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642 lines
19 KiB
C
642 lines
19 KiB
C
/* Perform doloop optimizations
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Copyright (C) 2004, 2005, 2006 Free Software Foundation, Inc.
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Based on code by Michael P. Hayes (m.hayes@elec.canterbury.ac.nz)
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 2, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING. If not, write to the Free
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Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
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02110-1301, USA. */
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#include "config.h"
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#include "system.h"
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#include "coretypes.h"
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#include "tm.h"
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#include "rtl.h"
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#include "flags.h"
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#include "expr.h"
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#include "hard-reg-set.h"
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#include "basic-block.h"
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#include "toplev.h"
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#include "tm_p.h"
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#include "cfgloop.h"
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#include "output.h"
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#include "params.h"
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#include "target.h"
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/* This module is used to modify loops with a determinable number of
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iterations to use special low-overhead looping instructions.
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It first validates whether the loop is well behaved and has a
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determinable number of iterations (either at compile or run-time).
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It then modifies the loop to use a low-overhead looping pattern as
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follows:
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1. A pseudo register is allocated as the loop iteration counter.
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2. The number of loop iterations is calculated and is stored
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in the loop counter.
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3. At the end of the loop, the jump insn is replaced by the
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doloop_end pattern. The compare must remain because it might be
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used elsewhere. If the loop-variable or condition register are
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used elsewhere, they will be eliminated by flow.
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4. An optional doloop_begin pattern is inserted at the top of the
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loop.
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TODO The optimization should only performed when either the biv used for exit
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condition is unused at all except for the exit test, or if we do not have to
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change its value, since otherwise we have to add a new induction variable,
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which usually will not pay up (unless the cost of the doloop pattern is
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somehow extremely lower than the cost of compare & jump, or unless the bct
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register cannot be used for anything else but doloop -- ??? detect these
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cases). */
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#ifdef HAVE_doloop_end
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/* Return the loop termination condition for PATTERN or zero
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if it is not a decrement and branch jump insn. */
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rtx
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doloop_condition_get (rtx pattern)
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{
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rtx cmp;
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rtx inc;
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rtx reg;
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rtx inc_src;
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rtx condition;
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/* The canonical doloop pattern we expect is:
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(parallel [(set (pc) (if_then_else (condition)
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(label_ref (label))
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(pc)))
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(set (reg) (plus (reg) (const_int -1)))
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(additional clobbers and uses)])
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Some targets (IA-64) wrap the set of the loop counter in
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an if_then_else too.
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In summary, the branch must be the first entry of the
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parallel (also required by jump.c), and the second
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entry of the parallel must be a set of the loop counter
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register. */
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if (GET_CODE (pattern) != PARALLEL)
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return 0;
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cmp = XVECEXP (pattern, 0, 0);
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inc = XVECEXP (pattern, 0, 1);
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/* Check for (set (reg) (something)). */
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if (GET_CODE (inc) != SET)
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return 0;
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reg = SET_DEST (inc);
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if (! REG_P (reg))
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return 0;
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/* Check if something = (plus (reg) (const_int -1)).
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On IA-64, this decrement is wrapped in an if_then_else. */
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inc_src = SET_SRC (inc);
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if (GET_CODE (inc_src) == IF_THEN_ELSE)
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inc_src = XEXP (inc_src, 1);
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if (GET_CODE (inc_src) != PLUS
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|| XEXP (inc_src, 0) != reg
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|| XEXP (inc_src, 1) != constm1_rtx)
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return 0;
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/* Check for (set (pc) (if_then_else (condition)
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(label_ref (label))
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(pc))). */
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if (GET_CODE (cmp) != SET
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|| SET_DEST (cmp) != pc_rtx
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|| GET_CODE (SET_SRC (cmp)) != IF_THEN_ELSE
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|| GET_CODE (XEXP (SET_SRC (cmp), 1)) != LABEL_REF
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|| XEXP (SET_SRC (cmp), 2) != pc_rtx)
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return 0;
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/* Extract loop termination condition. */
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condition = XEXP (SET_SRC (cmp), 0);
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/* We expect a GE or NE comparison with 0 or 1. */
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if ((GET_CODE (condition) != GE
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&& GET_CODE (condition) != NE)
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|| (XEXP (condition, 1) != const0_rtx
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&& XEXP (condition, 1) != const1_rtx))
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return 0;
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if ((XEXP (condition, 0) == reg)
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|| (GET_CODE (XEXP (condition, 0)) == PLUS
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&& XEXP (XEXP (condition, 0), 0) == reg))
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return condition;
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/* ??? If a machine uses a funny comparison, we could return a
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canonicalized form here. */
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return 0;
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}
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/* Return nonzero if the loop specified by LOOP is suitable for
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the use of special low-overhead looping instructions. DESC
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describes the number of iterations of the loop. */
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static bool
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doloop_valid_p (struct loop *loop, struct niter_desc *desc)
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{
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basic_block *body = get_loop_body (loop), bb;
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rtx insn;
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unsigned i;
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bool result = true;
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/* Check for loops that may not terminate under special conditions. */
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if (!desc->simple_p
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|| desc->assumptions
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|| desc->infinite)
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{
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/* There are some cases that would require a special attention.
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For example if the comparison is LEU and the comparison value
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is UINT_MAX then the loop will not terminate. Similarly, if the
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comparison code is GEU and the comparison value is 0, the
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loop will not terminate.
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If the absolute increment is not 1, the loop can be infinite
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even with LTU/GTU, e.g. for (i = 3; i > 0; i -= 2)
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??? We could compute these conditions at run-time and have a
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additional jump around the loop to ensure an infinite loop.
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However, it is very unlikely that this is the intended
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behavior of the loop and checking for these rare boundary
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conditions would pessimize all other code.
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If the loop is executed only a few times an extra check to
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restart the loop could use up most of the benefits of using a
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count register loop. Note however, that normally, this
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restart branch would never execute, so it could be predicted
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well by the CPU. We should generate the pessimistic code by
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default, and have an option, e.g. -funsafe-loops that would
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enable count-register loops in this case. */
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if (dump_file)
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fprintf (dump_file, "Doloop: Possible infinite iteration case.\n");
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result = false;
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goto cleanup;
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}
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for (i = 0; i < loop->num_nodes; i++)
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{
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bb = body[i];
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for (insn = BB_HEAD (bb);
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insn != NEXT_INSN (BB_END (bb));
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insn = NEXT_INSN (insn))
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{
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/* Different targets have different necessities for low-overhead
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looping. Call the back end for each instruction within the loop
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to let it decide whether the insn prohibits a low-overhead loop.
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It will then return the cause for it to emit to the dump file. */
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const char * invalid = targetm.invalid_within_doloop (insn);
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if (invalid)
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{
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if (dump_file)
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fprintf (dump_file, "Doloop: %s\n", invalid);
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result = false;
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goto cleanup;
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}
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}
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}
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result = true;
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cleanup:
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free (body);
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return result;
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}
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/* Adds test of COND jumping to DEST on edge *E and set *E to the new fallthru
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edge. If the condition is always false, do not do anything. If it is always
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true, redirect E to DEST and return false. In all other cases, true is
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returned. */
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static bool
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add_test (rtx cond, edge *e, basic_block dest)
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{
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rtx seq, jump, label;
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enum machine_mode mode;
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rtx op0 = XEXP (cond, 0), op1 = XEXP (cond, 1);
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enum rtx_code code = GET_CODE (cond);
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basic_block bb;
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mode = GET_MODE (XEXP (cond, 0));
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if (mode == VOIDmode)
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mode = GET_MODE (XEXP (cond, 1));
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start_sequence ();
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op0 = force_operand (op0, NULL_RTX);
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op1 = force_operand (op1, NULL_RTX);
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label = block_label (dest);
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do_compare_rtx_and_jump (op0, op1, code, 0, mode, NULL_RTX, NULL_RTX, label);
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jump = get_last_insn ();
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if (!JUMP_P (jump))
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{
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/* The condition is always false and the jump was optimized out. */
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end_sequence ();
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return true;
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}
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seq = get_insns ();
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end_sequence ();
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bb = loop_split_edge_with (*e, seq);
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*e = single_succ_edge (bb);
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if (any_uncondjump_p (jump))
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{
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/* The condition is always true. */
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delete_insn (jump);
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redirect_edge_and_branch_force (*e, dest);
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return false;
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}
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JUMP_LABEL (jump) = label;
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/* The jump is supposed to handle an unlikely special case. */
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REG_NOTES (jump)
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= gen_rtx_EXPR_LIST (REG_BR_PROB,
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const0_rtx, REG_NOTES (jump));
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LABEL_NUSES (label)++;
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make_edge (bb, dest, (*e)->flags & ~EDGE_FALLTHRU);
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return true;
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}
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/* Modify the loop to use the low-overhead looping insn where LOOP
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describes the loop, DESC describes the number of iterations of the
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loop, and DOLOOP_INSN is the low-overhead looping insn to emit at the
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end of the loop. CONDITION is the condition separated from the
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DOLOOP_SEQ. COUNT is the number of iterations of the LOOP. */
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static void
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doloop_modify (struct loop *loop, struct niter_desc *desc,
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rtx doloop_seq, rtx condition, rtx count)
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{
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rtx counter_reg;
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rtx tmp, noloop = NULL_RTX;
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rtx sequence;
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rtx jump_insn;
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rtx jump_label;
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int nonneg = 0;
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bool increment_count;
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basic_block loop_end = desc->out_edge->src;
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enum machine_mode mode;
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jump_insn = BB_END (loop_end);
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if (dump_file)
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{
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fprintf (dump_file, "Doloop: Inserting doloop pattern (");
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if (desc->const_iter)
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fprintf (dump_file, HOST_WIDEST_INT_PRINT_DEC, desc->niter);
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else
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fputs ("runtime", dump_file);
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fputs (" iterations).\n", dump_file);
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}
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/* Discard original jump to continue loop. The original compare
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result may still be live, so it cannot be discarded explicitly. */
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delete_insn (jump_insn);
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counter_reg = XEXP (condition, 0);
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if (GET_CODE (counter_reg) == PLUS)
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counter_reg = XEXP (counter_reg, 0);
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mode = GET_MODE (counter_reg);
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increment_count = false;
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switch (GET_CODE (condition))
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{
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case NE:
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/* Currently only NE tests against zero and one are supported. */
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noloop = XEXP (condition, 1);
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if (noloop != const0_rtx)
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{
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gcc_assert (noloop == const1_rtx);
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increment_count = true;
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}
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break;
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case GE:
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/* Currently only GE tests against zero are supported. */
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gcc_assert (XEXP (condition, 1) == const0_rtx);
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noloop = constm1_rtx;
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/* The iteration count does not need incrementing for a GE test. */
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increment_count = false;
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/* Determine if the iteration counter will be non-negative.
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Note that the maximum value loaded is iterations_max - 1. */
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if (desc->niter_max
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<= ((unsigned HOST_WIDEST_INT) 1
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<< (GET_MODE_BITSIZE (mode) - 1)))
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nonneg = 1;
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break;
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/* Abort if an invalid doloop pattern has been generated. */
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default:
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gcc_unreachable ();
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}
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if (increment_count)
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count = simplify_gen_binary (PLUS, mode, count, const1_rtx);
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/* Insert initialization of the count register into the loop header. */
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start_sequence ();
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tmp = force_operand (count, counter_reg);
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convert_move (counter_reg, tmp, 1);
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sequence = get_insns ();
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end_sequence ();
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emit_insn_after (sequence, BB_END (loop_preheader_edge (loop)->src));
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if (desc->noloop_assumptions)
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{
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rtx ass = copy_rtx (desc->noloop_assumptions);
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basic_block preheader = loop_preheader_edge (loop)->src;
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basic_block set_zero
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= loop_split_edge_with (loop_preheader_edge (loop), NULL_RTX);
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basic_block new_preheader
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= loop_split_edge_with (loop_preheader_edge (loop), NULL_RTX);
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edge te;
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/* Expand the condition testing the assumptions and if it does not pass,
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reset the count register to 0. */
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redirect_edge_and_branch_force (single_succ_edge (preheader), new_preheader);
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set_immediate_dominator (CDI_DOMINATORS, new_preheader, preheader);
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set_zero->count = 0;
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set_zero->frequency = 0;
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te = single_succ_edge (preheader);
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for (; ass; ass = XEXP (ass, 1))
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if (!add_test (XEXP (ass, 0), &te, set_zero))
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break;
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if (ass)
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{
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/* We reached a condition that is always true. This is very hard to
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reproduce (such a loop does not roll, and thus it would most
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likely get optimized out by some of the preceding optimizations).
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In fact, I do not have any testcase for it. However, it would
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also be very hard to show that it is impossible, so we must
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handle this case. */
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set_zero->count = preheader->count;
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set_zero->frequency = preheader->frequency;
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}
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if (EDGE_COUNT (set_zero->preds) == 0)
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{
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/* All the conditions were simplified to false, remove the
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unreachable set_zero block. */
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remove_bb_from_loops (set_zero);
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delete_basic_block (set_zero);
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}
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else
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{
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/* Reset the counter to zero in the set_zero block. */
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start_sequence ();
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convert_move (counter_reg, noloop, 0);
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sequence = get_insns ();
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end_sequence ();
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emit_insn_after (sequence, BB_END (set_zero));
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set_immediate_dominator (CDI_DOMINATORS, set_zero,
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recount_dominator (CDI_DOMINATORS,
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set_zero));
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}
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set_immediate_dominator (CDI_DOMINATORS, new_preheader,
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recount_dominator (CDI_DOMINATORS,
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new_preheader));
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}
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/* Some targets (eg, C4x) need to initialize special looping
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registers. */
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#ifdef HAVE_doloop_begin
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{
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rtx init;
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unsigned level = get_loop_level (loop) + 1;
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init = gen_doloop_begin (counter_reg,
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desc->const_iter ? desc->niter_expr : const0_rtx,
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GEN_INT (desc->niter_max),
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GEN_INT (level));
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if (init)
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{
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start_sequence ();
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emit_insn (init);
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sequence = get_insns ();
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end_sequence ();
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emit_insn_after (sequence, BB_END (loop_preheader_edge (loop)->src));
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}
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}
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#endif
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/* Insert the new low-overhead looping insn. */
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emit_jump_insn_after (doloop_seq, BB_END (loop_end));
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jump_insn = BB_END (loop_end);
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jump_label = block_label (desc->in_edge->dest);
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JUMP_LABEL (jump_insn) = jump_label;
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LABEL_NUSES (jump_label)++;
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/* Ensure the right fallthru edge is marked, for case we have reversed
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the condition. */
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desc->in_edge->flags &= ~EDGE_FALLTHRU;
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desc->out_edge->flags |= EDGE_FALLTHRU;
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/* Add a REG_NONNEG note if the actual or estimated maximum number
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of iterations is non-negative. */
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if (nonneg)
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{
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REG_NOTES (jump_insn)
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= gen_rtx_EXPR_LIST (REG_NONNEG, NULL_RTX, REG_NOTES (jump_insn));
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}
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}
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/* Process loop described by LOOP validating that the loop is suitable for
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conversion to use a low overhead looping instruction, replacing the jump
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insn where suitable. Returns true if the loop was successfully
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modified. */
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static bool
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doloop_optimize (struct loop *loop)
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{
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enum machine_mode mode;
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rtx doloop_seq, doloop_pat, doloop_reg;
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rtx iterations, count;
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rtx iterations_max;
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rtx start_label;
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rtx condition;
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unsigned level, est_niter;
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int max_cost;
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struct niter_desc *desc;
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unsigned word_mode_size;
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unsigned HOST_WIDE_INT word_mode_max;
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if (dump_file)
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fprintf (dump_file, "Doloop: Processing loop %d.\n", loop->num);
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iv_analysis_loop_init (loop);
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/* Find the simple exit of a LOOP. */
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desc = get_simple_loop_desc (loop);
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/* Check that loop is a candidate for a low-overhead looping insn. */
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if (!doloop_valid_p (loop, desc))
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{
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if (dump_file)
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fprintf (dump_file,
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"Doloop: The loop is not suitable.\n");
|
|
return false;
|
|
}
|
|
mode = desc->mode;
|
|
|
|
est_niter = 3;
|
|
if (desc->const_iter)
|
|
est_niter = desc->niter;
|
|
/* If the estimate on number of iterations is reliable (comes from profile
|
|
feedback), use it. Do not use it normally, since the expected number
|
|
of iterations of an unrolled loop is 2. */
|
|
if (loop->header->count)
|
|
est_niter = expected_loop_iterations (loop);
|
|
|
|
if (est_niter < 3)
|
|
{
|
|
if (dump_file)
|
|
fprintf (dump_file,
|
|
"Doloop: Too few iterations (%u) to be profitable.\n",
|
|
est_niter);
|
|
return false;
|
|
}
|
|
|
|
max_cost
|
|
= COSTS_N_INSNS (PARAM_VALUE (PARAM_MAX_ITERATIONS_COMPUTATION_COST));
|
|
if (rtx_cost (desc->niter_expr, SET) > max_cost)
|
|
{
|
|
if (dump_file)
|
|
fprintf (dump_file,
|
|
"Doloop: number of iterations too costly to compute.\n");
|
|
return false;
|
|
}
|
|
|
|
count = copy_rtx (desc->niter_expr);
|
|
iterations = desc->const_iter ? desc->niter_expr : const0_rtx;
|
|
iterations_max = GEN_INT (desc->niter_max);
|
|
level = get_loop_level (loop) + 1;
|
|
|
|
/* Generate looping insn. If the pattern FAILs then give up trying
|
|
to modify the loop since there is some aspect the back-end does
|
|
not like. */
|
|
start_label = block_label (desc->in_edge->dest);
|
|
doloop_reg = gen_reg_rtx (mode);
|
|
doloop_seq = gen_doloop_end (doloop_reg, iterations, iterations_max,
|
|
GEN_INT (level), start_label);
|
|
|
|
word_mode_size = GET_MODE_BITSIZE (word_mode);
|
|
word_mode_max
|
|
= ((unsigned HOST_WIDE_INT) 1 << (word_mode_size - 1) << 1) - 1;
|
|
if (! doloop_seq
|
|
&& mode != word_mode
|
|
/* Before trying mode different from the one in that # of iterations is
|
|
computed, we must be sure that the number of iterations fits into
|
|
the new mode. */
|
|
&& (word_mode_size >= GET_MODE_BITSIZE (mode)
|
|
|| desc->niter_max <= word_mode_max))
|
|
{
|
|
if (word_mode_size > GET_MODE_BITSIZE (mode))
|
|
{
|
|
count = simplify_gen_unary (ZERO_EXTEND, word_mode,
|
|
count, mode);
|
|
iterations = simplify_gen_unary (ZERO_EXTEND, word_mode,
|
|
iterations, mode);
|
|
iterations_max = simplify_gen_unary (ZERO_EXTEND, word_mode,
|
|
iterations_max, mode);
|
|
}
|
|
else
|
|
{
|
|
count = lowpart_subreg (word_mode, count, mode);
|
|
iterations = lowpart_subreg (word_mode, iterations, mode);
|
|
iterations_max = lowpart_subreg (word_mode, iterations_max, mode);
|
|
}
|
|
PUT_MODE (doloop_reg, word_mode);
|
|
doloop_seq = gen_doloop_end (doloop_reg, iterations, iterations_max,
|
|
GEN_INT (level), start_label);
|
|
}
|
|
if (! doloop_seq)
|
|
{
|
|
if (dump_file)
|
|
fprintf (dump_file,
|
|
"Doloop: Target unwilling to use doloop pattern!\n");
|
|
return false;
|
|
}
|
|
|
|
/* If multiple instructions were created, the last must be the
|
|
jump instruction. Also, a raw define_insn may yield a plain
|
|
pattern. */
|
|
doloop_pat = doloop_seq;
|
|
if (INSN_P (doloop_pat))
|
|
{
|
|
while (NEXT_INSN (doloop_pat) != NULL_RTX)
|
|
doloop_pat = NEXT_INSN (doloop_pat);
|
|
if (JUMP_P (doloop_pat))
|
|
doloop_pat = PATTERN (doloop_pat);
|
|
else
|
|
doloop_pat = NULL_RTX;
|
|
}
|
|
|
|
if (! doloop_pat
|
|
|| ! (condition = doloop_condition_get (doloop_pat)))
|
|
{
|
|
if (dump_file)
|
|
fprintf (dump_file, "Doloop: Unrecognizable doloop pattern!\n");
|
|
return false;
|
|
}
|
|
|
|
doloop_modify (loop, desc, doloop_seq, condition, count);
|
|
return true;
|
|
}
|
|
|
|
/* This is the main entry point. Process all LOOPS using doloop_optimize. */
|
|
|
|
void
|
|
doloop_optimize_loops (struct loops *loops)
|
|
{
|
|
unsigned i;
|
|
struct loop *loop;
|
|
|
|
for (i = 1; i < loops->num; i++)
|
|
{
|
|
loop = loops->parray[i];
|
|
if (!loop)
|
|
continue;
|
|
|
|
doloop_optimize (loop);
|
|
}
|
|
|
|
iv_analysis_done ();
|
|
|
|
#ifdef ENABLE_CHECKING
|
|
verify_dominators (CDI_DOMINATORS);
|
|
verify_loop_structure (loops);
|
|
#endif
|
|
}
|
|
#endif /* HAVE_doloop_end */
|
|
|