8d0741923d
PR rtl-optimization/42575 * dce.c (word_dce_process_block): Renamed from byte_dce_process_block. Argument AU removed. All callers changed. Ignore artificial refs. Use return value of df_word_lr_simulate_defs to decide whether an insn is necessary. (fast_dce): Rename arg to WORD_LEVEL. (run_word_dce): Renamed from rest_of_handle_fast_byte_dce. No longer static. (pass_fast_rtl_byte_dce): Delete. * dce.h (run_word_dce): Declare. * df-core.c (df_print_word_regset): Renamed from df_print_byteregset. All callers changed. Simplify code to only deal with two-word regs. * df.h (DF_WORD_LR): Renamed from DF_BYTE_LR. (DF_WORD_LR_BB_INFO): Renamed from DF_BYTE_LR_BB_INFO. (DF_WORD_LR_IN): Renamed from DF_BYTE_LR_IN. (DF_WORD_LR_OUT): Renamed from DF_BYTE_LR_OUT. (struct df_word_lr_bb_info): Renamed from df_byte_lr_bb_info. (df_word_lr_mark_ref): Declare. (df_word_lr_add_problem, df_word_lr_mark_ref, df_word_lr_simulate_defs, df_word_lr_simulate_uses): Declare or rename from byte variants. (df_byte_lr_simulate_artificial_refs_at_top, df_byte_lr_simulate_artificial_refs_at_end, df_byte_lr_get_regno_start, df_byte_lr_get_regno_len, df_compute_accessed_bytes): Delete declarations. (df_word_lr_get_bb_info): Rename from df_byte_lr_get_bb_info. (enum df_mm): Delete. * df-byte-scan.c: Delete file. * df-problems.c (df_word_lr_problem_data): Renamed from df_byte_lr_problem_data, all members deleted except for WORD_LR_BITMAPS, which is renamed from BYTE_LR_BITMAPS. Uses changed. (df_word_lr_expand_bitmap, df_byte_lr_simulate_artificial_refs_at_top, df_byte_lr_simulate_artificial_refs_at_end, df_byte_lr_get_regno_start, df_byte_lr_get_regno_len, df_byte_lr_check_regs, df_byte_lr_confluence_0): Delete functions. (df_word_lr_free_bb_info): Renamed from df_byte_lr_free_bb_info; all callers changed. (df_word_lr_alloc): Renamed from df_byte_lr_alloc; all callers changed. Don't initialize members that were deleted, don't try to discover data about registers. Ignore hard regs. (df_word_lr_reset): Renamed from df_byte_lr_reset; all callers changed. (df_word_lr_mark_ref): New function. (df_word_lr_bb_local_compute): Renamed from df_byte_bb_lr_local_compute; all callers changed. Use df_word_lr_mark_ref. Assert that artificial refs don't include pseudos. Ignore hard registers. (df_word_lr_local_compute): Renamed from df_byte_lr_local_compute. Assert that exit block uses don't contain pseudos. (df_word_lr_init): Renamed from df_byte_lr_init; all callers changed. (df_word_lr_confluence_n): Renamed from df_byte_lr_confluence_n; all callers changed. Ignore hard regs. (df_word_lr_transfer_function): Renamed from df_byte_lr_transfer_function; all callers changed. (df_word_lr_free): Renamed from df_byte_lr_free; all callers changed. (df_word_lr_top_dump): Renamed from df_byte_lr_top_dump; all callers changed. (df_word_lr_bottom_dump): Renamed from df_byte_lr_bottom_dump; all callers changed. (problem_WORD_LR): Renamed from problem_BYTE_LR; uses changed; confluence operator 0 set to NULL. (df_word_lr_add_problem): Renamed from df_byte_lr_add_problem; all callers changed. (df_word_lr_simulate_defs): Renamed from df_byte_lr_simulate_defs. Return bool, true if bitmap changed or insn otherwise necessary. All callers changed. Simplify using df_word_lr_mark_ref. (df_word_lr_simulate_uses): Renamed from df_byte_lr_simulate_uses; all callers changed. Simplify using df_word_lr_mark_ref. * lower-subreg.c: Include "dce.h" (decompose_multiword_subregs): Call run_word_dce if df available. * Makefile.in (lower-subreg.o): Adjust dependencies. (df-byte-scan.o): Delete. * timevar.def (TV_DF_WORD_LR): Renamed from TV_DF_BYTE_LR. From-SVN: r162678
1118 lines
43 KiB
C
1118 lines
43 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, 2007, 2008,
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2009, 2010 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 3, 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 COPYING3. If not see
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<http://www.gnu.org/licenses/>. */
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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 "regset.h"
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#include "sbitmap.h"
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#include "basic-block.h"
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#include "alloc-pool.h"
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#include "timevar.h"
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struct dataflow;
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struct df_d;
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struct df_problem;
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struct df_link;
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struct df_insn_info;
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union df_ref_d;
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/* Data flow problems. All problems must have a unique id 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. The last four problems can be added or deleted
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at any time are always defined (though LIVE is always there at -O2
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or higher); the others are always there. */
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#define DF_SCAN 0
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#define DF_LR 1 /* Live Registers backward. */
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#define DF_LIVE 2 /* Live Registers & Uninitialized Registers */
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#define DF_RD 3 /* Reaching Defs. */
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#define DF_CHAIN 4 /* Def-Use and/or Use-Def Chains. */
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#define DF_WORD_LR 5 /* Subreg tracking lr. */
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#define DF_NOTE 6 /* REG_DEF and REG_UNUSED notes. */
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#define DF_MD 7 /* Multiple Definitions. */
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#define DF_LAST_PROBLEM_PLUS1 (DF_MD + 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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/* Descriminator for the various df_ref types. */
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enum df_ref_class {DF_REF_BASE, DF_REF_ARTIFICIAL, DF_REF_REGULAR, DF_REF_EXTRACT};
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/* The first of these us a set of a registers. The remaining three
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are all uses of a register (the mem_load and mem_store relate to
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how the register as an addressing operand). */
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enum df_ref_type {DF_REF_REG_DEF, DF_REF_REG_USE,
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DF_REF_REG_MEM_LOAD, DF_REF_REG_MEM_STORE};
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enum df_ref_flags
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{
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/* This flag is set if this ref occurs inside of a conditional
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execution instruction. */
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DF_REF_CONDITIONAL = 1 << 0,
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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 = 1 << 1,
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/* This flag is set if the use is inside a REG_EQUAL or REG_EQUIV
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note. */
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DF_REF_IN_NOTE = 1 << 2,
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/* This bit is true if this ref can make regs_ever_live true for
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this regno. */
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DF_HARD_REG_LIVE = 1 << 3,
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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 = 1 << 4,
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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 << 5,
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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 = 1 << 6,
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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 = 1 << 7,
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/* If the ref has one of the following two flags set, then the
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struct df_ref can be cast to struct df_ref_extract to access
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the width and offset fields. */
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/* This flag is set if the ref contains a SIGN_EXTRACT. */
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DF_REF_SIGN_EXTRACT = 1 << 8,
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/* This flag is set if the ref contains a ZERO_EXTRACT. */
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DF_REF_ZERO_EXTRACT = 1 << 9,
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/* This flag is set if the ref contains a STRICT_LOW_PART. */
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DF_REF_STRICT_LOW_PART = 1 << 10,
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/* This flag is set if the ref contains a SUBREG. */
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DF_REF_SUBREG = 1 << 11,
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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 = 1 << 12,
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/* This flag is set if this ref is a usage of the stack pointer by
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a function call. */
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DF_REF_CALL_STACK_USAGE = 1 << 13,
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/* This flag is used for verification of existing refs. */
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DF_REF_REG_MARKER = 1 << 14,
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/* This flag is set if this ref is inside a pre/post modify. */
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DF_REF_PRE_POST_MODIFY = 1 << 15
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};
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/* The possible ordering of refs within the df_ref_info. */
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enum df_ref_order
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{
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/* There is not table. */
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DF_REF_ORDER_NO_TABLE,
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/* There is a table of refs but it is not (or no longer) organized
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by one of the following methods. */
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DF_REF_ORDER_UNORDERED,
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DF_REF_ORDER_UNORDERED_WITH_NOTES,
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/* Organize the table by reg order, all of the refs with regno 0
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followed by all of the refs with regno 1 ... . Within all of
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the regs for a particular regno, the refs are unordered. */
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DF_REF_ORDER_BY_REG,
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/* For uses, the refs within eq notes may be added for
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DF_REF_ORDER_BY_REG. */
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DF_REF_ORDER_BY_REG_WITH_NOTES,
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/* Organize the refs in insn order. The insns are ordered within a
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block, and the blocks are ordered by FOR_ALL_BB. */
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DF_REF_ORDER_BY_INSN,
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/* For uses, the refs within eq notes may be added for
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DF_REF_ORDER_BY_INSN. */
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DF_REF_ORDER_BY_INSN_WITH_NOTES
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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) (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) (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) (basic_block, void *);
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/* Local compute function. */
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typedef void (*df_local_compute_function) (bitmap);
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/* Init the solution specific data. */
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typedef void (*df_init_function) (bitmap);
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/* Iterative dataflow function. */
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typedef void (*df_dataflow_function) (struct dataflow *, bitmap, int *, int);
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/* Confluence operator for blocks with 0 out (or in) edges. */
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typedef void (*df_confluence_function_0) (basic_block);
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/* Confluence operator for blocks with 1 or more out (or in) edges.
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Return true if BB input data has changed. */
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typedef bool (*df_confluence_function_n) (edge);
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/* Transfer function for blocks.
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Return true if BB output data has changed. */
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typedef bool (*df_transfer_function) (int);
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/* Function to massage the information after the problem solving. */
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typedef void (*df_finalizer_function) (bitmap);
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/* Function to free all of the problem specific datastructures. */
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typedef void (*df_free_function) (void);
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/* Function to remove this problem from the stack of dataflow problems
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without effecting the other problems in the stack except for those
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that depend on this problem. */
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typedef void (*df_remove_problem_function) (void);
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/* Function to dump basic block independent results to FILE. */
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typedef void (*df_dump_problem_function) (FILE *);
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/* Function to dump top or bottom of basic block results to FILE. */
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typedef void (*df_dump_bb_problem_function) (basic_block, FILE *);
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/* Function to dump top or bottom of basic block results to FILE. */
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typedef void (*df_verify_solution_start) (void);
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/* Function to dump top or bottom of basic block results to FILE. */
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typedef void (*df_verify_solution_end) (void);
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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_remove_problem_function remove_problem_fun;
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df_dump_problem_function dump_start_fun;
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df_dump_bb_problem_function dump_top_fun;
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df_dump_bb_problem_function dump_bottom_fun;
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df_verify_solution_start verify_start_fun;
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df_verify_solution_end verify_end_fun;
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struct df_problem *dependent_problem;
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unsigned int block_info_elt_size;
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/* The timevar id associated with this pass. */
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timevar_id_t tv_id;
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/* True if the df_set_blocks should null out the basic block info if
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this block drops out of df->blocks_to_analyze. */
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bool free_blocks_on_set_blocks;
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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_problem *problem; /* The problem to be solved. */
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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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/* The lr and live problems have their transfer functions recomputed
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only if necessary. This is possible for them because, the
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problems are kept active for the entire backend and their
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transfer functions are indexed by the REGNO. These are not
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defined for any other problem. */
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bitmap out_of_date_transfer_functions;
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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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/* Local flags for some of the problems. */
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unsigned int local_flags;
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/* True if this problem of this instance has been initialized. This
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is used by the dumpers to keep garbage out of the dumps if, for
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debugging a dump is produced before the first call to
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df_analyze after a new problem is added. */
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bool computed;
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/* True if the something has changed which invalidates the dataflow
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solutions. Note that this bit is always true for all problems except
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lr and live. */
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bool solutions_dirty;
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/* If true, this pass is deleted by df_finish_pass. This is never
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true for DF_SCAN and DF_LR. It is true for DF_LIVE if optimize >
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1. It is always true for the other problems. */
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bool optional_p;
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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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/* These two bitfields are intentionally oversized, in the hope that
|
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accesses to 16-bit fields will usually be quicker. */
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ENUM_BITFIELD(df_ref_type) type : 16;
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/* Used to see if the ref is read or write. */
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int flags : 16; /* Various df_ref_flags. */
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unsigned int start_regno; /* First word of the multi word subreg. */
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unsigned int end_regno; /* Last word of the multi word subreg. */
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||
unsigned int mw_order; /* Same as df_ref.ref_order. */
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||
};
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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_base_ref
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{
|
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/* These three bitfields are intentionally oversized, in the hope that
|
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accesses to 8 and 16-bit fields will usually be quicker. */
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ENUM_BITFIELD(df_ref_class) cl : 8;
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ENUM_BITFIELD(df_ref_type) type : 8;
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/* Type of ref. */
|
||
int flags : 16; /* Various df_ref_flags. */
|
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unsigned int regno; /* The register number referenced. */
|
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rtx reg; /* The register referenced. */
|
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struct df_link *chain; /* Head of def-use, use-def. */
|
||
/* Pointer to the insn info of the containing instruction. FIXME!
|
||
Currently this is NULL for artificial refs but this will be used
|
||
when FUDs are added. */
|
||
struct df_insn_info *insn_info;
|
||
/* For each regno, there are three chains of refs, one for the uses,
|
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the eq_uses and the defs. These chains go thru the refs
|
||
themselves rather than using an external structure. */
|
||
union df_ref_d *next_reg; /* Next ref with same regno and type. */
|
||
union df_ref_d *prev_reg; /* Prev ref with same regno and type. */
|
||
/* Location in the ref table. This is only valid after a call to
|
||
df_maybe_reorganize_[use,def]_refs which is an expensive operation. */
|
||
int id;
|
||
/* The index at which the operand was scanned in the insn. This is
|
||
used to totally order the refs in an insn. */
|
||
unsigned int ref_order;
|
||
};
|
||
|
||
|
||
/* The three types of df_refs. Note that the df_ref_extract is an
|
||
extension of the df_regular_ref, not the df_base_ref. */
|
||
struct df_artificial_ref
|
||
{
|
||
struct df_base_ref base;
|
||
|
||
/* Artificial refs do not have an insn, so to get the basic block,
|
||
it must be explicitly here. */
|
||
basic_block bb;
|
||
};
|
||
|
||
|
||
struct df_regular_ref
|
||
{
|
||
struct df_base_ref base;
|
||
/* The loc is the address in the insn of the reg. This is not
|
||
defined for special registers, such as clobbers and stack
|
||
pointers that are also associated with call insns and so those
|
||
just use the base. */
|
||
rtx *loc;
|
||
};
|
||
|
||
|
||
/* A df_ref_extract is just a df_ref with a width and offset field at
|
||
the end of it. It is used to hold this information if the ref was
|
||
wrapped by a SIGN_EXTRACT or a ZERO_EXTRACT and to pass this info
|
||
to passes that wish to process partial regs precisely. */
|
||
struct df_extract_ref
|
||
{
|
||
struct df_regular_ref base;
|
||
int width;
|
||
int offset;
|
||
enum machine_mode mode;
|
||
};
|
||
|
||
/* Union of the different kinds of defs/uses placeholders. */
|
||
union df_ref_d
|
||
{
|
||
struct df_base_ref base;
|
||
struct df_regular_ref regular_ref;
|
||
struct df_artificial_ref artificial_ref;
|
||
struct df_extract_ref extract_ref;
|
||
};
|
||
typedef union df_ref_d *df_ref;
|
||
|
||
|
||
/* One of these structures is allocated for every insn. */
|
||
struct df_insn_info
|
||
{
|
||
rtx insn; /* The insn this info comes from. */
|
||
df_ref *defs; /* Head of insn-def chain. */
|
||
df_ref *uses; /* Head of insn-use chain. */
|
||
/* Head of insn-use chain for uses in REG_EQUAL/EQUIV notes. */
|
||
df_ref *eq_uses;
|
||
struct df_mw_hardreg **mw_hardregs;
|
||
/* The logical uid of the insn in the basic block. This is valid
|
||
after any call to df_analyze but may rot after insns are added,
|
||
deleted or moved. */
|
||
int luid;
|
||
};
|
||
|
||
/* These links are used for ref-ref chains. Currently only DEF-USE and
|
||
USE-DEF chains can be built by DF. */
|
||
struct df_link
|
||
{
|
||
df_ref ref;
|
||
struct df_link *next;
|
||
};
|
||
|
||
|
||
enum df_chain_flags
|
||
{
|
||
/* Flags that control the building of chains. */
|
||
DF_DU_CHAIN = 1, /* Build DU chains. */
|
||
DF_UD_CHAIN = 2 /* Build UD chains. */
|
||
};
|
||
|
||
enum df_changeable_flags
|
||
{
|
||
/* Scanning flags. */
|
||
/* Flag to control the running of dce as a side effect of building LR. */
|
||
DF_LR_RUN_DCE = 1 << 0, /* Run DCE. */
|
||
DF_NO_HARD_REGS = 1 << 1, /* Skip hard registers in RD and CHAIN Building. */
|
||
|
||
DF_EQ_NOTES = 1 << 2, /* Build chains with uses present in EQUIV/EQUAL notes. */
|
||
DF_NO_REGS_EVER_LIVE = 1 << 3, /* Do not compute the regs_ever_live. */
|
||
|
||
/* Cause df_insn_rescan df_notes_rescan and df_insn_delete, to
|
||
return immediately. This is used by passes that know how to update
|
||
the scanning them selves. */
|
||
DF_NO_INSN_RESCAN = 1 << 4,
|
||
|
||
/* Cause df_insn_rescan df_notes_rescan and df_insn_delete, to
|
||
return after marking the insn for later processing. This allows all
|
||
rescans to be batched. */
|
||
DF_DEFER_INSN_RESCAN = 1 << 5,
|
||
|
||
DF_VERIFY_SCHEDULED = 1 << 6
|
||
};
|
||
|
||
/* Two of these structures are inline in df, one for the uses and one
|
||
for the defs. This structure is only contains the refs within the
|
||
boundary of the df_set_blocks if that has been defined. */
|
||
struct df_ref_info
|
||
{
|
||
df_ref *refs; /* Ref table, indexed by id. */
|
||
unsigned int *begin; /* First ref_index for this pseudo. */
|
||
unsigned int *count; /* Count of refs for this pseudo. */
|
||
unsigned int refs_size; /* Size of currently allocated refs table. */
|
||
|
||
/* Table_size is the number of elements in the refs table. This
|
||
will also be the width of the bitvectors in the rd and ru
|
||
problems. Total_size is the number of refs. These will be the
|
||
same if the focus has not been reduced by df_set_blocks. If the
|
||
focus has been reduced, table_size will be smaller since it only
|
||
contains the refs in the set blocks. */
|
||
unsigned int table_size;
|
||
unsigned int total_size;
|
||
|
||
enum df_ref_order ref_order;
|
||
};
|
||
|
||
/* Three of these structures are allocated for every pseudo reg. One
|
||
for the uses, one for the eq_uses and one for the defs. */
|
||
struct df_reg_info
|
||
{
|
||
/* Head of chain for refs of that type and regno. */
|
||
df_ref reg_chain;
|
||
/* Number of refs in the chain. */
|
||
unsigned int n_refs;
|
||
};
|
||
|
||
|
||
/*----------------------------------------------------------------------------
|
||
Problem data for the scanning dataflow problem. Unlike the other
|
||
dataflow problems, the problem data for scanning is fully exposed and
|
||
used by owners of the problem.
|
||
----------------------------------------------------------------------------*/
|
||
|
||
struct df_d
|
||
{
|
||
|
||
/* The set of problems to be solved is stored in two arrays. In
|
||
PROBLEMS_IN_ORDER, the problems are stored in the order that they
|
||
are solved. This is an internally dense array that may have
|
||
nulls at the end of it. In PROBLEMS_BY_INDEX, the problem is
|
||
stored by the value in df_problem.id. These are used to access
|
||
the problem local data without having to search the first
|
||
array. */
|
||
|
||
struct dataflow *problems_in_order[DF_LAST_PROBLEM_PLUS1];
|
||
struct dataflow *problems_by_index[DF_LAST_PROBLEM_PLUS1];
|
||
|
||
/* If not NULL, this subset of blocks of the program to be
|
||
considered for analysis. At certain times, this will contain all
|
||
the blocks in the function so it cannot be used as an indicator
|
||
of if we are analyzing a subset. See analyze_subset. */
|
||
bitmap blocks_to_analyze;
|
||
|
||
/* The following information is really the problem data for the
|
||
scanning instance but it is used too often by the other problems
|
||
to keep getting it from there. */
|
||
struct df_ref_info def_info; /* Def info. */
|
||
struct df_ref_info use_info; /* Use info. */
|
||
|
||
/* The following three arrays are allocated in parallel. They contain
|
||
the sets of refs of each type for each reg. */
|
||
struct df_reg_info **def_regs; /* Def reg info. */
|
||
struct df_reg_info **use_regs; /* Eq_use reg info. */
|
||
struct df_reg_info **eq_use_regs; /* Eq_use info. */
|
||
unsigned int regs_size; /* Size of currently allocated regs table. */
|
||
unsigned int regs_inited; /* Number of regs with reg_infos allocated. */
|
||
|
||
|
||
struct df_insn_info **insns; /* Insn table, indexed by insn UID. */
|
||
unsigned int insns_size; /* Size of insn table. */
|
||
|
||
int num_problems_defined;
|
||
|
||
bitmap_head hardware_regs_used; /* The set of hardware registers used. */
|
||
/* The set of hard regs that are in the artificial uses at the end
|
||
of a regular basic block. */
|
||
bitmap_head regular_block_artificial_uses;
|
||
/* The set of hard regs that are in the artificial uses at the end
|
||
of a basic block that has an EH pred. */
|
||
bitmap_head eh_block_artificial_uses;
|
||
/* The set of hardware registers live on entry to the function. */
|
||
bitmap entry_block_defs;
|
||
bitmap exit_block_uses; /* The set of hardware registers used in exit block. */
|
||
|
||
/* Insns to delete, rescan or reprocess the notes at next
|
||
df_rescan_all or df_process_deferred_rescans. */
|
||
bitmap_head insns_to_delete;
|
||
bitmap_head insns_to_rescan;
|
||
bitmap_head insns_to_notes_rescan;
|
||
int *postorder; /* The current set of basic blocks
|
||
in reverse postorder. */
|
||
int *postorder_inverted; /* The current set of basic blocks
|
||
in reverse postorder of inverted CFG. */
|
||
int n_blocks; /* The number of blocks in reverse postorder. */
|
||
int n_blocks_inverted; /* The number of blocks
|
||
in reverse postorder of inverted CFG. */
|
||
|
||
/* An array [FIRST_PSEUDO_REGISTER], indexed by regno, of the number
|
||
of refs that qualify as being real hard regs uses. Artificial
|
||
uses and defs as well as refs in eq notes are ignored. If the
|
||
ref is a def, it cannot be a MAY_CLOBBER def. If the ref is a
|
||
use, it cannot be the emim_reg_set or be the frame or arg pointer
|
||
register.
|
||
|
||
IT IS NOT ACCEPTABLE TO MANUALLY CHANGE THIS ARRAY. This array
|
||
always reflects the actual number of refs in the insn stream that
|
||
satisfy the above criteria. */
|
||
unsigned int *hard_regs_live_count;
|
||
|
||
/* This counter provides a way to totally order refs without using
|
||
addresses. It is incremented whenever a ref is created. */
|
||
unsigned int ref_order;
|
||
|
||
/* Problem specific control information. This is a combination of
|
||
enum df_changeable_flags values. */
|
||
int changeable_flags : 8;
|
||
|
||
/* If this is true, then only a subset of the blocks of the program
|
||
is considered to compute the solutions of dataflow problems. */
|
||
bool analyze_subset;
|
||
|
||
/* True if someone added or deleted something from regs_ever_live so
|
||
that the entry and exit blocks need be reprocessed. */
|
||
bool redo_entry_and_exit;
|
||
};
|
||
|
||
#define DF_SCAN_BB_INFO(BB) (df_scan_get_bb_info((BB)->index))
|
||
#define DF_RD_BB_INFO(BB) (df_rd_get_bb_info((BB)->index))
|
||
#define DF_LR_BB_INFO(BB) (df_lr_get_bb_info((BB)->index))
|
||
#define DF_LIVE_BB_INFO(BB) (df_live_get_bb_info((BB)->index))
|
||
#define DF_WORD_LR_BB_INFO(BB) (df_word_lr_get_bb_info((BB)->index))
|
||
#define DF_MD_BB_INFO(BB) (df_md_get_bb_info((BB)->index))
|
||
|
||
/* Most transformations that wish to use live register analysis will
|
||
use these macros. This info is the and of the lr and live sets. */
|
||
#define DF_LIVE_IN(BB) (&DF_LIVE_BB_INFO(BB)->in)
|
||
#define DF_LIVE_OUT(BB) (&DF_LIVE_BB_INFO(BB)->out)
|
||
|
||
/* These macros are used by passes that are not tolerant of
|
||
uninitialized variables. This intolerance should eventually
|
||
be fixed. */
|
||
#define DF_LR_IN(BB) (&DF_LR_BB_INFO(BB)->in)
|
||
#define DF_LR_OUT(BB) (&DF_LR_BB_INFO(BB)->out)
|
||
|
||
/* These macros are used by passes that are not tolerant of
|
||
uninitialized variables. This intolerance should eventually
|
||
be fixed. */
|
||
#define DF_WORD_LR_IN(BB) (&DF_WORD_LR_BB_INFO(BB)->in)
|
||
#define DF_WORD_LR_OUT(BB) (&DF_WORD_LR_BB_INFO(BB)->out)
|
||
|
||
/* Macros to access the elements within the ref structure. */
|
||
|
||
|
||
#define DF_REF_REAL_REG(REF) (GET_CODE ((REF)->base.reg) == SUBREG \
|
||
? SUBREG_REG ((REF)->base.reg) : ((REF)->base.reg))
|
||
#define DF_REF_REGNO(REF) ((REF)->base.regno)
|
||
#define DF_REF_REAL_LOC(REF) (GET_CODE (*((REF)->regular_ref.loc)) == SUBREG \
|
||
? &SUBREG_REG (*((REF)->regular_ref.loc)) : ((REF)->regular_ref.loc))
|
||
#define DF_REF_REG(REF) ((REF)->base.reg)
|
||
#define DF_REF_LOC(REF) ((DF_REF_CLASS(REF) == DF_REF_REGULAR || DF_REF_CLASS(REF) == DF_REF_EXTRACT) ? \
|
||
(REF)->regular_ref.loc : NULL)
|
||
#define DF_REF_BB(REF) (DF_REF_IS_ARTIFICIAL(REF) ? \
|
||
(REF)->artificial_ref.bb : BLOCK_FOR_INSN (DF_REF_INSN(REF)))
|
||
#define DF_REF_BBNO(REF) (DF_REF_BB (REF)->index)
|
||
#define DF_REF_INSN_INFO(REF) ((REF)->base.insn_info)
|
||
#define DF_REF_INSN(REF) ((REF)->base.insn_info->insn)
|
||
#define DF_REF_INSN_UID(REF) (INSN_UID (DF_REF_INSN(REF)))
|
||
#define DF_REF_CLASS(REF) ((REF)->base.cl)
|
||
#define DF_REF_TYPE(REF) ((REF)->base.type)
|
||
#define DF_REF_CHAIN(REF) ((REF)->base.chain)
|
||
#define DF_REF_ID(REF) ((REF)->base.id)
|
||
#define DF_REF_FLAGS(REF) ((REF)->base.flags)
|
||
#define DF_REF_FLAGS_IS_SET(REF, v) ((DF_REF_FLAGS (REF) & (v)) != 0)
|
||
#define DF_REF_FLAGS_SET(REF, v) (DF_REF_FLAGS (REF) |= (v))
|
||
#define DF_REF_FLAGS_CLEAR(REF, v) (DF_REF_FLAGS (REF) &= ~(v))
|
||
#define DF_REF_ORDER(REF) ((REF)->base.ref_order)
|
||
/* If DF_REF_IS_ARTIFICIAL () is true, this is not a real
|
||
definition/use, but an artificial one created to model always live
|
||
registers, eh uses, etc. */
|
||
#define DF_REF_IS_ARTIFICIAL(REF) (DF_REF_CLASS(REF) == DF_REF_ARTIFICIAL)
|
||
#define DF_REF_REG_MARK(REF) (DF_REF_FLAGS_SET ((REF),DF_REF_REG_MARKER))
|
||
#define DF_REF_REG_UNMARK(REF) (DF_REF_FLAGS_CLEAR ((REF),DF_REF_REG_MARKER))
|
||
#define DF_REF_IS_REG_MARKED(REF) (DF_REF_FLAGS_IS_SET ((REF),DF_REF_REG_MARKER))
|
||
#define DF_REF_NEXT_REG(REF) ((REF)->base.next_reg)
|
||
#define DF_REF_PREV_REG(REF) ((REF)->base.prev_reg)
|
||
/* The following two macros may only be applied if one of
|
||
DF_REF_SIGN_EXTRACT | DF_REF_ZERO_EXTRACT is true. */
|
||
#define DF_REF_EXTRACT_WIDTH(REF) ((REF)->extract_ref.width)
|
||
#define DF_REF_EXTRACT_OFFSET(REF) ((REF)->extract_ref.offset)
|
||
#define DF_REF_EXTRACT_MODE(REF) ((REF)->extract_ref.mode)
|
||
|
||
/* Macros to determine the reference type. */
|
||
#define DF_REF_REG_DEF_P(REF) (DF_REF_TYPE (REF) == DF_REF_REG_DEF)
|
||
#define DF_REF_REG_USE_P(REF) ((REF) && !DF_REF_REG_DEF_P (REF))
|
||
#define DF_REF_REG_MEM_STORE_P(REF) (DF_REF_TYPE (REF) == DF_REF_REG_MEM_STORE)
|
||
#define DF_REF_REG_MEM_LOAD_P(REF) (DF_REF_TYPE (REF) == DF_REF_REG_MEM_LOAD)
|
||
#define DF_REF_REG_MEM_P(REF) (DF_REF_REG_MEM_STORE_P (REF) \
|
||
|| DF_REF_REG_MEM_LOAD_P (REF))
|
||
|
||
#define DF_MWS_REG_DEF_P(MREF) (DF_MWS_TYPE (MREF) == DF_REF_REG_DEF)
|
||
#define DF_MWS_REG_USE_P(MREF) ((MREF) && !DF_MWS_REG_DEF_P (MREF))
|
||
#define DF_MWS_TYPE(MREF) ((MREF)->type)
|
||
|
||
/* Macros to get the refs out of def_info or use_info refs table. If
|
||
the focus of the dataflow has been set to some subset of blocks
|
||
with df_set_blocks, these macros will only find the uses and defs
|
||
in that subset of blocks.
|
||
|
||
These macros should be used with care. The def macros are only
|
||
usable after a call to df_maybe_reorganize_def_refs and the use
|
||
macros are only usable after a call to
|
||
df_maybe_reorganize_use_refs. HOWEVER, BUILDING AND USING THESE
|
||
ARRAYS ARE A CACHE LOCALITY KILLER. */
|
||
|
||
#define DF_DEFS_TABLE_SIZE() (df->def_info.table_size)
|
||
#define DF_DEFS_GET(ID) (df->def_info.refs[(ID)])
|
||
#define DF_DEFS_SET(ID,VAL) (df->def_info.refs[(ID)]=(VAL))
|
||
#define DF_DEFS_COUNT(ID) (df->def_info.count[(ID)])
|
||
#define DF_DEFS_BEGIN(ID) (df->def_info.begin[(ID)])
|
||
#define DF_USES_TABLE_SIZE() (df->use_info.table_size)
|
||
#define DF_USES_GET(ID) (df->use_info.refs[(ID)])
|
||
#define DF_USES_SET(ID,VAL) (df->use_info.refs[(ID)]=(VAL))
|
||
#define DF_USES_COUNT(ID) (df->use_info.count[(ID)])
|
||
#define DF_USES_BEGIN(ID) (df->use_info.begin[(ID)])
|
||
|
||
/* Macros to access the register information from scan dataflow record. */
|
||
|
||
#define DF_REG_SIZE(DF) (df->regs_inited)
|
||
#define DF_REG_DEF_GET(REG) (df->def_regs[(REG)])
|
||
#define DF_REG_DEF_CHAIN(REG) (df->def_regs[(REG)]->reg_chain)
|
||
#define DF_REG_DEF_COUNT(REG) (df->def_regs[(REG)]->n_refs)
|
||
#define DF_REG_USE_GET(REG) (df->use_regs[(REG)])
|
||
#define DF_REG_USE_CHAIN(REG) (df->use_regs[(REG)]->reg_chain)
|
||
#define DF_REG_USE_COUNT(REG) (df->use_regs[(REG)]->n_refs)
|
||
#define DF_REG_EQ_USE_GET(REG) (df->eq_use_regs[(REG)])
|
||
#define DF_REG_EQ_USE_CHAIN(REG) (df->eq_use_regs[(REG)]->reg_chain)
|
||
#define DF_REG_EQ_USE_COUNT(REG) (df->eq_use_regs[(REG)]->n_refs)
|
||
|
||
/* Macros to access the elements within the reg_info structure table. */
|
||
|
||
#define DF_REGNO_FIRST_DEF(REGNUM) \
|
||
(DF_REG_DEF_GET(REGNUM) ? DF_REG_DEF_GET(REGNUM) : 0)
|
||
#define DF_REGNO_LAST_USE(REGNUM) \
|
||
(DF_REG_USE_GET(REGNUM) ? DF_REG_USE_GET(REGNUM) : 0)
|
||
|
||
/* Macros to access the elements within the insn_info structure table. */
|
||
|
||
#define DF_INSN_SIZE() ((df)->insns_size)
|
||
#define DF_INSN_INFO_GET(INSN) (df->insns[(INSN_UID(INSN))])
|
||
#define DF_INSN_INFO_SET(INSN,VAL) (df->insns[(INSN_UID (INSN))]=(VAL))
|
||
#define DF_INSN_INFO_LUID(II) ((II)->luid)
|
||
#define DF_INSN_INFO_DEFS(II) ((II)->defs)
|
||
#define DF_INSN_INFO_USES(II) ((II)->uses)
|
||
#define DF_INSN_INFO_EQ_USES(II) ((II)->eq_uses)
|
||
|
||
#define DF_INSN_LUID(INSN) (DF_INSN_INFO_LUID (DF_INSN_INFO_GET(INSN)))
|
||
#define DF_INSN_DEFS(INSN) (DF_INSN_INFO_DEFS (DF_INSN_INFO_GET(INSN)))
|
||
#define DF_INSN_USES(INSN) (DF_INSN_INFO_USES (DF_INSN_INFO_GET(INSN)))
|
||
#define DF_INSN_EQ_USES(INSN) (DF_INSN_INFO_EQ_USES (DF_INSN_INFO_GET(INSN)))
|
||
|
||
#define DF_INSN_UID_GET(UID) (df->insns[(UID)])
|
||
#define DF_INSN_UID_SET(UID,VAL) (df->insns[(UID)]=(VAL))
|
||
#define DF_INSN_UID_SAFE_GET(UID) (((unsigned)(UID) < DF_INSN_SIZE()) \
|
||
? DF_INSN_UID_GET (UID) \
|
||
: NULL)
|
||
#define DF_INSN_UID_LUID(INSN) (DF_INSN_UID_GET(INSN)->luid)
|
||
#define DF_INSN_UID_DEFS(INSN) (DF_INSN_UID_GET(INSN)->defs)
|
||
#define DF_INSN_UID_USES(INSN) (DF_INSN_UID_GET(INSN)->uses)
|
||
#define DF_INSN_UID_EQ_USES(INSN) (DF_INSN_UID_GET(INSN)->eq_uses)
|
||
#define DF_INSN_UID_MWS(INSN) (DF_INSN_UID_GET(INSN)->mw_hardregs)
|
||
|
||
/* An obstack for bitmap not related to specific dataflow problems.
|
||
This obstack should e.g. be used for bitmaps with a short life time
|
||
such as temporary bitmaps. This obstack is declared in df-core.c. */
|
||
|
||
extern bitmap_obstack df_bitmap_obstack;
|
||
|
||
|
||
/* One of these structures is allocated for every basic block. */
|
||
struct df_scan_bb_info
|
||
{
|
||
/* The entry block has many artificial defs and these are at the
|
||
bottom of the block.
|
||
|
||
Blocks that are targets of exception edges may have some
|
||
artificial defs. These are logically located at the top of the
|
||
block.
|
||
|
||
Blocks that are the targets of non-local goto's have the hard
|
||
frame pointer defined at the top of the block. */
|
||
df_ref *artificial_defs;
|
||
|
||
/* Blocks that are targets of exception edges may have some
|
||
artificial uses. These are logically at the top of the block.
|
||
|
||
Most blocks have artificial uses at the bottom of the block. */
|
||
df_ref *artificial_uses;
|
||
};
|
||
|
||
|
||
/* Reaching definitions. All bitmaps are indexed by the id field of
|
||
the ref except sparse_kill which is indexed by regno. */
|
||
struct df_rd_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap_head kill;
|
||
bitmap_head sparse_kill;
|
||
bitmap_head gen; /* The set of defs generated in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap_head in; /* At the top of the block. */
|
||
bitmap_head out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* Multiple reaching definitions. All bitmaps are referenced by the
|
||
register number. */
|
||
|
||
struct df_md_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap_head gen; /* Partial/conditional definitions live at BB out. */
|
||
bitmap_head kill; /* Other definitions that are live at BB out. */
|
||
bitmap_head init; /* Definitions coming from dominance frontier edges. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap_head in; /* Just before the block itself. */
|
||
bitmap_head out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* Live registers, a backwards dataflow problem. All bitmaps are
|
||
referenced by the register number. */
|
||
|
||
struct df_lr_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap_head def; /* The set of registers set in this block
|
||
- except artificial defs at the top. */
|
||
bitmap_head use; /* The set of registers used in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap_head in; /* Just before the block itself. */
|
||
bitmap_head out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* Uninitialized registers. All bitmaps are referenced by the
|
||
register number. Anded results of the forwards and backward live
|
||
info. Note that the forwards live information is not available
|
||
separately. */
|
||
struct df_live_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap_head kill; /* The set of registers unset in this block. Calls,
|
||
for instance, unset registers. */
|
||
bitmap_head gen; /* The set of registers set in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap_head in; /* At the top of the block. */
|
||
bitmap_head out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* Live registers, a backwards dataflow problem. These bitmaps are
|
||
indexed by 2 * regno for each pseudo and have two entries for each
|
||
pseudo. Only pseudos that have a size of 2 * UNITS_PER_WORD are
|
||
meaningfully tracked. */
|
||
|
||
struct df_word_lr_bb_info
|
||
{
|
||
/* Local sets to describe the basic blocks. */
|
||
bitmap_head def; /* The set of registers set in this block
|
||
- except artificial defs at the top. */
|
||
bitmap_head use; /* The set of registers used in this block. */
|
||
|
||
/* The results of the dataflow problem. */
|
||
bitmap_head in; /* Just before the block itself. */
|
||
bitmap_head out; /* At the bottom of the block. */
|
||
};
|
||
|
||
|
||
/* This is used for debugging and for the dumpers to find the latest
|
||
instance so that the df info can be added to the dumps. This
|
||
should not be used by regular code. */
|
||
extern struct df_d *df;
|
||
#define df_scan (df->problems_by_index[DF_SCAN])
|
||
#define df_rd (df->problems_by_index[DF_RD])
|
||
#define df_lr (df->problems_by_index[DF_LR])
|
||
#define df_live (df->problems_by_index[DF_LIVE])
|
||
#define df_chain (df->problems_by_index[DF_CHAIN])
|
||
#define df_word_lr (df->problems_by_index[DF_WORD_LR])
|
||
#define df_note (df->problems_by_index[DF_NOTE])
|
||
#define df_md (df->problems_by_index[DF_MD])
|
||
|
||
/* This symbol turns on checking that each modification of the cfg has
|
||
been identified to the appropriate df routines. It is not part of
|
||
verification per se because the check that the final solution has
|
||
not changed covers this. However, if the solution is not being
|
||
properly recomputed because the cfg is being modified, adding in
|
||
calls to df_check_cfg_clean can be used to find the source of that
|
||
kind of problem. */
|
||
#if 0
|
||
#define DF_DEBUG_CFG
|
||
#endif
|
||
|
||
|
||
/* Functions defined in df-core.c. */
|
||
|
||
extern void df_add_problem (struct df_problem *);
|
||
extern int df_set_flags (int);
|
||
extern int df_clear_flags (int);
|
||
extern void df_set_blocks (bitmap);
|
||
extern void df_remove_problem (struct dataflow *);
|
||
extern void df_finish_pass (bool);
|
||
extern void df_analyze_problem (struct dataflow *, bitmap, int *, int);
|
||
extern void df_analyze (void);
|
||
extern int df_get_n_blocks (enum df_flow_dir);
|
||
extern int *df_get_postorder (enum df_flow_dir);
|
||
extern void df_simple_dataflow (enum df_flow_dir, df_init_function,
|
||
df_confluence_function_0, df_confluence_function_n,
|
||
df_transfer_function, bitmap, int *, int);
|
||
extern void df_mark_solutions_dirty (void);
|
||
extern bool df_get_bb_dirty (basic_block);
|
||
extern void df_set_bb_dirty (basic_block);
|
||
extern void df_set_bb_dirty_nonlr (basic_block);
|
||
extern void df_compact_blocks (void);
|
||
extern void df_bb_replace (int, basic_block);
|
||
extern void df_bb_delete (int);
|
||
extern void df_verify (void);
|
||
#ifdef DF_DEBUG_CFG
|
||
extern void df_check_cfg_clean (void);
|
||
#endif
|
||
extern df_ref df_bb_regno_first_def_find (basic_block, unsigned int);
|
||
extern df_ref df_bb_regno_last_def_find (basic_block, unsigned int);
|
||
extern df_ref df_find_def (rtx, rtx);
|
||
extern bool df_reg_defined (rtx, rtx);
|
||
extern df_ref df_find_use (rtx, rtx);
|
||
extern bool df_reg_used (rtx, rtx);
|
||
extern void df_worklist_dataflow (struct dataflow *,bitmap, int *, int);
|
||
extern void df_print_regset (FILE *file, bitmap r);
|
||
extern void df_print_word_regset (FILE *file, bitmap r);
|
||
extern void df_dump (FILE *);
|
||
extern void df_dump_region (FILE *);
|
||
extern void df_dump_start (FILE *);
|
||
extern void df_dump_top (basic_block, FILE *);
|
||
extern void df_dump_bottom (basic_block, FILE *);
|
||
extern void df_refs_chain_dump (df_ref *, bool, FILE *);
|
||
extern void df_regs_chain_dump (df_ref, FILE *);
|
||
extern void df_insn_debug (rtx, bool, FILE *);
|
||
extern void df_insn_debug_regno (rtx, FILE *);
|
||
extern void df_regno_debug (unsigned int, FILE *);
|
||
extern void df_ref_debug (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 (df_ref);
|
||
extern void debug_df_chain (struct df_link *);
|
||
|
||
/* Functions defined in df-problems.c. */
|
||
|
||
extern struct df_link *df_chain_create (df_ref, df_ref);
|
||
extern void df_chain_unlink (df_ref);
|
||
extern void df_chain_copy (df_ref, struct df_link *);
|
||
extern bitmap df_get_live_in (basic_block);
|
||
extern bitmap df_get_live_out (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 void df_rd_add_problem (void);
|
||
extern void df_rd_simulate_artificial_defs_at_top (basic_block, bitmap);
|
||
extern void df_rd_simulate_one_insn (basic_block, rtx, bitmap);
|
||
extern void df_lr_add_problem (void);
|
||
extern void df_lr_verify_transfer_functions (void);
|
||
extern void df_live_verify_transfer_functions (void);
|
||
extern void df_live_add_problem (void);
|
||
extern void df_live_set_all_dirty (void);
|
||
extern void df_chain_add_problem (unsigned int);
|
||
extern void df_word_lr_add_problem (void);
|
||
extern bool df_word_lr_mark_ref (df_ref, bool, bitmap);
|
||
extern bool df_word_lr_simulate_defs (rtx, bitmap);
|
||
extern void df_word_lr_simulate_uses (rtx, bitmap);
|
||
extern void df_word_lr_simulate_artificial_refs_at_top (basic_block, bitmap);
|
||
extern void df_word_lr_simulate_artificial_refs_at_end (basic_block, bitmap);
|
||
extern void df_note_add_problem (void);
|
||
extern void df_md_add_problem (void);
|
||
extern void df_md_simulate_artificial_defs_at_top (basic_block, bitmap);
|
||
extern void df_md_simulate_one_insn (basic_block, rtx, bitmap);
|
||
extern void df_simulate_find_noclobber_defs (rtx, bitmap);
|
||
extern void df_simulate_find_defs (rtx, bitmap);
|
||
extern void df_simulate_defs (rtx, bitmap);
|
||
extern void df_simulate_uses (rtx, bitmap);
|
||
extern void df_simulate_initialize_backwards (basic_block, bitmap);
|
||
extern void df_simulate_one_insn_backwards (basic_block, rtx, bitmap);
|
||
extern void df_simulate_finalize_backwards (basic_block, bitmap);
|
||
extern void df_simulate_initialize_forwards (basic_block, bitmap);
|
||
extern void df_simulate_one_insn_forwards (basic_block, rtx, bitmap);
|
||
|
||
/* Functions defined in df-scan.c. */
|
||
|
||
extern void df_scan_alloc (bitmap);
|
||
extern void df_scan_add_problem (void);
|
||
extern void df_grow_reg_info (void);
|
||
extern void df_grow_insn_info (void);
|
||
extern void df_scan_blocks (void);
|
||
extern df_ref df_ref_create (rtx, rtx *, rtx,basic_block,
|
||
enum df_ref_type, int ref_flags,
|
||
int, int, enum machine_mode);
|
||
extern void df_ref_remove (df_ref);
|
||
extern struct df_insn_info * df_insn_create_insn_record (rtx);
|
||
extern void df_insn_delete (basic_block, unsigned int);
|
||
extern void df_bb_refs_record (int, bool);
|
||
extern bool df_insn_rescan (rtx);
|
||
extern bool df_insn_rescan_debug_internal (rtx);
|
||
extern void df_insn_rescan_all (void);
|
||
extern void df_process_deferred_rescans (void);
|
||
extern void df_recompute_luids (basic_block);
|
||
extern void df_insn_change_bb (rtx, basic_block);
|
||
extern void df_maybe_reorganize_use_refs (enum df_ref_order);
|
||
extern void df_maybe_reorganize_def_refs (enum df_ref_order);
|
||
extern void df_ref_change_reg_with_loc (int, int, rtx);
|
||
extern void df_notes_rescan (rtx);
|
||
extern void df_hard_reg_init (void);
|
||
extern void df_update_entry_block_defs (void);
|
||
extern void df_update_exit_block_uses (void);
|
||
extern void df_update_entry_exit_and_calls (void);
|
||
extern bool df_hard_reg_used_p (unsigned int);
|
||
extern unsigned int df_hard_reg_used_count (unsigned int);
|
||
extern bool df_regs_ever_live_p (unsigned int);
|
||
extern void df_set_regs_ever_live (unsigned int, bool);
|
||
extern void df_compute_regs_ever_live (bool);
|
||
extern bool df_read_modify_subreg_p (rtx);
|
||
extern void df_scan_verify (void);
|
||
|
||
/* Get basic block info. */
|
||
|
||
static inline struct df_scan_bb_info *
|
||
df_scan_get_bb_info (unsigned int index)
|
||
{
|
||
if (index < df_scan->block_info_size)
|
||
return &((struct df_scan_bb_info *) df_scan->block_info)[index];
|
||
else
|
||
return NULL;
|
||
}
|
||
|
||
static inline struct df_rd_bb_info *
|
||
df_rd_get_bb_info (unsigned int index)
|
||
{
|
||
if (index < df_rd->block_info_size)
|
||
return &((struct df_rd_bb_info *) df_rd->block_info)[index];
|
||
else
|
||
return NULL;
|
||
}
|
||
|
||
static inline struct df_lr_bb_info *
|
||
df_lr_get_bb_info (unsigned int index)
|
||
{
|
||
if (index < df_lr->block_info_size)
|
||
return &((struct df_lr_bb_info *) df_lr->block_info)[index];
|
||
else
|
||
return NULL;
|
||
}
|
||
|
||
static inline struct df_md_bb_info *
|
||
df_md_get_bb_info (unsigned int index)
|
||
{
|
||
if (index < df_md->block_info_size)
|
||
return &((struct df_md_bb_info *) df_md->block_info)[index];
|
||
else
|
||
return NULL;
|
||
}
|
||
|
||
static inline struct df_live_bb_info *
|
||
df_live_get_bb_info (unsigned int index)
|
||
{
|
||
if (index < df_live->block_info_size)
|
||
return &((struct df_live_bb_info *) df_live->block_info)[index];
|
||
else
|
||
return NULL;
|
||
}
|
||
|
||
static inline struct df_word_lr_bb_info *
|
||
df_word_lr_get_bb_info (unsigned int index)
|
||
{
|
||
if (index < df_word_lr->block_info_size)
|
||
return &((struct df_word_lr_bb_info *) df_word_lr->block_info)[index];
|
||
else
|
||
return NULL;
|
||
}
|
||
|
||
/* Get the artificial defs for a basic block. */
|
||
|
||
static inline df_ref *
|
||
df_get_artificial_defs (unsigned int bb_index)
|
||
{
|
||
return df_scan_get_bb_info (bb_index)->artificial_defs;
|
||
}
|
||
|
||
|
||
/* Get the artificial uses for a basic block. */
|
||
|
||
static inline df_ref *
|
||
df_get_artificial_uses (unsigned int bb_index)
|
||
{
|
||
return df_scan_get_bb_info (bb_index)->artificial_uses;
|
||
}
|
||
|
||
|
||
/* 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 (df_ref, struct web_entry *,
|
||
unsigned int *used, struct web_entry *,
|
||
bool (*fun) (struct web_entry *, struct web_entry *));
|
||
|
||
#endif /* GCC_DF_H */
|