third_party_spirv-tools/source/opt/fold.h

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// Copyright (c) 2017 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef SOURCE_OPT_FOLD_H_
#define SOURCE_OPT_FOLD_H_
#include <cstdint>
#include <vector>
#include "source/opt/const_folding_rules.h"
#include "source/opt/constants.h"
#include "source/opt/def_use_manager.h"
#include "source/opt/folding_rules.h"
namespace spvtools {
namespace opt {
class InstructionFolder {
public:
explicit InstructionFolder(IRContext* context)
: context_(context),
const_folding_rules_(new ConstantFoldingRules(context)),
folding_rules_(new FoldingRules(context)) {
folding_rules_->AddFoldingRules();
const_folding_rules_->AddFoldingRules();
}
explicit InstructionFolder(
IRContext* context, std::unique_ptr<FoldingRules>&& folding_rules,
std::unique_ptr<ConstantFoldingRules>&& constant_folding_rules)
: context_(context),
const_folding_rules_(std::move(constant_folding_rules)),
folding_rules_(std::move(folding_rules)) {
folding_rules_->AddFoldingRules();
const_folding_rules_->AddFoldingRules();
}
// Returns the result of folding a scalar instruction with the given |opcode|
// and |operands|. Each entry in |operands| is a pointer to an
// analysis::Constant instance, which should've been created with the constant
// manager (See IRContext::get_constant_mgr).
//
// It is an error to call this function with an opcode that does not pass the
// IsFoldableOpcode test. If any error occurs during folding, the folder will
// fail with a call to assert.
uint32_t FoldScalars(
spv::Op opcode,
const std::vector<const analysis::Constant*>& operands) const;
// Returns the result of performing an operation with the given |opcode| over
// constant vectors with |num_dims| dimensions. Each entry in |operands| is a
// pointer to an analysis::Constant instance, which should've been created
// with the constant manager (See IRContext::get_constant_mgr).
//
// This function iterates through the given vector type constant operands and
// calculates the result for each element of the result vector to return.
// Vectors with longer than 32-bit scalar components are not accepted in this
// function.
//
// It is an error to call this function with an opcode that does not pass the
// IsFoldableOpcode test. If any error occurs during folding, the folder will
// fail with a call to assert.
std::vector<uint32_t> FoldVectors(
spv::Op opcode, uint32_t num_dims,
const std::vector<const analysis::Constant*>& operands) const;
// Returns true if |opcode| represents an operation handled by FoldScalars or
// FoldVectors.
bool IsFoldableOpcode(spv::Op opcode) const;
// Returns true if |cst| is supported by FoldScalars and FoldVectors.
bool IsFoldableConstant(const analysis::Constant* cst) const;
// Returns true if |FoldInstructionToConstant| could fold an instruction whose
// result type is |type_inst|.
bool IsFoldableType(Instruction* type_inst) const;
// Returns true if |FoldInstructionToConstant| could fold an instruction whose
// result type is |type_inst|.
bool IsFoldableScalarType(Instruction* type_inst) const;
// Returns true if |FoldInstructionToConstant| could fold an instruction whose
// result type is |type_inst|.
bool IsFoldableVectorType(Instruction* type_inst) const;
// Tries to fold |inst| to a single constant, when the input ids to |inst|
// have been substituted using |id_map|. Returns a pointer to the OpConstant*
// instruction if successful. If necessary, a new constant instruction is
// created and placed in the global values section.
//
// |id_map| is a function that takes one result id and returns another. It
// can be used for things like CCP where it is known that some ids contain a
// constant, but the instruction itself has not been updated yet. This can
// map those ids to the appropriate constants.
Instruction* FoldInstructionToConstant(
Instruction* inst, std::function<uint32_t(uint32_t)> id_map) const;
// Returns true if |inst| can be folded into a simpler instruction.
// If |inst| can be simplified, |inst| is overwritten with the simplified
// instruction reusing the same result id.
//
// If |inst| is simplified, it is possible that the resulting code in invalid
// because the instruction is in a bad location. Callers of this function
// have to handle the following cases:
//
// 1) An OpPhi becomes and OpCopyObject - If there are OpPhi instruction after
// |inst| in a basic block then this is invalid. The caller must fix this
// up.
bool FoldInstruction(Instruction* inst) const;
// Return true if this opcode has a const folding rule associtated with it.
bool HasConstFoldingRule(const Instruction* inst) const {
return GetConstantFoldingRules().HasFoldingRule(inst);
}
private:
// Returns a reference to the ConstnatFoldingRules instance.
const ConstantFoldingRules& GetConstantFoldingRules() const {
return *const_folding_rules_;
}
// Returns a reference to the FoldingRules instance.
const FoldingRules& GetFoldingRules() const { return *folding_rules_; }
// Returns the single-word result from performing the given unary operation on
// the operand value which is passed in as a 32-bit word.
uint32_t UnaryOperate(spv::Op opcode, uint32_t operand) const;
// Returns the single-word result from performing the given binary operation
// on the operand values which are passed in as two 32-bit word.
uint32_t BinaryOperate(spv::Op opcode, uint32_t a, uint32_t b) const;
// Returns the single-word result from performing the given ternary operation
// on the operand values which are passed in as three 32-bit word.
uint32_t TernaryOperate(spv::Op opcode, uint32_t a, uint32_t b,
uint32_t c) const;
// Returns the single-word result from performing the given operation on the
// operand words. This only works with 32-bit operations and uses boolean
// convention that 0u is false, and anything else is boolean true.
// TODO(qining): Support operands other than 32-bit wide.
uint32_t OperateWords(spv::Op opcode,
const std::vector<uint32_t>& operand_words) const;
bool FoldInstructionInternal(Instruction* inst) const;
// Returns true if |inst| is a binary operation that takes two integers as
// parameters and folds to a constant that can be represented as an unsigned
// 32-bit value when the ids have been replaced by |id_map|. If |inst| can be
// folded, the resulting value is returned in |*result|. Valid result types
// for the instruction are any integer (signed or unsigned) with 32-bits or
// less, or a boolean value.
bool FoldBinaryIntegerOpToConstant(
Instruction* inst, const std::function<uint32_t(uint32_t)>& id_map,
uint32_t* result) const;
// Returns true if |inst| is a binary operation on two boolean values, and
// folds
// to a constant boolean value when the ids have been replaced using |id_map|.
// If |inst| can be folded, the result value is returned in |*result|.
bool FoldBinaryBooleanOpToConstant(
Instruction* inst, const std::function<uint32_t(uint32_t)>& id_map,
uint32_t* result) const;
// Returns true if |inst| can be folded to an constant when the ids have been
// substituted using id_map. If it can, the value is returned in |result|. If
// not, |result| is unchanged. It is assumed that not all operands are
// constant. Those cases are handled by |FoldScalar|.
bool FoldIntegerOpToConstant(Instruction* inst,
const std::function<uint32_t(uint32_t)>& id_map,
uint32_t* result) const;
IRContext* context_;
// Folding rules used by |FoldInstructionToConstant| and |FoldInstruction|.
std::unique_ptr<ConstantFoldingRules> const_folding_rules_;
// Folding rules used by |FoldInstruction|.
std::unique_ptr<FoldingRules> folding_rules_;
};
} // namespace opt
} // namespace spvtools
#endif // SOURCE_OPT_FOLD_H_