f540a7d371
* 1750a.h (datalbl, jmplbl): Declare array size explicitly. * a29k.h (a29k_debug_reg_map): Likewise. * arc.h (arc_regno_reg_class): Likewise. * c4x-protos.h (c4x_regclass_map, c4x_caller_save_map): Likewise. * convex.h (regno_reg_class, reg_class_from_letter): Likewise. * d30v.h (regno_reg_class, reg_class_from_letter): Likewise. * i386.h (regclass_map): Likewise. * m32r.h (m32r_hard_regno_mode_ok, m32r_punct_chars): Likewise. * mcore.h (regno_reg_class): Likewise. * mips.h (mips_print_operand_punct, mips_char_to_class): Likewise. * ns32k.h (regclass_map): Likewise. * pj.h (pj_debugreg_renumber_vec): Likewise. * s390.h (regclass_map): Likewise. * sh.h (regno_reg_class): Likewise. * sparc.h (sparc_regno_reg_class): Likewise. * hard-reg-set.h (reg_class_contents): Likewise. * machmode.h (class_narrowest_mode): Likewise. f: * bld.c (ffebld_arity_op_): Declare array size explicitly. * bld.h (ffebld_arity_op_): Likewise. From-SVN: r48281
488 lines
17 KiB
C
488 lines
17 KiB
C
/* Sets (bit vectors) of hard registers, and operations on them.
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Copyright (C) 1987, 1992, 1994, 2000 Free Software Foundation, Inc.
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This file is part of GCC
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 2, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING. If not, write to the Free
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Software Foundation, 59 Temple Place - Suite 330, Boston, MA
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02111-1307, USA. */
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#ifndef GCC_HARD_REG_SET_H
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#define GCC_HARD_REG_SET_H
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/* Define the type of a set of hard registers. */
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/* HARD_REG_ELT_TYPE is a typedef of the unsigned integral type which
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will be used for hard reg sets, either alone or in an array.
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If HARD_REG_SET is a macro, its definition is HARD_REG_ELT_TYPE,
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and it has enough bits to represent all the target machine's hard
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registers. Otherwise, it is a typedef for a suitably sized array
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of HARD_REG_ELT_TYPEs. HARD_REG_SET_LONGS is defined as how many.
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Note that lots of code assumes that the first part of a regset is
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the same format as a HARD_REG_SET. To help make sure this is true,
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we only try the widest integer mode (HOST_WIDE_INT) instead of all the
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smaller types. This approach loses only if there are a very few
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registers and then only in the few cases where we have an array of
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HARD_REG_SETs, so it needn't be as complex as it used to be. */
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typedef unsigned HOST_WIDE_INT HARD_REG_ELT_TYPE;
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#if FIRST_PSEUDO_REGISTER <= HOST_BITS_PER_WIDE_INT
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#define HARD_REG_SET HARD_REG_ELT_TYPE
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#else
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#define HARD_REG_SET_LONGS \
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((FIRST_PSEUDO_REGISTER + HOST_BITS_PER_WIDE_INT - 1) \
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/ HOST_BITS_PER_WIDE_INT)
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typedef HARD_REG_ELT_TYPE HARD_REG_SET[HARD_REG_SET_LONGS];
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#endif
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/* HARD_CONST is used to cast a constant to the appropriate type
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for use with a HARD_REG_SET. */
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#define HARD_CONST(X) ((HARD_REG_ELT_TYPE) (X))
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/* Define macros SET_HARD_REG_BIT, CLEAR_HARD_REG_BIT and TEST_HARD_REG_BIT
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to set, clear or test one bit in a hard reg set of type HARD_REG_SET.
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All three take two arguments: the set and the register number.
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In the case where sets are arrays of longs, the first argument
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is actually a pointer to a long.
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Define two macros for initializing a set:
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CLEAR_HARD_REG_SET and SET_HARD_REG_SET.
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These take just one argument.
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Also define macros for copying hard reg sets:
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COPY_HARD_REG_SET and COMPL_HARD_REG_SET.
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These take two arguments TO and FROM; they read from FROM
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and store into TO. COMPL_HARD_REG_SET complements each bit.
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Also define macros for combining hard reg sets:
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IOR_HARD_REG_SET and AND_HARD_REG_SET.
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These take two arguments TO and FROM; they read from FROM
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and combine bitwise into TO. Define also two variants
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IOR_COMPL_HARD_REG_SET and AND_COMPL_HARD_REG_SET
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which use the complement of the set FROM.
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Also define GO_IF_HARD_REG_SUBSET (X, Y, TO):
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if X is a subset of Y, go to TO.
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*/
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#ifdef HARD_REG_SET
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#define SET_HARD_REG_BIT(SET, BIT) \
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((SET) |= HARD_CONST (1) << (BIT))
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#define CLEAR_HARD_REG_BIT(SET, BIT) \
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((SET) &= ~(HARD_CONST (1) << (BIT)))
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#define TEST_HARD_REG_BIT(SET, BIT) \
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((SET) & (HARD_CONST (1) << (BIT)))
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#define CLEAR_HARD_REG_SET(TO) ((TO) = HARD_CONST (0))
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#define SET_HARD_REG_SET(TO) ((TO) = ~ HARD_CONST (0))
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#define COPY_HARD_REG_SET(TO, FROM) ((TO) = (FROM))
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#define COMPL_HARD_REG_SET(TO, FROM) ((TO) = ~(FROM))
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#define IOR_HARD_REG_SET(TO, FROM) ((TO) |= (FROM))
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#define IOR_COMPL_HARD_REG_SET(TO, FROM) ((TO) |= ~ (FROM))
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#define AND_HARD_REG_SET(TO, FROM) ((TO) &= (FROM))
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#define AND_COMPL_HARD_REG_SET(TO, FROM) ((TO) &= ~ (FROM))
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#define GO_IF_HARD_REG_SUBSET(X,Y,TO) if (HARD_CONST (0) == ((X) & ~(Y))) goto TO
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#define GO_IF_HARD_REG_EQUAL(X,Y,TO) if ((X) == (Y)) goto TO
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#else
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#define UHOST_BITS_PER_WIDE_INT ((unsigned) HOST_BITS_PER_WIDE_INT)
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#define SET_HARD_REG_BIT(SET, BIT) \
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((SET)[(BIT) / UHOST_BITS_PER_WIDE_INT] \
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|= HARD_CONST (1) << ((BIT) % UHOST_BITS_PER_WIDE_INT))
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#define CLEAR_HARD_REG_BIT(SET, BIT) \
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((SET)[(BIT) / UHOST_BITS_PER_WIDE_INT] \
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&= ~(HARD_CONST (1) << ((BIT) % UHOST_BITS_PER_WIDE_INT)))
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#define TEST_HARD_REG_BIT(SET, BIT) \
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((SET)[(BIT) / UHOST_BITS_PER_WIDE_INT] \
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& (HARD_CONST (1) << ((BIT) % UHOST_BITS_PER_WIDE_INT)))
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#if FIRST_PSEUDO_REGISTER <= 2*HOST_BITS_PER_WIDE_INT
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#define CLEAR_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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scan_tp_[0] = 0; \
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scan_tp_[1] = 0; } while (0)
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#define SET_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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scan_tp_[0] = -1; \
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scan_tp_[1] = -1; } while (0)
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#define COPY_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] = scan_fp_[0]; \
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scan_tp_[1] = scan_fp_[1]; } while (0)
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#define COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] = ~ scan_fp_[0]; \
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scan_tp_[1] = ~ scan_fp_[1]; } while (0)
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#define AND_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] &= scan_fp_[0]; \
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scan_tp_[1] &= scan_fp_[1]; } while (0)
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#define AND_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] &= ~ scan_fp_[0]; \
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scan_tp_[1] &= ~ scan_fp_[1]; } while (0)
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#define IOR_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] |= scan_fp_[0]; \
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scan_tp_[1] |= scan_fp_[1]; } while (0)
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#define IOR_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] |= ~ scan_fp_[0]; \
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scan_tp_[1] |= ~ scan_fp_[1]; } while (0)
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#define GO_IF_HARD_REG_SUBSET(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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if ((0 == (scan_xp_[0] & ~ scan_yp_[0])) \
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&& (0 == (scan_xp_[1] & ~ scan_yp_[1]))) \
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goto TO; } while (0)
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#define GO_IF_HARD_REG_EQUAL(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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if ((scan_xp_[0] == scan_yp_[0]) \
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&& (scan_xp_[1] == scan_yp_[1])) \
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goto TO; } while (0)
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#else
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#if FIRST_PSEUDO_REGISTER <= 3*HOST_BITS_PER_WIDE_INT
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#define CLEAR_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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scan_tp_[0] = 0; \
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scan_tp_[1] = 0; \
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scan_tp_[2] = 0; } while (0)
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#define SET_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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scan_tp_[0] = -1; \
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scan_tp_[1] = -1; \
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scan_tp_[2] = -1; } while (0)
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#define COPY_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] = scan_fp_[0]; \
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scan_tp_[1] = scan_fp_[1]; \
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scan_tp_[2] = scan_fp_[2]; } while (0)
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#define COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] = ~ scan_fp_[0]; \
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scan_tp_[1] = ~ scan_fp_[1]; \
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scan_tp_[2] = ~ scan_fp_[2]; } while (0)
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#define AND_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] &= scan_fp_[0]; \
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scan_tp_[1] &= scan_fp_[1]; \
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scan_tp_[2] &= scan_fp_[2]; } while (0)
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#define AND_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] &= ~ scan_fp_[0]; \
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scan_tp_[1] &= ~ scan_fp_[1]; \
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scan_tp_[2] &= ~ scan_fp_[2]; } while (0)
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#define IOR_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] |= scan_fp_[0]; \
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scan_tp_[1] |= scan_fp_[1]; \
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scan_tp_[2] |= scan_fp_[2]; } while (0)
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#define IOR_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] |= ~ scan_fp_[0]; \
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scan_tp_[1] |= ~ scan_fp_[1]; \
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scan_tp_[2] |= ~ scan_fp_[2]; } while (0)
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#define GO_IF_HARD_REG_SUBSET(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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if ((0 == (scan_xp_[0] & ~ scan_yp_[0])) \
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&& (0 == (scan_xp_[1] & ~ scan_yp_[1])) \
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&& (0 == (scan_xp_[2] & ~ scan_yp_[2]))) \
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goto TO; } while (0)
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#define GO_IF_HARD_REG_EQUAL(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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if ((scan_xp_[0] == scan_yp_[0]) \
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&& (scan_xp_[1] == scan_yp_[1]) \
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&& (scan_xp_[2] == scan_yp_[2])) \
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goto TO; } while (0)
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#else
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#if FIRST_PSEUDO_REGISTER <= 4*HOST_BITS_PER_WIDE_INT
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#define CLEAR_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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scan_tp_[0] = 0; \
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scan_tp_[1] = 0; \
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scan_tp_[2] = 0; \
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scan_tp_[3] = 0; } while (0)
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#define SET_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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scan_tp_[0] = -1; \
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scan_tp_[1] = -1; \
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scan_tp_[2] = -1; \
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scan_tp_[3] = -1; } while (0)
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#define COPY_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] = scan_fp_[0]; \
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scan_tp_[1] = scan_fp_[1]; \
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scan_tp_[2] = scan_fp_[2]; \
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scan_tp_[3] = scan_fp_[3]; } while (0)
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#define COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] = ~ scan_fp_[0]; \
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scan_tp_[1] = ~ scan_fp_[1]; \
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scan_tp_[2] = ~ scan_fp_[2]; \
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scan_tp_[3] = ~ scan_fp_[3]; } while (0)
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#define AND_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] &= scan_fp_[0]; \
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scan_tp_[1] &= scan_fp_[1]; \
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scan_tp_[2] &= scan_fp_[2]; \
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scan_tp_[3] &= scan_fp_[3]; } while (0)
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#define AND_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] &= ~ scan_fp_[0]; \
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scan_tp_[1] &= ~ scan_fp_[1]; \
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scan_tp_[2] &= ~ scan_fp_[2]; \
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scan_tp_[3] &= ~ scan_fp_[3]; } while (0)
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#define IOR_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] |= scan_fp_[0]; \
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scan_tp_[1] |= scan_fp_[1]; \
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scan_tp_[2] |= scan_fp_[2]; \
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scan_tp_[3] |= scan_fp_[3]; } while (0)
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#define IOR_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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scan_tp_[0] |= ~ scan_fp_[0]; \
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scan_tp_[1] |= ~ scan_fp_[1]; \
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scan_tp_[2] |= ~ scan_fp_[2]; \
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scan_tp_[3] |= ~ scan_fp_[3]; } while (0)
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#define GO_IF_HARD_REG_SUBSET(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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if ((0 == (scan_xp_[0] & ~ scan_yp_[0])) \
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&& (0 == (scan_xp_[1] & ~ scan_yp_[1])) \
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&& (0 == (scan_xp_[2] & ~ scan_yp_[2])) \
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&& (0 == (scan_xp_[3] & ~ scan_yp_[3]))) \
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goto TO; } while (0)
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#define GO_IF_HARD_REG_EQUAL(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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if ((scan_xp_[0] == scan_yp_[0]) \
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&& (scan_xp_[1] == scan_yp_[1]) \
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&& (scan_xp_[2] == scan_yp_[2]) \
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&& (scan_xp_[3] == scan_yp_[3])) \
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goto TO; } while (0)
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#else /* FIRST_PSEUDO_REGISTER > 3*HOST_BITS_PER_WIDE_INT */
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#define CLEAR_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ = 0; } while (0)
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#define SET_HARD_REG_SET(TO) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ = -1; } while (0)
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#define COPY_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ = *scan_fp_++; } while (0)
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#define COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ = ~ *scan_fp_++; } while (0)
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#define AND_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ &= *scan_fp_++; } while (0)
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#define AND_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ &= ~ *scan_fp_++; } while (0)
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#define IOR_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ |= *scan_fp_++; } while (0)
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#define IOR_COMPL_HARD_REG_SET(TO, FROM) \
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do { HARD_REG_ELT_TYPE *scan_tp_ = (TO), *scan_fp_ = (FROM); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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*scan_tp_++ |= ~ *scan_fp_++; } while (0)
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#define GO_IF_HARD_REG_SUBSET(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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if (0 != (*scan_xp_++ & ~ *scan_yp_++)) break; \
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if (i == HARD_REG_SET_LONGS) goto TO; } while (0)
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#define GO_IF_HARD_REG_EQUAL(X,Y,TO) \
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do { HARD_REG_ELT_TYPE *scan_xp_ = (X), *scan_yp_ = (Y); \
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int i; \
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for (i = 0; i < HARD_REG_SET_LONGS; i++) \
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if (*scan_xp_++ != *scan_yp_++) break; \
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if (i == HARD_REG_SET_LONGS) goto TO; } while (0)
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#endif
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#endif
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#endif
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#endif
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/* Define some standard sets of registers. */
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|
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|
/* Indexed by hard register number, contains 1 for registers
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|
that are fixed use (stack pointer, pc, frame pointer, etc.).
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|
These are the registers that cannot be used to allocate
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|
a pseudo reg whose life does not cross calls. */
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|
|
|
extern char fixed_regs[FIRST_PSEUDO_REGISTER];
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|
|
|
/* The same info as a HARD_REG_SET. */
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|
|
|
extern HARD_REG_SET fixed_reg_set;
|
|
|
|
/* Indexed by hard register number, contains 1 for registers
|
|
that are fixed use or are clobbered by function calls.
|
|
These are the registers that cannot be used to allocate
|
|
a pseudo reg whose life crosses calls. */
|
|
|
|
extern char call_used_regs[FIRST_PSEUDO_REGISTER];
|
|
|
|
/* The same info as a HARD_REG_SET. */
|
|
|
|
extern HARD_REG_SET call_used_reg_set;
|
|
|
|
/* Registers that we don't want to caller save. */
|
|
extern HARD_REG_SET losing_caller_save_reg_set;
|
|
|
|
/* Indexed by hard register number, contains 1 for registers that are
|
|
fixed use -- i.e. in fixed_regs -- or a function value return register
|
|
or STRUCT_VALUE_REGNUM or STATIC_CHAIN_REGNUM. These are the
|
|
registers that cannot hold quantities across calls even if we are
|
|
willing to save and restore them. */
|
|
|
|
extern char call_fixed_regs[FIRST_PSEUDO_REGISTER];
|
|
|
|
/* The same info as a HARD_REG_SET. */
|
|
|
|
extern HARD_REG_SET call_fixed_reg_set;
|
|
|
|
/* Indexed by hard register number, contains 1 for registers
|
|
that are being used for global register decls.
|
|
These must be exempt from ordinary flow analysis
|
|
and are also considered fixed. */
|
|
|
|
extern char global_regs[FIRST_PSEUDO_REGISTER];
|
|
|
|
/* Contains 1 for registers that are set or clobbered by calls. */
|
|
/* ??? Ideally, this would be just call_used_regs plus global_regs, but
|
|
for someone's bright idea to have call_used_regs strictly include
|
|
fixed_regs. Which leaves us guessing as to the set of fixed_regs
|
|
that are actually preserved. We know for sure that those associated
|
|
with the local stack frame are safe, but scant others. */
|
|
|
|
extern HARD_REG_SET regs_invalidated_by_call;
|
|
|
|
#ifdef REG_ALLOC_ORDER
|
|
/* Table of register numbers in the order in which to try to use them. */
|
|
|
|
extern int reg_alloc_order[FIRST_PSEUDO_REGISTER];
|
|
|
|
/* The inverse of reg_alloc_order. */
|
|
|
|
extern int inv_reg_alloc_order[FIRST_PSEUDO_REGISTER];
|
|
#endif
|
|
|
|
/* For each reg class, a HARD_REG_SET saying which registers are in it. */
|
|
|
|
extern HARD_REG_SET reg_class_contents[N_REG_CLASSES];
|
|
|
|
/* For each reg class, number of regs it contains. */
|
|
|
|
extern unsigned int reg_class_size[N_REG_CLASSES];
|
|
|
|
/* For each reg class, table listing all the containing classes. */
|
|
|
|
extern enum reg_class reg_class_superclasses[N_REG_CLASSES][N_REG_CLASSES];
|
|
|
|
/* For each reg class, table listing all the classes contained in it. */
|
|
|
|
extern enum reg_class reg_class_subclasses[N_REG_CLASSES][N_REG_CLASSES];
|
|
|
|
/* For each pair of reg classes,
|
|
a largest reg class contained in their union. */
|
|
|
|
extern enum reg_class reg_class_subunion[N_REG_CLASSES][N_REG_CLASSES];
|
|
|
|
/* For each pair of reg classes,
|
|
the smallest reg class that contains their union. */
|
|
|
|
extern enum reg_class reg_class_superunion[N_REG_CLASSES][N_REG_CLASSES];
|
|
|
|
/* Number of non-fixed registers. */
|
|
|
|
extern int n_non_fixed_regs;
|
|
|
|
/* Vector indexed by hardware reg giving its name. */
|
|
|
|
extern const char * reg_names[FIRST_PSEUDO_REGISTER];
|
|
|
|
#endif /* ! GCC_HARD_REG_SET_H */
|