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681 lines
27 KiB
C
681 lines
27 KiB
C
/* Form lists of pseudo register references for autoinc optimization
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for GNU compiler. This is part of flow optimization.
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Copyright (C) 1999, 2000, 2001, 2003, 2004, 2005, 2006
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Free Software Foundation, Inc.
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Originally contributed by Michael P. Hayes
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(m.hayes@elec.canterbury.ac.nz, mhayes@redhat.com)
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Major rewrite contributed by Danny Berlin (dberlin@dberlin.org)
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and Kenneth Zadeck (zadeck@naturalbridge.com).
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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, 51 Franklin Street, Fifth Floor, Boston, MA
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02110-1301, USA. */
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#ifndef GCC_DF_H
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#define GCC_DF_H
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#include "bitmap.h"
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#include "basic-block.h"
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#include "alloc-pool.h"
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struct dataflow;
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struct df;
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struct df_problem;
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struct df_link;
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/* Data flow problems. All problems must have a unique here. */
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/* Scanning is not really a dataflow problem, but it is useful to have
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the basic block functions in the vector so that things get done in
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a uniform manner. */
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#define DF_SCAN 0
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#define DF_RU 1 /* Reaching Uses. */
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#define DF_RD 2 /* Reaching Defs. */
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#define DF_LR 3 /* Live Registers. */
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#define DF_UR 4 /* Uninitialized Registers. */
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#define DF_UREC 5 /* Uninitialized Registers with Early Clobber. */
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#define DF_CHAIN 6 /* Def-Use and/or Use-Def Chains. */
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#define DF_RI 7 /* Register Info. */
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#define DF_LAST_PROBLEM_PLUS1 (DF_RI + 1)
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/* Dataflow direction. */
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enum df_flow_dir
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{
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DF_NONE,
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DF_FORWARD,
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DF_BACKWARD
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};
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/* The first of these is a set of a register. The remaining three are
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all uses of a register (the mem_load and mem_store relate to how
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the register as an addressing operand). */
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enum df_ref_type {DF_REF_REG_DEF, DF_REF_REG_USE, DF_REF_REG_MEM_LOAD,
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DF_REF_REG_MEM_STORE};
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#define DF_REF_TYPE_NAMES {"def", "use", "mem load", "mem store"}
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enum df_ref_flags
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{
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/* Read-modify-write refs generate both a use and a def and
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these are marked with this flag to show that they are not
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independent. */
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DF_REF_READ_WRITE = 1,
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/* This flag is set, if we stripped the subreg from the reference.
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In this case we must make conservative guesses, at what the
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outer mode was. */
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DF_REF_STRIPPED = 2,
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/* If this flag is set, this is not a real definition/use, but an
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artificial one created to model always live registers, eh uses, etc. */
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DF_REF_ARTIFICIAL = 4,
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/* If this flag is set for an artificial use or def, that ref
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logically happens at the top of the block. If it is not set
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for an artificial use or def, that ref logically happens at the
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bottom of the block. This is never set for regular refs. */
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DF_REF_AT_TOP = 8,
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/* This flag is set if the use is inside a REG_EQUAL note. */
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DF_REF_IN_NOTE = 16,
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/* This flag is set if this ref, generally a def, may clobber the
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referenced register. This is generally only set for hard
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registers that cross a call site. With better information
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about calls, some of these could be changed in the future to
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DF_REF_MUST_CLOBBER. */
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DF_REF_MAY_CLOBBER = 32,
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/* This flag is set if this ref, generally a def, is a real
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clobber. This is not currently set for registers live across a
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call because that clobbering may or may not happen.
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Most of the uses of this are with sets that have a
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GET_CODE(..)==CLOBBER. Note that this is set even if the
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clobber is to a subreg. So in order to tell if the clobber
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wipes out the entire register, it is necessary to also check
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the DF_REF_PARTIAL flag. */
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DF_REF_MUST_CLOBBER = 64,
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/* This bit is true if this ref is part of a multiword hardreg. */
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DF_REF_MW_HARDREG = 128,
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/* This flag is set if this ref is a partial use or def of the
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associated register. */
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DF_REF_PARTIAL = 256
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};
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/* Function prototypes added to df_problem instance. */
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/* Allocate the problem specific data. */
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typedef void (*df_alloc_function) (struct dataflow *, bitmap, bitmap);
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/* This function is called if the problem has global data that needs
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to be cleared when ever the set of blocks changes. The bitmap
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contains the set of blocks that may require special attention.
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This call is only made if some of the blocks are going to change.
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If everything is to be deleted, the wholesale deletion mechanisms
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apply. */
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typedef void (*df_reset_function) (struct dataflow *, bitmap);
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/* Free the basic block info. Called from the block reordering code
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to get rid of the blocks that have been squished down. */
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typedef void (*df_free_bb_function) (struct dataflow *, basic_block, void *);
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/* Local compute function. */
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typedef void (*df_local_compute_function) (struct dataflow *, bitmap, bitmap);
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/* Init the solution specific data. */
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typedef void (*df_init_function) (struct dataflow *, bitmap);
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/* Iterative dataflow function. */
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typedef void (*df_dataflow_function) (struct dataflow *, bitmap, bitmap,
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int *, int, bool);
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/* Confluence operator for blocks with 0 out (or in) edges. */
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typedef void (*df_confluence_function_0) (struct dataflow *, basic_block);
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/* Confluence operator for blocks with 1 or more out (or in) edges. */
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typedef void (*df_confluence_function_n) (struct dataflow *, edge);
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/* Transfer function for blocks. */
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typedef bool (*df_transfer_function) (struct dataflow *, int);
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/* Function to massage the information after the problem solving. */
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typedef void (*df_finalizer_function) (struct dataflow*, bitmap);
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/* Function to free all of the problem specific datastructures. */
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typedef void (*df_free_function) (struct dataflow *);
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/* Function to dump results to FILE. */
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typedef void (*df_dump_problem_function) (struct dataflow *, FILE *);
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/* Function to add problem a dataflow problem that must be solved
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before this problem can be solved. */
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typedef struct dataflow * (*df_dependent_problem_function) (struct df *, int);
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/* The static description of a dataflow problem to solve. See above
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typedefs for doc for the function fields. */
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struct df_problem {
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/* The unique id of the problem. This is used it index into
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df->defined_problems to make accessing the problem data easy. */
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unsigned int id;
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enum df_flow_dir dir; /* Dataflow direction. */
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df_alloc_function alloc_fun;
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df_reset_function reset_fun;
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df_free_bb_function free_bb_fun;
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df_local_compute_function local_compute_fun;
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df_init_function init_fun;
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df_dataflow_function dataflow_fun;
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df_confluence_function_0 con_fun_0;
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df_confluence_function_n con_fun_n;
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df_transfer_function trans_fun;
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df_finalizer_function finalize_fun;
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df_free_function free_fun;
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df_dump_problem_function dump_fun;
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df_dependent_problem_function dependent_problem_fun;
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/* Flags can be changed after analysis starts. */
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int changeable_flags;
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};
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/* The specific instance of the problem to solve. */
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struct dataflow
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{
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struct df *df; /* Instance of df we are working in. */
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struct df_problem *problem; /* The problem to be solved. */
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/* Communication between iterative_dataflow and hybrid_search. */
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sbitmap visited, pending, considered;
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/* Array indexed by bb->index, that contains basic block problem and
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solution specific information. */
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void **block_info;
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unsigned int block_info_size;
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/* The pool to allocate the block_info from. */
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alloc_pool block_pool;
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/* Problem specific control information. */
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/* Scanning flags. */
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#define DF_HARD_REGS 1 /* Mark hard registers. */
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#define DF_EQUIV_NOTES 2 /* Mark uses present in EQUIV/EQUAL notes. */
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#define DF_SUBREGS 4 /* Return subregs rather than the inner reg. */
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/* Flags that control the building of chains. */
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#define DF_DU_CHAIN 1 /* Build DU chains. */
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#define DF_UD_CHAIN 2 /* Build UD chains. */
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/* Flag to control the building of register info. */
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#define DF_RI_LIFE 1 /* Build register info. */
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int flags;
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/* Other problem specific data that is not on a per basic block
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basis. The structure is generally defined privately for the
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problem. The exception being the scanning problem where it is
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fully public. */
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void *problem_data;
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};
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/* The set of multiword hardregs used as operands to this
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instruction. These are factored into individual uses and defs but
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the aggregate is still needed to service the REG_DEAD and
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REG_UNUSED notes. */
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struct df_mw_hardreg
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{
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rtx mw_reg; /* The multiword hardreg. */
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enum df_ref_type type; /* Used to see if the ref is read or write. */
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enum df_ref_flags flags; /* Various flags. */
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struct df_link *regs; /* The individual regs that make up
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this hardreg. */
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struct df_mw_hardreg *next; /* The next mw_hardreg in this insn. */
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};
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/* One of these structures is allocated for every insn. */
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struct df_insn_info
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{
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struct df_ref *defs; /* Head of insn-def chain. */
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struct df_ref *uses; /* Head of insn-use chain. */
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struct df_mw_hardreg *mw_hardregs;
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/* ???? The following luid field should be considered private so that
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we can change it on the fly to accommodate new insns? */
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int luid; /* Logical UID. */
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bool contains_asm; /* Contains an asm instruction. */
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};
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/* Two of these structures are allocated for every pseudo reg, one for
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the uses and one for the defs. */
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struct df_reg_info
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{
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struct df_ref *reg_chain; /* Head of reg-use or def chain. */
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unsigned int begin; /* First def_index for this pseudo. */
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unsigned int n_refs; /* Number of refs or defs for this pseudo. */
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};
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/* Define a register reference structure. One of these is allocated
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for every register reference (use or def). Note some register
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references (e.g., post_inc, subreg) generate both a def and a use. */
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struct df_ref
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{
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rtx reg; /* The register referenced. */
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unsigned int regno; /* The register number referenced. */
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basic_block bb; /* Basic block containing the instruction. */
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/* Insn containing ref. This will be null if this is an artificial
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reference. */
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rtx insn;
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rtx *loc; /* The location of the reg. */
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struct df_link *chain; /* Head of def-use, use-def. */
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unsigned int id; /* Location in table. */
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enum df_ref_type type; /* Type of ref. */
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enum df_ref_flags flags; /* Various flags. */
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/* For each regno, there are two chains of refs, one for the uses
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and one for the defs. These chains go thru the refs themselves
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rather than using an external structure. */
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struct df_ref *next_reg; /* Next ref with same regno and type. */
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struct df_ref *prev_reg; /* Prev ref with same regno and type. */
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/* Each insn has two lists, one for the uses and one for the
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defs. This is the next field in either of these chains. */
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struct df_ref *next_ref;
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void *data; /* The data assigned to it by user. */
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};
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/* These links are used for two purposes:
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1) def-use or use-def chains.
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2) Multiword hard registers that underly a single hardware register. */
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struct df_link
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{
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struct df_ref *ref;
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struct df_link *next;
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};
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/* Two of these structures are allocated, one for the uses and one for
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the defs. */
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struct df_ref_info
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{
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struct df_reg_info **regs; /* Array indexed by pseudo regno. */
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unsigned int regs_size; /* Size of currently allocated regs table. */
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unsigned int regs_inited; /* Number of regs with reg_infos allocated. */
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struct df_ref **refs; /* Ref table, indexed by id. */
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unsigned int refs_size; /* Size of currently allocated refs table. */
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unsigned int bitmap_size; /* Number of refs seen. */
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/* True if refs table is organized so that every reference for a
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pseudo is contiguous. */
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bool refs_organized;
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/* True if the next refs should be added immediately or false to
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defer to later to reorganize the table. */
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bool add_refs_inline;
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};
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/*----------------------------------------------------------------------------
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Problem data for the scanning dataflow problem. Unlike the other
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dataflow problems, the problem data for scanning is fully exposed and
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used by owners of the problem.
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----------------------------------------------------------------------------*/
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struct df
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{
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/* The set of problems to be solved is stored in two arrays. In
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PROBLEMS_IN_ORDER, the problems are stored in the order that they
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are solved. This is an internally dense array that may have
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nulls at the end of it. In PROBLEMS_BY_INDEX, the problem is
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stored by the value in df_problem.id. These are used to access
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the problem local data without having to search the first
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array. */
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struct dataflow *problems_in_order [DF_LAST_PROBLEM_PLUS1];
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struct dataflow *problems_by_index [DF_LAST_PROBLEM_PLUS1];
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int num_problems_defined;
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/* Set after calls to df_scan_blocks, this contains all of the
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blocks that higher level problems must rescan before solving the
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dataflow equations. If this is NULL, the blocks_to_analyze is
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used. */
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bitmap blocks_to_scan;
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/* If not NULL, the subset of blocks of the program to be considered
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for analysis. */
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bitmap blocks_to_analyze;
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/* The following information is really the problem data for the
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scanning instance but it is used too often by the other problems
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to keep getting it from there. */
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struct df_ref_info def_info; /* Def info. */
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struct df_ref_info use_info; /* Use info. */
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struct df_insn_info **insns; /* Insn table, indexed by insn UID. */
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unsigned int insns_size; /* Size of insn table. */
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bitmap hardware_regs_used; /* The set of hardware registers used. */
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bitmap entry_block_defs; /* The set of hardware registers live on entry to the function. */
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bitmap exit_block_uses; /* The set of hardware registers used in exit block. */
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};
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#define DF_SCAN_BB_INFO(DF, BB) (df_scan_get_bb_info((DF)->problems_by_index[DF_SCAN],(BB)->index))
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#define DF_RU_BB_INFO(DF, BB) (df_ru_get_bb_info((DF)->problems_by_index[DF_RU],(BB)->index))
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#define DF_RD_BB_INFO(DF, BB) (df_rd_get_bb_info((DF)->problems_by_index[DF_RD],(BB)->index))
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#define DF_LR_BB_INFO(DF, BB) (df_lr_get_bb_info((DF)->problems_by_index[DF_LR],(BB)->index))
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#define DF_UR_BB_INFO(DF, BB) (df_ur_get_bb_info((DF)->problems_by_index[DF_UR],(BB)->index))
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#define DF_UREC_BB_INFO(DF, BB) (df_urec_get_bb_info((DF)->problems_by_index[DF_UREC],(BB)->index))
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/* Most transformations that wish to use live register analysis will
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use these macros. The DF_UPWARD_LIVE* macros are only half of the
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solution. */
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#define DF_LIVE_IN(DF, BB) (DF_UR_BB_INFO(DF, BB)->in)
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#define DF_LIVE_OUT(DF, BB) (DF_UR_BB_INFO(DF, BB)->out)
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/* Live in for register allocation also takes into account several other factors. */
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#define DF_RA_LIVE_IN(DF, BB) (DF_UREC_BB_INFO(DF, BB)->in)
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#define DF_RA_LIVE_OUT(DF, BB) (DF_UREC_BB_INFO(DF, BB)->out)
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/* These macros are currently used by only reg-stack since it is not
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tolerant of uninitialized variables. This intolerance should be
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fixed because it causes other problems. */
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#define DF_UPWARD_LIVE_IN(DF, BB) (DF_LR_BB_INFO(DF, BB)->in)
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#define DF_UPWARD_LIVE_OUT(DF, BB) (DF_LR_BB_INFO(DF, BB)->out)
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/* Macros to access the elements within the ref structure. */
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#define DF_REF_REAL_REG(REF) (GET_CODE ((REF)->reg) == SUBREG \
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? SUBREG_REG ((REF)->reg) : ((REF)->reg))
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#define DF_REF_REGNO(REF) ((REF)->regno)
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#define DF_REF_REAL_LOC(REF) (GET_CODE ((REF)->reg) == SUBREG \
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? &SUBREG_REG ((REF)->reg) : ((REF)->loc))
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#define DF_REF_REG(REF) ((REF)->reg)
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#define DF_REF_LOC(REF) ((REF)->loc)
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#define DF_REF_BB(REF) ((REF)->bb)
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#define DF_REF_BBNO(REF) (DF_REF_BB (REF)->index)
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#define DF_REF_INSN(REF) ((REF)->insn)
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#define DF_REF_INSN_UID(REF) (INSN_UID ((REF)->insn))
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#define DF_REF_TYPE(REF) ((REF)->type)
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#define DF_REF_CHAIN(REF) ((REF)->chain)
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#define DF_REF_ID(REF) ((REF)->id)
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#define DF_REF_FLAGS(REF) ((REF)->flags)
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#define DF_REF_NEXT_REG(REF) ((REF)->next_reg)
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#define DF_REF_PREV_REG(REF) ((REF)->prev_reg)
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#define DF_REF_NEXT_REF(REF) ((REF)->next_ref)
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#define DF_REF_DATA(REF) ((REF)->data)
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/* Macros to determine the reference type. */
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#define DF_REF_REG_DEF_P(REF) (DF_REF_TYPE (REF) == DF_REF_REG_DEF)
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#define DF_REF_REG_USE_P(REF) ((REF) && !DF_REF_REG_DEF_P (REF))
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#define DF_REF_REG_MEM_STORE_P(REF) (DF_REF_TYPE (REF) == DF_REF_REG_MEM_STORE)
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#define DF_REF_REG_MEM_LOAD_P(REF) (DF_REF_TYPE (REF) == DF_REF_REG_MEM_LOAD)
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#define DF_REF_REG_MEM_P(REF) (DF_REF_REG_MEM_STORE_P (REF) \
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|| DF_REF_REG_MEM_LOAD_P (REF))
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/* Macros to get the refs out of def_info or use_info refs table. */
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#define DF_DEFS_SIZE(DF) ((DF)->def_info.bitmap_size)
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#define DF_DEFS_GET(DF,ID) ((DF)->def_info.refs[(ID)])
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#define DF_DEFS_SET(DF,ID,VAL) ((DF)->def_info.refs[(ID)]=(VAL))
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#define DF_USES_SIZE(DF) ((DF)->use_info.bitmap_size)
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#define DF_USES_GET(DF,ID) ((DF)->use_info.refs[(ID)])
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#define DF_USES_SET(DF,ID,VAL) ((DF)->use_info.refs[(ID)]=(VAL))
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/* Macros to access the register information from scan dataflow record. */
|
||
|
||
#define DF_REG_SIZE(DF) ((DF)->def_info.regs_inited)
|
||
#define DF_REG_DEF_GET(DF, REG) ((DF)->def_info.regs[(REG)])
|
||
#define DF_REG_DEF_SET(DF, REG, VAL) ((DF)->def_info.regs[(REG)]=(VAL))
|
||
#define DF_REG_DEF_COUNT(DF, REG) ((DF)->def_info.regs[(REG)]->n_refs)
|
||
#define DF_REG_USE_GET(DF, REG) ((DF)->use_info.regs[(REG)])
|
||
#define DF_REG_USE_SET(DF, REG, VAL) ((DF)->use_info.regs[(REG)]=(VAL))
|
||
#define DF_REG_USE_COUNT(DF, REG) ((DF)->use_info.regs[(REG)]->n_refs)
|
||
|
||
/* Macros to access the elements within the reg_info structure table. */
|
||
|
||
#define DF_REGNO_FIRST_DEF(DF, REGNUM) \
|
||
(DF_REG_DEF_GET(DF, REGNUM) ? DF_REG_DEF_GET(DF, REGNUM) : 0)
|
||
#define DF_REGNO_LAST_USE(DF, REGNUM) \
|
||
(DF_REG_USE_GET(DF, REGNUM) ? DF_REG_USE_GET(DF, REGNUM) : 0)
|
||
|
||
/* Macros to access the elements within the insn_info structure table. */
|
||
|
||
#define DF_INSN_SIZE(DF) ((DF)->insns_size)
|
||
#define DF_INSN_GET(DF,INSN) ((DF)->insns[(INSN_UID(INSN))])
|
||
#define DF_INSN_SET(DF,INSN,VAL) ((DF)->insns[(INSN_UID (INSN))]=(VAL))
|
||
#define DF_INSN_CONTAINS_ASM(DF, INSN) (DF_INSN_GET(DF,INSN)->contains_asm)
|
||
#define DF_INSN_LUID(DF, INSN) (DF_INSN_GET(DF,INSN)->luid)
|
||
#define DF_INSN_DEFS(DF, INSN) (DF_INSN_GET(DF,INSN)->defs)
|
||
#define DF_INSN_USES(DF, INSN) (DF_INSN_GET(DF,INSN)->uses)
|
||
|
||
#define DF_INSN_UID_GET(DF,UID) ((DF)->insns[(UID)])
|
||
#define DF_INSN_UID_LUID(DF, INSN) (DF_INSN_UID_GET(DF,INSN)->luid)
|
||
#define DF_INSN_UID_DEFS(DF, INSN) (DF_INSN_UID_GET(DF,INSN)->defs)
|
||
#define DF_INSN_UID_USES(DF, INSN) (DF_INSN_UID_GET(DF,INSN)->uses)
|
||
#define DF_INSN_UID_MWS(DF, INSN) (DF_INSN_UID_GET(DF,INSN)->mw_hardregs)
|
||
|
||
/* This is a bitmap copy of regs_invalidated_by_call so that we can
|
||
easily add it into bitmaps, etc. */
|
||
|
||
extern bitmap df_invalidated_by_call;
|
||
|
||
|
||
/* One of these structures is allocated for every basic block. */
|
||
struct df_scan_bb_info
|
||
{
|
||
/* Defs at the start of a basic block that is the target of an
|
||
exception edge. */
|
||
struct df_ref *artificial_defs;
|
||
|
||
/* Uses of hard registers that are live at every block. */
|
||
struct df_ref *artificial_uses;
|
||
};
|
||
|
||
|
||
/* Reaching uses. All bitmaps are indexed by the id field of the ref
|
||
except sparse_kill (see below). */
|
||
struct df_ru_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
/* The kill set is the set of uses that are killed in this block.
|
||
However, if the number of uses for this register is greater than
|
||
DF_SPARSE_THRESHOLD, the sparse_kill is used instead. In
|
||
sparse_kill, each register gets a slot and a 1 in this bitvector
|
||
means that all of the uses of that register are killed. This is
|
||
a very useful efficiency hack in that it keeps from having push
|
||
around big groups of 1s. This is implemented by the
|
||
bitmap_clear_range call. */
|
||
|
||
bitmap kill;
|
||
bitmap sparse_kill;
|
||
bitmap gen; /* The set of uses generated in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap in; /* At the top of the block. */
|
||
bitmap out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* Reaching definitions. All bitmaps are indexed by the id field of
|
||
the ref except sparse_kill (see above). */
|
||
struct df_rd_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. See the note in the RU
|
||
datastructures for kill and sparse_kill. */
|
||
bitmap kill;
|
||
bitmap sparse_kill;
|
||
bitmap gen; /* The set of defs generated in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap in; /* At the top of the block. */
|
||
bitmap out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* Live registers. All bitmaps are referenced by the register number. */
|
||
struct df_lr_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap def; /* The set of registers set in this block. */
|
||
bitmap use; /* The set of registers used in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap in; /* At the top of the block. */
|
||
bitmap out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* Uninitialized registers. All bitmaps are referenced by the register number. */
|
||
struct df_ur_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap kill; /* The set of registers unset in this block. Calls,
|
||
for instance, unset registers. */
|
||
bitmap gen; /* The set of registers set in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap in; /* At the top of the block. */
|
||
bitmap out; /* At the bottom of the block. */
|
||
};
|
||
|
||
/* Uninitialized registers. All bitmaps are referenced by the register number. */
|
||
struct df_urec_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap earlyclobber; /* The set of registers that are referenced
|
||
with an an early clobber mode. */
|
||
/* Kill and gen are defined as in the UR problem. */
|
||
bitmap kill;
|
||
bitmap gen;
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap in; /* At the top of the block. */
|
||
bitmap out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
#define df_finish(df) {df_finish1(df); df=NULL;}
|
||
|
||
/* Functions defined in df-core.c. */
|
||
|
||
extern struct df *df_init (int);
|
||
extern struct dataflow *df_add_problem (struct df *, struct df_problem *, int);
|
||
extern int df_set_flags (struct dataflow *, int);
|
||
extern int df_clear_flags (struct dataflow *, int);
|
||
extern void df_set_blocks (struct df*, bitmap);
|
||
extern void df_delete_basic_block (struct df *, int);
|
||
extern void df_finish1 (struct df *);
|
||
extern void df_analyze_problem (struct dataflow *, bitmap, bitmap, bitmap, int *, int, bool);
|
||
extern void df_analyze (struct df *);
|
||
extern void df_compact_blocks (struct df *);
|
||
extern void df_bb_replace (struct df *, int, basic_block);
|
||
extern struct df_ref *df_bb_regno_last_use_find (struct df *, basic_block, unsigned int);
|
||
extern struct df_ref *df_bb_regno_first_def_find (struct df *, basic_block, unsigned int);
|
||
extern struct df_ref *df_bb_regno_last_def_find (struct df *, basic_block, unsigned int);
|
||
extern bool df_insn_regno_def_p (struct df *, rtx, unsigned int);
|
||
extern struct df_ref *df_find_def (struct df *, rtx, rtx);
|
||
extern bool df_reg_defined (struct df *, rtx, rtx);
|
||
extern struct df_ref *df_find_use (struct df *, rtx, rtx);
|
||
extern bool df_reg_used (struct df *, rtx, rtx);
|
||
extern void df_iterative_dataflow (struct dataflow *, bitmap, bitmap, int *, int, bool);
|
||
extern void df_dump (struct df *, FILE *);
|
||
extern void df_refs_chain_dump (struct df_ref *, bool, FILE *);
|
||
extern void df_regs_chain_dump (struct df *, struct df_ref *, FILE *);
|
||
extern void df_insn_debug (struct df *, rtx, bool, FILE *);
|
||
extern void df_insn_debug_regno (struct df *, rtx, FILE *);
|
||
extern void df_regno_debug (struct df *, unsigned int, FILE *);
|
||
extern void df_ref_debug (struct df_ref *, FILE *);
|
||
extern void debug_df_insn (rtx);
|
||
extern void debug_df_regno (unsigned int);
|
||
extern void debug_df_reg (rtx);
|
||
extern void debug_df_defno (unsigned int);
|
||
extern void debug_df_useno (unsigned int);
|
||
extern void debug_df_ref (struct df_ref *);
|
||
extern void debug_df_chain (struct df_link *);
|
||
/* An instance of df that can be shared between passes. */
|
||
extern struct df *shared_df;
|
||
|
||
|
||
/* Functions defined in df-problems.c. */
|
||
|
||
extern struct df_link *df_chain_create (struct dataflow *, struct df_ref *, struct df_ref *);
|
||
extern void df_chain_unlink (struct dataflow *, struct df_ref *, struct df_link *);
|
||
extern void df_chain_copy (struct dataflow *, struct df_ref *, struct df_link *);
|
||
extern bitmap df_get_live_in (struct df *, basic_block);
|
||
extern bitmap df_get_live_out (struct df *, basic_block);
|
||
extern void df_grow_bb_info (struct dataflow *);
|
||
extern void df_chain_dump (struct df_link *, FILE *);
|
||
extern void df_print_bb_index (basic_block bb, FILE *file);
|
||
extern struct dataflow *df_ru_add_problem (struct df *, int);
|
||
extern struct df_ru_bb_info *df_ru_get_bb_info (struct dataflow *, unsigned int);
|
||
extern struct dataflow *df_rd_add_problem (struct df *, int);
|
||
extern struct df_rd_bb_info *df_rd_get_bb_info (struct dataflow *, unsigned int);
|
||
extern struct dataflow *df_lr_add_problem (struct df *, int);
|
||
extern struct df_lr_bb_info *df_lr_get_bb_info (struct dataflow *, unsigned int);
|
||
extern struct dataflow *df_ur_add_problem (struct df *, int);
|
||
extern struct df_ur_bb_info *df_ur_get_bb_info (struct dataflow *, unsigned int);
|
||
extern struct dataflow *df_urec_add_problem (struct df *, int);
|
||
extern struct df_urec_bb_info *df_urec_get_bb_info (struct dataflow *, unsigned int);
|
||
extern struct dataflow *df_chain_add_problem (struct df *, int);
|
||
extern struct dataflow *df_ri_add_problem (struct df *, int);
|
||
|
||
|
||
/* Functions defined in df-scan.c. */
|
||
|
||
extern struct df_scan_bb_info *df_scan_get_bb_info (struct dataflow *, unsigned int);
|
||
extern struct dataflow *df_scan_add_problem (struct df *, int);
|
||
extern void df_rescan_blocks (struct df *, bitmap);
|
||
extern struct df_ref *df_ref_create (struct df *, rtx, rtx *, rtx,basic_block,enum df_ref_type, enum df_ref_flags);
|
||
extern struct df_ref *df_get_artificial_defs (struct df *, unsigned int);
|
||
extern struct df_ref *df_get_artificial_uses (struct df *, unsigned int);
|
||
extern void df_reg_chain_create (struct df_reg_info *, struct df_ref *);
|
||
extern struct df_ref *df_reg_chain_unlink (struct dataflow *, struct df_ref *);
|
||
extern void df_ref_remove (struct df *, struct df_ref *);
|
||
extern void df_insn_refs_delete (struct dataflow *, rtx);
|
||
extern void df_bb_refs_delete (struct dataflow *, int);
|
||
extern void df_refs_delete (struct dataflow *, bitmap);
|
||
extern void df_reorganize_refs (struct df_ref_info *);
|
||
extern void df_hard_reg_init (void);
|
||
extern bool df_read_modify_subreg_p (rtx);
|
||
|
||
|
||
/* web */
|
||
|
||
/* This entry is allocated for each reference in the insn stream. */
|
||
struct web_entry
|
||
{
|
||
/* Pointer to the parent in the union/find tree. */
|
||
struct web_entry *pred;
|
||
/* Newly assigned register to the entry. Set only for roots. */
|
||
rtx reg;
|
||
void* extra_info;
|
||
};
|
||
|
||
extern struct web_entry *unionfind_root (struct web_entry *);
|
||
extern bool unionfind_union (struct web_entry *, struct web_entry *);
|
||
extern void union_defs (struct df *, struct df_ref *,
|
||
struct web_entry *, struct web_entry *,
|
||
bool (*fun) (struct web_entry *, struct web_entry *));
|
||
|
||
|
||
#endif /* GCC_DF_H */
|