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/* Header file for the GIMPLE fold_using_range interface.
Copyright (C) 2019-2024 Free Software Foundation, Inc.
Contributed by Andrew MacLeod <amacleod@redhat.com>
and Aldy Hernandez <aldyh@redhat.com>.
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/>. */
#ifndef GCC_GIMPLE_RANGE_FOLD_H
#define GCC_GIMPLE_RANGE_FOLD_H
// This file is the main include point for gimple range folding.
// These routines will fold stmt S into the result range R.
// Any ssa_names on the stmt will be calculated using the range_query
// parameter via a call to range_of_expr.
// If no range_query is provided, current global range info will be used.
// The second variation specifies an edge, and stmt S is recalculated as if
// it appeared on that edge.
// Fold stmt S into range R using range query Q.
bool fold_range (vrange &r, gimple *s, range_query *q = NULL);
// Recalculate stmt S into R using range query Q as if it were on edge ON_EDGE.
bool fold_range (vrange &v, gimple *s, edge on_edge, range_query *q = NULL);
// These routines the operands to be specified when manually folding.
// Any excess queries will be drawn from the current range_query.
bool fold_range (vrange &r, gimple *s, vrange &r1, range_query *q = NULL);
bool fold_range (vrange &r, gimple *s, vrange &r1, vrange &r2,
range_query *q = NULL);
bool fold_range (vrange &r, gimple *s, unsigned num_elements, vrange **vector,
range_query *q = NULL);
// This routine will return a relation trio for stmt S.
relation_trio fold_relations (gimple *s, range_query *q = NULL);
// Return the type of range which statement S calculates. If the type is
// unsupported or no type can be determined, return NULL_TREE.
inline tree
gimple_range_type (const gimple *s)
{
tree lhs = gimple_get_lhs (s);
tree type = NULL_TREE;
if (lhs)
type = TREE_TYPE (lhs);
else
{
enum gimple_code code = gimple_code (s);
if (code == GIMPLE_COND)
type = boolean_type_node;
else if (code == GIMPLE_PHI)
type = TREE_TYPE (gimple_phi_result (s));
else if (code == GIMPLE_CALL)
{
type = gimple_call_fntype (s);
// If it has a type, get the return type.
if (type)
type = TREE_TYPE (type);
}
}
if (type && Value_Range::supports_type_p (type))
return type;
return NULL_TREE;
}
// Return EXP if it is an SSA_NAME with a type supported by gimple ranges.
inline tree
gimple_range_ssa_p (tree exp)
{
if (exp && TREE_CODE (exp) == SSA_NAME &&
!SSA_NAME_IS_VIRTUAL_OPERAND (exp) &&
!SSA_NAME_OCCURS_IN_ABNORMAL_PHI (exp) &&
Value_Range::supports_type_p (TREE_TYPE (exp)))
return exp;
return NULL_TREE;
}
// Source of all operands for fold_using_range and gori_compute.
// It abstracts out the source of an operand so it can come from a stmt or
// and edge or anywhere a derived class of fur_source wants.
// The default simply picks up ranges from the current range_query.
class fur_source
{
public:
fur_source (range_query *q = NULL);
inline range_query *query () { return m_query; }
inline class gori_compute *gori () { return m_gori; };
virtual bool get_operand (vrange &r, tree expr);
virtual bool get_phi_operand (vrange &r, tree expr, edge e);
virtual relation_kind query_relation (tree op1, tree op2);
virtual void register_relation (gimple *stmt, relation_kind k, tree op1,
tree op2);
virtual void register_relation (edge e, relation_kind k, tree op1,
tree op2);
void register_outgoing_edges (gcond *, irange &lhs_range, edge e0, edge e1);
protected:
range_query *m_query;
gori_compute *m_gori;
};
// fur_stmt is the specification for drawing an operand from range_query Q
// via a range_of_Expr call on stmt S.
class fur_stmt : public fur_source
{
public:
fur_stmt (gimple *s, range_query *q = NULL);
virtual bool get_operand (vrange &r, tree expr) override;
virtual bool get_phi_operand (vrange &r, tree expr, edge e) override;
virtual relation_kind query_relation (tree op1, tree op2) override;
private:
gimple *m_stmt;
};
// This version of fur_source will pick a range from a stmt, and also register
// dependencies via a gori_compute object. This is mostly an internal API.
class fur_depend : public fur_stmt
{
public:
fur_depend (gimple *s, gori_compute *gori, range_query *q = NULL);
virtual void register_relation (gimple *stmt, relation_kind k, tree op1,
tree op2) override;
virtual void register_relation (edge e, relation_kind k, tree op1,
tree op2) override;
protected:
relation_oracle *m_oracle;
};
// This class uses ranges to fold a gimple statement producing a range for
// the LHS. The source of all operands is supplied via the fur_source class
// which provides a range_query as well as a source location and any other
// required information.
class fold_using_range
{
public:
bool fold_stmt (vrange &r, gimple *s, class fur_source &src,
tree name = NULL_TREE);
protected:
bool range_of_range_op (vrange &r, gimple_range_op_handler &handler,
fur_source &src);
bool range_of_call (vrange &r, gcall *call, fur_source &src);
bool range_of_cond_expr (vrange &r, gassign* cond, fur_source &src);
bool range_of_address (irange &r, gimple *s, fur_source &src);
bool range_of_phi (vrange &r, gphi *phi, fur_source &src);
void range_of_ssa_name_with_loop_info (vrange &, tree, class loop *, gphi *,
fur_source &src);
void relation_fold_and_or (irange& lhs_range, gimple *s, fur_source &src,
vrange &op1, vrange &op2);
};
#endif // GCC_GIMPLE_RANGE_FOLD_H