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f80326884c
* dominance.c: New file. * Makefile.in (OBJS): Add dominance.o. * flow.c (compute_flow_dominators): Remove. (compute_immediate_dominators): Remove. (compute_immediate_postdominators): Remove. * basic-block.h: Remove their prototypes. (calculate_dominance_info): Add prototype. * dce.c (eliminate_dead_code): Change calls to above functions. Don't compute dominators but only immediate dominators. * flow.c (flow_loops_find): Change callers. * gcse.c (compute_code_hoist_data): Likewise. * haifa-sched.c (schedule_insns): Likewise. * ifcvt.c (if_convert): Likewise. * ssa.c (convert_to_ssa): Likewise, and only compute immediate dominators. From-SVN: r37449
618 lines
18 KiB
C
618 lines
18 KiB
C
/* Dead-code elimination pass for the GNU compiler.
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Copyright (C) 2000 Free Software Foundation, Inc.
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Written by Jeffrey D. Oldham <oldham@codesourcery.com>.
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This file is part of GNU CC.
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GNU CC is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 2, or (at your option) any
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later version.
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GNU CC is distributed in the hope that it will be useful, but WITHOUT
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ANY 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 GNU CC; see the file COPYING. If not, write to the Free
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Software Foundation, 59 Temple Place - Suite 330, Boston, MA
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02111-1307, USA. */
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/* Dead-code elimination is the removal of instructions which have no
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impact on the program's output. "Dead instructions" have no impact
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on the program's output, while "necessary instructions" may have
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impact on the output.
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The algorithm consists of three phases:
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1) marking as necessary all instructions known to be necessary,
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e.g., writing a value to memory,
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2) propagating necessary instructions, e.g., the instructions
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giving values to operands in necessary instructions, and
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3) removing dead instructions (except replacing dead conditionals
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with unconditional jumps).
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Side Effects:
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The last step can require adding labels, deleting insns, and
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modifying basic block structures. Some conditional jumps may be
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converted to unconditional jumps so the control-flow graph may be
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out-of-date.
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Edges from some infinite loops to the exit block can be added to
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the control-flow graph.
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It Does Not Perform:
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We decided to not simultaneously perform jump optimization and dead
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loop removal during dead-code elimination. Thus, all jump
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instructions originally present remain after dead-code elimination
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but 1) unnecessary conditional jump instructions are changed to
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unconditional jump instructions and 2) all unconditional jump
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instructions remain.
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Assumptions:
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1) SSA has been performed.
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2) The basic block and control-flow graph structures are accurate.
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3) The flow graph permits constructing an edge_list.
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4) note rtxes should be saved.
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Unfinished:
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When replacing unnecessary conditional jumps with unconditional
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jumps, the control-flow graph is not updated. It should be.
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References:
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Building an Optimizing Compiler
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Robert Morgan
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Butterworth-Heinemann, 1998
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Section 8.9
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*/
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#include "config.h"
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#include "system.h"
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#include "rtl.h"
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#include "hard-reg-set.h"
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#include "basic-block.h"
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#include "ssa.h"
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#include "insn-config.h"
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#include "recog.h"
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#include "output.h"
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/* A map from blocks to the edges on which they are control dependent. */
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typedef struct {
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/* An dynamically allocated array. The Nth element corresponds to
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the block with index N + 2. The Ith bit in the bitmap is set if
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that block is dependent on the Ith edge. */
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bitmap *data;
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/* The number of elements in the array. */
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int length;
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} control_dependent_block_to_edge_map_s, *control_dependent_block_to_edge_map;
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/* Local function prototypes. */
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static control_dependent_block_to_edge_map control_dependent_block_to_edge_map_create
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PARAMS((size_t num_basic_blocks));
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static void set_control_dependent_block_to_edge_map_bit
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PARAMS ((control_dependent_block_to_edge_map c, basic_block bb,
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int edge_index));
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static void control_dependent_block_to_edge_map_free
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PARAMS ((control_dependent_block_to_edge_map c));
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static void find_all_control_dependences
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PARAMS ((struct edge_list *el, int *pdom,
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control_dependent_block_to_edge_map cdbte));
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static void find_control_dependence
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PARAMS ((struct edge_list *el, int edge_index, int *pdom,
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control_dependent_block_to_edge_map cdbte));
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static basic_block find_pdom
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PARAMS ((int *pdom, basic_block block));
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static int inherently_necessary_register_1
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PARAMS ((rtx *current_rtx, void *data));
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static int inherently_necessary_register
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PARAMS ((rtx current_rtx));
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static int find_inherently_necessary
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PARAMS ((rtx current_rtx));
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static int propagate_necessity_through_operand
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PARAMS ((rtx *current_rtx, void *data));
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/* Unnecessary insns are indicated using insns' in_struct bit. */
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/* Indicate INSN is dead-code; returns nothing. */
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#define KILL_INSN(INSN) INSN_DEAD_CODE_P(INSN) = 1
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/* Indicate INSN is necessary, i.e., not dead-code; returns nothing. */
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#define RESURRECT_INSN(INSN) INSN_DEAD_CODE_P(INSN) = 0
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/* Return nonzero if INSN is unnecessary. */
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#define UNNECESSARY_P(INSN) INSN_DEAD_CODE_P(INSN)
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static void mark_all_insn_unnecessary
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PARAMS ((void));
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/* Execute CODE with free variable INSN for all unnecessary insns in
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an unspecified order, producing no output. */
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#define EXECUTE_IF_UNNECESSARY(INSN, CODE) \
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{ \
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rtx INSN; \
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\
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for (INSN = get_insns (); INSN != NULL_RTX; INSN = NEXT_INSN (INSN)) \
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if (INSN_DEAD_CODE_P (INSN)) { \
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CODE; \
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} \
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}
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/* Find the label beginning block BB. */
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static rtx find_block_label
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PARAMS ((basic_block bb));
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/* Remove INSN, updating its basic block structure. */
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static void delete_insn_bb
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PARAMS ((rtx insn));
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/* Recording which blocks are control dependent on which edges. We
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expect each block to be control dependent on very few edges so we
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use a bitmap for each block recording its edges. An array holds
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the bitmap. Its position 0 entry holds the bitmap for block
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INVALID_BLOCK+1 so that all blocks, including the entry and exit
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blocks can participate in the data structure. */
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/* Create a control_dependent_block_to_edge_map, given the number
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NUM_BASIC_BLOCKS of non-entry, non-exit basic blocks, e.g.,
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n_basic_blocks. This memory must be released using
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control_dependent_block_to_edge_map_free (). */
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static control_dependent_block_to_edge_map
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control_dependent_block_to_edge_map_create (num_basic_blocks)
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size_t num_basic_blocks;
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{
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int i;
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control_dependent_block_to_edge_map c
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= xmalloc (sizeof (control_dependent_block_to_edge_map_s));
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c->length = num_basic_blocks - (INVALID_BLOCK+1);
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c->data = xmalloc ((size_t) c->length*sizeof (bitmap));
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for (i = 0; i < c->length; ++i)
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c->data[i] = BITMAP_XMALLOC ();
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return c;
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}
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/* Indicate block BB is control dependent on an edge with index
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EDGE_INDEX in the mapping C of blocks to edges on which they are
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control-dependent. */
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static void
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set_control_dependent_block_to_edge_map_bit (c, bb, edge_index)
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control_dependent_block_to_edge_map c;
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basic_block bb;
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int edge_index;
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{
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if (bb->index - (INVALID_BLOCK+1) >= c->length)
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abort ();
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bitmap_set_bit (c->data[bb->index - (INVALID_BLOCK+1)],
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edge_index);
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}
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/* Execute CODE for each edge (given number EDGE_NUMBER within the
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CODE) for which the block containing INSN is control dependent,
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returning no output. CDBTE is the mapping of blocks to edges on
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which they are control-dependent. */
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#define EXECUTE_IF_CONTROL_DEPENDENT(CDBTE, INSN, EDGE_NUMBER, CODE) \
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EXECUTE_IF_SET_IN_BITMAP \
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(CDBTE->data[BLOCK_NUM (INSN) - (INVALID_BLOCK+1)], 0, \
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EDGE_NUMBER, CODE)
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/* Destroy a control_dependent_block_to_edge_map C. */
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static void
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control_dependent_block_to_edge_map_free (c)
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control_dependent_block_to_edge_map c;
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{
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int i;
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for (i = 0; i < c->length; ++i)
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BITMAP_XFREE (c->data[i]);
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free ((PTR) c);
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}
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/* Record all blocks' control dependences on all edges in the edge
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list EL, ala Morgan, Section 3.6. The mapping PDOM of blocks to
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their postdominators are used, and results are stored in CDBTE,
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which should be empty. */
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static void
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find_all_control_dependences (el, pdom, cdbte)
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struct edge_list *el;
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int *pdom;
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control_dependent_block_to_edge_map cdbte;
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{
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int i;
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for (i = 0; i < NUM_EDGES (el); ++i)
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find_control_dependence (el, i, pdom, cdbte);
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}
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/* Determine all blocks' control dependences on the given edge with
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edge_list EL index EDGE_INDEX, ala Morgan, Section 3.6. The
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mapping PDOM of blocks to their postdominators are used, and
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results are stored in CDBTE, which is assumed to be initialized
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with zeros in each (block b', edge) position. */
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static void
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find_control_dependence (el, edge_index, pdom, cdbte)
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struct edge_list *el;
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int edge_index;
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int *pdom;
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control_dependent_block_to_edge_map cdbte;
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{
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basic_block current_block;
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basic_block ending_block;
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if (INDEX_EDGE_PRED_BB (el, edge_index) == EXIT_BLOCK_PTR)
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abort ();
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ending_block =
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(INDEX_EDGE_PRED_BB (el, edge_index) == ENTRY_BLOCK_PTR)
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? BASIC_BLOCK (0)
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: find_pdom (pdom, INDEX_EDGE_PRED_BB (el, edge_index));
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for (current_block = INDEX_EDGE_SUCC_BB (el, edge_index);
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current_block != ending_block && current_block != EXIT_BLOCK_PTR;
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current_block = find_pdom (pdom, current_block))
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{
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set_control_dependent_block_to_edge_map_bit (cdbte,
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current_block,
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edge_index);
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}
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}
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/* Find the immediate postdominator PDOM of the specified basic block
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BLOCK. This function is necessary because some blocks have
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negative numbers. */
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static basic_block
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find_pdom (pdom, block)
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int *pdom;
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basic_block block;
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{
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if (!block)
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abort ();
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if (block->index == INVALID_BLOCK)
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abort ();
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if (block == ENTRY_BLOCK_PTR)
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return BASIC_BLOCK (0);
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else if (block == EXIT_BLOCK_PTR || pdom[block->index] == EXIT_BLOCK)
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return EXIT_BLOCK_PTR;
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else
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return BASIC_BLOCK (pdom[block->index]);
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}
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/* Determine if the given CURRENT_RTX uses a hard register not
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converted to SSA. Returns nonzero only if it uses such a hard
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register. DATA is not used.
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The program counter (PC) is not considered inherently necessary
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since code should be position-independent and thus not depend on
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particular PC values. */
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static int
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inherently_necessary_register_1 (current_rtx, data)
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rtx *current_rtx;
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void *data ATTRIBUTE_UNUSED;
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{
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rtx x = *current_rtx;
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if (x == NULL_RTX)
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return 0;
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switch (GET_CODE (x))
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{
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case CLOBBER:
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/* Do not traverse the rest of the clobber. */
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return -1;
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break;
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case PC:
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return 0;
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break;
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case REG:
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if (CONVERT_REGISTER_TO_SSA_P (REGNO (x)) || x == pc_rtx)
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return 0;
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else
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return !0;
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break;
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default:
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return 0;
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break;
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}
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}
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/* Return nonzero if the insn CURRENT_RTX is inherently necessary. */
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static int
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inherently_necessary_register (current_rtx)
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rtx current_rtx;
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{
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return for_each_rtx (¤t_rtx,
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&inherently_necessary_register_1, NULL);
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}
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/* Mark X as inherently necessary if appropriate. For example,
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function calls and storing values into memory are inherently
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necessary. This function is to be used with for_each_rtx ().
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Return nonzero iff inherently necessary. */
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static int
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find_inherently_necessary (x)
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rtx x;
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{
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rtx pattern;
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if (x == NULL_RTX)
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return 0;
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else if (inherently_necessary_register (x))
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return !0;
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else
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switch (GET_CODE (x))
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{
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case CALL_INSN:
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case CODE_LABEL:
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case NOTE:
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case BARRIER:
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return !0;
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break;
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case JUMP_INSN:
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return JUMP_TABLE_DATA_P (x) || computed_jump_p (x) != 0;
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break;
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case INSN:
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pattern = PATTERN (x);
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switch (GET_CODE (pattern))
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{
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case SET:
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case PRE_DEC:
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case PRE_INC:
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case POST_DEC:
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case POST_INC:
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return GET_CODE (SET_DEST (pattern)) == MEM;
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case CALL:
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case RETURN:
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case USE:
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case CLOBBER:
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return !0;
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break;
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case ASM_INPUT:
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/* We treat assembler instructions as inherently
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necessary, and we hope that its operands do not need to
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be propagated. */
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return !0;
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break;
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default:
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return 0;
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}
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default:
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/* Found an impossible insn type. */
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abort();
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break;
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}
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}
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/* Propagate necessity through REG and SUBREG operands of CURRENT_RTX.
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This function is called with for_each_rtx () on necessary
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instructions. The DATA must be a varray of unprocessed
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instructions. */
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static int
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propagate_necessity_through_operand (current_rtx, data)
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rtx *current_rtx;
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void *data;
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{
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rtx x = *current_rtx;
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varray_type *unprocessed_instructions = (varray_type *) data;
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if (x == NULL_RTX)
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return 0;
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switch ( GET_CODE (x))
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{
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case REG:
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if (CONVERT_REGISTER_TO_SSA_P (REGNO (x)))
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{
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rtx insn = VARRAY_RTX (ssa_definition, REGNO (x));
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if (insn != NULL_RTX && UNNECESSARY_P (insn))
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{
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RESURRECT_INSN (insn);
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VARRAY_PUSH_RTX (*unprocessed_instructions, insn);
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}
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}
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return 0;
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default:
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return 0;
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}
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}
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/* Indicate all insns initially assumed to be unnecessary. */
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static void
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mark_all_insn_unnecessary ()
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{
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rtx insn;
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for (insn = get_insns (); insn != NULL_RTX; insn = NEXT_INSN (insn))
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KILL_INSN (insn);
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}
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/* Find the label beginning block BB, adding one if necessary. */
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static rtx
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find_block_label (bb)
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basic_block bb;
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{
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rtx insn = bb->head;
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if (LABEL_P (insn))
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return insn;
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else
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{
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rtx new_label = emit_label_before (gen_label_rtx (), insn);
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if (insn == bb->head)
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bb->head = new_label;
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return new_label;
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}
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}
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/* Remove INSN, updating its basic block structure. */
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static void
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delete_insn_bb (insn)
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rtx insn;
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{
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basic_block bb;
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if (!insn)
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abort ();
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bb = BLOCK_FOR_INSN (insn);
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if (!bb)
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abort ();
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if (bb->head == bb->end)
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{
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/* Delete the insn by converting it to a note. */
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PUT_CODE (insn, NOTE);
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NOTE_LINE_NUMBER (insn) = NOTE_INSN_DELETED;
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return;
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}
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else if (insn == bb->head)
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bb->head = NEXT_INSN (insn);
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else if (insn == bb->end)
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bb->end = PREV_INSN (insn);
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delete_insn (insn);
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}
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/* Perform the dead-code elimination. */
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void
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eliminate_dead_code ()
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{
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int i;
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rtx insn;
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/* Necessary instructions with operands to explore. */
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varray_type unprocessed_instructions;
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/* Map element (b,e) is nonzero if the block is control dependent on
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edge. "cdbte" abbreviates control dependent block to edge. */
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control_dependent_block_to_edge_map cdbte;
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/* Element I is the immediate postdominator of block I. */
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int *pdom;
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struct edge_list *el;
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int max_insn_uid = get_max_uid ();
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/* Initialize the data structures. */
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mark_all_insn_unnecessary ();
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VARRAY_RTX_INIT (unprocessed_instructions, 64,
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"unprocessed instructions");
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cdbte = control_dependent_block_to_edge_map_create (n_basic_blocks);
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/* Prepare for use of BLOCK_NUM (). */
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connect_infinite_loops_to_exit ();
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/* Be careful not to clear the added edges. */
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compute_bb_for_insn (max_insn_uid);
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/* Compute control dependence. */
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||
pdom = (int *) xmalloc (n_basic_blocks * sizeof (int));
|
||
for (i = 0; i < n_basic_blocks; ++i)
|
||
pdom[i] = INVALID_BLOCK;
|
||
calculate_dominance_info (pdom, NULL, CDI_POST_DOMINATORS);
|
||
/* Assume there is a path from each node to the exit block. */
|
||
for (i = 0; i < n_basic_blocks; ++i)
|
||
if (pdom[i] == INVALID_BLOCK)
|
||
pdom[i] = EXIT_BLOCK;
|
||
el = create_edge_list();
|
||
find_all_control_dependences (el, pdom, cdbte);
|
||
|
||
/* Find inherently necessary instructions. */
|
||
for (insn = get_insns (); insn != NULL_RTX; insn = NEXT_INSN (insn))
|
||
if (find_inherently_necessary (insn))
|
||
{
|
||
RESURRECT_INSN (insn);
|
||
VARRAY_PUSH_RTX (unprocessed_instructions, insn);
|
||
}
|
||
|
||
/* Propagate necessity using the operands of necessary instructions. */
|
||
while (VARRAY_ACTIVE_SIZE (unprocessed_instructions) > 0)
|
||
{
|
||
rtx current_instruction;
|
||
int edge_number;
|
||
|
||
current_instruction = VARRAY_TOP_RTX (unprocessed_instructions);
|
||
VARRAY_POP (unprocessed_instructions);
|
||
|
||
/* Make corresponding control dependent edges necessary. */
|
||
/* Assume the only JUMP_INSN is the block's last insn. It appears
|
||
that the last instruction of the program need not be a
|
||
JUMP_INSN. */
|
||
|
||
if (INSN_P (current_instruction)
|
||
&& !JUMP_TABLE_DATA_P (current_instruction))
|
||
{
|
||
/* Notes and labels contain no interesting operands. */
|
||
EXECUTE_IF_CONTROL_DEPENDENT
|
||
(cdbte, current_instruction, edge_number,
|
||
{
|
||
rtx jump_insn = (INDEX_EDGE_PRED_BB (el, edge_number))->end;
|
||
if (GET_CODE (jump_insn) == JUMP_INSN &&
|
||
UNNECESSARY_P (jump_insn)) {
|
||
RESURRECT_INSN (jump_insn);
|
||
VARRAY_PUSH_RTX (unprocessed_instructions, jump_insn);
|
||
}
|
||
});
|
||
|
||
/* Propagate through the operands. */
|
||
for_each_rtx (¤t_instruction,
|
||
&propagate_necessity_through_operand,
|
||
(PTR) &unprocessed_instructions);
|
||
|
||
}
|
||
}
|
||
|
||
/* Remove the unnecessary instructions. */
|
||
EXECUTE_IF_UNNECESSARY (insn,
|
||
{
|
||
if (any_condjump_p (insn))
|
||
{
|
||
/* Convert unnecessary conditional insn to an unconditional
|
||
jump to immediate postdominator block. */
|
||
rtx old_label = JUMP_LABEL (insn);
|
||
int pdom_block_number =
|
||
find_pdom (pdom, BLOCK_FOR_INSN (insn))->index;
|
||
|
||
/* Prevent the conditional jump's label from being deleted so
|
||
we do not have to modify the basic block structure. */
|
||
++LABEL_NUSES (old_label);
|
||
|
||
if (pdom_block_number != EXIT_BLOCK
|
||
&& pdom_block_number != INVALID_BLOCK)
|
||
{
|
||
rtx lbl = find_block_label (BASIC_BLOCK (pdom_block_number));
|
||
rtx new_jump = emit_jump_insn_before (gen_jump (lbl), insn);
|
||
|
||
/* Let jump know that label is in use. */
|
||
JUMP_LABEL (new_jump) = lbl;
|
||
++LABEL_NUSES (lbl);
|
||
|
||
delete_insn_bb (insn);
|
||
|
||
/* A conditional branch is unnecessary if and only if any
|
||
block control-dependent on it is unnecessary. Thus,
|
||
any phi nodes in these unnecessary blocks are also
|
||
removed and these nodes need not be updated. */
|
||
|
||
/* A barrier must follow any unconditional jump. Barriers
|
||
are not in basic blocks so this must occur after
|
||
deleting the conditional jump. */
|
||
emit_barrier_after (new_jump);
|
||
}
|
||
else
|
||
/* The block drops off the end of the function and the
|
||
ending conditional jump is not needed. */
|
||
delete_insn_bb (insn);
|
||
}
|
||
else if (!JUMP_P (insn))
|
||
delete_insn_bb (insn);
|
||
});
|
||
|
||
/* Release allocated memory. */
|
||
for (insn = get_insns (); insn != NULL_RTX; insn = NEXT_INSN (insn))
|
||
RESURRECT_INSN (insn);
|
||
if (VARRAY_ACTIVE_SIZE (unprocessed_instructions) != 0)
|
||
abort ();
|
||
VARRAY_FREE (unprocessed_instructions);
|
||
control_dependent_block_to_edge_map_free (cdbte);
|
||
free ((PTR) pdom);
|
||
free_edge_list (el);
|
||
}
|