225e4f43cc
* config/sh/lib1funcs.asm (___movstr_i4_even, ___movstr_i4_odd): Define.
(___movstrSI12_i4, ___sdivsi3_i4, ___udivsi3_i4): Define.
* sh.c (reg_class_from_letter, regno_reg_class): Add DF_REGS.
(fp_reg_names, assembler_dialect): New variables.
(print_operand_address): Handle SUBREGs.
(print_operand): Added 'o' case.
Don't use adj_offsettable_operand on PRE_DEC / POST_INC.
Name of FP registers depends on mode.
(expand_block_move): Emit different code for SH4 hardware.
(prepare_scc_operands): Use emit_sf_insn / emit_df_insn as appropriate.
(from_compare): Likewise.
(add_constant): New argument last_value. Changed all callers.
(find_barrier): Don't try HImode load for FPUL_REG.
(machine_dependent_reorg): Likewise.
(sfunc_uses_reg): A CLOBBER cannot be the address register use.
(gen_far_branch): Emit a barrier after the new jump.
(barrier_align): Don't trust instruction lengths before
fixing up pcloads.
(machine_dependent_reorg): Add support for FIRST_XD_REG .. LAST_XD_REG.
Use auto-inc addressing for fp registers if doubles need to
be loaded in two steps.
Set sh_flag_remove_dead_before_cse.
(push): Support for TARGET_FMOVD. Use gen_push_fpul for fpul.
(pop): Support for TARGET_FMOVD. Use gen_pop_fpul for fpul.
(calc_live_regs): Support for TARGET_FMOVD. Don't save FPSCR.
Support for FIRST_XD_REG .. LAST_XD_REG.
(sh_expand_prologue): Support for FIRST_XD_REG .. LAST_XD_REG.
(sh_expand_epilogue): Likewise.
(sh_builtin_saveregs): Use DFmode moves for fp regs on SH4.
(initial_elimination_offset): Take TARGET_ALIGN_DOUBLE into account.
(arith_reg_operand): FPUL_REG is OK for SH4.
(fp_arith_reg_operand, fp_extended_operand) New functions.
(tertiary_reload_operand, fpscr_operand): Likewise.
(commutative_float_operator, noncommutative_float_operator): Likewise.
(binary_float_operator, get_fpscr_rtx, emit_sf_insn): Likewise.
(emit_df_insn, expand_sf_unop, expand_sf_binop): Likewise.
(expand_df_unop, expand_df_binop, expand_fp_branch): Likewise.
(emit_fpscr_use, mark_use, remove_dead_before_cse): Likewise.
* sh.h (CPP_SPEC): Add support for -m4, m4-single, m4-single-only.
(CONDITIONAL_REGISTER_USAGE): Likewise.
(HARD_SH4_BIT, FPU_SINGLE_BIT, SH4_BIT, FMOVD_BIT): Define.
(TARGET_CACHE32, TARGET_SUPERSCALAR, TARGET_HARWARD): Define.
(TARGET_HARD_SH4, TARGET_FPU_SINGLE, TARGET_SH4, TARGET_FMOVD): Define.
(target_flag): Add -m4, m4-single, m4-single-only, -mfmovd.
(OPTIMIZATION_OPTIONS): If optimizing, set flag_omit_frame_pointer
to -1 and sh_flag_remove_dead_before_cse to 1.
(ASSEMBLER_DIALECT): Define to assembler_dialect.
(assembler_dialect, fp_reg_names): Declare.
(OVERRIDE_OPTIONS): Add code for TARGET_SH4.
Hide names of registers that are not accessible.
(CACHE_LOG): Take TARGET_CACHE32 into account.
(LOOP_ALIGN): Take TARGET_HARWARD into account.
(FIRST_XD_REG, LAST_XD_REG, FPSCR_REG): Define.
(FIRST_PSEUDO_REGISTER: Now 49.
(FIXED_REGISTERS, CALL_USED_REGISTERS): Include values for registers.
(HARD_REGNO_NREGS): Special treatment of FIRST_XD_REG .. LAST_XD_REG.
(HARD_REGNO_MODE_OK): Update.
(enum reg_class): Add DF_REGS and FPSCR_REGS.
(REG_CLASS_NAMES, REG_CLASS_CONTENTS, REG_ALLOC_ORDER): Likewise.
(SECONDARY_OUTPUT_RELOAD_CLASS, SECONDARY_INPUT_RELOAD_CLASS): Update.
(CLASS_CANNOT_CHANGE_SIZE, DEBUG_REGISTER_NAMES): Define.
(NPARM_REGS): Eight floating point parameter registers on SH4.
(BASE_RETURN_VALUE_REG): SH4 also passes double values
in floating point registers.
(GET_SH_ARG_CLASS) Likewise.
Complex float types are also returned in float registers.
(BASE_ARG_REG): Complex float types are also passes in float registers.
(FUNCTION_VALUE): Change mode like PROMOTE_MODE does.
(LIBCALL_VALUE): Remove trailing semicolon.
(ROUND_REG): Round when double precision value is passed in floating
point register(s).
(FUNCTION_ARG_ADVANCE): No change wanted for SH4 when things are
passed on the stack.
(FUNCTION_ARG): Little endian adjustment for SH4 SFmode.
(FUNCTION_ARG_PARTIAL_NREGS): Zero for SH4.
(TRAMPOLINE_ALIGNMENT): Take TARGET_HARWARD into account.
(INITIALIZE_TRAMPOLINE): Emit ic_invalidate_line for TARGET_HARWARD.
(MODE_DISP_OK_8): Not for SH4 DFmode.
(GO_IF_LEGITIMATE_ADDRESS): No base reg + index reg for SH4 DFmode.
Allow indexed addressing for PSImode after reload.
(LEGITIMIZE_ADDRESS): Not for SH4 DFmode.
(LEGITIMIZE_RELOAD_ADDRESS): Handle SH3E SFmode.
Don't change SH4 DFmode nor PSImode RELOAD_FOR_INPUT_ADDRESS.
(DOUBLE_TYPE_SIZE): 64 for SH4.
(RTX_COSTS): Add PLUS case.
Increae cost of ASHIFT, ASHIFTRT, LSHIFTRT case.
(REGISTER_MOVE_COST): Add handling of R0_REGS, FPUL_REGS, T_REGS,
MAC_REGS, PR_REGS, DF_REGS.
(REGISTER_NAMES): Use fp_reg_names.
(enum processor_type): Add PROCESSOR_SH4.
(sh_flag_remove_dead_before_cse): Declare.
(rtx_equal_function_value_matters, fpscr_rtx, get_fpscr_rtx): Declare.
(PREDICATE_CODES): Add binary_float_operator,
commutative_float_operator, fp_arith_reg_operand, fp_extended_operand,
fpscr_operand, noncommutative_float_operator.
(ADJUST_COST): Use different scale for TARGET_SUPERSCALAR.
(SH_DYNAMIC_SHIFT_COST): Cheaper for SH4.
* sh.md (attribute cpu): Add value sh4.
(attrbutes fmovd, issues): Define.
(attribute type): Add values dfp_arith, dfp_cmp, dfp_conv, dfdiv.
(function units memory, int, mpy, fp): Make dependent on issue rate.
(function units issue, single_issue, load_si, load): Define.
(function units load_store, fdiv, gp_fpul): Define.
(attribute hit_stack): Provide proper default.
(use_sfunc_addr+1, udivsi3): Predicated on ! TARGET_SH4.
(udivsi3_i4, udivsi3_i4_single, divsi3_i4, divsi3_i4_single): New insns.
(udivsi3, divsi3): Emit special patterns for SH4 hardware,
(mulsi3_call): Now uses match_operand for function address.
(mulsi3): Also emit code for SH1 case. Wrap result in REG_LIBCALL /
REG_RETVAL notes.
(push, pop, push_e, pop_e): Now define_expands.
(push_fpul, push_4, pop_fpul, pop_4, ic_invalidate_line): New expanders.
(movsi_ie): Added y/i alternative.
(ic_invalidate_line_i, movdf_i4): New insns.
(movdf_i4+[123], reload_outdf+[12345], movsi_y+[12]): New splitters.
(reload_indf, reload_outdf, reload_outsf, reload_insi): New expanders.
(movdf): Add special code for SH4.
(movsf_ie, movsf_ie+1, reload_insf, calli): Make use of fpscr visible.
(call_valuei, calli, call_value): Likewise.
(movsf): Emit no-op move.
(mov_nop, movsi_y): New insns.
(blt, sge): generalize to handle DFmode.
(return predicate): Call emit_fpscr_use and remove_dead_before_cse.
(block_move_real, block_lump_real): Predicate on ! TARGET_HARD_SH4.
(block_move_real_i4, block_lump_real_i4, fpu_switch): New insns.
(fpu_switch0, fpu_switch1, movpsi): New expanders.
(fpu_switch+[12], fix_truncsfsi2_i4_2+1): New splitters.
(toggle_sz): New insn.
(addsf3, subsf3, mulsf3, divsf3): Now define_expands.
(addsf3_i, subsf3_i, mulsf3_i4, mulsf3_ie, divsf3_i): New insns.
(macsf3): Make use of fpscr visible. Disable for SH4.
(floatsisf2): Make use of fpscr visible.
(floatsisf2_i4): New insn.
(floatsisf2_ie, fixsfsi, cmpgtsf_t, cmpeqsf_t): Disable for SH4.
(ieee_ccmpeqsf_t): Likewise.
(fix_truncsfsi2): Emit different code for SH4.
(fix_truncsfsi2_i4, fix_truncsfsi2_i4_2, cmpgtsf_t_i4): New insns.
(cmpeqsf_t_i4, ieee_ccmpeqsf_t_4): New insns.
(negsf2, sqrtsf2, abssf2): Now expanders.
(adddf3, subdf3i, muldf2, divdf3, floatsidf2): New expanders.
(negsf2_i, sqrtsf2_i, abssf2_i, adddf3_i, subdf3_i): New insns.
(muldf3_i, divdf3_i, floatsidf2_i, fix_truncdfsi2_i): New insns.
(fix_truncdfsi2, cmpdf, negdf2, sqrtdf2, absdf2): New expanders.
(fix_truncdfsi2_i4, cmpgtdf_t, cmpeqdf_t, ieee_ccmpeqdf_t): New insns.
(fix_truncdfsi2_i4_2+1): New splitters.
(negdf2_i, sqrtdf2_i, absdf2_i, extendsfdf2_i4): New insns.
(extendsfdf2, truncdfsf2): New expanders.
(truncdfsf2_i4): New insn.
* t-sh (LIB1ASMFUNCS): Add _movstr_i4, _sdivsi3_i4, _udivsi3_i4.
(MULTILIB_OPTIONS): Add m4-single-only/m4-single/m4.
* float-sh.h: When testing for __SH3E__, also test for
__SH4_SINGLE_ONLY__ .
* va-sh.h (__va_freg): Define to float.
(__va_greg, __fa_freg, __gnuc_va_list, va_start):
Define for __SH4_SINGLE_ONLY__ like for __SH3E__ .
(__PASS_AS_FLOAT, __TARGET_SH4_P): Likewise.
(__PASS_AS_FLOAT): Use different definition for __SH4__ and
__SH4_SINGLE__.
(TARGET_SH4_P): Define.
(va_arg): Use it.
* sh.md (movdf_k, movsf_i): Tweak the condition so that
init_expr_once is satisfied about the existence of load / store insns.
* sh.md (movsi_i, movsi_ie, movsi_i_lowpart, movsf_i, movsf_ie):
change m constraint in source operand to mr / mf .
* va-sh.h (__va_arg_sh1): Use __asm instead of asm.
* (__VA_REEF): Define.
(__va_arg_sh1): Use it.
* va-sh.h (va_start, va_arg, va_copy): Add parenteses.
From-SVN: r23777
227 lines
6.8 KiB
C
227 lines
6.8 KiB
C
/* This is just like the default gvarargs.h
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except for differences described below. */
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/* Define __gnuc_va_list. */
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#ifndef __GNUC_VA_LIST
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#define __GNUC_VA_LIST
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#if defined (__SH3E__) || defined (__SH4_SINGLE__) || defined (__SH4__) || defined (__SH4_SINGLE_ONLY__)
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typedef long __va_greg;
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typedef float __va_freg;
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typedef struct {
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__va_greg * __va_next_o; /* next available register */
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__va_greg * __va_next_o_limit; /* past last available register */
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__va_freg * __va_next_fp; /* next available fp register */
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__va_freg * __va_next_fp_limit; /* last available fp register */
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__va_greg * __va_next_stack; /* next extended word on stack */
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} __gnuc_va_list;
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#else /* ! SH3E */
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typedef void *__gnuc_va_list;
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#endif /* ! SH3E */
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#endif /* __GNUC_VA_LIST */
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/* If this is for internal libc use, don't define anything but
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__gnuc_va_list. */
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#if defined (_STDARG_H) || defined (_VARARGS_H)
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#ifdef _STDARG_H
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#if defined (__SH3E__) || defined (__SH4_SINGLE__) || defined (__SH4__) || defined (__SH4_SINGLE_ONLY__)
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#define va_start(AP, LASTARG) \
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__extension__ \
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({ \
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(AP).__va_next_fp = (__va_freg *) __builtin_saveregs (); \
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(AP).__va_next_fp_limit = ((AP).__va_next_fp + \
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(__builtin_args_info (1) < 8 ? 8 - __builtin_args_info (1) : 0)); \
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(AP).__va_next_o = (__va_greg *) (AP).__va_next_fp_limit; \
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(AP).__va_next_o_limit = ((AP).__va_next_o + \
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(__builtin_args_info (0) < 4 ? 4 - __builtin_args_info (0) : 0)); \
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(AP).__va_next_stack = (__va_greg *) __builtin_next_arg (LASTARG); \
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})
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#else /* ! SH3E */
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#define va_start(AP, LASTARG) \
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((AP) = ((__gnuc_va_list) __builtin_next_arg (LASTARG)))
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#endif /* ! SH3E */
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#else /* _VARARGS_H */
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#define va_alist __builtin_va_alist
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#define va_dcl int __builtin_va_alist;...
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#if defined (__SH3E__) || defined (__SH4_SINGLE__) || defined (__SH4__) || defined (__SH4_SINGLE_ONLY__)
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#define va_start(AP) \
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__extension__ \
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({ \
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(AP).__va_next_fp = (__va_freg *) __builtin_saveregs (); \
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(AP).__va_next_fp_limit = ((AP).__va_next_fp + \
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(__builtin_args_info (1) < 8 ? 8 - __builtin_args_info (1) : 0)); \
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(AP).__va_next_o = (__va_greg *) (AP).__va_next_fp_limit; \
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(AP).__va_next_o_limit = ((AP).__va_next_o + \
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(__builtin_args_info (0) < 4 ? 4 - __builtin_args_info (0) : 0)); \
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(AP).__va_next_stack \
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= ((__va_greg *) __builtin_next_arg (__builtin_va_alist) \
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- (__builtin_args_info (0) >= 4 || __builtin_args_info (1) >= 8 \
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? 1 : 0)); \
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})
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#else /* ! SH3E */
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#define va_start(AP) ((AP) = (char *) &__builtin_va_alist)
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#endif /* ! SH3E */
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#endif /* _STDARG */
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#ifndef va_end
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void va_end (__gnuc_va_list); /* Defined in libgcc.a */
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/* Values returned by __builtin_classify_type. */
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enum __va_type_classes {
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__no_type_class = -1,
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__void_type_class,
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__integer_type_class,
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__char_type_class,
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__enumeral_type_class,
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__boolean_type_class,
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__pointer_type_class,
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__reference_type_class,
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__offset_type_class,
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__real_type_class,
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__complex_type_class,
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__function_type_class,
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__method_type_class,
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__record_type_class,
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__union_type_class,
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__array_type_class,
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__string_type_class,
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__set_type_class,
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__file_type_class,
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__lang_type_class
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};
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#endif
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#define va_end(pvar) ((void)0)
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#ifdef __LITTLE_ENDIAN__
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#define __LITTLE_ENDIAN_P 1
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#else
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#define __LITTLE_ENDIAN_P 0
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#endif
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#define __SCALAR_TYPE(TYPE) \
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((TYPE) == __integer_type_class \
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|| (TYPE) == __char_type_class \
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|| (TYPE) == __enumeral_type_class)
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/* RECORD_TYPE args passed using the C calling convention are
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passed by invisible reference. ??? RECORD_TYPE args passed
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in the stack are made to be word-aligned; for an aggregate that is
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not word-aligned, we advance the pointer to the first non-reg slot. */
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/* When this is a smaller-than-int integer, using
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auto-increment in the promoted (SImode) is fastest;
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however, there is no way to express that is C. Therefore,
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we use an asm.
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We want the MEM_IN_STRUCT_P bit set in the emitted RTL, therefore we
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use unions even when it would otherwise be unnecessary. */
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/* gcc has an extension that allows to use a casted lvalue as an lvalue,
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But it doesn't work in C++ with -pedantic - even in the presence of
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__extension__ . We work around this problem by using a reference type. */
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#ifdef __cplusplus
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#define __VA_REF &
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#else
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#define __VA_REF
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#endif
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#define __va_arg_sh1(AP, TYPE) __extension__ \
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({(sizeof (TYPE) == 1 \
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? ({union {TYPE t; char c;} __t; \
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__asm("" \
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: "=r" (__t.c) \
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: "0" ((((union { int i, j; } *__VA_REF) (AP))++)->i)); \
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__t.t;}) \
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: sizeof (TYPE) == 2 \
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? ({union {TYPE t; short s;} __t; \
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__asm("" \
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: "=r" (__t.s) \
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: "0" ((((union { int i, j; } *__VA_REF) (AP))++)->i)); \
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__t.t;}) \
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: sizeof (TYPE) >= 4 || __LITTLE_ENDIAN_P \
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? (((union { TYPE t; int i;} *__VA_REF) (AP))++)->t \
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: ((union {TYPE t;TYPE u;}*) ((char *)++(int *__VA_REF)(AP) - sizeof (TYPE)))->t);})
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#if defined (__SH3E__) || defined (__SH4_SINGLE__) || defined (__SH4__) || defined (__SH4_SINGLE_ONLY__)
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#define __PASS_AS_FLOAT(TYPE_CLASS,SIZE) \
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(TYPE_CLASS == __real_type_class && SIZE == 4)
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#define __TARGET_SH4_P 0
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#if defined(__SH4__) || defined(__SH4_SINGLE__)
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#undef __PASS_AS_FLOAT
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#define __PASS_AS_FLOAT(TYPE_CLASS,SIZE) \
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(TYPE_CLASS == __real_type_class && SIZE <= 8 \
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|| TYPE_CLASS == __complex_type_class && SIZE <= 16)
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#undef __TARGET_SH4_P
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#define __TARGET_SH4_P 1
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#endif
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#define va_arg(pvar,TYPE) \
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__extension__ \
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({int __type = __builtin_classify_type (* (TYPE *) 0); \
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void * __result_p; \
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if (__PASS_AS_FLOAT (__type, sizeof(TYPE))) \
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{ \
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if ((pvar).__va_next_fp < (pvar).__va_next_fp_limit) \
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{ \
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if (((__type == __real_type_class && sizeof (TYPE) > 4)\
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|| sizeof (TYPE) > 8) \
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&& (((int) (pvar).__va_next_fp ^ (int) (pvar).__va_next_fp_limit)\
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& 4)) \
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(pvar).__va_next_fp++; \
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__result_p = &(pvar).__va_next_fp; \
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} \
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else \
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__result_p = &(pvar).__va_next_stack; \
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} \
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else \
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{ \
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if ((pvar).__va_next_o + ((sizeof (TYPE) + 3) / 4) \
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<= (pvar).__va_next_o_limit) \
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__result_p = &(pvar).__va_next_o; \
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else \
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{ \
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if (sizeof (TYPE) > 4) \
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if (! __TARGET_SH4_P) \
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(pvar).__va_next_o = (pvar).__va_next_o_limit; \
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\
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__result_p = &(pvar).__va_next_stack; \
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} \
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} \
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__va_arg_sh1(*(void **)__result_p, TYPE);})
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#else /* ! SH3E */
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#define va_arg(AP, TYPE) __va_arg_sh1((AP), TYPE)
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#endif /* SH3E */
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/* Copy __gnuc_va_list into another variable of this type. */
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#define __va_copy(dest, src) ((dest) = (src))
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#endif /* defined (_STDARG_H) || defined (_VARARGS_H) */
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