4a5ba3ed87
2011-04-14 Richard Guenther <rguenther@suse.de> * tree-ssa-dse.c (struct dse_global_data, struct dse_block_local_data): Remove. (dse_initialize_block_local_data, dse_leave_block, record_voperand_set, get_stmt_uid): Likewise. (dse_possible_dead_store_p): Allow any kind of killing stmt. (dse_optimize_stmt): Remove voperand set handling code. Simplify and improve to handle any kind of killing stmt. (dse_record_phi): Remove. (dse_enter_block): Simplify. (tree_ssa_dse): Likewise. * tree-ssa-alias.c (stmt_kills_ref_p_1): Handle some builtins. * gcc.dg/tree-ssa/ssa-dse-14.c: New testcase. From-SVN: r172431
361 lines
11 KiB
C
361 lines
11 KiB
C
/* Dead store elimination
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Copyright (C) 2004, 2005, 2006, 2007, 2008, 2009, 2010
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Free Software Foundation, Inc.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3, or (at your option)
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any later version.
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GCC is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License 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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#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 "ggc.h"
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#include "tree.h"
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#include "tm_p.h"
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#include "basic-block.h"
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#include "timevar.h"
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#include "gimple-pretty-print.h"
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#include "tree-flow.h"
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#include "tree-pass.h"
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#include "tree-dump.h"
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#include "domwalk.h"
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#include "flags.h"
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#include "langhooks.h"
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/* This file implements dead store elimination.
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A dead store is a store into a memory location which will later be
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overwritten by another store without any intervening loads. In this
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case the earlier store can be deleted.
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In our SSA + virtual operand world we use immediate uses of virtual
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operands to detect dead stores. If a store's virtual definition
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is used precisely once by a later store to the same location which
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post dominates the first store, then the first store is dead.
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The single use of the store's virtual definition ensures that
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there are no intervening aliased loads and the requirement that
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the second load post dominate the first ensures that if the earlier
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store executes, then the later stores will execute before the function
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exits.
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It may help to think of this as first moving the earlier store to
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the point immediately before the later store. Again, the single
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use of the virtual definition and the post-dominance relationship
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ensure that such movement would be safe. Clearly if there are
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back to back stores, then the second is redundant.
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Reviewing section 10.7.2 in Morgan's "Building an Optimizing Compiler"
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may also help in understanding this code since it discusses the
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relationship between dead store and redundant load elimination. In
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fact, they are the same transformation applied to different views of
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the CFG. */
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/* Bitmap of blocks that have had EH statements cleaned. We should
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remove their dead edges eventually. */
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static bitmap need_eh_cleanup;
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static bool gate_dse (void);
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static unsigned int tree_ssa_dse (void);
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static void dse_enter_block (struct dom_walk_data *, basic_block);
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/* A helper of dse_optimize_stmt.
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Given a GIMPLE_ASSIGN in STMT, find a candidate statement *USE_STMT that
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may prove STMT to be dead.
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Return TRUE if the above conditions are met, otherwise FALSE. */
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static bool
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dse_possible_dead_store_p (gimple stmt, gimple *use_stmt)
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{
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gimple temp;
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unsigned cnt = 0;
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*use_stmt = NULL;
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/* Find the first dominated statement that clobbers (part of) the
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memory stmt stores to with no intermediate statement that may use
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part of the memory stmt stores. That is, find a store that may
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prove stmt to be a dead store. */
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temp = stmt;
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do
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{
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gimple use_stmt;
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imm_use_iterator ui;
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bool fail = false;
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tree defvar;
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/* Limit stmt walking to be linear in the number of possibly
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dead stores. */
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if (++cnt > 256)
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return false;
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if (gimple_code (temp) == GIMPLE_PHI)
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defvar = PHI_RESULT (temp);
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else
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defvar = gimple_vdef (temp);
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temp = NULL;
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FOR_EACH_IMM_USE_STMT (use_stmt, ui, defvar)
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{
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cnt++;
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/* If we ever reach our DSE candidate stmt again fail. We
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cannot handle dead stores in loops. */
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if (use_stmt == stmt)
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{
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fail = true;
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BREAK_FROM_IMM_USE_STMT (ui);
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}
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/* In simple cases we can look through PHI nodes, but we
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have to be careful with loops and with memory references
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containing operands that are also operands of PHI nodes.
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See gcc.c-torture/execute/20051110-*.c. */
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else if (gimple_code (use_stmt) == GIMPLE_PHI)
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{
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if (temp
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/* Make sure we are not in a loop latch block. */
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|| gimple_bb (stmt) == gimple_bb (use_stmt)
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|| dominated_by_p (CDI_DOMINATORS,
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gimple_bb (stmt), gimple_bb (use_stmt))
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/* We can look through PHIs to regions post-dominating
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the DSE candidate stmt. */
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|| !dominated_by_p (CDI_POST_DOMINATORS,
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gimple_bb (stmt), gimple_bb (use_stmt)))
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{
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fail = true;
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BREAK_FROM_IMM_USE_STMT (ui);
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}
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temp = use_stmt;
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}
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/* If the statement is a use the store is not dead. */
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else if (ref_maybe_used_by_stmt_p (use_stmt,
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gimple_assign_lhs (stmt)))
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{
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fail = true;
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BREAK_FROM_IMM_USE_STMT (ui);
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}
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/* If this is a store, remember it or bail out if we have
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multiple ones (the will be in different CFG parts then). */
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else if (gimple_vdef (use_stmt))
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{
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if (temp)
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{
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fail = true;
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BREAK_FROM_IMM_USE_STMT (ui);
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}
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temp = use_stmt;
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}
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}
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if (fail)
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return false;
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/* If we didn't find any definition this means the store is dead
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if it isn't a store to global reachable memory. In this case
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just pretend the stmt makes itself dead. Otherwise fail. */
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if (!temp)
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{
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if (is_hidden_global_store (stmt))
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return false;
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temp = stmt;
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break;
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}
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}
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/* We deliberately stop on clobbering statements and not only on
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killing ones to make walking cheaper. Otherwise we can just
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continue walking until both stores have equal reference trees. */
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while (!stmt_may_clobber_ref_p (temp, gimple_assign_lhs (stmt)));
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*use_stmt = temp;
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return true;
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}
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/* Attempt to eliminate dead stores in the statement referenced by BSI.
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A dead store is a store into a memory location which will later be
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overwritten by another store without any intervening loads. In this
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case the earlier store can be deleted.
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In our SSA + virtual operand world we use immediate uses of virtual
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operands to detect dead stores. If a store's virtual definition
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is used precisely once by a later store to the same location which
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post dominates the first store, then the first store is dead. */
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static void
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dse_optimize_stmt (gimple_stmt_iterator gsi)
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{
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gimple stmt = gsi_stmt (gsi);
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/* If this statement has no virtual defs, then there is nothing
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to do. */
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if (!gimple_vdef (stmt))
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return;
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/* We know we have virtual definitions. If this is a GIMPLE_ASSIGN
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that's not also a function call, then record it into our table. */
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if (is_gimple_call (stmt) && gimple_call_fndecl (stmt))
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return;
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if (gimple_has_volatile_ops (stmt))
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return;
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if (is_gimple_assign (stmt))
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{
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gimple use_stmt;
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if (!dse_possible_dead_store_p (stmt, &use_stmt))
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return;
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/* If we have precisely one immediate use at this point and the
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stores are to the same memory location or there is a chain of
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virtual uses from stmt and the stmt which stores to that same
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memory location, then we may have found redundant store. */
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if ((gimple_has_lhs (use_stmt)
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&& (operand_equal_p (gimple_assign_lhs (stmt),
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gimple_get_lhs (use_stmt), 0)))
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|| stmt_kills_ref_p (use_stmt, gimple_assign_lhs (stmt)))
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{
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/* If use_stmt is or might be a nop assignment, e.g. for
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struct { ... } S a, b, *p; ...
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b = a; b = b;
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or
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b = a; b = *p; where p might be &b,
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or
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*p = a; *p = b; where p might be &b,
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or
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*p = *u; *p = *v; where p might be v, then USE_STMT
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acts as a use as well as definition, so store in STMT
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is not dead. */
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if (stmt != use_stmt
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&& ref_maybe_used_by_stmt_p (use_stmt, gimple_assign_lhs (stmt)))
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return;
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if (dump_file && (dump_flags & TDF_DETAILS))
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{
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fprintf (dump_file, " Deleted dead store '");
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print_gimple_stmt (dump_file, gsi_stmt (gsi), dump_flags, 0);
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fprintf (dump_file, "'\n");
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}
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/* Then we need to fix the operand of the consuming stmt. */
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unlink_stmt_vdef (stmt);
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bitmap_set_bit (need_eh_cleanup, gimple_bb (stmt)->index);
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/* Remove the dead store. */
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gsi_remove (&gsi, true);
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/* And release any SSA_NAMEs set in this statement back to the
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SSA_NAME manager. */
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release_defs (stmt);
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}
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}
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}
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static void
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dse_enter_block (struct dom_walk_data *walk_data ATTRIBUTE_UNUSED,
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basic_block bb)
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{
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gimple_stmt_iterator gsi;
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for (gsi = gsi_last (bb_seq (bb)); !gsi_end_p (gsi); gsi_prev (&gsi))
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dse_optimize_stmt (gsi);
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}
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/* Main entry point. */
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static unsigned int
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tree_ssa_dse (void)
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{
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struct dom_walk_data walk_data;
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need_eh_cleanup = BITMAP_ALLOC (NULL);
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renumber_gimple_stmt_uids ();
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/* We might consider making this a property of each pass so that it
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can be [re]computed on an as-needed basis. Particularly since
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this pass could be seen as an extension of DCE which needs post
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dominators. */
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calculate_dominance_info (CDI_POST_DOMINATORS);
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calculate_dominance_info (CDI_DOMINATORS);
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/* Dead store elimination is fundamentally a walk of the post-dominator
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tree and a backwards walk of statements within each block. */
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walk_data.dom_direction = CDI_POST_DOMINATORS;
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walk_data.initialize_block_local_data = NULL;
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walk_data.before_dom_children = dse_enter_block;
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walk_data.after_dom_children = NULL;
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walk_data.block_local_data_size = 0;
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walk_data.global_data = NULL;
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/* Initialize the dominator walker. */
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init_walk_dominator_tree (&walk_data);
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/* Recursively walk the dominator tree. */
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walk_dominator_tree (&walk_data, EXIT_BLOCK_PTR);
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/* Finalize the dominator walker. */
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fini_walk_dominator_tree (&walk_data);
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/* Removal of stores may make some EH edges dead. Purge such edges from
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the CFG as needed. */
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if (!bitmap_empty_p (need_eh_cleanup))
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{
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gimple_purge_all_dead_eh_edges (need_eh_cleanup);
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cleanup_tree_cfg ();
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}
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BITMAP_FREE (need_eh_cleanup);
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/* For now, just wipe the post-dominator information. */
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free_dominance_info (CDI_POST_DOMINATORS);
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return 0;
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}
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static bool
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gate_dse (void)
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{
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return flag_tree_dse != 0;
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}
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struct gimple_opt_pass pass_dse =
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{
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{
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GIMPLE_PASS,
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"dse", /* name */
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gate_dse, /* gate */
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tree_ssa_dse, /* execute */
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NULL, /* sub */
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NULL, /* next */
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0, /* static_pass_number */
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TV_TREE_DSE, /* tv_id */
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PROP_cfg | PROP_ssa, /* properties_required */
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0, /* properties_provided */
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0, /* properties_destroyed */
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0, /* todo_flags_start */
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TODO_dump_func
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| TODO_ggc_collect
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| TODO_verify_ssa /* todo_flags_finish */
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}
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};
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