- N_("Do not use IEEE math for fp comparisons") }, \
- { "fp-ret-in-387", MASK_FLOAT_RETURNS, \
- N_("Return values of functions in FPU registers") }, \
- { "no-fp-ret-in-387", -MASK_FLOAT_RETURNS , \
- N_("Do not return values of functions in FPU registers")}, \
- { "no-fancy-math-387", MASK_NO_FANCY_MATH_387, \
- N_("Do not generate sin, cos, sqrt for FPU") }, \
- { "fancy-math-387", -MASK_NO_FANCY_MATH_387, \
- N_("Generate sin, cos, sqrt for FPU")}, \
- { "omit-leaf-frame-pointer", MASK_OMIT_LEAF_FRAME_POINTER, \
- N_("Omit the frame pointer in leaf functions") }, \
- { "no-omit-leaf-frame-pointer",-MASK_OMIT_LEAF_FRAME_POINTER, "" }, \
- { "stack-arg-probe", MASK_STACK_PROBE, \
- N_("Enable stack probing") }, \
- { "no-stack-arg-probe", -MASK_STACK_PROBE, "" }, \
- { "windows", 0, 0 /* undocumented */ }, \
- { "dll", 0, 0 /* undocumented */ }, \
- { "align-stringops", -MASK_NO_ALIGN_STROPS, \
- N_("Align destination of the string operations") }, \
- { "no-align-stringops", MASK_NO_ALIGN_STROPS, \
- N_("Do not align destination of the string operations") }, \
- { "inline-all-stringops", MASK_INLINE_ALL_STROPS, \
- N_("Inline all known string operations") }, \
- { "no-inline-all-stringops", -MASK_INLINE_ALL_STROPS, \
- N_("Do not inline all known string operations") }, \
- { "push-args", -MASK_NO_PUSH_ARGS, \
- N_("Use push instructions to save outgoing arguments") }, \
- { "no-push-args", MASK_NO_PUSH_ARGS, \
- N_("Do not use push instructions to save outgoing arguments") }, \
- { "accumulate-outgoing-args", MASK_ACCUMULATE_OUTGOING_ARGS, \
- N_("Use push instructions to save outgoing arguments") }, \
- { "no-accumulate-outgoing-args",-MASK_ACCUMULATE_OUTGOING_ARGS, \
- N_("Do not use push instructions to save outgoing arguments") }, \
- { "mmx", MASK_MMX, \
- N_("Support MMX built-in functions") }, \
- { "no-mmx", -MASK_MMX, \
- N_("Do not support MMX built-in functions") }, \
- { "3dnow", MASK_3DNOW, \
- N_("Support 3DNow! built-in functions") }, \
- { "no-3dnow", -MASK_3DNOW, \
- N_("Do not support 3DNow! built-in functions") }, \
- { "sse", MASK_SSE, \
- N_("Support MMX and SSE built-in functions and code generation") }, \
- { "no-sse", -MASK_SSE, \
- N_("Do not support MMX and SSE built-in functions and code generation") },\
- { "sse2", MASK_SSE2, \
- N_("Support MMX, SSE and SSE2 built-in functions and code generation") }, \
- { "no-sse2", -MASK_SSE2, \
- N_("Do not support MMX, SSE and SSE2 built-in functions and code generation") }, \
- { "sse3", MASK_SSE3, \
- N_("Support MMX, SSE, SSE2 and SSE3 built-in functions and code generation") },\
- { "no-sse3", -MASK_SSE3, \
- N_("Do not support MMX, SSE, SSE2 and SSE3 built-in functions and code generation") },\
- { "128bit-long-double", MASK_128BIT_LONG_DOUBLE, \
- N_("sizeof(long double) is 16") }, \
- { "96bit-long-double", -MASK_128BIT_LONG_DOUBLE, \
- N_("sizeof(long double) is 12") }, \
- { "64", MASK_64BIT, \
- N_("Generate 64bit x86-64 code") }, \
- { "32", -MASK_64BIT, \
- N_("Generate 32bit i386 code") }, \
- { "ms-bitfields", MASK_MS_BITFIELD_LAYOUT, \
- N_("Use native (MS) bitfield layout") }, \
- { "no-ms-bitfields", -MASK_MS_BITFIELD_LAYOUT, \
- N_("Use gcc default bitfield layout") }, \
- { "red-zone", -MASK_NO_RED_ZONE, \
- N_("Use red-zone in the x86-64 code") }, \
- { "no-red-zone", MASK_NO_RED_ZONE, \
- N_("Do not use red-zone in the x86-64 code") }, \
- { "tls-direct-seg-refs", MASK_TLS_DIRECT_SEG_REFS, \
- N_("Use direct references against %gs when accessing tls data") }, \
- { "no-tls-direct-seg-refs", -MASK_TLS_DIRECT_SEG_REFS, \
- N_("Do not use direct references against %gs when accessing tls data") }, \
- SUBTARGET_SWITCHES \
- { "", \
- TARGET_DEFAULT | TARGET_64BIT_DEFAULT | TARGET_SUBTARGET_DEFAULT \
- | TARGET_TLS_DIRECT_SEG_REFS_DEFAULT, 0 }}
+#define TARGET_CMPXCHG (x86_cmpxchg & (1 << ix86_arch))
+#define TARGET_CMPXCHG8B (x86_cmpxchg8b & (1 << ix86_arch))
+#define TARGET_CMPXCHG16B (x86_cmpxchg16b & (1 << ix86_arch))
+#define TARGET_XADD (x86_xadd & (1 << ix86_arch))
#ifndef TARGET_64BIT_DEFAULT
#define TARGET_64BIT_DEFAULT 0
with the rounding mode forced to 53 bits. */
#define TARGET_96_ROUND_53_LONG_DOUBLE 0
-/* This macro is similar to `TARGET_SWITCHES' but defines names of
- command options that have values. Its definition is an
- initializer with a subgrouping for each command option.
-
- Each subgrouping contains a string constant, that defines the
- fixed part of the option name, and the address of a variable. The
- variable, type `char *', is set to the variable part of the given
- option if the fixed part matches. The actual option name is made
- by appending `-m' to the specified name. */
-#define TARGET_OPTIONS \
-{ { "tune=", &ix86_tune_string, \
- N_("Schedule code for given CPU"), 0}, \
- { "fpmath=", &ix86_fpmath_string, \
- N_("Generate floating point mathematics using given instruction set"), 0},\
- { "arch=", &ix86_arch_string, \
- N_("Generate code for given CPU"), 0}, \
- { "regparm=", &ix86_regparm_string, \
- N_("Number of registers used to pass integer arguments"), 0},\
- { "align-loops=", &ix86_align_loops_string, \
- N_("Loop code aligned to this power of 2"), 0}, \
- { "align-jumps=", &ix86_align_jumps_string, \
- N_("Jump targets are aligned to this power of 2"), 0}, \
- { "align-functions=", &ix86_align_funcs_string, \
- N_("Function starts are aligned to this power of 2"), 0}, \
- { "preferred-stack-boundary=", \
- &ix86_preferred_stack_boundary_string, \
- N_("Attempt to keep stack aligned to this power of 2"), 0}, \
- { "branch-cost=", &ix86_branch_cost_string, \
- N_("Branches are this expensive (1-5, arbitrary units)"), 0},\
- { "cmodel=", &ix86_cmodel_string, \
- N_("Use given x86-64 code model"), 0}, \
- { "debug-arg", &ix86_debug_arg_string, \
- "" /* Undocumented. */, 0}, \
- { "debug-addr", &ix86_debug_addr_string, \
- "" /* Undocumented. */, 0}, \
- { "asm=", &ix86_asm_string, \
- N_("Use given assembler dialect"), 0}, \
- { "tls-dialect=", &ix86_tls_dialect_string, \
- N_("Use given thread-local storage dialect"), 0}, \
- SUBTARGET_OPTIONS \
-}
-
/* Sometimes certain combinations of command options do not make
sense on a particular target machine. You can define a macro
`OVERRIDE_OPTIONS' to take account of this. This macro, if
#define OVERRIDE_OPTIONS override_options ()
-/* These are meant to be redefined in the host dependent files */
-#define SUBTARGET_SWITCHES
-#define SUBTARGET_OPTIONS
-
/* Define this to change the optimizations performed by default. */
#define OPTIMIZATION_OPTIONS(LEVEL, SIZE) \
optimization_options ((LEVEL), (SIZE))
#define TARGET_CPU_DEFAULT_pentium_m 14
#define TARGET_CPU_DEFAULT_prescott 15
#define TARGET_CPU_DEFAULT_nocona 16
+#define TARGET_CPU_DEFAULT_generic 17
#define TARGET_CPU_DEFAULT_NAMES {"i386", "i486", "pentium", "pentium-mmx",\
"pentiumpro", "pentium2", "pentium3", \
"pentium4", "k6", "k6-2", "k6-3",\
"athlon", "athlon-4", "k8", \
- "pentium-m", "prescott", "nocona"}
+ "pentium-m", "prescott", "nocona", \
+ "generic"}
#ifndef CC1_SPEC
#define CC1_SPEC "%(cc1_cpu) "
#define EXTRA_SPECS \
{ "cc1_cpu", CC1_CPU_SPEC }, \
SUBTARGET_EXTRA_SPECS
+
+#define LINK_GCC_MATH_SPEC "%{msselibm:-lgcc-math}"
\f
/* target machine storage layout */
aligned; the compiler cannot rely on having this alignment. */
#define PREFERRED_STACK_BOUNDARY ix86_preferred_stack_boundary
-/* As of July 2001, many runtimes to not align the stack properly when
+/* As of July 2001, many runtimes do not align the stack properly when
entering main. This causes expand_main_function to forcibly align
the stack, which results in aligned frames for functions called from
main, though it does nothing for the alignment of main itself. */
/* Decide whether a variable of mode MODE should be 128 bit aligned. */
#define ALIGN_MODE_128(MODE) \
- ((MODE) == XFmode || (MODE) == TFmode || SSE_REG_MODE_P (MODE))
+ ((MODE) == XFmode || SSE_REG_MODE_P (MODE))
/* The published ABIs say that doubles should be aligned on word
boundaries, so lower the alignment for structure fields unless
#define STACK_REGS
#define IS_STACK_MODE(MODE) \
- ((MODE) == DFmode || (MODE) == SFmode || (MODE) == XFmode) \
+ (((MODE) == SFmode && (!TARGET_SSE || !TARGET_SSE_MATH)) \
+ || ((MODE) == DFmode && (!TARGET_SSE2 || !TARGET_SSE_MATH)) \
+ || (MODE) == XFmode)
/* Number of actual hardware registers.
The hardware registers are assigned numbers for the compiler
and the register where structure-value addresses are passed.
Aside from that, you can include as many other registers as you like.
- The value is zero if the register is not fixed on either 32 or
- 64 bit targets, one if the register if fixed on both 32 and 64
- bit targets, two if it is only fixed on 32bit targets and three
- if its only fixed on 64bit targets.
+ The value is zero if the register is not call used on either 32 or
+ 64 bit targets, one if the register if call used on both 32 and 64
+ bit targets, two if it is only call used on 32bit targets and three
+ if its only call used on 64bit targets.
Proper values are computed in the CONDITIONAL_REGISTER_USAGE.
*/
#define CALL_USED_REGISTERS \
int i; \
for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) \
if (TEST_HARD_REG_BIT (reg_class_contents[(int)MMX_REGS], i)) \
- fixed_regs[i] = call_used_regs[i] = 1; \
+ fixed_regs[i] = call_used_regs[i] = 1, reg_names[i] = ""; \
} \
if (! TARGET_SSE) \
{ \
int i; \
for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) \
if (TEST_HARD_REG_BIT (reg_class_contents[(int)SSE_REGS], i)) \
- fixed_regs[i] = call_used_regs[i] = 1; \
+ fixed_regs[i] = call_used_regs[i] = 1, reg_names[i] = ""; \
} \
if (! TARGET_80387 && ! TARGET_FLOAT_RETURNS_IN_80387) \
{ \
COPY_HARD_REG_SET (x, reg_class_contents[(int)FLOAT_REGS]); \
for (i = 0; i < FIRST_PSEUDO_REGISTER; i++) \
if (TEST_HARD_REG_BIT (x, i)) \
- fixed_regs[i] = call_used_regs[i] = 1; \
+ fixed_regs[i] = call_used_regs[i] = 1, reg_names[i] = ""; \
+ } \
+ if (! TARGET_64BIT) \
+ { \
+ int i; \
+ for (i = FIRST_REX_INT_REG; i <= LAST_REX_INT_REG; i++) \
+ reg_names[i] = ""; \
+ for (i = FIRST_REX_SSE_REG; i <= LAST_REX_SSE_REG; i++) \
+ reg_names[i] = ""; \
} \
} while (0)
#define VALID_SSE2_REG_MODE(MODE) \
((MODE) == V16QImode || (MODE) == V8HImode || (MODE) == V2DFmode \
- || (MODE) == V2DImode)
+ || (MODE) == V2DImode || (MODE) == DFmode)
#define VALID_SSE_REG_MODE(MODE) \
((MODE) == TImode || (MODE) == V4SFmode || (MODE) == V4SImode \
- || (MODE) == SFmode || (MODE) == TFmode \
- /* Always accept SSE2 modes so that xmmintrin.h compiles. */ \
- || VALID_SSE2_REG_MODE (MODE) \
- || (TARGET_SSE2 && ((MODE) == DFmode || VALID_MMX_REG_MODE (MODE))))
+ || (MODE) == SFmode || (MODE) == TFmode)
#define VALID_MMX_REG_MODE_3DNOW(MODE) \
((MODE) == V2SFmode || (MODE) == SFmode)
((MODE) == DImode || (MODE) == V8QImode || (MODE) == V4HImode \
|| (MODE) == V2SImode || (MODE) == SImode)
-#define UNITS_PER_SIMD_WORD \
- (TARGET_SSE ? 16 : TARGET_MMX || TARGET_3DNOW ? 8 : 0)
+/* ??? No autovectorization into MMX or 3DNOW until we can reliably
+ place emms and femms instructions. */
+#define UNITS_PER_SIMD_WORD (TARGET_SSE ? 16 : UNITS_PER_WORD)
#define VALID_FP_MODE_P(MODE) \
((MODE) == SFmode || (MODE) == DFmode || (MODE) == XFmode \
|| (MODE) == V8HImode || (MODE) == V2DFmode || (MODE) == V2DImode \
|| (MODE) == V4SFmode || (MODE) == V4SImode)
-/* Return true for modes passed in MMX registers. */
-#define MMX_REG_MODE_P(MODE) \
- ((MODE) == V8QImode || (MODE) == V4HImode || (MODE) == V2SImode \
- || (MODE) == V2SFmode)
-
/* Value is 1 if hard register REGNO can hold a value of machine-mode MODE. */
#define HARD_REGNO_MODE_OK(REGNO, MODE) \
If HARD_REGNO_MODE_OK could produce different values for MODE1 and MODE2,
for any hard reg, then this must be 0 for correct output. */
-#define MODES_TIEABLE_P(MODE1, MODE2) \
- ((MODE1) == (MODE2) \
- || (((MODE1) == HImode || (MODE1) == SImode \
- || ((MODE1) == QImode \
- && (TARGET_64BIT || !TARGET_PARTIAL_REG_STALL)) \
- || ((MODE1) == DImode && TARGET_64BIT)) \
- && ((MODE2) == HImode || (MODE2) == SImode \
- || ((MODE2) == QImode \
- && (TARGET_64BIT || !TARGET_PARTIAL_REG_STALL)) \
- || ((MODE2) == DImode && TARGET_64BIT))))
+#define MODES_TIEABLE_P(MODE1, MODE2) ix86_modes_tieable_p (MODE1, MODE2)
/* It is possible to write patterns to move flags; but until someone
does it, */
This is computed in `reload', in reload1.c. */
#define FRAME_POINTER_REQUIRED ix86_frame_pointer_required ()
-/* Override this in other tm.h files to cope with various OS losage
+/* Override this in other tm.h files to cope with various OS lossage
requiring a frame pointer. */
#ifndef SUBTARGET_FRAME_POINTER_REQUIRED
#define SUBTARGET_FRAME_POINTER_REQUIRED 0
#define REAL_PIC_OFFSET_TABLE_REGNUM 3
#define PIC_OFFSET_TABLE_REGNUM \
- (TARGET_64BIT || !flag_pic ? INVALID_REGNUM \
+ ((TARGET_64BIT && ix86_cmodel == CM_SMALL_PIC) \
+ || !flag_pic ? INVALID_REGNUM \
: reload_completed ? REGNO (pic_offset_table_rtx) \
: REAL_PIC_OFFSET_TABLE_REGNUM)
#define FLOAT_CLASS_P(CLASS) \
reg_class_subset_p ((CLASS), FLOAT_REGS)
#define SSE_CLASS_P(CLASS) \
- reg_class_subset_p ((CLASS), SSE_REGS)
+ ((CLASS) == SSE_REGS)
#define MMX_CLASS_P(CLASS) \
- reg_class_subset_p ((CLASS), MMX_REGS)
+ ((CLASS) == MMX_REGS)
#define MAYBE_INTEGER_CLASS_P(CLASS) \
reg_classes_intersect_p ((CLASS), GENERAL_REGS)
#define MAYBE_FLOAT_CLASS_P(CLASS) \
#define INDEX_REG_CLASS INDEX_REGS
#define BASE_REG_CLASS GENERAL_REGS
-/* Get reg_class from a letter such as appears in the machine description. */
-
-#define REG_CLASS_FROM_LETTER(C) \
- ((C) == 'r' ? GENERAL_REGS : \
- (C) == 'R' ? LEGACY_REGS : \
- (C) == 'q' ? TARGET_64BIT ? GENERAL_REGS : Q_REGS : \
- (C) == 'Q' ? Q_REGS : \
- (C) == 'f' ? (TARGET_80387 || TARGET_FLOAT_RETURNS_IN_80387 \
- ? FLOAT_REGS \
- : NO_REGS) : \
- (C) == 't' ? (TARGET_80387 || TARGET_FLOAT_RETURNS_IN_80387 \
- ? FP_TOP_REG \
- : NO_REGS) : \
- (C) == 'u' ? (TARGET_80387 || TARGET_FLOAT_RETURNS_IN_80387 \
- ? FP_SECOND_REG \
- : NO_REGS) : \
- (C) == 'a' ? AREG : \
- (C) == 'b' ? BREG : \
- (C) == 'c' ? CREG : \
- (C) == 'd' ? DREG : \
- (C) == 'x' ? TARGET_SSE ? SSE_REGS : NO_REGS : \
- (C) == 'Y' ? TARGET_SSE2? SSE_REGS : NO_REGS : \
- (C) == 'y' ? TARGET_MMX ? MMX_REGS : NO_REGS : \
- (C) == 'A' ? AD_REGS : \
- (C) == 'D' ? DIREG : \
- (C) == 'S' ? SIREG : NO_REGS)
-
-/* The letters I, J, K, L and M in a register constraint string
- can be used to stand for particular ranges of immediate operands.
- This macro defines what the ranges are.
- C is the letter, and VALUE is a constant value.
- Return 1 if VALUE is in the range specified by C.
-
- I is for non-DImode shifts.
- J is for DImode shifts.
- K is for signed imm8 operands.
- L is for andsi as zero-extending move.
- M is for shifts that can be executed by the "lea" opcode.
- N is for immediate operands for out/in instructions (0-255)
- */
-
-#define CONST_OK_FOR_LETTER_P(VALUE, C) \
- ((C) == 'I' ? (VALUE) >= 0 && (VALUE) <= 31 \
- : (C) == 'J' ? (VALUE) >= 0 && (VALUE) <= 63 \
- : (C) == 'K' ? (VALUE) >= -128 && (VALUE) <= 127 \
- : (C) == 'L' ? (VALUE) == 0xff || (VALUE) == 0xffff \
- : (C) == 'M' ? (VALUE) >= 0 && (VALUE) <= 3 \
- : (C) == 'N' ? (VALUE) >= 0 && (VALUE) <= 255 \
- : 0)
-
-/* Similar, but for floating constants, and defining letters G and H.
- Here VALUE is the CONST_DOUBLE rtx itself. We allow constants even if
- TARGET_387 isn't set, because the stack register converter may need to
- load 0.0 into the function value register. */
-
-#define CONST_DOUBLE_OK_FOR_LETTER_P(VALUE, C) \
- ((C) == 'G' ? standard_80387_constant_p (VALUE) \
- : 0)
-
-/* A C expression that defines the optional machine-dependent
- constraint letters that can be used to segregate specific types of
- operands, usually memory references, for the target machine. Any
- letter that is not elsewhere defined and not matched by
- `REG_CLASS_FROM_LETTER' may be used. Normally this macro will not
- be defined.
-
- If it is required for a particular target machine, it should
- return 1 if VALUE corresponds to the operand type represented by
- the constraint letter C. If C is not defined as an extra
- constraint, the value returned should be 0 regardless of VALUE. */
-
-#define EXTRA_CONSTRAINT(VALUE, D) \
- ((D) == 'e' ? x86_64_immediate_operand (VALUE, VOIDmode) \
- : (D) == 'Z' ? x86_64_zext_immediate_operand (VALUE, VOIDmode) \
- : (D) == 'C' ? standard_sse_constant_p (VALUE) \
- : 0)
-
/* Place additional restrictions on the register class to use when it
is necessary to be able to hold a value of mode MODE in a reload
register for which class CLASS would ordinarily be used. */
#define PREFERRED_RELOAD_CLASS(X, CLASS) \
ix86_preferred_reload_class ((X), (CLASS))
+/* Discourage putting floating-point values in SSE registers unless
+ SSE math is being used, and likewise for the 387 registers. */
+
+#define PREFERRED_OUTPUT_RELOAD_CLASS(X, CLASS) \
+ ix86_preferred_output_reload_class ((X), (CLASS))
+
/* If we are copying between general and FP registers, we need a memory
location. The same is true for SSE and MMX registers. */
#define SECONDARY_MEMORY_NEEDED(CLASS1, CLASS2, MODE) \
|| ((CLASS) == FP_TOP_REG) \
|| ((CLASS) == FP_SECOND_REG))
-/* Return a class of registers that cannot change FROM mode to TO mode.
-
- x87 registers can't do subreg as all values are reformated to extended
- precision. XMM registers does not support with nonzero offsets equal
- to 4, 8 and 12 otherwise valid for integer registers. Since we can't
- determine these, prohibit all nonparadoxical subregs changing size. */
+/* Return a class of registers that cannot change FROM mode to TO mode. */
-#define CANNOT_CHANGE_MODE_CLASS(FROM, TO, CLASS) \
- (GET_MODE_SIZE (TO) < GET_MODE_SIZE (FROM) \
- ? reg_classes_intersect_p (FLOAT_SSE_REGS, (CLASS)) \
- || MAYBE_MMX_CLASS_P (CLASS) \
- : GET_MODE_SIZE (FROM) != GET_MODE_SIZE (TO) \
- ? reg_classes_intersect_p (FLOAT_REGS, (CLASS)) : 0)
+#define CANNOT_CHANGE_MODE_CLASS(FROM, TO, CLASS) \
+ ix86_cannot_change_mode_class (FROM, TO, CLASS)
\f
/* Stack layout; function entry, exit and calling. */
makes the stack pointer a smaller address. */
#define STACK_GROWS_DOWNWARD
-/* Define this if the nominal address of the stack frame
+/* Define this to nonzero if the nominal address of the stack frame
is at the high-address end of the local variables;
that is, each additional local variable allocated
goes at a more negative offset in the frame. */
-#define FRAME_GROWS_DOWNWARD
+#define FRAME_GROWS_DOWNWARD 1
/* Offset within stack frame to start allocating local variables at.
If FRAME_GROWS_DOWNWARD, this is the offset to the END of the
/* If we generate an insn to push BYTES bytes,
this says how many the stack pointer really advances by.
- On 386 pushw decrements by exactly 2 no matter what the position was.
- On the 386 there is no pushb; we use pushw instead, and this
- has the effect of rounding up to 2.
+ On 386, we have pushw instruction that decrements by exactly 2 no
+ matter what the position was, there is no pushb.
+ But as CIE data alignment factor on this arch is -4, we need to make
+ sure all stack pointer adjustments are in multiple of 4.
For 64bit ABI we round up to 8 bytes.
*/
#define PUSH_ROUNDING(BYTES) \
(TARGET_64BIT \
? (((BYTES) + 7) & (-8)) \
- : (((BYTES) + 1) & (-2)))
+ : (((BYTES) + 3) & (-4)))
/* If defined, the maximum amount of space required for outgoing arguments will
be computed and placed into the variable
#define RETURN_POPS_ARGS(FUNDECL, FUNTYPE, SIZE) \
ix86_return_pops_args ((FUNDECL), (FUNTYPE), (SIZE))
-/* Define how to find the value returned by a function.
- VALTYPE is the data type of the value (as a tree).
- If the precise function being called is known, FUNC is its FUNCTION_DECL;
- otherwise, FUNC is 0. */
-#define FUNCTION_VALUE(VALTYPE, FUNC) \
- ix86_function_value (VALTYPE)
-
#define FUNCTION_VALUE_REGNO_P(N) \
ix86_function_value_regno_p (N)
int words; /* # words passed so far */
int nregs; /* # registers available for passing */
int regno; /* next available register number */
- int fastcall; /* fastcall calling convention is used */
+ int fastcall; /* fastcall calling convention is used */
int sse_words; /* # sse words passed so far */
int sse_nregs; /* # sse registers available for passing */
int warn_sse; /* True when we want to warn about SSE ABI. */
int mmx_nregs; /* # mmx registers available for passing */
int mmx_regno; /* next available mmx register number */
int maybe_vaarg; /* true for calls to possibly vardic fncts. */
+ int float_in_sse; /* 1 if in 32-bit mode SFmode (2 for DFmode) should
+ be passed in SSE registers. Otherwise 0. */
} CUMULATIVE_ARGS;
/* Initialize a variable CUM of type CUMULATIVE_ARGS
#define FUNCTION_ARG(CUM, MODE, TYPE, NAMED) \
function_arg (&(CUM), (MODE), (TYPE), (NAMED))
-/* For an arg passed partly in registers and partly in memory,
- this is the number of registers used.
- For args passed entirely in registers or entirely in memory, zero. */
-
-#define FUNCTION_ARG_PARTIAL_NREGS(CUM, MODE, TYPE, NAMED) 0
-
/* Implement `va_start' for varargs and stdarg. */
#define EXPAND_BUILTIN_VA_START(VALIST, NEXTARG) \
ix86_va_start (VALIST, NEXTARG)
goto LABEL; \
} while (0)
\f
-/* Codes for all the SSE/MMX builtins. */
-enum ix86_builtins
-{
- IX86_BUILTIN_ADDPS,
- IX86_BUILTIN_ADDSS,
- IX86_BUILTIN_DIVPS,
- IX86_BUILTIN_DIVSS,
- IX86_BUILTIN_MULPS,
- IX86_BUILTIN_MULSS,
- IX86_BUILTIN_SUBPS,
- IX86_BUILTIN_SUBSS,
-
- IX86_BUILTIN_CMPEQPS,
- IX86_BUILTIN_CMPLTPS,
- IX86_BUILTIN_CMPLEPS,
- IX86_BUILTIN_CMPGTPS,
- IX86_BUILTIN_CMPGEPS,
- IX86_BUILTIN_CMPNEQPS,
- IX86_BUILTIN_CMPNLTPS,
- IX86_BUILTIN_CMPNLEPS,
- IX86_BUILTIN_CMPNGTPS,
- IX86_BUILTIN_CMPNGEPS,
- IX86_BUILTIN_CMPORDPS,
- IX86_BUILTIN_CMPUNORDPS,
- IX86_BUILTIN_CMPNEPS,
- IX86_BUILTIN_CMPEQSS,
- IX86_BUILTIN_CMPLTSS,
- IX86_BUILTIN_CMPLESS,
- IX86_BUILTIN_CMPNEQSS,
- IX86_BUILTIN_CMPNLTSS,
- IX86_BUILTIN_CMPNLESS,
- IX86_BUILTIN_CMPORDSS,
- IX86_BUILTIN_CMPUNORDSS,
- IX86_BUILTIN_CMPNESS,
-
- IX86_BUILTIN_COMIEQSS,
- IX86_BUILTIN_COMILTSS,
- IX86_BUILTIN_COMILESS,
- IX86_BUILTIN_COMIGTSS,
- IX86_BUILTIN_COMIGESS,
- IX86_BUILTIN_COMINEQSS,
- IX86_BUILTIN_UCOMIEQSS,
- IX86_BUILTIN_UCOMILTSS,
- IX86_BUILTIN_UCOMILESS,
- IX86_BUILTIN_UCOMIGTSS,
- IX86_BUILTIN_UCOMIGESS,
- IX86_BUILTIN_UCOMINEQSS,
-
- IX86_BUILTIN_CVTPI2PS,
- IX86_BUILTIN_CVTPS2PI,
- IX86_BUILTIN_CVTSI2SS,
- IX86_BUILTIN_CVTSI642SS,
- IX86_BUILTIN_CVTSS2SI,
- IX86_BUILTIN_CVTSS2SI64,
- IX86_BUILTIN_CVTTPS2PI,
- IX86_BUILTIN_CVTTSS2SI,
- IX86_BUILTIN_CVTTSS2SI64,
-
- IX86_BUILTIN_MAXPS,
- IX86_BUILTIN_MAXSS,
- IX86_BUILTIN_MINPS,
- IX86_BUILTIN_MINSS,
-
- IX86_BUILTIN_LOADAPS,
- IX86_BUILTIN_LOADUPS,
- IX86_BUILTIN_STOREAPS,
- IX86_BUILTIN_STOREUPS,
- IX86_BUILTIN_LOADSS,
- IX86_BUILTIN_STORESS,
- IX86_BUILTIN_MOVSS,
-
- IX86_BUILTIN_MOVHLPS,
- IX86_BUILTIN_MOVLHPS,
- IX86_BUILTIN_LOADHPS,
- IX86_BUILTIN_LOADLPS,
- IX86_BUILTIN_STOREHPS,
- IX86_BUILTIN_STORELPS,
-
- IX86_BUILTIN_MASKMOVQ,
- IX86_BUILTIN_MOVMSKPS,
- IX86_BUILTIN_PMOVMSKB,
-
- IX86_BUILTIN_MOVNTPS,
- IX86_BUILTIN_MOVNTQ,
-
- IX86_BUILTIN_LOADDQA,
- IX86_BUILTIN_LOADDQU,
- IX86_BUILTIN_STOREDQA,
- IX86_BUILTIN_STOREDQU,
- IX86_BUILTIN_MOVQ,
- IX86_BUILTIN_LOADD,
- IX86_BUILTIN_STORED,
-
- IX86_BUILTIN_CLRTI,
-
- IX86_BUILTIN_PACKSSWB,
- IX86_BUILTIN_PACKSSDW,
- IX86_BUILTIN_PACKUSWB,
-
- IX86_BUILTIN_PADDB,
- IX86_BUILTIN_PADDW,
- IX86_BUILTIN_PADDD,
- IX86_BUILTIN_PADDQ,
- IX86_BUILTIN_PADDSB,
- IX86_BUILTIN_PADDSW,
- IX86_BUILTIN_PADDUSB,
- IX86_BUILTIN_PADDUSW,
- IX86_BUILTIN_PSUBB,
- IX86_BUILTIN_PSUBW,
- IX86_BUILTIN_PSUBD,
- IX86_BUILTIN_PSUBQ,
- IX86_BUILTIN_PSUBSB,
- IX86_BUILTIN_PSUBSW,
- IX86_BUILTIN_PSUBUSB,
- IX86_BUILTIN_PSUBUSW,
-
- IX86_BUILTIN_PAND,
- IX86_BUILTIN_PANDN,
- IX86_BUILTIN_POR,
- IX86_BUILTIN_PXOR,
-
- IX86_BUILTIN_PAVGB,
- IX86_BUILTIN_PAVGW,
-
- IX86_BUILTIN_PCMPEQB,
- IX86_BUILTIN_PCMPEQW,
- IX86_BUILTIN_PCMPEQD,
- IX86_BUILTIN_PCMPGTB,
- IX86_BUILTIN_PCMPGTW,
- IX86_BUILTIN_PCMPGTD,
-
- IX86_BUILTIN_PEXTRW,
- IX86_BUILTIN_PINSRW,
-
- IX86_BUILTIN_PMADDWD,
-
- IX86_BUILTIN_PMAXSW,
- IX86_BUILTIN_PMAXUB,
- IX86_BUILTIN_PMINSW,
- IX86_BUILTIN_PMINUB,
-
- IX86_BUILTIN_PMULHUW,
- IX86_BUILTIN_PMULHW,
- IX86_BUILTIN_PMULLW,
-
- IX86_BUILTIN_PSADBW,
- IX86_BUILTIN_PSHUFW,
-
- IX86_BUILTIN_PSLLW,
- IX86_BUILTIN_PSLLD,
- IX86_BUILTIN_PSLLQ,
- IX86_BUILTIN_PSRAW,
- IX86_BUILTIN_PSRAD,
- IX86_BUILTIN_PSRLW,
- IX86_BUILTIN_PSRLD,
- IX86_BUILTIN_PSRLQ,
- IX86_BUILTIN_PSLLWI,
- IX86_BUILTIN_PSLLDI,
- IX86_BUILTIN_PSLLQI,
- IX86_BUILTIN_PSRAWI,
- IX86_BUILTIN_PSRADI,
- IX86_BUILTIN_PSRLWI,
- IX86_BUILTIN_PSRLDI,
- IX86_BUILTIN_PSRLQI,
-
- IX86_BUILTIN_PUNPCKHBW,
- IX86_BUILTIN_PUNPCKHWD,
- IX86_BUILTIN_PUNPCKHDQ,
- IX86_BUILTIN_PUNPCKLBW,
- IX86_BUILTIN_PUNPCKLWD,
- IX86_BUILTIN_PUNPCKLDQ,
-
- IX86_BUILTIN_SHUFPS,
-
- IX86_BUILTIN_RCPPS,
- IX86_BUILTIN_RCPSS,
- IX86_BUILTIN_RSQRTPS,
- IX86_BUILTIN_RSQRTSS,
- IX86_BUILTIN_SQRTPS,
- IX86_BUILTIN_SQRTSS,
-
- IX86_BUILTIN_UNPCKHPS,
- IX86_BUILTIN_UNPCKLPS,
-
- IX86_BUILTIN_ANDPS,
- IX86_BUILTIN_ANDNPS,
- IX86_BUILTIN_ORPS,
- IX86_BUILTIN_XORPS,
-
- IX86_BUILTIN_EMMS,
- IX86_BUILTIN_LDMXCSR,
- IX86_BUILTIN_STMXCSR,
- IX86_BUILTIN_SFENCE,
-
- /* 3DNow! Original */
- IX86_BUILTIN_FEMMS,
- IX86_BUILTIN_PAVGUSB,
- IX86_BUILTIN_PF2ID,
- IX86_BUILTIN_PFACC,
- IX86_BUILTIN_PFADD,
- IX86_BUILTIN_PFCMPEQ,
- IX86_BUILTIN_PFCMPGE,
- IX86_BUILTIN_PFCMPGT,
- IX86_BUILTIN_PFMAX,
- IX86_BUILTIN_PFMIN,
- IX86_BUILTIN_PFMUL,
- IX86_BUILTIN_PFRCP,
- IX86_BUILTIN_PFRCPIT1,
- IX86_BUILTIN_PFRCPIT2,
- IX86_BUILTIN_PFRSQIT1,
- IX86_BUILTIN_PFRSQRT,
- IX86_BUILTIN_PFSUB,
- IX86_BUILTIN_PFSUBR,
- IX86_BUILTIN_PI2FD,
- IX86_BUILTIN_PMULHRW,
-
- /* 3DNow! Athlon Extensions */
- IX86_BUILTIN_PF2IW,
- IX86_BUILTIN_PFNACC,
- IX86_BUILTIN_PFPNACC,
- IX86_BUILTIN_PI2FW,
- IX86_BUILTIN_PSWAPDSI,
- IX86_BUILTIN_PSWAPDSF,
-
- IX86_BUILTIN_SSE_ZERO,
- IX86_BUILTIN_MMX_ZERO,
-
- /* SSE2 */
- IX86_BUILTIN_ADDPD,
- IX86_BUILTIN_ADDSD,
- IX86_BUILTIN_DIVPD,
- IX86_BUILTIN_DIVSD,
- IX86_BUILTIN_MULPD,
- IX86_BUILTIN_MULSD,
- IX86_BUILTIN_SUBPD,
- IX86_BUILTIN_SUBSD,
-
- IX86_BUILTIN_CMPEQPD,
- IX86_BUILTIN_CMPLTPD,
- IX86_BUILTIN_CMPLEPD,
- IX86_BUILTIN_CMPGTPD,
- IX86_BUILTIN_CMPGEPD,
- IX86_BUILTIN_CMPNEQPD,
- IX86_BUILTIN_CMPNLTPD,
- IX86_BUILTIN_CMPNLEPD,
- IX86_BUILTIN_CMPNGTPD,
- IX86_BUILTIN_CMPNGEPD,
- IX86_BUILTIN_CMPORDPD,
- IX86_BUILTIN_CMPUNORDPD,
- IX86_BUILTIN_CMPNEPD,
- IX86_BUILTIN_CMPEQSD,
- IX86_BUILTIN_CMPLTSD,
- IX86_BUILTIN_CMPLESD,
- IX86_BUILTIN_CMPNEQSD,
- IX86_BUILTIN_CMPNLTSD,
- IX86_BUILTIN_CMPNLESD,
- IX86_BUILTIN_CMPORDSD,
- IX86_BUILTIN_CMPUNORDSD,
- IX86_BUILTIN_CMPNESD,
-
- IX86_BUILTIN_COMIEQSD,
- IX86_BUILTIN_COMILTSD,
- IX86_BUILTIN_COMILESD,
- IX86_BUILTIN_COMIGTSD,
- IX86_BUILTIN_COMIGESD,
- IX86_BUILTIN_COMINEQSD,
- IX86_BUILTIN_UCOMIEQSD,
- IX86_BUILTIN_UCOMILTSD,
- IX86_BUILTIN_UCOMILESD,
- IX86_BUILTIN_UCOMIGTSD,
- IX86_BUILTIN_UCOMIGESD,
- IX86_BUILTIN_UCOMINEQSD,
-
- IX86_BUILTIN_MAXPD,
- IX86_BUILTIN_MAXSD,
- IX86_BUILTIN_MINPD,
- IX86_BUILTIN_MINSD,
-
- IX86_BUILTIN_ANDPD,
- IX86_BUILTIN_ANDNPD,
- IX86_BUILTIN_ORPD,
- IX86_BUILTIN_XORPD,
-
- IX86_BUILTIN_SQRTPD,
- IX86_BUILTIN_SQRTSD,
-
- IX86_BUILTIN_UNPCKHPD,
- IX86_BUILTIN_UNPCKLPD,
-
- IX86_BUILTIN_SHUFPD,
-
- IX86_BUILTIN_LOADAPD,
- IX86_BUILTIN_LOADUPD,
- IX86_BUILTIN_STOREAPD,
- IX86_BUILTIN_STOREUPD,
- IX86_BUILTIN_LOADSD,
- IX86_BUILTIN_STORESD,
- IX86_BUILTIN_MOVSD,
-
- IX86_BUILTIN_LOADHPD,
- IX86_BUILTIN_LOADLPD,
- IX86_BUILTIN_STOREHPD,
- IX86_BUILTIN_STORELPD,
-
- IX86_BUILTIN_CVTDQ2PD,
- IX86_BUILTIN_CVTDQ2PS,
-
- IX86_BUILTIN_CVTPD2DQ,
- IX86_BUILTIN_CVTPD2PI,
- IX86_BUILTIN_CVTPD2PS,
- IX86_BUILTIN_CVTTPD2DQ,
- IX86_BUILTIN_CVTTPD2PI,
-
- IX86_BUILTIN_CVTPI2PD,
- IX86_BUILTIN_CVTSI2SD,
- IX86_BUILTIN_CVTSI642SD,
-
- IX86_BUILTIN_CVTSD2SI,
- IX86_BUILTIN_CVTSD2SI64,
- IX86_BUILTIN_CVTSD2SS,
- IX86_BUILTIN_CVTSS2SD,
- IX86_BUILTIN_CVTTSD2SI,
- IX86_BUILTIN_CVTTSD2SI64,
-
- IX86_BUILTIN_CVTPS2DQ,
- IX86_BUILTIN_CVTPS2PD,
- IX86_BUILTIN_CVTTPS2DQ,
-
- IX86_BUILTIN_MOVNTI,
- IX86_BUILTIN_MOVNTPD,
- IX86_BUILTIN_MOVNTDQ,
-
- IX86_BUILTIN_SETPD1,
- IX86_BUILTIN_SETPD,
- IX86_BUILTIN_CLRPD,
- IX86_BUILTIN_SETRPD,
- IX86_BUILTIN_LOADPD1,
- IX86_BUILTIN_LOADRPD,
- IX86_BUILTIN_STOREPD1,
- IX86_BUILTIN_STORERPD,
-
- /* SSE2 MMX */
- IX86_BUILTIN_MASKMOVDQU,
- IX86_BUILTIN_MOVMSKPD,
- IX86_BUILTIN_PMOVMSKB128,
- IX86_BUILTIN_MOVQ2DQ,
- IX86_BUILTIN_MOVDQ2Q,
-
- IX86_BUILTIN_PACKSSWB128,
- IX86_BUILTIN_PACKSSDW128,
- IX86_BUILTIN_PACKUSWB128,
-
- IX86_BUILTIN_PADDB128,
- IX86_BUILTIN_PADDW128,
- IX86_BUILTIN_PADDD128,
- IX86_BUILTIN_PADDQ128,
- IX86_BUILTIN_PADDSB128,
- IX86_BUILTIN_PADDSW128,
- IX86_BUILTIN_PADDUSB128,
- IX86_BUILTIN_PADDUSW128,
- IX86_BUILTIN_PSUBB128,
- IX86_BUILTIN_PSUBW128,
- IX86_BUILTIN_PSUBD128,
- IX86_BUILTIN_PSUBQ128,
- IX86_BUILTIN_PSUBSB128,
- IX86_BUILTIN_PSUBSW128,
- IX86_BUILTIN_PSUBUSB128,
- IX86_BUILTIN_PSUBUSW128,
-
- IX86_BUILTIN_PAND128,
- IX86_BUILTIN_PANDN128,
- IX86_BUILTIN_POR128,
- IX86_BUILTIN_PXOR128,
-
- IX86_BUILTIN_PAVGB128,
- IX86_BUILTIN_PAVGW128,
-
- IX86_BUILTIN_PCMPEQB128,
- IX86_BUILTIN_PCMPEQW128,
- IX86_BUILTIN_PCMPEQD128,
- IX86_BUILTIN_PCMPGTB128,
- IX86_BUILTIN_PCMPGTW128,
- IX86_BUILTIN_PCMPGTD128,
-
- IX86_BUILTIN_PEXTRW128,
- IX86_BUILTIN_PINSRW128,
-
- IX86_BUILTIN_PMADDWD128,
-
- IX86_BUILTIN_PMAXSW128,
- IX86_BUILTIN_PMAXUB128,
- IX86_BUILTIN_PMINSW128,
- IX86_BUILTIN_PMINUB128,
-
- IX86_BUILTIN_PMULUDQ,
- IX86_BUILTIN_PMULUDQ128,
- IX86_BUILTIN_PMULHUW128,
- IX86_BUILTIN_PMULHW128,
- IX86_BUILTIN_PMULLW128,
-
- IX86_BUILTIN_PSADBW128,
- IX86_BUILTIN_PSHUFHW,
- IX86_BUILTIN_PSHUFLW,
- IX86_BUILTIN_PSHUFD,
-
- IX86_BUILTIN_PSLLW128,
- IX86_BUILTIN_PSLLD128,
- IX86_BUILTIN_PSLLQ128,
- IX86_BUILTIN_PSRAW128,
- IX86_BUILTIN_PSRAD128,
- IX86_BUILTIN_PSRLW128,
- IX86_BUILTIN_PSRLD128,
- IX86_BUILTIN_PSRLQ128,
- IX86_BUILTIN_PSLLDQI128,
- IX86_BUILTIN_PSLLWI128,
- IX86_BUILTIN_PSLLDI128,
- IX86_BUILTIN_PSLLQI128,
- IX86_BUILTIN_PSRAWI128,
- IX86_BUILTIN_PSRADI128,
- IX86_BUILTIN_PSRLDQI128,
- IX86_BUILTIN_PSRLWI128,
- IX86_BUILTIN_PSRLDI128,
- IX86_BUILTIN_PSRLQI128,
-
- IX86_BUILTIN_PUNPCKHBW128,
- IX86_BUILTIN_PUNPCKHWD128,
- IX86_BUILTIN_PUNPCKHDQ128,
- IX86_BUILTIN_PUNPCKHQDQ128,
- IX86_BUILTIN_PUNPCKLBW128,
- IX86_BUILTIN_PUNPCKLWD128,
- IX86_BUILTIN_PUNPCKLDQ128,
- IX86_BUILTIN_PUNPCKLQDQ128,
-
- IX86_BUILTIN_CLFLUSH,
- IX86_BUILTIN_MFENCE,
- IX86_BUILTIN_LFENCE,
-
- /* Prescott New Instructions. */
- IX86_BUILTIN_ADDSUBPS,
- IX86_BUILTIN_HADDPS,
- IX86_BUILTIN_HSUBPS,
- IX86_BUILTIN_MOVSHDUP,
- IX86_BUILTIN_MOVSLDUP,
- IX86_BUILTIN_ADDSUBPD,
- IX86_BUILTIN_HADDPD,
- IX86_BUILTIN_HSUBPD,
- IX86_BUILTIN_LOADDDUP,
- IX86_BUILTIN_MOVDDUP,
- IX86_BUILTIN_LDDQU,
-
- IX86_BUILTIN_MONITOR,
- IX86_BUILTIN_MWAIT,
-
- IX86_BUILTIN_MAX
-};
-\f
/* Max number of args passed in registers. If this is more than 3, we will
have problems with ebx (register #4), since it is a caller save register and
is also used as the pic register in ELF. So for now, don't allow more than
/* How to refer to registers in assembler output.
This sequence is indexed by compiler's hard-register-number (see above). */
-/* In order to refer to the first 8 regs as 32 bit regs prefix an "e"
+/* In order to refer to the first 8 regs as 32 bit regs, prefix an "e".
For non floating point regs, the following are the HImode names.
For float regs, the stack top is sometimes referred to as "%st(0)"
{ "rax", 0 }, { "rdx", 1 }, { "rcx", 2 }, { "rbx", 3 }, \
{ "rsi", 4 }, { "rdi", 5 }, { "rbp", 6 }, { "rsp", 7 }, \
{ "al", 0 }, { "dl", 1 }, { "cl", 2 }, { "bl", 3 }, \
- { "ah", 0 }, { "dh", 1 }, { "ch", 2 }, { "bh", 3 }, \
- { "mm0", 8}, { "mm1", 9}, { "mm2", 10}, { "mm3", 11}, \
- { "mm4", 12}, { "mm5", 13}, { "mm6", 14}, { "mm7", 15} }
+ { "ah", 0 }, { "dh", 1 }, { "ch", 2 }, { "bh", 3 } }
/* Note we are omitting these since currently I don't know how
to get gcc to use these, since they want the same but different
#define DBX_REGISTER_NUMBER(N) \
(TARGET_64BIT ? dbx64_register_map[(N)] : dbx_register_map[(N)])
-extern int const dbx_register_map[FIRST_PSEUDO_REGISTER];
-extern int const dbx64_register_map[FIRST_PSEUDO_REGISTER];
-extern int const svr4_dbx_register_map[FIRST_PSEUDO_REGISTER];
+extern int const dbx_register_map[FIRST_PSEUDO_REGISTER+1];
+extern int const dbx64_register_map[FIRST_PSEUDO_REGISTER+1];
+extern int const svr4_dbx_register_map[FIRST_PSEUDO_REGISTER+1];
/* Before the prologue, RA is at 0(%esp). */
#define INCOMING_RETURN_ADDR_RTX \
Whether or not a particular assembler allows us to enter such, I
guess we'll have to see. */
#define ASM_PREFERRED_EH_DATA_FORMAT(CODE, GLOBAL) \
- (flag_pic \
- ? ((GLOBAL) ? DW_EH_PE_indirect : 0) | DW_EH_PE_pcrel | DW_EH_PE_sdata4\
- : DW_EH_PE_absptr)
+ asm_preferred_eh_data_format ((CODE), (GLOBAL))
/* This is how to output an insn to push a register on the stack.
It need not be very fast code. */
#define JUMP_TABLES_IN_TEXT_SECTION \
(!TARGET_64BIT && flag_pic && !HAVE_AS_GOTOFF_IN_DATA)
-/* A C statement that outputs an address constant appropriate to
- for DWARF debugging. */
-
-#define ASM_OUTPUT_DWARF_ADDR_CONST(FILE, X) \
- i386_dwarf_output_addr_const ((FILE), (X))
-
-/* Emit a dtp-relative reference to a TLS variable. */
-
-#ifdef HAVE_AS_TLS
-#define ASM_OUTPUT_DWARF_DTPREL(FILE, SIZE, X) \
- i386_output_dwarf_dtprel (FILE, SIZE, X)
-#endif
-
/* Switch to init or fini section via SECTION_OP, emit a call to FUNC,
and switch back. For x86 we do this only to save a few bytes that
would otherwise be unused in the text section. */
PROCESSOR_PENTIUM4,
PROCESSOR_K8,
PROCESSOR_NOCONA,
+ PROCESSOR_GENERIC32,
+ PROCESSOR_GENERIC64,
PROCESSOR_max
};
extern enum processor_type ix86_tune;
-extern const char *ix86_tune_string;
-
extern enum processor_type ix86_arch;
-extern const char *ix86_arch_string;
enum fpmath_unit
{
};
extern enum fpmath_unit ix86_fpmath;
-extern const char *ix86_fpmath_string;
enum tls_dialect
{
TLS_DIALECT_GNU,
+ TLS_DIALECT_GNU2,
TLS_DIALECT_SUN
};
extern enum tls_dialect ix86_tls_dialect;
-extern const char *ix86_tls_dialect_string;
enum cmodel {
CM_32, /* The traditional 32-bit ABI. */
CM_KERNEL, /* Assumes all code and data fits in the high 31 bits. */
CM_MEDIUM, /* Assumes code fits in the low 31 bits; data unlimited. */
CM_LARGE, /* No assumptions. */
- CM_SMALL_PIC /* Assumes code+data+got/plt fits in a 31 bit region. */
+ CM_SMALL_PIC, /* Assumes code+data+got/plt fits in a 31 bit region. */
+ CM_MEDIUM_PIC /* Assumes code+got/plt fits in a 31 bit region. */
};
extern enum cmodel ix86_cmodel;
-extern const char *ix86_cmodel_string;
/* Size of the RED_ZONE area. */
#define RED_ZONE_SIZE 128
ASM_INTEL
};
-extern const char *ix86_asm_string;
extern enum asm_dialect ix86_asm_dialect;
-
-extern int ix86_regparm;
-extern const char *ix86_regparm_string;
-
extern unsigned int ix86_preferred_stack_boundary;
-extern const char *ix86_preferred_stack_boundary_string;
-
-extern int ix86_branch_cost;
-extern const char *ix86_branch_cost_string;
-
-extern const char *ix86_debug_arg_string;
-extern const char *ix86_debug_addr_string;
-
-/* Obsoleted by -f options. Remove before 3.2 ships. */
-extern const char *ix86_align_loops_string;
-extern const char *ix86_align_jumps_string;
-extern const char *ix86_align_funcs_string;
+extern int ix86_branch_cost, ix86_section_threshold;
/* Smallest class containing REGNO. */
extern enum reg_class const regclass_map[FIRST_PSEUDO_REGISTER];
extern rtx ix86_compare_op0; /* operand 0 for comparisons */
extern rtx ix86_compare_op1; /* operand 1 for comparisons */
+extern rtx ix86_compare_emitted;
\f
/* To properly truncate FP values into integers, we need to set i387 control
word. We can't emit proper mode switching code before reload, as spills
Post-reload pass may be later used to eliminate the redundant fildcw if
needed. */
+enum ix86_entity
+{
+ I387_TRUNC = 0,
+ I387_FLOOR,
+ I387_CEIL,
+ I387_MASK_PM,
+ MAX_386_ENTITIES
+};
+
+enum ix86_stack_slot
+{
+ SLOT_TEMP = 0,
+ SLOT_CW_STORED,
+ SLOT_CW_TRUNC,
+ SLOT_CW_FLOOR,
+ SLOT_CW_CEIL,
+ SLOT_CW_MASK_PM,
+ MAX_386_STACK_LOCALS
+};
/* Define this macro if the port needs extra instructions inserted
for mode switching in an optimizing compilation. */
-#define OPTIMIZE_MODE_SWITCHING(ENTITY) ix86_optimize_mode_switching
+#define OPTIMIZE_MODE_SWITCHING(ENTITY) \
+ ix86_optimize_mode_switching[(ENTITY)]
/* If you define `OPTIMIZE_MODE_SWITCHING', you have to define this as
initializer for an array of integers. Each initializer element N
starting counting at zero - determines the integer that is used to
refer to the mode-switched entity in question. */
-#define NUM_MODES_FOR_MODE_SWITCHING { I387_CW_ANY }
+#define NUM_MODES_FOR_MODE_SWITCHING \
+ { I387_CW_ANY, I387_CW_ANY, I387_CW_ANY, I387_CW_ANY }
/* ENTITY is an integer specifying a mode-switched entity. If
`OPTIMIZE_MODE_SWITCHING' is defined, you must define this macro to
return an integer value not larger than the corresponding element
in `NUM_MODES_FOR_MODE_SWITCHING', to denote the mode that ENTITY
- must be switched into prior to the execution of INSN.
-
- The mode UNINITIALIZED is used to force re-load of possibly previously
- stored control word after function call. The mode ANY specify that
- function has no requirements on the control word and make no changes
- in the bits we are interested in. */
-
-#define MODE_NEEDED(ENTITY, I) \
- (GET_CODE (I) == CALL_INSN \
- || (GET_CODE (I) == INSN && (asm_noperands (PATTERN (I)) >= 0 \
- || GET_CODE (PATTERN (I)) == ASM_INPUT))\
- ? I387_CW_UNINITIALIZED \
- : recog_memoized (I) < 0 \
- ? I387_CW_ANY \
- : get_attr_i387_cw (I))
+ must be switched into prior to the execution of INSN. */
+
+#define MODE_NEEDED(ENTITY, I) ix86_mode_needed ((ENTITY), (I))
/* This macro specifies the order in which modes for ENTITY are
processed. 0 is the highest priority. */
#define EMIT_MODE_SET(ENTITY, MODE, HARD_REGS_LIVE) \
((MODE) != I387_CW_ANY && (MODE) != I387_CW_UNINITIALIZED \
- ? emit_i387_cw_initialization (assign_386_stack_local (HImode, 1), \
- assign_386_stack_local (HImode, 2), \
- MODE), 0 \
+ ? emit_i387_cw_initialization (MODE), 0 \
: 0)
+
\f
/* Avoid renaming of stack registers, as doing so in combination with
scheduling just increases amount of live registers at time and in
{
struct stack_local_entry *stack_locals;
const char *some_ld_name;
+ rtx force_align_arg_pointer;
int save_varrargs_registers;
int accesses_prev_frame;
- int optimize_mode_switching;
+ int optimize_mode_switching[MAX_386_ENTITIES];
/* Set by ix86_compute_frame_layout and used by prologue/epilogue expander to
determine the style used. */
int use_fast_prologue_epilogue;
/* Number of saved registers USE_FAST_PROLOGUE_EPILOGUE has been computed
for. */
int use_fast_prologue_epilogue_nregs;
+ /* If true, the current function needs the default PIC register, not
+ an alternate register (on x86) and must not use the red zone (on
+ x86_64), even if it's a leaf function. We don't want the
+ function to be regarded as non-leaf because TLS calls need not
+ affect register allocation. This flag is set when a TLS call
+ instruction is expanded within a function, and never reset, even
+ if all such instructions are optimized away. Use the
+ ix86_current_function_calls_tls_descriptor macro for a better
+ approximation. */
+ int tls_descriptor_call_expanded_p;
};
#define ix86_stack_locals (cfun->machine->stack_locals)
#define ix86_save_varrargs_registers (cfun->machine->save_varrargs_registers)
#define ix86_optimize_mode_switching (cfun->machine->optimize_mode_switching)
+#define ix86_tls_descriptor_calls_expanded_in_cfun \
+ (cfun->machine->tls_descriptor_call_expanded_p)
+/* Since tls_descriptor_call_expanded is not cleared, even if all TLS
+ calls are optimized away, we try to detect cases in which it was
+ optimized away. Since such instructions (use (reg REG_SP)), we can
+ verify whether there's any such instruction live by testing that
+ REG_SP is live. */
+#define ix86_current_function_calls_tls_descriptor \
+ (ix86_tls_descriptor_calls_expanded_in_cfun && regs_ever_live[SP_REG])
/* Control behavior of x86_file_start. */
#define X86_FILE_START_VERSION_DIRECTIVE false
#define X86_FILE_START_FLTUSED false
+/* Flag to mark data that is in the large address area. */
+#define SYMBOL_FLAG_FAR_ADDR (SYMBOL_FLAG_MACH_DEP << 0)
+#define SYMBOL_REF_FAR_ADDR_P(X) \
+ ((SYMBOL_REF_FLAGS (X) & SYMBOL_FLAG_FAR_ADDR) != 0)
/*
Local variables:
version-control: t