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https://github.com/KhronosGroup/SPIRV-Tools
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2d2a512691
* Move ProcessFunction* function from pass to the context. There are a few functions that are used to traverse the call tree. They currently live in the Pass class, but they have nothing to do with a pass, and may be needed outside of a pass. They would be better in the ir context, or in a specific call tree class if we ever have a need for it. * Don't inline recursive functions. Inlining does not check if a function is recursive or not. This has been fine as long as the shader was a Vulkan shader, which forbid recursive functions. However, not all shaders are vulkan, so either we limit inlining to Vulkan shaders or we teach it to look for recursive functions. I prefer to keep the passes as general as is reasonable. The change does not require much new code in inlining and gives a reason to refactor some other code. The changes are to add a member function to the Function class that checks if that function is recursive or not. Then this is used in inlining to not inlining a function call if it calls a recursive function. * Add id to function analysis There are a few places that build a map from ids to Function whose result is that id. I decided to add an analysis to the context for this to reduce that code, and simplify some of the functions. * Add missing file.
264 lines
10 KiB
C++
264 lines
10 KiB
C++
// Copyright (c) 2018 The Khronos Group Inc.
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// Copyright (c) 2018 Valve Corporation
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// Copyright (c) 2018 LunarG 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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#include "source/opt/dead_insert_elim_pass.h"
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#include "source/opt/composite.h"
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#include "source/opt/ir_context.h"
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#include "source/opt/iterator.h"
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#include "spirv/1.2/GLSL.std.450.h"
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namespace spvtools {
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namespace opt {
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namespace {
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const uint32_t kTypeVectorCountInIdx = 1;
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const uint32_t kTypeMatrixCountInIdx = 1;
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const uint32_t kTypeArrayLengthIdInIdx = 1;
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const uint32_t kTypeIntWidthInIdx = 0;
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const uint32_t kConstantValueInIdx = 0;
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const uint32_t kInsertObjectIdInIdx = 0;
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const uint32_t kInsertCompositeIdInIdx = 1;
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} // anonymous namespace
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uint32_t DeadInsertElimPass::NumComponents(Instruction* typeInst) {
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switch (typeInst->opcode()) {
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case SpvOpTypeVector: {
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return typeInst->GetSingleWordInOperand(kTypeVectorCountInIdx);
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} break;
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case SpvOpTypeMatrix: {
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return typeInst->GetSingleWordInOperand(kTypeMatrixCountInIdx);
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} break;
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case SpvOpTypeArray: {
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uint32_t lenId =
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typeInst->GetSingleWordInOperand(kTypeArrayLengthIdInIdx);
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Instruction* lenInst = get_def_use_mgr()->GetDef(lenId);
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if (lenInst->opcode() != SpvOpConstant) return 0;
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uint32_t lenTypeId = lenInst->type_id();
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Instruction* lenTypeInst = get_def_use_mgr()->GetDef(lenTypeId);
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// TODO(greg-lunarg): Support non-32-bit array length
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if (lenTypeInst->GetSingleWordInOperand(kTypeIntWidthInIdx) != 32)
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return 0;
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return lenInst->GetSingleWordInOperand(kConstantValueInIdx);
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} break;
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case SpvOpTypeStruct: {
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return typeInst->NumInOperands();
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} break;
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default: { return 0; } break;
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}
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}
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void DeadInsertElimPass::MarkInsertChain(
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Instruction* insertChain, std::vector<uint32_t>* pExtIndices,
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uint32_t extOffset, std::unordered_set<uint32_t>* visited_phis) {
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// Not currently optimizing array inserts.
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Instruction* typeInst = get_def_use_mgr()->GetDef(insertChain->type_id());
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if (typeInst->opcode() == SpvOpTypeArray) return;
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// Insert chains are only composed of inserts and phis
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if (insertChain->opcode() != SpvOpCompositeInsert &&
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insertChain->opcode() != SpvOpPhi)
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return;
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// If extract indices are empty, mark all subcomponents if type
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// is constant length.
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if (pExtIndices == nullptr) {
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uint32_t cnum = NumComponents(typeInst);
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if (cnum > 0) {
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std::vector<uint32_t> extIndices;
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for (uint32_t i = 0; i < cnum; i++) {
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extIndices.clear();
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extIndices.push_back(i);
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std::unordered_set<uint32_t> sub_visited_phis;
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MarkInsertChain(insertChain, &extIndices, 0, &sub_visited_phis);
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}
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return;
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}
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}
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Instruction* insInst = insertChain;
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while (insInst->opcode() == SpvOpCompositeInsert) {
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// If no extract indices, mark insert and inserted object (which might
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// also be an insert chain) and continue up the chain though the input
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// composite.
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//
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// Note: We mark inserted objects in this function (rather than in
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// EliminateDeadInsertsOnePass) because in some cases, we can do it
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// more accurately here.
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if (pExtIndices == nullptr) {
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liveInserts_.insert(insInst->result_id());
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uint32_t objId = insInst->GetSingleWordInOperand(kInsertObjectIdInIdx);
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std::unordered_set<uint32_t> obj_visited_phis;
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MarkInsertChain(get_def_use_mgr()->GetDef(objId), nullptr, 0,
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&obj_visited_phis);
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// If extract indices match insert, we are done. Mark insert and
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// inserted object.
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} else if (ExtInsMatch(*pExtIndices, insInst, extOffset)) {
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liveInserts_.insert(insInst->result_id());
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uint32_t objId = insInst->GetSingleWordInOperand(kInsertObjectIdInIdx);
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std::unordered_set<uint32_t> obj_visited_phis;
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MarkInsertChain(get_def_use_mgr()->GetDef(objId), nullptr, 0,
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&obj_visited_phis);
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break;
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// If non-matching intersection, mark insert
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} else if (ExtInsConflict(*pExtIndices, insInst, extOffset)) {
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liveInserts_.insert(insInst->result_id());
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// If more extract indices than insert, we are done. Use remaining
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// extract indices to mark inserted object.
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uint32_t numInsertIndices = insInst->NumInOperands() - 2;
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if (pExtIndices->size() - extOffset > numInsertIndices) {
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uint32_t objId = insInst->GetSingleWordInOperand(kInsertObjectIdInIdx);
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std::unordered_set<uint32_t> obj_visited_phis;
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MarkInsertChain(get_def_use_mgr()->GetDef(objId), pExtIndices,
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extOffset + numInsertIndices, &obj_visited_phis);
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break;
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// If fewer extract indices than insert, also mark inserted object and
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// continue up chain.
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} else {
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uint32_t objId = insInst->GetSingleWordInOperand(kInsertObjectIdInIdx);
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std::unordered_set<uint32_t> obj_visited_phis;
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MarkInsertChain(get_def_use_mgr()->GetDef(objId), nullptr, 0,
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&obj_visited_phis);
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}
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}
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// Get next insert in chain
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const uint32_t compId =
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insInst->GetSingleWordInOperand(kInsertCompositeIdInIdx);
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insInst = get_def_use_mgr()->GetDef(compId);
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}
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// If insert chain ended with phi, do recursive call on each operand
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if (insInst->opcode() != SpvOpPhi) return;
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// Mark phi visited to prevent potential infinite loop. If phi is already
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// visited, return to avoid infinite loop.
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if (visited_phis->count(insInst->result_id()) != 0) return;
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visited_phis->insert(insInst->result_id());
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// Phis may have duplicate inputs values for different edges, prune incoming
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// ids lists before recursing.
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std::vector<uint32_t> ids;
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for (uint32_t i = 0; i < insInst->NumInOperands(); i += 2) {
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ids.push_back(insInst->GetSingleWordInOperand(i));
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}
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std::sort(ids.begin(), ids.end());
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auto new_end = std::unique(ids.begin(), ids.end());
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for (auto id_iter = ids.begin(); id_iter != new_end; ++id_iter) {
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Instruction* pi = get_def_use_mgr()->GetDef(*id_iter);
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MarkInsertChain(pi, pExtIndices, extOffset, visited_phis);
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}
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}
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bool DeadInsertElimPass::EliminateDeadInserts(Function* func) {
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bool modified = false;
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bool lastmodified = true;
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// Each pass can delete dead instructions, thus potentially revealing
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// new dead insertions ie insertions with no uses.
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while (lastmodified) {
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lastmodified = EliminateDeadInsertsOnePass(func);
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modified |= lastmodified;
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}
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return modified;
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}
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bool DeadInsertElimPass::EliminateDeadInsertsOnePass(Function* func) {
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bool modified = false;
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liveInserts_.clear();
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visitedPhis_.clear();
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// Mark all live inserts
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for (auto bi = func->begin(); bi != func->end(); ++bi) {
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for (auto ii = bi->begin(); ii != bi->end(); ++ii) {
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// Only process Inserts and composite Phis
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SpvOp op = ii->opcode();
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Instruction* typeInst = get_def_use_mgr()->GetDef(ii->type_id());
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if (op != SpvOpCompositeInsert &&
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(op != SpvOpPhi || !spvOpcodeIsComposite(typeInst->opcode())))
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continue;
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// The marking algorithm can be expensive for large arrays and the
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// efficacy of eliminating dead inserts into arrays is questionable.
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// Skip optimizing array inserts for now. Just mark them live.
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// TODO(greg-lunarg): Eliminate dead array inserts
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if (op == SpvOpCompositeInsert) {
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if (typeInst->opcode() == SpvOpTypeArray) {
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liveInserts_.insert(ii->result_id());
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continue;
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}
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}
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const uint32_t id = ii->result_id();
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get_def_use_mgr()->ForEachUser(id, [&ii, this](Instruction* user) {
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switch (user->opcode()) {
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case SpvOpCompositeInsert:
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case SpvOpPhi:
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// Use by insert or phi does not initiate marking
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break;
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case SpvOpCompositeExtract: {
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// Capture extract indices
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std::vector<uint32_t> extIndices;
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uint32_t icnt = 0;
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user->ForEachInOperand([&icnt, &extIndices](const uint32_t* idp) {
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if (icnt > 0) extIndices.push_back(*idp);
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++icnt;
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});
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// Mark all inserts in chain that intersect with extract
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std::unordered_set<uint32_t> visited_phis;
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MarkInsertChain(&*ii, &extIndices, 0, &visited_phis);
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} break;
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default: {
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// Mark inserts in chain for all components
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MarkInsertChain(&*ii, nullptr, 0, nullptr);
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} break;
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}
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});
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}
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}
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// Find and disconnect dead inserts
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std::vector<Instruction*> dead_instructions;
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for (auto bi = func->begin(); bi != func->end(); ++bi) {
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for (auto ii = bi->begin(); ii != bi->end(); ++ii) {
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if (ii->opcode() != SpvOpCompositeInsert) continue;
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const uint32_t id = ii->result_id();
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if (liveInserts_.find(id) != liveInserts_.end()) continue;
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const uint32_t replId =
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ii->GetSingleWordInOperand(kInsertCompositeIdInIdx);
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(void)context()->ReplaceAllUsesWith(id, replId);
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dead_instructions.push_back(&*ii);
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modified = true;
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}
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}
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// DCE dead inserts
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while (!dead_instructions.empty()) {
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Instruction* inst = dead_instructions.back();
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dead_instructions.pop_back();
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DCEInst(inst, [&dead_instructions](Instruction* other_inst) {
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auto i = std::find(dead_instructions.begin(), dead_instructions.end(),
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other_inst);
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if (i != dead_instructions.end()) {
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dead_instructions.erase(i);
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}
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});
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}
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return modified;
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}
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Pass::Status DeadInsertElimPass::Process() {
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// Process all entry point functions.
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ProcessFunction pfn = [this](Function* fp) {
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return EliminateDeadInserts(fp);
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};
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bool modified = context()->ProcessEntryPointCallTree(pfn);
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return modified ? Status::SuccessWithChange : Status::SuccessWithoutChange;
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}
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} // namespace opt
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} // namespace spvtools
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