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|
/* Miscellaneous SSA utility functions.
Copyright (C) 2001-2013 Free Software Foundation, Inc.
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 "flags.h"
#include "tm_p.h"
#include "target.h"
#include "ggc.h"
#include "langhooks.h"
#include "basic-block.h"
#include "function.h"
#include "gimple-pretty-print.h"
#include "bitmap.h"
#include "pointer-set.h"
#include "tree-flow.h"
#include "gimple.h"
#include "tree-inline.h"
#include "hashtab.h"
#include "tree-pass.h"
#include "diagnostic-core.h"
#include "cfgloop.h"
/* Pointer map of variable mappings, keyed by edge. */
static struct pointer_map_t *edge_var_maps;
/* Add a mapping with PHI RESULT and PHI DEF associated with edge E. */
void
redirect_edge_var_map_add (edge e, tree result, tree def, source_location locus)
{
void **slot;
edge_var_map_vector *head;
edge_var_map new_node;
if (edge_var_maps == NULL)
edge_var_maps = pointer_map_create ();
slot = pointer_map_insert (edge_var_maps, e);
head = (edge_var_map_vector *) *slot;
if (!head)
vec_safe_reserve (head, 5);
new_node.def = def;
new_node.result = result;
new_node.locus = locus;
vec_safe_push (head, new_node);
*slot = head;
}
/* Clear the var mappings in edge E. */
void
redirect_edge_var_map_clear (edge e)
{
void **slot;
edge_var_map_vector *head;
if (!edge_var_maps)
return;
slot = pointer_map_contains (edge_var_maps, e);
if (slot)
{
head = (edge_var_map_vector *) *slot;
vec_free (head);
*slot = NULL;
}
}
/* Duplicate the redirected var mappings in OLDE in NEWE.
Since we can't remove a mapping, let's just duplicate it. This assumes a
pointer_map can have multiple edges mapping to the same var_map (many to
one mapping), since we don't remove the previous mappings. */
void
redirect_edge_var_map_dup (edge newe, edge olde)
{
void **new_slot, **old_slot;
edge_var_map_vector *head;
if (!edge_var_maps)
return;
new_slot = pointer_map_insert (edge_var_maps, newe);
old_slot = pointer_map_contains (edge_var_maps, olde);
if (!old_slot)
return;
head = (edge_var_map_vector *) *old_slot;
edge_var_map_vector *new_head = NULL;
if (head)
new_head = vec_safe_copy (head);
else
vec_safe_reserve (new_head, 5);
*new_slot = new_head;
}
/* Return the variable mappings for a given edge. If there is none, return
NULL. */
edge_var_map_vector *
redirect_edge_var_map_vector (edge e)
{
void **slot;
/* Hey, what kind of idiot would... you'd be surprised. */
if (!edge_var_maps)
return NULL;
slot = pointer_map_contains (edge_var_maps, e);
if (!slot)
return NULL;
return (edge_var_map_vector *) *slot;
}
/* Used by redirect_edge_var_map_destroy to free all memory. */
static bool
free_var_map_entry (const void *key ATTRIBUTE_UNUSED,
void **value,
void *data ATTRIBUTE_UNUSED)
{
edge_var_map_vector *head = (edge_var_map_vector *) *value;
vec_free (head);
return true;
}
/* Clear the edge variable mappings. */
void
redirect_edge_var_map_destroy (void)
{
if (edge_var_maps)
{
pointer_map_traverse (edge_var_maps, free_var_map_entry, NULL);
pointer_map_destroy (edge_var_maps);
edge_var_maps = NULL;
}
}
/* Remove the corresponding arguments from the PHI nodes in E's
destination block and redirect it to DEST. Return redirected edge.
The list of removed arguments is stored in a vector accessed
through edge_var_maps. */
edge
ssa_redirect_edge (edge e, basic_block dest)
{
gimple_stmt_iterator gsi;
gimple phi;
redirect_edge_var_map_clear (e);
/* Remove the appropriate PHI arguments in E's destination block. */
for (gsi = gsi_start_phis (e->dest); !gsi_end_p (gsi); gsi_next (&gsi))
{
tree def;
source_location locus ;
phi = gsi_stmt (gsi);
def = gimple_phi_arg_def (phi, e->dest_idx);
locus = gimple_phi_arg_location (phi, e->dest_idx);
if (def == NULL_TREE)
continue;
redirect_edge_var_map_add (e, gimple_phi_result (phi), def, locus);
}
e = redirect_edge_succ_nodup (e, dest);
return e;
}
/* Add PHI arguments queued in PENDING_STMT list on edge E to edge
E->dest. */
void
flush_pending_stmts (edge e)
{
gimple phi;
edge_var_map_vector *v;
edge_var_map *vm;
int i;
gimple_stmt_iterator gsi;
v = redirect_edge_var_map_vector (e);
if (!v)
return;
for (gsi = gsi_start_phis (e->dest), i = 0;
!gsi_end_p (gsi) && v->iterate (i, &vm);
gsi_next (&gsi), i++)
{
tree def;
phi = gsi_stmt (gsi);
def = redirect_edge_var_map_def (vm);
add_phi_arg (phi, def, e, redirect_edge_var_map_location (vm));
}
redirect_edge_var_map_clear (e);
}
/* Given a tree for an expression for which we might want to emit
locations or values in debug information (generally a variable, but
we might deal with other kinds of trees in the future), return the
tree that should be used as the variable of a DEBUG_BIND STMT or
VAR_LOCATION INSN or NOTE. Return NULL if VAR is not to be tracked. */
tree
target_for_debug_bind (tree var)
{
if (!MAY_HAVE_DEBUG_STMTS)
return NULL_TREE;
if (TREE_CODE (var) == SSA_NAME)
{
var = SSA_NAME_VAR (var);
if (var == NULL_TREE)
return NULL_TREE;
}
if ((TREE_CODE (var) != VAR_DECL
|| VAR_DECL_IS_VIRTUAL_OPERAND (var))
&& TREE_CODE (var) != PARM_DECL)
return NULL_TREE;
if (DECL_HAS_VALUE_EXPR_P (var))
return target_for_debug_bind (DECL_VALUE_EXPR (var));
if (DECL_IGNORED_P (var))
return NULL_TREE;
/* var-tracking only tracks registers. */
if (!is_gimple_reg_type (TREE_TYPE (var)))
return NULL_TREE;
return var;
}
/* Called via walk_tree, look for SSA_NAMEs that have already been
released. */
static tree
find_released_ssa_name (tree *tp, int *walk_subtrees, void *data_)
{
struct walk_stmt_info *wi = (struct walk_stmt_info *) data_;
if (wi && wi->is_lhs)
return NULL_TREE;
if (TREE_CODE (*tp) == SSA_NAME)
{
if (SSA_NAME_IN_FREE_LIST (*tp))
return *tp;
*walk_subtrees = 0;
}
else if (IS_TYPE_OR_DECL_P (*tp))
*walk_subtrees = 0;
return NULL_TREE;
}
/* Insert a DEBUG BIND stmt before the DEF of VAR if VAR is referenced
by other DEBUG stmts, and replace uses of the DEF with the
newly-created debug temp. */
void
insert_debug_temp_for_var_def (gimple_stmt_iterator *gsi, tree var)
{
imm_use_iterator imm_iter;
use_operand_p use_p;
gimple stmt;
gimple def_stmt = NULL;
int usecount = 0;
tree value = NULL;
if (!MAY_HAVE_DEBUG_STMTS)
return;
/* If this name has already been registered for replacement, do nothing
as anything that uses this name isn't in SSA form. */
if (name_registered_for_update_p (var))
return;
/* Check whether there are debug stmts that reference this variable and,
if there are, decide whether we should use a debug temp. */
FOR_EACH_IMM_USE_FAST (use_p, imm_iter, var)
{
stmt = USE_STMT (use_p);
if (!gimple_debug_bind_p (stmt))
continue;
if (usecount++)
break;
if (gimple_debug_bind_get_value (stmt) != var)
{
/* Count this as an additional use, so as to make sure we
use a temp unless VAR's definition has a SINGLE_RHS that
can be shared. */
usecount++;
break;
}
}
if (!usecount)
return;
if (gsi)
def_stmt = gsi_stmt (*gsi);
else
def_stmt = SSA_NAME_DEF_STMT (var);
/* If we didn't get an insertion point, and the stmt has already
been removed, we won't be able to insert the debug bind stmt, so
we'll have to drop debug information. */
if (gimple_code (def_stmt) == GIMPLE_PHI)
{
value = degenerate_phi_result (def_stmt);
if (value && walk_tree (&value, find_released_ssa_name, NULL, NULL))
value = NULL;
/* error_mark_node is what fixup_noreturn_call changes PHI arguments
to. */
else if (value == error_mark_node)
value = NULL;
}
else if (is_gimple_assign (def_stmt))
{
bool no_value = false;
if (!dom_info_available_p (CDI_DOMINATORS))
{
struct walk_stmt_info wi;
memset (&wi, 0, sizeof (wi));
/* When removing blocks without following reverse dominance
order, we may sometimes encounter SSA_NAMEs that have
already been released, referenced in other SSA_DEFs that
we're about to release. Consider:
<bb X>:
v_1 = foo;
<bb Y>:
w_2 = v_1 + bar;
# DEBUG w => w_2
If we deleted BB X first, propagating the value of w_2
won't do us any good. It's too late to recover their
original definition of v_1: when it was deleted, it was
only referenced in other DEFs, it couldn't possibly know
it should have been retained, and propagating every
single DEF just in case it might have to be propagated
into a DEBUG STMT would probably be too wasteful.
When dominator information is not readily available, we
check for and accept some loss of debug information. But
if it is available, there's no excuse for us to remove
blocks in the wrong order, so we don't even check for
dead SSA NAMEs. SSA verification shall catch any
errors. */
if ((!gsi && !gimple_bb (def_stmt))
|| walk_gimple_op (def_stmt, find_released_ssa_name, &wi))
no_value = true;
}
if (!no_value)
value = gimple_assign_rhs_to_tree (def_stmt);
}
if (value)
{
/* If there's a single use of VAR, and VAR is the entire debug
expression (usecount would have been incremented again
otherwise), and the definition involves only constants and
SSA names, then we can propagate VALUE into this single use,
avoiding the temp.
We can also avoid using a temp if VALUE can be shared and
propagated into all uses, without generating expressions that
wouldn't be valid gimple RHSs.
Other cases that would require unsharing or non-gimple RHSs
are deferred to a debug temp, although we could avoid temps
at the expense of duplication of expressions. */
if (CONSTANT_CLASS_P (value)
|| gimple_code (def_stmt) == GIMPLE_PHI
|| (usecount == 1
&& (!gimple_assign_single_p (def_stmt)
|| is_gimple_min_invariant (value)))
|| is_gimple_reg (value))
;
else
{
gimple def_temp;
tree vexpr = make_node (DEBUG_EXPR_DECL);
def_temp = gimple_build_debug_bind (vexpr,
unshare_expr (value),
def_stmt);
DECL_ARTIFICIAL (vexpr) = 1;
TREE_TYPE (vexpr) = TREE_TYPE (value);
if (DECL_P (value))
DECL_MODE (vexpr) = DECL_MODE (value);
else
DECL_MODE (vexpr) = TYPE_MODE (TREE_TYPE (value));
if (gsi)
gsi_insert_before (gsi, def_temp, GSI_SAME_STMT);
else
{
gimple_stmt_iterator ngsi = gsi_for_stmt (def_stmt);
gsi_insert_before (&ngsi, def_temp, GSI_SAME_STMT);
}
value = vexpr;
}
}
FOR_EACH_IMM_USE_STMT (stmt, imm_iter, var)
{
if (!gimple_debug_bind_p (stmt))
continue;
if (value)
{
FOR_EACH_IMM_USE_ON_STMT (use_p, imm_iter)
/* unshare_expr is not needed here. vexpr is either a
SINGLE_RHS, that can be safely shared, some other RHS
that was unshared when we found it had a single debug
use, or a DEBUG_EXPR_DECL, that can be safely
shared. */
SET_USE (use_p, unshare_expr (value));
/* If we didn't replace uses with a debug decl fold the
resulting expression. Otherwise we end up with invalid IL. */
if (TREE_CODE (value) != DEBUG_EXPR_DECL)
{
gimple_stmt_iterator gsi = gsi_for_stmt (stmt);
fold_stmt_inplace (&gsi);
}
}
else
gimple_debug_bind_reset_value (stmt);
update_stmt (stmt);
}
}
/* Insert a DEBUG BIND stmt before STMT for each DEF referenced by
other DEBUG stmts, and replace uses of the DEF with the
newly-created debug temp. */
void
insert_debug_temps_for_defs (gimple_stmt_iterator *gsi)
{
gimple stmt;
ssa_op_iter op_iter;
def_operand_p def_p;
if (!MAY_HAVE_DEBUG_STMTS)
return;
stmt = gsi_stmt (*gsi);
FOR_EACH_PHI_OR_STMT_DEF (def_p, stmt, op_iter, SSA_OP_DEF)
{
tree var = DEF_FROM_PTR (def_p);
if (TREE_CODE (var) != SSA_NAME)
continue;
insert_debug_temp_for_var_def (gsi, var);
}
}
/* Reset all debug stmts that use SSA_NAME(s) defined in STMT. */
void
reset_debug_uses (gimple stmt)
{
ssa_op_iter op_iter;
def_operand_p def_p;
imm_use_iterator imm_iter;
gimple use_stmt;
if (!MAY_HAVE_DEBUG_STMTS)
return;
FOR_EACH_PHI_OR_STMT_DEF (def_p, stmt, op_iter, SSA_OP_DEF)
{
tree var = DEF_FROM_PTR (def_p);
if (TREE_CODE (var) != SSA_NAME)
continue;
FOR_EACH_IMM_USE_STMT (use_stmt, imm_iter, var)
{
if (!gimple_debug_bind_p (use_stmt))
continue;
gimple_debug_bind_reset_value (use_stmt);
update_stmt (use_stmt);
}
}
}
/* Delete SSA DEFs for SSA versions in the TOREMOVE bitmap, removing
dominated stmts before their dominators, so that release_ssa_defs
stands a chance of propagating DEFs into debug bind stmts. */
void
release_defs_bitset (bitmap toremove)
{
unsigned j;
bitmap_iterator bi;
/* Performing a topological sort is probably overkill, this will
most likely run in slightly superlinear time, rather than the
pathological quadratic worst case. */
while (!bitmap_empty_p (toremove))
EXECUTE_IF_SET_IN_BITMAP (toremove, 0, j, bi)
{
bool remove_now = true;
tree var = ssa_name (j);
gimple stmt;
imm_use_iterator uit;
FOR_EACH_IMM_USE_STMT (stmt, uit, var)
{
ssa_op_iter dit;
def_operand_p def_p;
/* We can't propagate PHI nodes into debug stmts. */
if (gimple_code (stmt) == GIMPLE_PHI
|| is_gimple_debug (stmt))
continue;
/* If we find another definition to remove that uses
the one we're looking at, defer the removal of this
one, so that it can be propagated into debug stmts
after the other is. */
FOR_EACH_SSA_DEF_OPERAND (def_p, stmt, dit, SSA_OP_DEF)
{
tree odef = DEF_FROM_PTR (def_p);
if (bitmap_bit_p (toremove, SSA_NAME_VERSION (odef)))
{
remove_now = false;
break;
}
}
if (!remove_now)
BREAK_FROM_IMM_USE_STMT (uit);
}
if (remove_now)
{
gimple def = SSA_NAME_DEF_STMT (var);
gimple_stmt_iterator gsi = gsi_for_stmt (def);
if (gimple_code (def) == GIMPLE_PHI)
remove_phi_node (&gsi, true);
else
{
gsi_remove (&gsi, true);
release_defs (def);
}
bitmap_clear_bit (toremove, j);
}
}
}
/* Return true if SSA_NAME is malformed and mark it visited.
IS_VIRTUAL is true if this SSA_NAME was found inside a virtual
operand. */
static bool
verify_ssa_name (tree ssa_name, bool is_virtual)
{
if (TREE_CODE (ssa_name) != SSA_NAME)
{
error ("expected an SSA_NAME object");
return true;
}
if (SSA_NAME_IN_FREE_LIST (ssa_name))
{
error ("found an SSA_NAME that had been released into the free pool");
return true;
}
if (SSA_NAME_VAR (ssa_name) != NULL_TREE
&& TREE_TYPE (ssa_name) != TREE_TYPE (SSA_NAME_VAR (ssa_name)))
{
error ("type mismatch between an SSA_NAME and its symbol");
return true;
}
if (is_virtual && !virtual_operand_p (ssa_name))
{
error ("found a virtual definition for a GIMPLE register");
return true;
}
if (is_virtual && SSA_NAME_VAR (ssa_name) != gimple_vop (cfun))
{
error ("virtual SSA name for non-VOP decl");
return true;
}
if (!is_virtual && virtual_operand_p (ssa_name))
{
error ("found a real definition for a non-register");
return true;
}
if (SSA_NAME_IS_DEFAULT_DEF (ssa_name)
&& !gimple_nop_p (SSA_NAME_DEF_STMT (ssa_name)))
{
error ("found a default name with a non-empty defining statement");
return true;
}
return false;
}
/* Return true if the definition of SSA_NAME at block BB is malformed.
STMT is the statement where SSA_NAME is created.
DEFINITION_BLOCK is an array of basic blocks indexed by SSA_NAME
version numbers. If DEFINITION_BLOCK[SSA_NAME_VERSION] is set,
it means that the block in that array slot contains the
definition of SSA_NAME.
IS_VIRTUAL is true if SSA_NAME is created by a VDEF. */
static bool
verify_def (basic_block bb, basic_block *definition_block, tree ssa_name,
gimple stmt, bool is_virtual)
{
if (verify_ssa_name (ssa_name, is_virtual))
goto err;
if (SSA_NAME_VAR (ssa_name)
&& TREE_CODE (SSA_NAME_VAR (ssa_name)) == RESULT_DECL
&& DECL_BY_REFERENCE (SSA_NAME_VAR (ssa_name)))
{
error ("RESULT_DECL should be read only when DECL_BY_REFERENCE is set");
goto err;
}
if (definition_block[SSA_NAME_VERSION (ssa_name)])
{
error ("SSA_NAME created in two different blocks %i and %i",
definition_block[SSA_NAME_VERSION (ssa_name)]->index, bb->index);
goto err;
}
definition_block[SSA_NAME_VERSION (ssa_name)] = bb;
if (SSA_NAME_DEF_STMT (ssa_name) != stmt)
{
error ("SSA_NAME_DEF_STMT is wrong");
fprintf (stderr, "Expected definition statement:\n");
print_gimple_stmt (stderr, SSA_NAME_DEF_STMT (ssa_name), 4, TDF_VOPS);
fprintf (stderr, "\nActual definition statement:\n");
print_gimple_stmt (stderr, stmt, 4, TDF_VOPS);
goto err;
}
return false;
err:
fprintf (stderr, "while verifying SSA_NAME ");
print_generic_expr (stderr, ssa_name, 0);
fprintf (stderr, " in statement\n");
print_gimple_stmt (stderr, stmt, 4, TDF_VOPS);
return true;
}
/* Return true if the use of SSA_NAME at statement STMT in block BB is
malformed.
DEF_BB is the block where SSA_NAME was found to be created.
IDOM contains immediate dominator information for the flowgraph.
CHECK_ABNORMAL is true if the caller wants to check whether this use
is flowing through an abnormal edge (only used when checking PHI
arguments).
If NAMES_DEFINED_IN_BB is not NULL, it contains a bitmap of ssa names
that are defined before STMT in basic block BB. */
static bool
verify_use (basic_block bb, basic_block def_bb, use_operand_p use_p,
gimple stmt, bool check_abnormal, bitmap names_defined_in_bb)
{
bool err = false;
tree ssa_name = USE_FROM_PTR (use_p);
if (!TREE_VISITED (ssa_name))
if (verify_imm_links (stderr, ssa_name))
err = true;
TREE_VISITED (ssa_name) = 1;
if (gimple_nop_p (SSA_NAME_DEF_STMT (ssa_name))
&& SSA_NAME_IS_DEFAULT_DEF (ssa_name))
; /* Default definitions have empty statements. Nothing to do. */
else if (!def_bb)
{
error ("missing definition");
err = true;
}
else if (bb != def_bb
&& !dominated_by_p (CDI_DOMINATORS, bb, def_bb))
{
error ("definition in block %i does not dominate use in block %i",
def_bb->index, bb->index);
err = true;
}
else if (bb == def_bb
&& names_defined_in_bb != NULL
&& !bitmap_bit_p (names_defined_in_bb, SSA_NAME_VERSION (ssa_name)))
{
error ("definition in block %i follows the use", def_bb->index);
err = true;
}
if (check_abnormal
&& !SSA_NAME_OCCURS_IN_ABNORMAL_PHI (ssa_name))
{
error ("SSA_NAME_OCCURS_IN_ABNORMAL_PHI should be set");
err = true;
}
/* Make sure the use is in an appropriate list by checking the previous
element to make sure it's the same. */
if (use_p->prev == NULL)
{
error ("no immediate_use list");
err = true;
}
else
{
tree listvar;
if (use_p->prev->use == NULL)
listvar = use_p->prev->loc.ssa_name;
else
listvar = USE_FROM_PTR (use_p->prev);
if (listvar != ssa_name)
{
error ("wrong immediate use list");
err = true;
}
}
if (err)
{
fprintf (stderr, "for SSA_NAME: ");
print_generic_expr (stderr, ssa_name, TDF_VOPS);
fprintf (stderr, " in statement:\n");
print_gimple_stmt (stderr, stmt, 0, TDF_VOPS);
}
return err;
}
/* Return true if any of the arguments for PHI node PHI at block BB is
malformed.
DEFINITION_BLOCK is an array of basic blocks indexed by SSA_NAME
version numbers. If DEFINITION_BLOCK[SSA_NAME_VERSION] is set,
it means that the block in that array slot contains the
definition of SSA_NAME. */
static bool
verify_phi_args (gimple phi, basic_block bb, basic_block *definition_block)
{
edge e;
bool err = false;
size_t i, phi_num_args = gimple_phi_num_args (phi);
if (EDGE_COUNT (bb->preds) != phi_num_args)
{
error ("incoming edge count does not match number of PHI arguments");
err = true;
goto error;
}
for (i = 0; i < phi_num_args; i++)
{
use_operand_p op_p = gimple_phi_arg_imm_use_ptr (phi, i);
tree op = USE_FROM_PTR (op_p);
e = EDGE_PRED (bb, i);
if (op == NULL_TREE)
{
error ("PHI argument is missing for edge %d->%d",
e->src->index,
e->dest->index);
err = true;
goto error;
}
if (TREE_CODE (op) != SSA_NAME && !is_gimple_min_invariant (op))
{
error ("PHI argument is not SSA_NAME, or invariant");
err = true;
}
if (TREE_CODE (op) == SSA_NAME)
{
err = verify_ssa_name (op, virtual_operand_p (gimple_phi_result (phi)));
err |= verify_use (e->src, definition_block[SSA_NAME_VERSION (op)],
op_p, phi, e->flags & EDGE_ABNORMAL, NULL);
}
if (TREE_CODE (op) == ADDR_EXPR)
{
tree base = TREE_OPERAND (op, 0);
while (handled_component_p (base))
base = TREE_OPERAND (base, 0);
if ((TREE_CODE (base) == VAR_DECL
|| TREE_CODE (base) == PARM_DECL
|| TREE_CODE (base) == RESULT_DECL)
&& !TREE_ADDRESSABLE (base))
{
error ("address taken, but ADDRESSABLE bit not set");
err = true;
}
}
if (e->dest != bb)
{
error ("wrong edge %d->%d for PHI argument",
e->src->index, e->dest->index);
err = true;
}
if (err)
{
fprintf (stderr, "PHI argument\n");
print_generic_stmt (stderr, op, TDF_VOPS);
goto error;
}
}
error:
if (err)
{
fprintf (stderr, "for PHI node\n");
print_gimple_stmt (stderr, phi, 0, TDF_VOPS|TDF_MEMSYMS);
}
return err;
}
/* Verify common invariants in the SSA web.
TODO: verify the variable annotations. */
DEBUG_FUNCTION void
verify_ssa (bool check_modified_stmt)
{
size_t i;
basic_block bb;
basic_block *definition_block = XCNEWVEC (basic_block, num_ssa_names);
ssa_op_iter iter;
tree op;
enum dom_state orig_dom_state = dom_info_state (CDI_DOMINATORS);
bitmap names_defined_in_bb = BITMAP_ALLOC (NULL);
gcc_assert (!need_ssa_update_p (cfun));
timevar_push (TV_TREE_SSA_VERIFY);
/* Keep track of SSA names present in the IL. */
for (i = 1; i < num_ssa_names; i++)
{
tree name = ssa_name (i);
if (name)
{
gimple stmt;
TREE_VISITED (name) = 0;
verify_ssa_name (name, virtual_operand_p (name));
stmt = SSA_NAME_DEF_STMT (name);
if (!gimple_nop_p (stmt))
{
basic_block bb = gimple_bb (stmt);
verify_def (bb, definition_block,
name, stmt, virtual_operand_p (name));
}
}
}
calculate_dominance_info (CDI_DOMINATORS);
/* Now verify all the uses and make sure they agree with the definitions
found in the previous pass. */
FOR_EACH_BB (bb)
{
edge e;
gimple phi;
edge_iterator ei;
gimple_stmt_iterator gsi;
/* Make sure that all edges have a clear 'aux' field. */
FOR_EACH_EDGE (e, ei, bb->preds)
{
if (e->aux)
{
error ("AUX pointer initialized for edge %d->%d", e->src->index,
e->dest->index);
goto err;
}
}
/* Verify the arguments for every PHI node in the block. */
for (gsi = gsi_start_phis (bb); !gsi_end_p (gsi); gsi_next (&gsi))
{
phi = gsi_stmt (gsi);
if (verify_phi_args (phi, bb, definition_block))
goto err;
bitmap_set_bit (names_defined_in_bb,
SSA_NAME_VERSION (gimple_phi_result (phi)));
}
/* Now verify all the uses and vuses in every statement of the block. */
for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
{
gimple stmt = gsi_stmt (gsi);
use_operand_p use_p;
if (check_modified_stmt && gimple_modified_p (stmt))
{
error ("stmt (%p) marked modified after optimization pass: ",
(void *)stmt);
print_gimple_stmt (stderr, stmt, 0, TDF_VOPS);
goto err;
}
if (verify_ssa_operands (stmt))
{
print_gimple_stmt (stderr, stmt, 0, TDF_VOPS);
goto err;
}
if (gimple_debug_bind_p (stmt)
&& !gimple_debug_bind_has_value_p (stmt))
continue;
FOR_EACH_SSA_USE_OPERAND (use_p, stmt, iter, SSA_OP_USE|SSA_OP_VUSE)
{
op = USE_FROM_PTR (use_p);
if (verify_use (bb, definition_block[SSA_NAME_VERSION (op)],
use_p, stmt, false, names_defined_in_bb))
goto err;
}
FOR_EACH_SSA_TREE_OPERAND (op, stmt, iter, SSA_OP_ALL_DEFS)
{
if (SSA_NAME_DEF_STMT (op) != stmt)
{
error ("SSA_NAME_DEF_STMT is wrong");
fprintf (stderr, "Expected definition statement:\n");
print_gimple_stmt (stderr, stmt, 4, TDF_VOPS);
fprintf (stderr, "\nActual definition statement:\n");
print_gimple_stmt (stderr, SSA_NAME_DEF_STMT (op),
4, TDF_VOPS);
goto err;
}
bitmap_set_bit (names_defined_in_bb, SSA_NAME_VERSION (op));
}
}
bitmap_clear (names_defined_in_bb);
}
free (definition_block);
/* Restore the dominance information to its prior known state, so
that we do not perturb the compiler's subsequent behavior. */
if (orig_dom_state == DOM_NONE)
free_dominance_info (CDI_DOMINATORS);
else
set_dom_info_availability (CDI_DOMINATORS, orig_dom_state);
BITMAP_FREE (names_defined_in_bb);
timevar_pop (TV_TREE_SSA_VERIFY);
return;
err:
internal_error ("verify_ssa failed");
}
/* Return true if the DECL_UID in both trees are equal. */
static int
uid_ssaname_map_eq (const void *va, const void *vb)
{
const_tree a = (const_tree) va;
const_tree b = (const_tree) vb;
return (a->ssa_name.var->decl_minimal.uid == b->ssa_name.var->decl_minimal.uid);
}
/* Hash a tree in a uid_decl_map. */
static unsigned int
uid_ssaname_map_hash (const void *item)
{
return ((const_tree)item)->ssa_name.var->decl_minimal.uid;
}
/* Initialize global DFA and SSA structures. */
void
init_tree_ssa (struct function *fn)
{
fn->gimple_df = ggc_alloc_cleared_gimple_df ();
fn->gimple_df->default_defs = htab_create_ggc (20, uid_ssaname_map_hash,
uid_ssaname_map_eq, NULL);
pt_solution_reset (&fn->gimple_df->escaped);
init_ssanames (fn, 0);
}
/* Do the actions required to initialize internal data structures used
in tree-ssa optimization passes. */
static unsigned int
execute_init_datastructures (void)
{
/* Allocate hash tables, arrays and other structures. */
init_tree_ssa (cfun);
return 0;
}
struct gimple_opt_pass pass_init_datastructures =
{
{
GIMPLE_PASS,
"*init_datastructures", /* name */
OPTGROUP_NONE, /* optinfo_flags */
NULL, /* gate */
execute_init_datastructures, /* execute */
NULL, /* sub */
NULL, /* next */
0, /* static_pass_number */
TV_NONE, /* tv_id */
PROP_cfg, /* properties_required */
0, /* properties_provided */
0, /* properties_destroyed */
0, /* todo_flags_start */
0 /* todo_flags_finish */
}
};
/* Deallocate memory associated with SSA data structures for FNDECL. */
void
delete_tree_ssa (void)
{
fini_ssanames ();
/* We no longer maintain the SSA operand cache at this point. */
if (ssa_operands_active (cfun))
fini_ssa_operands ();
htab_delete (cfun->gimple_df->default_defs);
cfun->gimple_df->default_defs = NULL;
pt_solution_reset (&cfun->gimple_df->escaped);
if (cfun->gimple_df->decls_to_pointers != NULL)
pointer_map_destroy (cfun->gimple_df->decls_to_pointers);
cfun->gimple_df->decls_to_pointers = NULL;
cfun->gimple_df->modified_noreturn_calls = NULL;
cfun->gimple_df = NULL;
/* We no longer need the edge variable maps. */
redirect_edge_var_map_destroy ();
}
/* Return true if the conversion from INNER_TYPE to OUTER_TYPE is a
useless type conversion, otherwise return false.
This function implicitly defines the middle-end type system. With
the notion of 'a < b' meaning that useless_type_conversion_p (a, b)
holds and 'a > b' meaning that useless_type_conversion_p (b, a) holds,
the following invariants shall be fulfilled:
1) useless_type_conversion_p is transitive.
If a < b and b < c then a < c.
2) useless_type_conversion_p is not symmetric.
From a < b does not follow a > b.
3) Types define the available set of operations applicable to values.
A type conversion is useless if the operations for the target type
is a subset of the operations for the source type. For example
casts to void* are useless, casts from void* are not (void* can't
be dereferenced or offsetted, but copied, hence its set of operations
is a strict subset of that of all other data pointer types). Casts
to const T* are useless (can't be written to), casts from const T*
to T* are not. */
bool
useless_type_conversion_p (tree outer_type, tree inner_type)
{
/* Do the following before stripping toplevel qualifiers. */
if (POINTER_TYPE_P (inner_type)
&& POINTER_TYPE_P (outer_type))
{
/* Do not lose casts between pointers to different address spaces. */
if (TYPE_ADDR_SPACE (TREE_TYPE (outer_type))
!= TYPE_ADDR_SPACE (TREE_TYPE (inner_type)))
return false;
}
/* From now on qualifiers on value types do not matter. */
inner_type = TYPE_MAIN_VARIANT (inner_type);
outer_type = TYPE_MAIN_VARIANT (outer_type);
if (inner_type == outer_type)
return true;
/* If we know the canonical types, compare them. */
if (TYPE_CANONICAL (inner_type)
&& TYPE_CANONICAL (inner_type) == TYPE_CANONICAL (outer_type))
return true;
/* Changes in machine mode are never useless conversions unless we
deal with aggregate types in which case we defer to later checks. */
if (TYPE_MODE (inner_type) != TYPE_MODE (outer_type)
&& !AGGREGATE_TYPE_P (inner_type))
return false;
/* If both the inner and outer types are integral types, then the
conversion is not necessary if they have the same mode and
signedness and precision, and both or neither are boolean. */
if (INTEGRAL_TYPE_P (inner_type)
&& INTEGRAL_TYPE_P (outer_type))
{
/* Preserve changes in signedness or precision. */
if (TYPE_UNSIGNED (inner_type) != TYPE_UNSIGNED (outer_type)
|| TYPE_PRECISION (inner_type) != TYPE_PRECISION (outer_type))
return false;
/* Preserve conversions to/from BOOLEAN_TYPE if types are not
of precision one. */
if (((TREE_CODE (inner_type) == BOOLEAN_TYPE)
!= (TREE_CODE (outer_type) == BOOLEAN_TYPE))
&& TYPE_PRECISION (outer_type) != 1)
return false;
/* We don't need to preserve changes in the types minimum or
maximum value in general as these do not generate code
unless the types precisions are different. */
return true;
}
/* Scalar floating point types with the same mode are compatible. */
else if (SCALAR_FLOAT_TYPE_P (inner_type)
&& SCALAR_FLOAT_TYPE_P (outer_type))
return true;
/* Fixed point types with the same mode are compatible. */
else if (FIXED_POINT_TYPE_P (inner_type)
&& FIXED_POINT_TYPE_P (outer_type))
return true;
/* We need to take special care recursing to pointed-to types. */
else if (POINTER_TYPE_P (inner_type)
&& POINTER_TYPE_P (outer_type))
{
/* Do not lose casts to function pointer types. */
if ((TREE_CODE (TREE_TYPE (outer_type)) == FUNCTION_TYPE
|| TREE_CODE (TREE_TYPE (outer_type)) == METHOD_TYPE)
&& !(TREE_CODE (TREE_TYPE (inner_type)) == FUNCTION_TYPE
|| TREE_CODE (TREE_TYPE (inner_type)) == METHOD_TYPE))
return false;
/* We do not care for const qualification of the pointed-to types
as const qualification has no semantic value to the middle-end. */
/* Otherwise pointers/references are equivalent. */
return true;
}
/* Recurse for complex types. */
else if (TREE_CODE (inner_type) == COMPLEX_TYPE
&& TREE_CODE (outer_type) == COMPLEX_TYPE)
return useless_type_conversion_p (TREE_TYPE (outer_type),
TREE_TYPE (inner_type));
/* Recurse for vector types with the same number of subparts. */
else if (TREE_CODE (inner_type) == VECTOR_TYPE
&& TREE_CODE (outer_type) == VECTOR_TYPE
&& TYPE_PRECISION (inner_type) == TYPE_PRECISION (outer_type))
return useless_type_conversion_p (TREE_TYPE (outer_type),
TREE_TYPE (inner_type));
else if (TREE_CODE (inner_type) == ARRAY_TYPE
&& TREE_CODE (outer_type) == ARRAY_TYPE)
{
/* Preserve string attributes. */
if (TYPE_STRING_FLAG (inner_type) != TYPE_STRING_FLAG (outer_type))
return false;
/* Conversions from array types with unknown extent to
array types with known extent are not useless. */
if (!TYPE_DOMAIN (inner_type)
&& TYPE_DOMAIN (outer_type))
return false;
/* Nor are conversions from array types with non-constant size to
array types with constant size or to different size. */
if (TYPE_SIZE (outer_type)
&& TREE_CODE (TYPE_SIZE (outer_type)) == INTEGER_CST
&& (!TYPE_SIZE (inner_type)
|| TREE_CODE (TYPE_SIZE (inner_type)) != INTEGER_CST
|| !tree_int_cst_equal (TYPE_SIZE (outer_type),
TYPE_SIZE (inner_type))))
return false;
/* Check conversions between arrays with partially known extents.
If the array min/max values are constant they have to match.
Otherwise allow conversions to unknown and variable extents.
In particular this declares conversions that may change the
mode to BLKmode as useless. */
if (TYPE_DOMAIN (inner_type)
&& TYPE_DOMAIN (outer_type)
&& TYPE_DOMAIN (inner_type) != TYPE_DOMAIN (outer_type))
{
tree inner_min = TYPE_MIN_VALUE (TYPE_DOMAIN (inner_type));
tree outer_min = TYPE_MIN_VALUE (TYPE_DOMAIN (outer_type));
tree inner_max = TYPE_MAX_VALUE (TYPE_DOMAIN (inner_type));
tree outer_max = TYPE_MAX_VALUE (TYPE_DOMAIN (outer_type));
/* After gimplification a variable min/max value carries no
additional information compared to a NULL value. All that
matters has been lowered to be part of the IL. */
if (inner_min && TREE_CODE (inner_min) != INTEGER_CST)
inner_min = NULL_TREE;
if (outer_min && TREE_CODE (outer_min) != INTEGER_CST)
outer_min = NULL_TREE;
if (inner_max && TREE_CODE (inner_max) != INTEGER_CST)
inner_max = NULL_TREE;
if (outer_max && TREE_CODE (outer_max) != INTEGER_CST)
outer_max = NULL_TREE;
/* Conversions NULL / variable <- cst are useless, but not
the other way around. */
if (outer_min
&& (!inner_min
|| !tree_int_cst_equal (inner_min, outer_min)))
return false;
if (outer_max
&& (!inner_max
|| !tree_int_cst_equal (inner_max, outer_max)))
return false;
}
/* Recurse on the element check. */
return useless_type_conversion_p (TREE_TYPE (outer_type),
TREE_TYPE (inner_type));
}
else if ((TREE_CODE (inner_type) == FUNCTION_TYPE
|| TREE_CODE (inner_type) == METHOD_TYPE)
&& TREE_CODE (inner_type) == TREE_CODE (outer_type))
{
tree outer_parm, inner_parm;
/* If the return types are not compatible bail out. */
if (!useless_type_conversion_p (TREE_TYPE (outer_type),
TREE_TYPE (inner_type)))
return false;
/* Method types should belong to a compatible base class. */
if (TREE_CODE (inner_type) == METHOD_TYPE
&& !useless_type_conversion_p (TYPE_METHOD_BASETYPE (outer_type),
TYPE_METHOD_BASETYPE (inner_type)))
return false;
/* A conversion to an unprototyped argument list is ok. */
if (!prototype_p (outer_type))
return true;
/* If the unqualified argument types are compatible the conversion
is useless. */
if (TYPE_ARG_TYPES (outer_type) == TYPE_ARG_TYPES (inner_type))
return true;
for (outer_parm = TYPE_ARG_TYPES (outer_type),
inner_parm = TYPE_ARG_TYPES (inner_type);
outer_parm && inner_parm;
outer_parm = TREE_CHAIN (outer_parm),
inner_parm = TREE_CHAIN (inner_parm))
if (!useless_type_conversion_p
(TYPE_MAIN_VARIANT (TREE_VALUE (outer_parm)),
TYPE_MAIN_VARIANT (TREE_VALUE (inner_parm))))
return false;
/* If there is a mismatch in the number of arguments the functions
are not compatible. */
if (outer_parm || inner_parm)
return false;
/* Defer to the target if necessary. */
if (TYPE_ATTRIBUTES (inner_type) || TYPE_ATTRIBUTES (outer_type))
return comp_type_attributes (outer_type, inner_type) != 0;
return true;
}
/* For aggregates we rely on TYPE_CANONICAL exclusively and require
explicit conversions for types involving to be structurally
compared types. */
else if (AGGREGATE_TYPE_P (inner_type)
&& TREE_CODE (inner_type) == TREE_CODE (outer_type))
return false;
return false;
}
/* Return true if a conversion from either type of TYPE1 and TYPE2
to the other is not required. Otherwise return false. */
bool
types_compatible_p (tree type1, tree type2)
{
return (type1 == type2
|| (useless_type_conversion_p (type1, type2)
&& useless_type_conversion_p (type2, type1)));
}
/* Return true if EXPR is a useless type conversion, otherwise return
false. */
bool
tree_ssa_useless_type_conversion (tree expr)
{
/* If we have an assignment that merely uses a NOP_EXPR to change
the top of the RHS to the type of the LHS and the type conversion
is "safe", then strip away the type conversion so that we can
enter LHS = RHS into the const_and_copies table. */
if (CONVERT_EXPR_P (expr)
|| TREE_CODE (expr) == VIEW_CONVERT_EXPR
|| TREE_CODE (expr) == NON_LVALUE_EXPR)
return useless_type_conversion_p
(TREE_TYPE (expr),
TREE_TYPE (TREE_OPERAND (expr, 0)));
return false;
}
/* Strip conversions from EXP according to
tree_ssa_useless_type_conversion and return the resulting
expression. */
tree
tree_ssa_strip_useless_type_conversions (tree exp)
{
while (tree_ssa_useless_type_conversion (exp))
exp = TREE_OPERAND (exp, 0);
return exp;
}
/* Internal helper for walk_use_def_chains. VAR, FN and DATA are as
described in walk_use_def_chains.
VISITED is a pointer set used to mark visited SSA_NAMEs to avoid
infinite loops. We used to have a bitmap for this to just mark
SSA versions we had visited. But non-sparse bitmaps are way too
expensive, while sparse bitmaps may cause quadratic behavior.
IS_DFS is true if the caller wants to perform a depth-first search
when visiting PHI nodes. A DFS will visit each PHI argument and
call FN after each one. Otherwise, all the arguments are
visited first and then FN is called with each of the visited
arguments in a separate pass. */
static bool
walk_use_def_chains_1 (tree var, walk_use_def_chains_fn fn, void *data,
struct pointer_set_t *visited, bool is_dfs)
{
gimple def_stmt;
if (pointer_set_insert (visited, var))
return false;
def_stmt = SSA_NAME_DEF_STMT (var);
if (gimple_code (def_stmt) != GIMPLE_PHI)
{
/* If we reached the end of the use-def chain, call FN. */
return fn (var, def_stmt, data);
}
else
{
size_t i;
/* When doing a breadth-first search, call FN before following the
use-def links for each argument. */
if (!is_dfs)
for (i = 0; i < gimple_phi_num_args (def_stmt); i++)
if (fn (gimple_phi_arg_def (def_stmt, i), def_stmt, data))
return true;
/* Follow use-def links out of each PHI argument. */
for (i = 0; i < gimple_phi_num_args (def_stmt); i++)
{
tree arg = gimple_phi_arg_def (def_stmt, i);
/* ARG may be NULL for newly introduced PHI nodes. */
if (arg
&& TREE_CODE (arg) == SSA_NAME
&& walk_use_def_chains_1 (arg, fn, data, visited, is_dfs))
return true;
}
/* When doing a depth-first search, call FN after following the
use-def links for each argument. */
if (is_dfs)
for (i = 0; i < gimple_phi_num_args (def_stmt); i++)
if (fn (gimple_phi_arg_def (def_stmt, i), def_stmt, data))
return true;
}
return false;
}
/* Walk use-def chains starting at the SSA variable VAR. Call
function FN at each reaching definition found. FN takes three
arguments: VAR, its defining statement (DEF_STMT) and a generic
pointer to whatever state information that FN may want to maintain
(DATA). FN is able to stop the walk by returning true, otherwise
in order to continue the walk, FN should return false.
Note, that if DEF_STMT is a PHI node, the semantics are slightly
different. The first argument to FN is no longer the original
variable VAR, but the PHI argument currently being examined. If FN
wants to get at VAR, it should call PHI_RESULT (PHI).
If IS_DFS is true, this function will:
1- walk the use-def chains for all the PHI arguments, and,
2- call (*FN) (ARG, PHI, DATA) on all the PHI arguments.
If IS_DFS is false, the two steps above are done in reverse order
(i.e., a breadth-first search). */
void
walk_use_def_chains (tree var, walk_use_def_chains_fn fn, void *data,
bool is_dfs)
{
gimple def_stmt;
gcc_assert (TREE_CODE (var) == SSA_NAME);
def_stmt = SSA_NAME_DEF_STMT (var);
/* We only need to recurse if the reaching definition comes from a PHI
node. */
if (gimple_code (def_stmt) != GIMPLE_PHI)
(*fn) (var, def_stmt, data);
else
{
struct pointer_set_t *visited = pointer_set_create ();
walk_use_def_chains_1 (var, fn, data, visited, is_dfs);
pointer_set_destroy (visited);
}
}
/* Emit warnings for uninitialized variables. This is done in two passes.
The first pass notices real uses of SSA names with undefined values.
Such uses are unconditionally uninitialized, and we can be certain that
such a use is a mistake. This pass is run before most optimizations,
so that we catch as many as we can.
The second pass follows PHI nodes to find uses that are potentially
uninitialized. In this case we can't necessarily prove that the use
is really uninitialized. This pass is run after most optimizations,
so that we thread as many jumps and possible, and delete as much dead
code as possible, in order to reduce false positives. We also look
again for plain uninitialized variables, since optimization may have
changed conditionally uninitialized to unconditionally uninitialized. */
/* Emit a warning for EXPR based on variable VAR at the point in the
program T, an SSA_NAME, is used being uninitialized. The exact
warning text is in MSGID and LOCUS may contain a location or be null.
WC is the warning code. */
void
warn_uninit (enum opt_code wc, tree t,
tree expr, tree var, const char *gmsgid, void *data)
{
gimple context = (gimple) data;
location_t location, cfun_loc;
expanded_location xloc, floc;
if (!ssa_undefined_value_p (t))
return;
/* TREE_NO_WARNING either means we already warned, or the front end
wishes to suppress the warning. */
if ((context
&& (gimple_no_warning_p (context)
|| (gimple_assign_single_p (context)
&& TREE_NO_WARNING (gimple_assign_rhs1 (context)))))
|| TREE_NO_WARNING (expr))
return;
location = (context != NULL && gimple_has_location (context))
? gimple_location (context)
: DECL_SOURCE_LOCATION (var);
location = linemap_resolve_location (line_table, location,
LRK_SPELLING_LOCATION,
NULL);
cfun_loc = DECL_SOURCE_LOCATION (cfun->decl);
xloc = expand_location (location);
floc = expand_location (cfun_loc);
if (warning_at (location, wc, gmsgid, expr))
{
TREE_NO_WARNING (expr) = 1;
if (location == DECL_SOURCE_LOCATION (var))
return;
if (xloc.file != floc.file
|| linemap_location_before_p (line_table,
location, cfun_loc)
|| linemap_location_before_p (line_table,
cfun->function_end_locus,
location))
inform (DECL_SOURCE_LOCATION (var), "%qD was declared here", var);
}
}
unsigned int
warn_uninitialized_vars (bool warn_possibly_uninitialized)
{
gimple_stmt_iterator gsi;
basic_block bb;
FOR_EACH_BB (bb)
{
bool always_executed = dominated_by_p (CDI_POST_DOMINATORS,
single_succ (ENTRY_BLOCK_PTR), bb);
for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
{
gimple stmt = gsi_stmt (gsi);
use_operand_p use_p;
ssa_op_iter op_iter;
tree use;
if (is_gimple_debug (stmt))
continue;
/* We only do data flow with SSA_NAMEs, so that's all we
can warn about. */
FOR_EACH_SSA_USE_OPERAND (use_p, stmt, op_iter, SSA_OP_USE)
{
use = USE_FROM_PTR (use_p);
if (always_executed)
warn_uninit (OPT_Wuninitialized, use,
SSA_NAME_VAR (use), SSA_NAME_VAR (use),
"%qD is used uninitialized in this function",
stmt);
else if (warn_possibly_uninitialized)
warn_uninit (OPT_Wmaybe_uninitialized, use,
SSA_NAME_VAR (use), SSA_NAME_VAR (use),
"%qD may be used uninitialized in this function",
stmt);
}
/* For memory the only cheap thing we can do is see if we
have a use of the default def of the virtual operand.
??? Note that at -O0 we do not have virtual operands.
??? Not so cheap would be to use the alias oracle via
walk_aliased_vdefs, if we don't find any aliasing vdef
warn as is-used-uninitialized, if we don't find an aliasing
vdef that kills our use (stmt_kills_ref_p), warn as
may-be-used-uninitialized. But this walk is quadratic and
so must be limited which means we would miss warning
opportunities. */
use = gimple_vuse (stmt);
if (use
&& gimple_assign_single_p (stmt)
&& !gimple_vdef (stmt)
&& SSA_NAME_IS_DEFAULT_DEF (use))
{
tree rhs = gimple_assign_rhs1 (stmt);
tree base = get_base_address (rhs);
/* Do not warn if it can be initialized outside this function. */
if (TREE_CODE (base) != VAR_DECL
|| DECL_HARD_REGISTER (base)
|| is_global_var (base))
continue;
if (always_executed)
warn_uninit (OPT_Wuninitialized, use,
gimple_assign_rhs1 (stmt), base,
"%qE is used uninitialized in this function",
stmt);
else if (warn_possibly_uninitialized)
warn_uninit (OPT_Wmaybe_uninitialized, use,
gimple_assign_rhs1 (stmt), base,
"%qE may be used uninitialized in this function",
stmt);
}
}
}
return 0;
}
static unsigned int
execute_early_warn_uninitialized (void)
{
/* Currently, this pass runs always but
execute_late_warn_uninitialized only runs with optimization. With
optimization we want to warn about possible uninitialized as late
as possible, thus don't do it here. However, without
optimization we need to warn here about "may be uninitialized".
*/
calculate_dominance_info (CDI_POST_DOMINATORS);
warn_uninitialized_vars (/*warn_possibly_uninitialized=*/!optimize);
/* Post-dominator information can not be reliably updated. Free it
after the use. */
free_dominance_info (CDI_POST_DOMINATORS);
return 0;
}
static bool
gate_warn_uninitialized (void)
{
return warn_uninitialized != 0;
}
struct gimple_opt_pass pass_early_warn_uninitialized =
{
{
GIMPLE_PASS,
"*early_warn_uninitialized", /* name */
OPTGROUP_NONE, /* optinfo_flags */
gate_warn_uninitialized, /* gate */
execute_early_warn_uninitialized, /* execute */
NULL, /* sub */
NULL, /* next */
0, /* static_pass_number */
TV_TREE_UNINIT, /* tv_id */
PROP_ssa, /* properties_required */
0, /* properties_provided */
0, /* properties_destroyed */
0, /* todo_flags_start */
0 /* todo_flags_finish */
}
};
/* If necessary, rewrite the base of the reference tree *TP from
a MEM_REF to a plain or converted symbol. */
static void
maybe_rewrite_mem_ref_base (tree *tp, bitmap suitable_for_renaming)
{
tree sym;
while (handled_component_p (*tp))
tp = &TREE_OPERAND (*tp, 0);
if (TREE_CODE (*tp) == MEM_REF
&& TREE_CODE (TREE_OPERAND (*tp, 0)) == ADDR_EXPR
&& (sym = TREE_OPERAND (TREE_OPERAND (*tp, 0), 0))
&& DECL_P (sym)
&& !TREE_ADDRESSABLE (sym)
&& bitmap_bit_p (suitable_for_renaming, DECL_UID (sym)))
{
if (TREE_CODE (TREE_TYPE (sym)) == VECTOR_TYPE
&& useless_type_conversion_p (TREE_TYPE (*tp),
TREE_TYPE (TREE_TYPE (sym)))
&& multiple_of_p (sizetype, TREE_OPERAND (*tp, 1),
TYPE_SIZE_UNIT (TREE_TYPE (*tp))))
{
*tp = build3 (BIT_FIELD_REF, TREE_TYPE (*tp), sym,
TYPE_SIZE (TREE_TYPE (*tp)),
int_const_binop (MULT_EXPR,
bitsize_int (BITS_PER_UNIT),
TREE_OPERAND (*tp, 1)));
}
else if (TREE_CODE (TREE_TYPE (sym)) == COMPLEX_TYPE
&& useless_type_conversion_p (TREE_TYPE (*tp),
TREE_TYPE (TREE_TYPE (sym))))
{
*tp = build1 (integer_zerop (TREE_OPERAND (*tp, 1))
? REALPART_EXPR : IMAGPART_EXPR,
TREE_TYPE (*tp), sym);
}
else if (integer_zerop (TREE_OPERAND (*tp, 1)))
{
if (!useless_type_conversion_p (TREE_TYPE (*tp),
TREE_TYPE (sym)))
*tp = build1 (VIEW_CONVERT_EXPR,
TREE_TYPE (*tp), sym);
else
*tp = sym;
}
}
}
/* For a tree REF return its base if it is the base of a MEM_REF
that cannot be rewritten into SSA form. Otherwise return NULL_TREE. */
static tree
non_rewritable_mem_ref_base (tree ref)
{
tree base = ref;
/* A plain decl does not need it set. */
if (DECL_P (ref))
return NULL_TREE;
while (handled_component_p (base))
base = TREE_OPERAND (base, 0);
/* But watch out for MEM_REFs we cannot lower to a
VIEW_CONVERT_EXPR or a BIT_FIELD_REF. */
if (TREE_CODE (base) == MEM_REF
&& TREE_CODE (TREE_OPERAND (base, 0)) == ADDR_EXPR)
{
tree decl = TREE_OPERAND (TREE_OPERAND (base, 0), 0);
if ((TREE_CODE (TREE_TYPE (decl)) == VECTOR_TYPE
|| TREE_CODE (TREE_TYPE (decl)) == COMPLEX_TYPE)
&& useless_type_conversion_p (TREE_TYPE (base),
TREE_TYPE (TREE_TYPE (decl)))
&& mem_ref_offset (base).fits_uhwi ()
&& tree_to_double_int (TYPE_SIZE_UNIT (TREE_TYPE (decl)))
.ugt (mem_ref_offset (base))
&& multiple_of_p (sizetype, TREE_OPERAND (base, 1),
TYPE_SIZE_UNIT (TREE_TYPE (base))))
return NULL_TREE;
if (DECL_P (decl)
&& (!integer_zerop (TREE_OPERAND (base, 1))
|| (DECL_SIZE (decl)
!= TYPE_SIZE (TREE_TYPE (base)))
|| TREE_THIS_VOLATILE (decl) != TREE_THIS_VOLATILE (base)))
return decl;
}
return NULL_TREE;
}
/* For an lvalue tree LHS return true if it cannot be rewritten into SSA form.
Otherwise return true. */
static bool
non_rewritable_lvalue_p (tree lhs)
{
/* A plain decl is always rewritable. */
if (DECL_P (lhs))
return false;
/* A decl that is wrapped inside a MEM-REF that covers
it full is also rewritable.
??? The following could be relaxed allowing component
references that do not change the access size. */
if (TREE_CODE (lhs) == MEM_REF
&& TREE_CODE (TREE_OPERAND (lhs, 0)) == ADDR_EXPR
&& integer_zerop (TREE_OPERAND (lhs, 1)))
{
tree decl = TREE_OPERAND (TREE_OPERAND (lhs, 0), 0);
if (DECL_P (decl)
&& DECL_SIZE (decl) == TYPE_SIZE (TREE_TYPE (lhs))
&& (TREE_THIS_VOLATILE (decl) == TREE_THIS_VOLATILE (lhs)))
return false;
}
return true;
}
/* When possible, clear TREE_ADDRESSABLE bit or set DECL_GIMPLE_REG_P bit and
mark the variable VAR for conversion into SSA. Return true when updating
stmts is required. */
static void
maybe_optimize_var (tree var, bitmap addresses_taken, bitmap not_reg_needs,
bitmap suitable_for_renaming)
{
/* Global Variables, result decls cannot be changed. */
if (is_global_var (var)
|| TREE_CODE (var) == RESULT_DECL
|| bitmap_bit_p (addresses_taken, DECL_UID (var)))
return;
if (TREE_ADDRESSABLE (var)
/* Do not change TREE_ADDRESSABLE if we need to preserve var as
a non-register. Otherwise we are confused and forget to
add virtual operands for it. */
&& (!is_gimple_reg_type (TREE_TYPE (var))
|| TREE_CODE (TREE_TYPE (var)) == VECTOR_TYPE
|| TREE_CODE (TREE_TYPE (var)) == COMPLEX_TYPE
|| !bitmap_bit_p (not_reg_needs, DECL_UID (var))))
{
TREE_ADDRESSABLE (var) = 0;
if (is_gimple_reg (var))
bitmap_set_bit (suitable_for_renaming, DECL_UID (var));
if (dump_file)
{
fprintf (dump_file, "No longer having address taken: ");
print_generic_expr (dump_file, var, 0);
fprintf (dump_file, "\n");
}
}
if (!DECL_GIMPLE_REG_P (var)
&& !bitmap_bit_p (not_reg_needs, DECL_UID (var))
&& (TREE_CODE (TREE_TYPE (var)) == COMPLEX_TYPE
|| TREE_CODE (TREE_TYPE (var)) == VECTOR_TYPE)
&& !TREE_THIS_VOLATILE (var)
&& (TREE_CODE (var) != VAR_DECL || !DECL_HARD_REGISTER (var)))
{
DECL_GIMPLE_REG_P (var) = 1;
bitmap_set_bit (suitable_for_renaming, DECL_UID (var));
if (dump_file)
{
fprintf (dump_file, "Now a gimple register: ");
print_generic_expr (dump_file, var, 0);
fprintf (dump_file, "\n");
}
}
}
/* Compute TREE_ADDRESSABLE and DECL_GIMPLE_REG_P for local variables. */
void
execute_update_addresses_taken (void)
{
gimple_stmt_iterator gsi;
basic_block bb;
bitmap addresses_taken = BITMAP_ALLOC (NULL);
bitmap not_reg_needs = BITMAP_ALLOC (NULL);
bitmap suitable_for_renaming = BITMAP_ALLOC (NULL);
tree var;
unsigned i;
timevar_push (TV_ADDRESS_TAKEN);
/* Collect into ADDRESSES_TAKEN all variables whose address is taken within
the function body. */
FOR_EACH_BB (bb)
{
for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi))
{
gimple stmt = gsi_stmt (gsi);
enum gimple_code code = gimple_code (stmt);
tree decl;
/* Note all addresses taken by the stmt. */
gimple_ior_addresses_taken (addresses_taken, stmt);
/* If we have a call or an assignment, see if the lhs contains
a local decl that requires not to be a gimple register. */
if (code == GIMPLE_ASSIGN || code == GIMPLE_CALL)
{
tree lhs = gimple_get_lhs (stmt);
if (lhs
&& TREE_CODE (lhs) != SSA_NAME
&& non_rewritable_lvalue_p (lhs))
{
decl = get_base_address (lhs);
if (DECL_P (decl))
bitmap_set_bit (not_reg_needs, DECL_UID (decl));
}
}
if (gimple_assign_single_p (stmt))
{
tree rhs = gimple_assign_rhs1 (stmt);
if ((decl = non_rewritable_mem_ref_base (rhs)))
bitmap_set_bit (not_reg_needs, DECL_UID (decl));
}
else if (code == GIMPLE_CALL)
{
for (i = 0; i < gimple_call_num_args (stmt); ++i)
{
tree arg = gimple_call_arg (stmt, i);
if ((decl = non_rewritable_mem_ref_base (arg)))
bitmap_set_bit (not_reg_needs, DECL_UID (decl));
}
}
else if (code == GIMPLE_ASM)
{
for (i = 0; i < gimple_asm_noutputs (stmt); ++i)
{
tree link = gimple_asm_output_op (stmt, i);
tree lhs = TREE_VALUE (link);
if (TREE_CODE (lhs) != SSA_NAME)
{
decl = get_base_address (lhs);
if (DECL_P (decl)
&& (non_rewritable_lvalue_p (lhs)
/* We cannot move required conversions from
the lhs to the rhs in asm statements, so
require we do not need any. */
|| !useless_type_conversion_p
(TREE_TYPE (lhs), TREE_TYPE (decl))))
bitmap_set_bit (not_reg_needs, DECL_UID (decl));
}
}
for (i = 0; i < gimple_asm_ninputs (stmt); ++i)
{
tree link = gimple_asm_input_op (stmt, i);
if ((decl = non_rewritable_mem_ref_base (TREE_VALUE (link))))
bitmap_set_bit (not_reg_needs, DECL_UID (decl));
}
}
}
for (gsi = gsi_start_phis (bb); !gsi_end_p (gsi); gsi_next (&gsi))
{
size_t i;
gimple phi = gsi_stmt (gsi);
for (i = 0; i < gimple_phi_num_args (phi); i++)
{
tree op = PHI_ARG_DEF (phi, i), var;
if (TREE_CODE (op) == ADDR_EXPR
&& (var = get_base_address (TREE_OPERAND (op, 0))) != NULL
&& DECL_P (var))
bitmap_set_bit (addresses_taken, DECL_UID (var));
}
}
}
/* We cannot iterate over all referenced vars because that can contain
unused vars from BLOCK trees, which causes code generation differences
for -g vs. -g0. */
for (var = DECL_ARGUMENTS (cfun->decl); var; var = DECL_CHAIN (var))
maybe_optimize_var (var, addresses_taken, not_reg_needs,
suitable_for_renaming);
FOR_EACH_VEC_SAFE_ELT (cfun->local_decls, i, var)
maybe_optimize_var (var, addresses_taken, not_reg_needs,
suitable_for_renaming);
/* Operand caches need to be recomputed for operands referencing the updated
variables and operands need to be rewritten to expose bare symbols. */
if (!bitmap_empty_p (suitable_for_renaming))
{
FOR_EACH_BB (bb)
for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi);)
{
gimple stmt = gsi_stmt (gsi);
/* Re-write TARGET_MEM_REFs of symbols we want to
rewrite into SSA form. */
if (gimple_assign_single_p (stmt))
{
tree lhs = gimple_assign_lhs (stmt);
tree rhs, *rhsp = gimple_assign_rhs1_ptr (stmt);
tree sym;
/* We shouldn't have any fancy wrapping of
component-refs on the LHS, but look through
VIEW_CONVERT_EXPRs as that is easy. */
while (TREE_CODE (lhs) == VIEW_CONVERT_EXPR)
lhs = TREE_OPERAND (lhs, 0);
if (TREE_CODE (lhs) == MEM_REF
&& TREE_CODE (TREE_OPERAND (lhs, 0)) == ADDR_EXPR
&& integer_zerop (TREE_OPERAND (lhs, 1))
&& (sym = TREE_OPERAND (TREE_OPERAND (lhs, 0), 0))
&& DECL_P (sym)
&& !TREE_ADDRESSABLE (sym)
&& bitmap_bit_p (suitable_for_renaming, DECL_UID (sym)))
lhs = sym;
else
lhs = gimple_assign_lhs (stmt);
/* Rewrite the RHS and make sure the resulting assignment
is validly typed. */
maybe_rewrite_mem_ref_base (rhsp, suitable_for_renaming);
rhs = gimple_assign_rhs1 (stmt);
if (gimple_assign_lhs (stmt) != lhs
&& !useless_type_conversion_p (TREE_TYPE (lhs),
TREE_TYPE (rhs)))
rhs = fold_build1 (VIEW_CONVERT_EXPR,
TREE_TYPE (lhs), rhs);
if (gimple_assign_lhs (stmt) != lhs)
gimple_assign_set_lhs (stmt, lhs);
/* For var ={v} {CLOBBER}; where var lost
TREE_ADDRESSABLE just remove the stmt. */
if (DECL_P (lhs)
&& TREE_CLOBBER_P (rhs)
&& bitmap_bit_p (suitable_for_renaming, DECL_UID (lhs)))
{
unlink_stmt_vdef (stmt);
gsi_remove (&gsi, true);
release_defs (stmt);
continue;
}
if (gimple_assign_rhs1 (stmt) != rhs)
{
gimple_stmt_iterator gsi = gsi_for_stmt (stmt);
gimple_assign_set_rhs_from_tree (&gsi, rhs);
}
}
else if (gimple_code (stmt) == GIMPLE_CALL)
{
unsigned i;
for (i = 0; i < gimple_call_num_args (stmt); ++i)
{
tree *argp = gimple_call_arg_ptr (stmt, i);
maybe_rewrite_mem_ref_base (argp, suitable_for_renaming);
}
}
else if (gimple_code (stmt) == GIMPLE_ASM)
{
unsigned i;
for (i = 0; i < gimple_asm_noutputs (stmt); ++i)
{
tree link = gimple_asm_output_op (stmt, i);
maybe_rewrite_mem_ref_base (&TREE_VALUE (link),
suitable_for_renaming);
}
for (i = 0; i < gimple_asm_ninputs (stmt); ++i)
{
tree link = gimple_asm_input_op (stmt, i);
maybe_rewrite_mem_ref_base (&TREE_VALUE (link),
suitable_for_renaming);
}
}
else if (gimple_debug_bind_p (stmt)
&& gimple_debug_bind_has_value_p (stmt))
{
tree *valuep = gimple_debug_bind_get_value_ptr (stmt);
tree decl;
maybe_rewrite_mem_ref_base (valuep, suitable_for_renaming);
decl = non_rewritable_mem_ref_base (*valuep);
if (decl
&& bitmap_bit_p (suitable_for_renaming, DECL_UID (decl)))
gimple_debug_bind_reset_value (stmt);
}
if (gimple_references_memory_p (stmt)
|| is_gimple_debug (stmt))
update_stmt (stmt);
gsi_next (&gsi);
}
/* Update SSA form here, we are called as non-pass as well. */
if (number_of_loops (cfun) > 1
&& loops_state_satisfies_p (LOOP_CLOSED_SSA))
rewrite_into_loop_closed_ssa (NULL, TODO_update_ssa);
else
update_ssa (TODO_update_ssa);
}
BITMAP_FREE (not_reg_needs);
BITMAP_FREE (addresses_taken);
BITMAP_FREE (suitable_for_renaming);
timevar_pop (TV_ADDRESS_TAKEN);
}
struct gimple_opt_pass pass_update_address_taken =
{
{
GIMPLE_PASS,
"addressables", /* name */
OPTGROUP_NONE, /* optinfo_flags */
NULL, /* gate */
NULL, /* execute */
NULL, /* sub */
NULL, /* next */
0, /* static_pass_number */
TV_ADDRESS_TAKEN, /* tv_id */
PROP_ssa, /* properties_required */
0, /* properties_provided */
0, /* properties_destroyed */
0, /* todo_flags_start */
TODO_update_address_taken /* todo_flags_finish */
}
};
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