2017-12-05 16:39:25 +00:00
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// Copyright (c) 2017 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// This file implements conditional constant propagation as described in
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//
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// Constant propagation with conditional branches,
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// Wegman and Zadeck, ACM TOPLAS 13(2):181-210.
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2018-08-03 19:06:09 +00:00
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#include "source/opt/ccp_pass.h"
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2017-12-05 16:39:25 +00:00
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2017-12-22 17:38:02 +00:00
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#include <algorithm>
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2018-08-03 19:06:09 +00:00
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#include <limits>
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#include "source/opt/fold.h"
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#include "source/opt/function.h"
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#include "source/opt/module.h"
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#include "source/opt/propagator.h"
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2017-12-22 17:38:02 +00:00
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2017-12-05 16:39:25 +00:00
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namespace spvtools {
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namespace opt {
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2018-01-08 16:56:57 +00:00
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namespace {
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// This SSA id is never defined nor referenced in the IR. It is a special ID
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// which represents varying values. When an ID is found to have a varying
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// value, its entry in the |values_| table maps to kVaryingSSAId.
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const uint32_t kVaryingSSAId = std::numeric_limits<uint32_t>::max();
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} // namespace
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bool CCPPass::IsVaryingValue(uint32_t id) const { return id == kVaryingSSAId; }
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2018-07-12 19:14:43 +00:00
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SSAPropagator::PropStatus CCPPass::MarkInstructionVarying(Instruction* instr) {
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2018-01-08 16:56:57 +00:00
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assert(instr->result_id() != 0 &&
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"Instructions with no result cannot be marked varying.");
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values_[instr->result_id()] = kVaryingSSAId;
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return SSAPropagator::kVarying;
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}
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2018-07-12 19:14:43 +00:00
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SSAPropagator::PropStatus CCPPass::VisitPhi(Instruction* phi) {
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2017-12-05 16:39:25 +00:00
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uint32_t meet_val_id = 0;
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// Implement the lattice meet operation. The result of this Phi instruction is
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// interesting only if the meet operation over arguments coming through
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// executable edges yields the same constant value.
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for (uint32_t i = 2; i < phi->NumOperands(); i += 2) {
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if (!propagator_->IsPhiArgExecutable(phi, i)) {
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// Ignore arguments coming through non-executable edges.
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continue;
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}
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uint32_t phi_arg_id = phi->GetSingleWordOperand(i);
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auto it = values_.find(phi_arg_id);
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if (it != values_.end()) {
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// We found an argument with a constant value. Apply the meet operation
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// with the previous arguments.
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2018-01-25 18:45:21 +00:00
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if (it->second == kVaryingSSAId) {
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// The "constant" value is actually a placeholder for varying. Return
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// varying for this phi.
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return MarkInstructionVarying(phi);
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} else if (meet_val_id == 0) {
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2017-12-05 16:39:25 +00:00
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// This is the first argument we find. Initialize the result to its
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// constant value id.
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meet_val_id = it->second;
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} else if (it->second == meet_val_id) {
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// The argument is the same constant value already computed. Continue
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// looking.
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continue;
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} else {
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2018-01-08 16:56:57 +00:00
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// We either found a varying value, or another constant value different
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// from the previous computed meet value. This Phi will never be
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// constant.
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return MarkInstructionVarying(phi);
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2017-12-05 16:39:25 +00:00
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}
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} else {
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2018-02-14 21:56:43 +00:00
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// The incoming value has no recorded value and is therefore not
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// interesting. A not interesting value joined with any other value is the
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// other value.
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continue;
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2017-12-05 16:39:25 +00:00
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}
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}
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// If there are no incoming executable edges, the meet ID will still be 0. In
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// that case, return not interesting to evaluate the Phi node again.
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if (meet_val_id == 0) {
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return SSAPropagator::kNotInteresting;
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}
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// All the operands have the same constant value represented by |meet_val_id|.
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// Set the Phi's result to that value and declare it interesting.
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values_[phi->result_id()] = meet_val_id;
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return SSAPropagator::kInteresting;
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}
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2018-07-12 19:14:43 +00:00
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SSAPropagator::PropStatus CCPPass::VisitAssignment(Instruction* instr) {
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2017-12-05 16:39:25 +00:00
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assert(instr->result_id() != 0 &&
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"Expecting an instruction that produces a result");
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// If this is a copy operation, and the RHS is a known constant, assign its
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// value to the LHS.
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if (instr->opcode() == SpvOpCopyObject) {
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uint32_t rhs_id = instr->GetSingleWordInOperand(0);
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auto it = values_.find(rhs_id);
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if (it != values_.end()) {
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2018-01-08 16:56:57 +00:00
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if (IsVaryingValue(it->second)) {
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return MarkInstructionVarying(instr);
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} else {
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values_[instr->result_id()] = it->second;
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return SSAPropagator::kInteresting;
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}
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2017-12-05 16:39:25 +00:00
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}
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return SSAPropagator::kNotInteresting;
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}
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// Instructions with a RHS that cannot produce a constant are always varying.
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if (!instr->IsFoldable()) {
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2018-01-08 16:56:57 +00:00
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return MarkInstructionVarying(instr);
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2017-12-05 16:39:25 +00:00
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}
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2018-01-09 17:45:46 +00:00
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// See if the RHS of the assignment folds into a constant value.
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auto map_func = [this](uint32_t id) {
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auto it = values_.find(id);
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if (it == values_.end() || IsVaryingValue(it->second)) {
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return id;
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}
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return it->second;
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};
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2018-07-12 19:14:43 +00:00
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Instruction* folded_inst =
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2018-07-05 18:19:50 +00:00
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context()->get_instruction_folder().FoldInstructionToConstant(instr,
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map_func);
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2020-10-28 14:18:34 +00:00
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2018-01-09 17:45:46 +00:00
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if (folded_inst != nullptr) {
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// We do not want to change the body of the function by adding new
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// instructions. When folding we can only generate new constants.
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assert(folded_inst->IsConstant() && "CCP is only interested in constant.");
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values_[instr->result_id()] = folded_inst->result_id();
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return SSAPropagator::kInteresting;
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}
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2018-03-01 20:24:41 +00:00
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// Conservatively mark this instruction as varying if any input id is varying.
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if (!instr->WhileEachInId([this](uint32_t* op_id) {
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auto iter = values_.find(*op_id);
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if (iter != values_.end() && IsVaryingValue(iter->second)) return false;
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return true;
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})) {
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return MarkInstructionVarying(instr);
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}
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2018-01-09 17:45:46 +00:00
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// If not, see if there is a least one unknown operand to the instruction. If
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// so, we might be able to fold it later.
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2018-01-12 20:05:53 +00:00
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if (!instr->WhileEachInId([this](uint32_t* op_id) {
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auto it = values_.find(*op_id);
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if (it == values_.end()) return false;
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return true;
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})) {
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2017-12-05 16:39:25 +00:00
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return SSAPropagator::kNotInteresting;
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}
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2018-01-09 17:45:46 +00:00
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// Otherwise, we will never be able to fold this instruction, so mark it
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// varying.
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return MarkInstructionVarying(instr);
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2017-12-05 16:39:25 +00:00
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}
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2018-07-12 19:14:43 +00:00
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SSAPropagator::PropStatus CCPPass::VisitBranch(Instruction* instr,
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BasicBlock** dest_bb) const {
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2017-12-05 16:39:25 +00:00
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assert(instr->IsBranch() && "Expected a branch instruction.");
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2017-12-22 17:38:02 +00:00
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*dest_bb = nullptr;
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uint32_t dest_label = 0;
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2017-12-05 16:39:25 +00:00
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if (instr->opcode() == SpvOpBranch) {
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// An unconditional jump always goes to its unique destination.
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dest_label = instr->GetSingleWordInOperand(0);
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} else if (instr->opcode() == SpvOpBranchConditional) {
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// For a conditional branch, determine whether the predicate selector has a
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// known value in |values_|. If it does, set the destination block
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// according to the selector's boolean value.
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uint32_t pred_id = instr->GetSingleWordOperand(0);
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auto it = values_.find(pred_id);
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2018-01-08 16:56:57 +00:00
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if (it == values_.end() || IsVaryingValue(it->second)) {
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2017-12-05 16:39:25 +00:00
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// The predicate has an unknown value, either branch could be taken.
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return SSAPropagator::kVarying;
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}
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// Get the constant value for the predicate selector from the value table.
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// Use it to decide which branch will be taken.
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uint32_t pred_val_id = it->second;
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const analysis::Constant* c = const_mgr_->FindDeclaredConstant(pred_val_id);
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assert(c && "Expected to find a constant declaration for a known value.");
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2018-02-21 13:51:21 +00:00
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// Undef values should have returned as varying above.
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assert(c->AsBoolConstant() || c->AsNullConstant());
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if (c->AsNullConstant()) {
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dest_label = instr->GetSingleWordOperand(2u);
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} else {
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const analysis::BoolConstant* val = c->AsBoolConstant();
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dest_label = val->value() ? instr->GetSingleWordOperand(1)
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: instr->GetSingleWordOperand(2);
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}
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2017-12-05 16:39:25 +00:00
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} else {
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// For an OpSwitch, extract the value taken by the switch selector and check
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// which of the target literals it matches. The branch associated with that
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// literal is the taken branch.
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assert(instr->opcode() == SpvOpSwitch);
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2017-12-22 17:38:02 +00:00
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if (instr->GetOperand(0).words.size() != 1) {
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// If the selector is wider than 32-bits, return varying. TODO(dnovillo):
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// Add support for wider constants.
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return SSAPropagator::kVarying;
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}
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2017-12-05 16:39:25 +00:00
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uint32_t select_id = instr->GetSingleWordOperand(0);
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auto it = values_.find(select_id);
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2018-01-08 16:56:57 +00:00
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if (it == values_.end() || IsVaryingValue(it->second)) {
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2017-12-05 16:39:25 +00:00
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// The selector has an unknown value, any of the branches could be taken.
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return SSAPropagator::kVarying;
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}
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// Get the constant value for the selector from the value table. Use it to
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// decide which branch will be taken.
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uint32_t select_val_id = it->second;
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const analysis::Constant* c =
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const_mgr_->FindDeclaredConstant(select_val_id);
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assert(c && "Expected to find a constant declaration for a known value.");
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2018-02-21 13:51:21 +00:00
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// TODO: support 64-bit integer switches.
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uint32_t constant_cond = 0;
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if (const analysis::IntConstant* val = c->AsIntConstant()) {
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constant_cond = val->words()[0];
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} else {
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// Undef values should have returned varying above.
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assert(c->AsNullConstant());
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constant_cond = 0;
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}
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2017-12-05 16:39:25 +00:00
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// Start assuming that the selector will take the default value;
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dest_label = instr->GetSingleWordOperand(1);
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for (uint32_t i = 2; i < instr->NumOperands(); i += 2) {
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2018-02-21 13:51:21 +00:00
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if (constant_cond == instr->GetSingleWordOperand(i)) {
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2017-12-05 16:39:25 +00:00
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dest_label = instr->GetSingleWordOperand(i + 1);
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break;
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}
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}
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}
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assert(dest_label && "Destination label should be set at this point.");
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*dest_bb = context()->cfg()->block(dest_label);
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return SSAPropagator::kInteresting;
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}
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2018-07-12 19:14:43 +00:00
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SSAPropagator::PropStatus CCPPass::VisitInstruction(Instruction* instr,
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BasicBlock** dest_bb) {
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2017-12-05 16:39:25 +00:00
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*dest_bb = nullptr;
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if (instr->opcode() == SpvOpPhi) {
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return VisitPhi(instr);
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} else if (instr->IsBranch()) {
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return VisitBranch(instr, dest_bb);
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} else if (instr->result_id()) {
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return VisitAssignment(instr);
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}
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return SSAPropagator::kVarying;
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}
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bool CCPPass::ReplaceValues() {
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2020-08-20 20:48:11 +00:00
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// Even if we make no changes to the function's IR, propagation may have
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// created new constants. Even if those constants cannot be replaced in
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// the IR, the constant definition itself is a change. To reflect this,
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2020-10-28 14:18:34 +00:00
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// we check whether the next ID to be given by the module is different than
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// the original bound ID. If that happens, new instructions were added to the
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// module during propagation.
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//
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// See https://github.com/KhronosGroup/SPIRV-Tools/issues/3636 and
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// https://github.com/KhronosGroup/SPIRV-Tools/issues/3991 for details.
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bool changed_ir = (context()->module()->IdBound() > original_id_bound_);
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2017-12-05 16:39:25 +00:00
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for (const auto& it : values_) {
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uint32_t id = it.first;
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uint32_t cst_id = it.second;
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2018-01-08 16:56:57 +00:00
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if (!IsVaryingValue(cst_id) && id != cst_id) {
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2019-03-13 14:40:49 +00:00
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context()->KillNamesAndDecorates(id);
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2020-08-20 20:48:11 +00:00
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changed_ir |= context()->ReplaceAllUsesWith(id, cst_id);
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2017-12-05 16:39:25 +00:00
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}
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}
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2020-10-28 14:18:34 +00:00
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2020-08-20 20:48:11 +00:00
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return changed_ir;
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2017-12-05 16:39:25 +00:00
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}
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2018-07-12 19:14:43 +00:00
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bool CCPPass::PropagateConstants(Function* fp) {
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2018-03-01 20:24:41 +00:00
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// Mark function parameters as varying.
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2018-07-12 19:14:43 +00:00
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fp->ForEachParam([this](const Instruction* inst) {
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2018-03-01 20:24:41 +00:00
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values_[inst->result_id()] = kVaryingSSAId;
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});
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2018-07-12 19:14:43 +00:00
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const auto visit_fn = [this](Instruction* instr, BasicBlock** dest_bb) {
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2017-12-05 16:39:25 +00:00
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return VisitInstruction(instr, dest_bb);
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};
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propagator_ =
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|
|
std::unique_ptr<SSAPropagator>(new SSAPropagator(context(), visit_fn));
|
2018-02-14 21:56:43 +00:00
|
|
|
|
2017-12-05 16:39:25 +00:00
|
|
|
if (propagator_->Run(fp)) {
|
|
|
|
return ReplaceValues();
|
|
|
|
}
|
|
|
|
|
|
|
|
return false;
|
|
|
|
}
|
|
|
|
|
2018-07-12 13:08:45 +00:00
|
|
|
void CCPPass::Initialize() {
|
2017-12-05 16:39:25 +00:00
|
|
|
const_mgr_ = context()->get_constant_mgr();
|
|
|
|
|
|
|
|
// Populate the constant table with values from constant declarations in the
|
|
|
|
// module. The values of each OpConstant declaration is the identity
|
|
|
|
// assignment (i.e., each constant is its own value).
|
2018-02-14 14:39:11 +00:00
|
|
|
for (const auto& inst : get_module()->types_values()) {
|
2018-03-01 20:24:41 +00:00
|
|
|
// Record compile time constant ids. Treat all other global values as
|
|
|
|
// varying.
|
2018-02-14 14:39:11 +00:00
|
|
|
if (inst.IsConstant()) {
|
|
|
|
values_[inst.result_id()] = inst.result_id();
|
2018-03-01 20:24:41 +00:00
|
|
|
} else {
|
2018-02-14 14:39:11 +00:00
|
|
|
values_[inst.result_id()] = kVaryingSSAId;
|
2018-01-13 05:28:40 +00:00
|
|
|
}
|
2017-12-05 16:39:25 +00:00
|
|
|
}
|
2020-08-20 20:48:11 +00:00
|
|
|
|
2020-10-28 14:18:34 +00:00
|
|
|
original_id_bound_ = context()->module()->IdBound();
|
2017-12-05 16:39:25 +00:00
|
|
|
}
|
|
|
|
|
2018-07-12 13:08:45 +00:00
|
|
|
Pass::Status CCPPass::Process() {
|
|
|
|
Initialize();
|
2017-12-05 16:39:25 +00:00
|
|
|
|
|
|
|
// Process all entry point functions.
|
2018-07-12 19:14:43 +00:00
|
|
|
ProcessFunction pfn = [this](Function* fp) { return PropagateConstants(fp); };
|
2018-11-29 19:24:58 +00:00
|
|
|
bool modified = context()->ProcessReachableCallTree(pfn);
|
2017-12-05 16:39:25 +00:00
|
|
|
return modified ? Pass::Status::SuccessWithChange
|
|
|
|
: Pass::Status::SuccessWithoutChange;
|
|
|
|
}
|
|
|
|
|
|
|
|
} // namespace opt
|
|
|
|
} // namespace spvtools
|