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gcc/gcc/tree-ssa-phiprop.c
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	tree-ssa-loop.c, tree-ssa-math-opts.c, tree-ssa-operands.c,
	tree-ssa-phiopt.c, tree-ssa-phiprop.c, tree-ssa-pre.c,
	tree-ssa-reassoc.c, tree-ssa-sink.c, tree-ssa-strlen.c,
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	tree-ssa-uncprop.c, tree-ssa-uninit.c, tree-ssa.c, tree-ssanames.c,
	tree-stdarg.c, tree-switch-conversion.c, tree-tailcall.c,
	tree-vect-data-refs.c, tree-vect-generic.c, tree-vect-loop-manip.c,
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	tree.c, tree.h, tsan.c, tsystem.h, value-prof.c, var-tracking.c,
	varasm.c, vec.h, vmsdbgout.c, vtable-verify.c, web.c: Add missing
	whitespace before "(".

From-SVN: r203004
2013-09-28 08:42:34 +00:00

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/* Backward propagation of indirect loads through PHIs.
Copyright (C) 2007-2013 Free Software Foundation, Inc.
Contributed by Richard Guenther <rguenther@suse.de>
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "tree.h"
#include "tm_p.h"
#include "basic-block.h"
#include "gimple-pretty-print.h"
#include "tree-ssa.h"
#include "tree-pass.h"
#include "langhooks.h"
#include "flags.h"
/* This pass propagates indirect loads through the PHI node for its
address to make the load source possibly non-addressable and to
allow for PHI optimization to trigger.
For example the pass changes
# addr_1 = PHI <&a, &b>
tmp_1 = *addr_1;
to
# tmp_1 = PHI <a, b>
but also handles more complex scenarios like
D.2077_2 = &this_1(D)->a1;
...
# b_12 = PHI <&c(2), D.2077_2(3)>
D.2114_13 = *b_12;
...
# b_15 = PHI <b_12(4), &b(5)>
D.2080_5 = &this_1(D)->a0;
...
# b_18 = PHI <D.2080_5(6), &c(7)>
...
# b_21 = PHI <b_15(8), b_18(9)>
D.2076_8 = *b_21;
where the addresses loaded are defined by PHIs itself.
The above happens for
std::max(std::min(a0, c), std::min(std::max(a1, c), b))
where this pass transforms it to a form later PHI optimization
recognizes and transforms it to the simple
D.2109_10 = this_1(D)->a1;
D.2110_11 = c;
D.2114_31 = MAX_EXPR <D.2109_10, D.2110_11>;
D.2115_14 = b;
D.2125_17 = MIN_EXPR <D.2115_14, D.2114_31>;
D.2119_16 = this_1(D)->a0;
D.2124_32 = MIN_EXPR <D.2110_11, D.2119_16>;
D.2076_33 = MAX_EXPR <D.2125_17, D.2124_32>;
The pass does a dominator walk processing loads using a basic-block
local analysis and stores the result for use by transformations on
dominated basic-blocks. */
/* Structure to keep track of the value of a dereferenced PHI result
and the virtual operand used for that dereference. */
struct phiprop_d
{
tree value;
tree vuse;
};
/* Verify if the value recorded for NAME in PHIVN is still valid at
the start of basic block BB. */
static bool
phivn_valid_p (struct phiprop_d *phivn, tree name, basic_block bb)
{
tree vuse = phivn[SSA_NAME_VERSION (name)].vuse;
gimple use_stmt;
imm_use_iterator ui2;
bool ok = true;
/* The def stmts of the virtual uses need to be dominated by bb. */
gcc_assert (vuse != NULL_TREE);
FOR_EACH_IMM_USE_STMT (use_stmt, ui2, vuse)
{
/* If BB does not dominate a VDEF, the value is invalid. */
if ((gimple_vdef (use_stmt) != NULL_TREE
|| gimple_code (use_stmt) == GIMPLE_PHI)
&& !dominated_by_p (CDI_DOMINATORS, gimple_bb (use_stmt), bb))
{
ok = false;
BREAK_FROM_IMM_USE_STMT (ui2);
}
}
return ok;
}
/* Insert a new phi node for the dereference of PHI at basic_block
BB with the virtual operands from USE_STMT. */
static tree
phiprop_insert_phi (basic_block bb, gimple phi, gimple use_stmt,
struct phiprop_d *phivn, size_t n)
{
tree res;
gimple new_phi;
edge_iterator ei;
edge e;
gcc_assert (is_gimple_assign (use_stmt)
&& gimple_assign_rhs_code (use_stmt) == MEM_REF);
/* Build a new PHI node to replace the definition of
the indirect reference lhs. */
res = gimple_assign_lhs (use_stmt);
new_phi = create_phi_node (res, bb);
if (dump_file && (dump_flags & TDF_DETAILS))
{
fprintf (dump_file, "Inserting PHI for result of load ");
print_gimple_stmt (dump_file, use_stmt, 0, 0);
}
/* Add PHI arguments for each edge inserting loads of the
addressable operands. */
FOR_EACH_EDGE (e, ei, bb->preds)
{
tree old_arg, new_var;
gimple tmp;
source_location locus;
old_arg = PHI_ARG_DEF_FROM_EDGE (phi, e);
locus = gimple_phi_arg_location_from_edge (phi, e);
while (TREE_CODE (old_arg) == SSA_NAME
&& (SSA_NAME_VERSION (old_arg) >= n
|| phivn[SSA_NAME_VERSION (old_arg)].value == NULL_TREE))
{
gimple def_stmt = SSA_NAME_DEF_STMT (old_arg);
old_arg = gimple_assign_rhs1 (def_stmt);
locus = gimple_location (def_stmt);
}
if (TREE_CODE (old_arg) == SSA_NAME)
{
if (dump_file && (dump_flags & TDF_DETAILS))
{
fprintf (dump_file, " for edge defining ");
print_generic_expr (dump_file, PHI_ARG_DEF_FROM_EDGE (phi, e), 0);
fprintf (dump_file, " reusing PHI result ");
print_generic_expr (dump_file,
phivn[SSA_NAME_VERSION (old_arg)].value, 0);
fprintf (dump_file, "\n");
}
/* Reuse a formerly created dereference. */
new_var = phivn[SSA_NAME_VERSION (old_arg)].value;
}
else
{
tree rhs = gimple_assign_rhs1 (use_stmt);
gcc_assert (TREE_CODE (old_arg) == ADDR_EXPR);
new_var = make_ssa_name (TREE_TYPE (rhs), NULL);
if (!is_gimple_min_invariant (old_arg))
old_arg = PHI_ARG_DEF_FROM_EDGE (phi, e);
else
old_arg = unshare_expr (old_arg);
tmp = gimple_build_assign (new_var,
fold_build2 (MEM_REF, TREE_TYPE (rhs),
old_arg,
TREE_OPERAND (rhs, 1)));
gimple_set_location (tmp, locus);
gsi_insert_on_edge (e, tmp);
update_stmt (tmp);
if (dump_file && (dump_flags & TDF_DETAILS))
{
fprintf (dump_file, " for edge defining ");
print_generic_expr (dump_file, PHI_ARG_DEF_FROM_EDGE (phi, e), 0);
fprintf (dump_file, " inserting load ");
print_gimple_stmt (dump_file, tmp, 0, 0);
}
}
add_phi_arg (new_phi, new_var, e, locus);
}
update_stmt (new_phi);
if (dump_file && (dump_flags & TDF_DETAILS))
print_gimple_stmt (dump_file, new_phi, 0, 0);
return res;
}
/* Propagate between the phi node arguments of PHI in BB and phi result
users. For now this matches
# p_2 = PHI <&x, &y>
<Lx>:;
p_3 = p_2;
z_2 = *p_3;
and converts it to
# z_2 = PHI <x, y>
<Lx>:;
Returns true if a transformation was done and edge insertions
need to be committed. Global data PHIVN and N is used to track
past transformation results. We need to be especially careful here
with aliasing issues as we are moving memory reads. */
static bool
propagate_with_phi (basic_block bb, gimple phi, struct phiprop_d *phivn,
size_t n)
{
tree ptr = PHI_RESULT (phi);
gimple use_stmt;
tree res = NULL_TREE;
gimple_stmt_iterator gsi;
imm_use_iterator ui;
use_operand_p arg_p, use;
ssa_op_iter i;
bool phi_inserted;
tree type = NULL_TREE;
if (!POINTER_TYPE_P (TREE_TYPE (ptr))
|| !is_gimple_reg_type (TREE_TYPE (TREE_TYPE (ptr))))
return false;
/* Check if we can "cheaply" dereference all phi arguments. */
FOR_EACH_PHI_ARG (arg_p, phi, i, SSA_OP_USE)
{
tree arg = USE_FROM_PTR (arg_p);
/* Walk the ssa chain until we reach a ssa name we already
created a value for or we reach a definition of the form
ssa_name_n = &var; */
while (TREE_CODE (arg) == SSA_NAME
&& !SSA_NAME_IS_DEFAULT_DEF (arg)
&& (SSA_NAME_VERSION (arg) >= n
|| phivn[SSA_NAME_VERSION (arg)].value == NULL_TREE))
{
gimple def_stmt = SSA_NAME_DEF_STMT (arg);
if (!gimple_assign_single_p (def_stmt))
return false;
arg = gimple_assign_rhs1 (def_stmt);
}
if (TREE_CODE (arg) != ADDR_EXPR
&& !(TREE_CODE (arg) == SSA_NAME
&& SSA_NAME_VERSION (arg) < n
&& phivn[SSA_NAME_VERSION (arg)].value != NULL_TREE
&& (!type
|| types_compatible_p
(type, TREE_TYPE (phivn[SSA_NAME_VERSION (arg)].value)))
&& phivn_valid_p (phivn, arg, bb)))
return false;
if (!type
&& TREE_CODE (arg) == SSA_NAME)
type = TREE_TYPE (phivn[SSA_NAME_VERSION (arg)].value);
}
/* Find a dereferencing use. First follow (single use) ssa
copy chains for ptr. */
while (single_imm_use (ptr, &use, &use_stmt)
&& gimple_assign_ssa_name_copy_p (use_stmt))
ptr = gimple_assign_lhs (use_stmt);
/* Replace the first dereference of *ptr if there is one and if we
can move the loads to the place of the ptr phi node. */
phi_inserted = false;
FOR_EACH_IMM_USE_STMT (use_stmt, ui, ptr)
{
gimple def_stmt;
tree vuse;
/* Check whether this is a load of *ptr. */
if (!(is_gimple_assign (use_stmt)
&& TREE_CODE (gimple_assign_lhs (use_stmt)) == SSA_NAME
&& gimple_assign_rhs_code (use_stmt) == MEM_REF
&& TREE_OPERAND (gimple_assign_rhs1 (use_stmt), 0) == ptr
&& integer_zerop (TREE_OPERAND (gimple_assign_rhs1 (use_stmt), 1))
&& (!type
|| types_compatible_p
(TREE_TYPE (gimple_assign_lhs (use_stmt)), type))
/* We cannot replace a load that may throw or is volatile. */
&& !stmt_can_throw_internal (use_stmt)))
continue;
/* Check if we can move the loads. The def stmt of the virtual use
needs to be in a different basic block dominating bb. */
vuse = gimple_vuse (use_stmt);
def_stmt = SSA_NAME_DEF_STMT (vuse);
if (!SSA_NAME_IS_DEFAULT_DEF (vuse)
&& (gimple_bb (def_stmt) == bb
|| !dominated_by_p (CDI_DOMINATORS,
bb, gimple_bb (def_stmt))))
goto next;
/* Found a proper dereference. Insert a phi node if this
is the first load transformation. */
if (!phi_inserted)
{
res = phiprop_insert_phi (bb, phi, use_stmt, phivn, n);
type = TREE_TYPE (res);
/* Remember the value we created for *ptr. */
phivn[SSA_NAME_VERSION (ptr)].value = res;
phivn[SSA_NAME_VERSION (ptr)].vuse = vuse;
/* Remove old stmt. The phi is taken care of by DCE, if we
want to delete it here we also have to delete all intermediate
copies. */
gsi = gsi_for_stmt (use_stmt);
gsi_remove (&gsi, true);
phi_inserted = true;
}
else
{
/* Further replacements are easy, just make a copy out of the
load. */
gimple_assign_set_rhs1 (use_stmt, res);
update_stmt (use_stmt);
}
next:;
/* Continue searching for a proper dereference. */
}
return phi_inserted;
}
/* Main entry for phiprop pass. */
static unsigned int
tree_ssa_phiprop (void)
{
vec<basic_block> bbs;
struct phiprop_d *phivn;
bool did_something = false;
basic_block bb;
gimple_stmt_iterator gsi;
unsigned i;
size_t n;
calculate_dominance_info (CDI_DOMINATORS);
n = num_ssa_names;
phivn = XCNEWVEC (struct phiprop_d, n);
/* Walk the dominator tree in preorder. */
bbs = get_all_dominated_blocks (CDI_DOMINATORS,
single_succ (ENTRY_BLOCK_PTR));
FOR_EACH_VEC_ELT (bbs, i, bb)
for (gsi = gsi_start_phis (bb); !gsi_end_p (gsi); gsi_next (&gsi))
did_something |= propagate_with_phi (bb, gsi_stmt (gsi), phivn, n);
if (did_something)
gsi_commit_edge_inserts ();
bbs.release ();
free (phivn);
return 0;
}
static bool
gate_phiprop (void)
{
return flag_tree_phiprop;
}
namespace {
const pass_data pass_data_phiprop =
{
GIMPLE_PASS, /* type */
"phiprop", /* name */
OPTGROUP_NONE, /* optinfo_flags */
true, /* has_gate */
true, /* has_execute */
TV_TREE_PHIPROP, /* tv_id */
( PROP_cfg | PROP_ssa ), /* properties_required */
0, /* properties_provided */
0, /* properties_destroyed */
0, /* todo_flags_start */
( TODO_update_ssa | TODO_verify_ssa ), /* todo_flags_finish */
};
class pass_phiprop : public gimple_opt_pass
{
public:
pass_phiprop (gcc::context *ctxt)
: gimple_opt_pass (pass_data_phiprop, ctxt)
{}
/* opt_pass methods: */
bool gate () { return gate_phiprop (); }
unsigned int execute () { return tree_ssa_phiprop (); }
}; // class pass_phiprop
} // anon namespace
gimple_opt_pass *
make_pass_phiprop (gcc::context *ctxt)
{
return new pass_phiprop (ctxt);
}
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