mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-11-26 21:30:07 +00:00
Fix decorations of inlined functions.
Fixes issue #728. Currently the inliner is not generating decorations for inlined code which corresponds to function code which has decorations. An example of decorations that are relevant: RelaxedPrecision, NoContraction. The solution is to replicate the decoration during inlining.
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@ -15,6 +15,7 @@
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#include "decoration_manager.h"
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#include <stack>
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#include <iostream>
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namespace spvtools {
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namespace opt {
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@ -127,11 +128,11 @@ bool DecorationManager::AreDecorationsTheSame(
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return true;
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}
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void DecorationManager::AnalyzeDecorations(ir::Module* module) {
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if (!module) return;
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void DecorationManager::AnalyzeDecorations() {
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if (!module_) return;
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// Collect all group ids.
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for (const ir::Instruction& inst : module->annotations()) {
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for (const ir::Instruction& inst : module_->annotations()) {
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switch (inst.opcode()) {
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case SpvOpDecorationGroup:
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group_to_decoration_insts_.insert({inst.result_id(), {}});
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@ -142,7 +143,7 @@ void DecorationManager::AnalyzeDecorations(ir::Module* module) {
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}
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// For each group and instruction, collect all their decoration instructions.
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for (ir::Instruction& inst : module->annotations()) {
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for (ir::Instruction& inst : module_->annotations()) {
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switch (inst.opcode()) {
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case SpvOpDecorate:
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case SpvOpDecorateId:
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@ -230,31 +231,71 @@ std::vector<T> DecorationManager::InternalGetDecorationsFor(
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return decorations;
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}
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void DecorationManager::ForEachDecoration(
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uint32_t id, uint32_t decoration,
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std::function<void(const ir::Instruction&)> f) const {
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auto decoration_list = id_to_decoration_insts_.find(id);
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if (decoration_list != id_to_decoration_insts_.end()) {
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for (const ir::Instruction* inst : decoration_list->second) {
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switch (inst->opcode()) {
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case SpvOpDecorate:
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if (inst->GetSingleWordInOperand(1) == decoration) {
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f(*inst);
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void DecorationManager::ForEachDecoration(uint32_t id,
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uint32_t decoration,
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std::function<void(const ir::Instruction&)> f) {
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for (const ir::Instruction* inst : GetDecorationsFor(id, true)) {
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switch (inst->opcode()) {
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case SpvOpMemberDecorate:
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if (inst->GetSingleWordInOperand(2) == decoration) {
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f(*inst);
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}
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break;
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case SpvOpDecorate:
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case SpvOpDecorateId:
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if (inst->GetSingleWordInOperand(1) == decoration) {
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f(*inst);
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}
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break;
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default:
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assert(false && "Unexpected decoration instruction");
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}
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}
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}
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void DecorationManager::CloneDecorations(uint32_t from, uint32_t to,
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std::function<void(ir::Instruction&, bool)> f) {
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assert(f && "Missing function parameter f");
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auto const decoration_list = id_to_decoration_insts_.find(from);
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if (decoration_list == id_to_decoration_insts_.end()) return;
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for (ir::Instruction* inst : decoration_list->second) {
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switch (inst->opcode()) {
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case SpvOpGroupDecorate:
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f(*inst, false);
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// add |to| to list of decorated id's
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inst->AddOperand(ir::Operand(spv_operand_type_t::SPV_OPERAND_TYPE_ID, {to}));
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id_to_decoration_insts_[to].push_back(inst);
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f(*inst, true);
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break;
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case SpvOpGroupMemberDecorate: {
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f(*inst, false);
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// for each (id == from), add (to, literal) as operands
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const uint32_t num_operands = inst->NumOperands();
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for (uint32_t i = 1; i < num_operands; i += 2) {
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ir::Operand op = inst->GetOperand(i);
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if (op.words[0] == from) { // add new pair of operands: (to, literal)
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inst->AddOperand(ir::Operand(spv_operand_type_t::SPV_OPERAND_TYPE_ID, {to}));
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op = inst->GetOperand(i + 1);
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inst->AddOperand(std::move(op));
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}
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break;
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case SpvOpMemberDecorate:
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if (inst->GetSingleWordInOperand(2) == decoration) {
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f(*inst);
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}
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break;
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case SpvOpDecorateId:
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if (inst->GetSingleWordInOperand(1) == decoration) {
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f(*inst);
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}
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break;
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default:
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assert(false && "Unexpected decoration instruction");
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}
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id_to_decoration_insts_[to].push_back(inst);
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f(*inst, true);
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break;
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}
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case SpvOpDecorate:
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case SpvOpMemberDecorate:
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case SpvOpDecorateId: {
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// simply clone decoration and change |target-id| to |to|
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std::unique_ptr<ir::Instruction> new_inst(inst->Clone());
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new_inst->SetInOperand(0, {to});
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id_to_decoration_insts_[to].push_back(new_inst.get());
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f(*new_inst, true);
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module_->AddAnnotationInst(std::move(new_inst));
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break;
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}
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default:
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assert(false && "Unexpected decoration instruction");
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}
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}
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}
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@ -30,7 +30,11 @@ namespace analysis {
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class DecorationManager {
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public:
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// Constructs a decoration manager from the given |module|
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DecorationManager(ir::Module* module) { AnalyzeDecorations(module); }
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explicit DecorationManager(ir::Module* module) : module_(module) {
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AnalyzeDecorations();
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}
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DecorationManager() = delete;
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// Removes all decorations from |id|, which should not be a group ID, except
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// for linkage decorations if |keep_linkage| is set.
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void RemoveDecorationsFrom(uint32_t id, bool keep_linkage);
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@ -52,16 +56,26 @@ class DecorationManager {
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const ir::Instruction* inst2) const;
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// |f| is run on each decoration instruction for |id| with decoration
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// |decoration|.
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// |decoration|. Processed are all decorations which target |id| either
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// directly or indirectly by Decoration Groups.
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void ForEachDecoration(uint32_t id, uint32_t decoration,
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std::function<void(const ir::Instruction& f)>) const;
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std::function<void(const ir::Instruction&)> f);
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// Clone all decorations from one id |from|.
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// The cloned decorations are assigned to the given id |to| and are
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// added to the module. The purpose is to decorate cloned instructions.
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// This function does not check if the id |to| is already decorated.
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// Function |f| can be used to update context information and is called
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// with |false|, before an instruction is going to be changed and
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// with |true| afterwards.
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void CloneDecorations(uint32_t from, uint32_t to, std::function<void(ir::Instruction&, bool)> f);
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private:
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using IdToDecorationInstsMap =
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std::unordered_map<uint32_t, std::vector<ir::Instruction*>>;
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// Analyzes the defs and uses in the given |module| and populates data
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// structures in this class. Does nothing if |module| is nullptr.
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void AnalyzeDecorations(ir::Module* module);
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void AnalyzeDecorations();
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template <typename T>
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std::vector<T> InternalGetDecorationsFor(uint32_t id, bool include_linkage);
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@ -74,6 +88,8 @@ class DecorationManager {
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IdToDecorationInstsMap id_to_decoration_insts_;
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// Mapping from group ids to all the decoration instructions they apply.
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IdToDecorationInstsMap group_to_decoration_insts_;
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// The enclosing module.
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ir::Module* module_;
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};
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} // namespace analysis
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@ -145,6 +145,7 @@ void InlinePass::CloneAndMapLocals(
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while (callee_var_itr->opcode() == SpvOp::SpvOpVariable) {
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std::unique_ptr<ir::Instruction> var_inst(callee_var_itr->Clone());
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uint32_t newId = TakeNextId();
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dec_mgr_->CloneDecorations(callee_var_itr->result_id(), newId, update_def_use_mgr_);
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var_inst->SetResultId(newId);
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(*callee2caller)[callee_var_itr->result_id()] = newId;
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new_vars->push_back(std::move(var_inst));
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@ -173,6 +174,7 @@ uint32_t InlinePass::CreateReturnVar(
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{SpvStorageClassFunction}}}));
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new_vars->push_back(std::move(var_inst));
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}
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dec_mgr_->CloneDecorations(calleeFn->result_id(), returnVarId, update_def_use_mgr_);
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return returnVarId;
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}
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@ -197,6 +199,7 @@ void InlinePass::CloneSameBlockOps(
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CloneSameBlockOps(&sb_inst, postCallSB, preCallSB, block_ptr);
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const uint32_t rid = sb_inst->result_id();
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const uint32_t nid = this->TakeNextId();
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dec_mgr_->CloneDecorations(rid, nid, update_def_use_mgr_);
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sb_inst->SetResultId(nid);
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(*postCallSB)[rid] = nid;
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*iid = nid;
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@ -476,6 +479,7 @@ void InlinePass::GenInlineCode(
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callee2caller[rid] = nid;
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}
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cp_inst->SetResultId(nid);
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dec_mgr_->CloneDecorations(rid, nid, update_def_use_mgr_);
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}
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new_blk_ptr->AddInstruction(std::move(cp_inst));
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} break;
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@ -642,6 +646,12 @@ bool InlinePass::IsInlinableFunction(ir::Function* func) {
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void InlinePass::InitializeInline(ir::IRContext* c) {
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InitializeProcessing(c);
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dec_mgr_.reset(new analysis::DecorationManager(c->module()));
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update_def_use_mgr_ = [this] (ir::Instruction& inst, bool has_changed) {
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if (has_changed)
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get_def_use_mgr()->AnalyzeInstDefUse(&inst);
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};
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false_id_ = 0;
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// clear collections
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@ -24,6 +24,7 @@
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#include <vector>
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#include "def_use_manager.h"
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#include "decoration_manager.h"
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#include "module.h"
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#include "pass.h"
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@ -161,6 +162,12 @@ class InlinePass : public Pass {
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// Initialize state for optimization of |module|
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void InitializeInline(ir::IRContext* c);
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// Update the DefUseManager when cloning decorations.
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std::function<void(ir::Instruction&, bool)> update_def_use_mgr_;
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// Decorations for the module we are processing TODO: move this to ir_context as well
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std::unique_ptr<analysis::DecorationManager> dec_mgr_;
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// Map from function's result id to function.
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std::unordered_map<uint32_t, ir::Function*> id2function_;
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@ -163,6 +163,10 @@ class Instruction : public utils::IntrusiveNodeBase<Instruction> {
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}
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// Gets the |index|-th logical operand.
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inline const Operand& GetOperand(uint32_t index) const;
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// Adds |operand| to the list of operands of this instruction.
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// It is the responsibility of the caller to make sure
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// that the instruction remains valid.
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inline void AddOperand(Operand &&operand);
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// Gets the |index|-th logical operand as a single SPIR-V word. This method is
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// not expected to be used with logical operands consisting of multiple SPIR-V
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// words.
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@ -257,6 +261,11 @@ inline const Operand& Instruction::GetOperand(uint32_t index) const {
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return operands_[index];
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};
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inline void Instruction::AddOperand(Operand &&operand) {
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operands_.push_back(operand);
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return;
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}
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inline void Instruction::SetInOperand(uint32_t index,
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std::vector<uint32_t>&& data) {
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assert(index + TypeResultIdCount() < operands_.size() &&
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@ -2248,7 +2248,255 @@ OpFunctionEnd
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true);
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}
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TEST_F(InlineTest, Decorated1) {
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// Same test as Simple with the difference
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// that OpFAdd in the outlined function is
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// decorated with RelaxedPrecision
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// Expected result is an equal decoration
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// of the corresponding inlined instruction
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//
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// #version 140
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//
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// in vec4 BaseColor;
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//
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// float foo(vec4 bar)
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// {
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// return bar.x + bar.y;
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// }
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//
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// void main()
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// {
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// vec4 color = vec4(foo(BaseColor));
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// gl_FragColor = color;
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// }
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const std::string predefs =
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R"(OpCapability Shader
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%1 = OpExtInstImport "GLSL.std.450"
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OpMemoryModel Logical GLSL450
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OpEntryPoint Fragment %main "main" %BaseColor %gl_FragColor
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OpExecutionMode %main OriginUpperLeft
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OpSource GLSL 140
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OpName %main "main"
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OpName %foo_vf4_ "foo(vf4;"
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OpName %bar "bar"
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OpName %color "color"
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OpName %BaseColor "BaseColor"
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OpName %param "param"
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OpName %gl_FragColor "gl_FragColor"
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OpDecorate %9 RelaxedPrecision
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)";
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const std::string before =
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R"(%void = OpTypeVoid
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%11 = OpTypeFunction %void
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%float = OpTypeFloat 32
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%v4float = OpTypeVector %float 4
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%_ptr_Function_v4float = OpTypePointer Function %v4float
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%15 = OpTypeFunction %float %_ptr_Function_v4float
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%uint = OpTypeInt 32 0
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%uint_0 = OpConstant %uint 0
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%_ptr_Function_float = OpTypePointer Function %float
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%uint_1 = OpConstant %uint 1
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%_ptr_Input_v4float = OpTypePointer Input %v4float
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%BaseColor = OpVariable %_ptr_Input_v4float Input
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%_ptr_Output_v4float = OpTypePointer Output %v4float
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%gl_FragColor = OpVariable %_ptr_Output_v4float Output
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%main = OpFunction %void None %11
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%22 = OpLabel
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%color = OpVariable %_ptr_Function_v4float Function
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%param = OpVariable %_ptr_Function_v4float Function
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%23 = OpLoad %v4float %BaseColor
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OpStore %param %23
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%24 = OpFunctionCall %float %foo_vf4_ %param
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%25 = OpCompositeConstruct %v4float %24 %24 %24 %24
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OpStore %color %25
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%26 = OpLoad %v4float %color
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OpStore %gl_FragColor %26
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OpReturn
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OpFunctionEnd
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)";
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const std::string after =
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R"(OpDecorate %37 RelaxedPrecision
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%void = OpTypeVoid
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%11 = OpTypeFunction %void
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%float = OpTypeFloat 32
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%v4float = OpTypeVector %float 4
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%_ptr_Function_v4float = OpTypePointer Function %v4float
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%15 = OpTypeFunction %float %_ptr_Function_v4float
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%uint = OpTypeInt 32 0
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%uint_0 = OpConstant %uint 0
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%_ptr_Function_float = OpTypePointer Function %float
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%uint_1 = OpConstant %uint 1
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%_ptr_Input_v4float = OpTypePointer Input %v4float
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%BaseColor = OpVariable %_ptr_Input_v4float Input
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%_ptr_Output_v4float = OpTypePointer Output %v4float
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%gl_FragColor = OpVariable %_ptr_Output_v4float Output
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%main = OpFunction %void None %11
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%22 = OpLabel
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%32 = OpVariable %_ptr_Function_float Function
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%color = OpVariable %_ptr_Function_v4float Function
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%param = OpVariable %_ptr_Function_v4float Function
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%23 = OpLoad %v4float %BaseColor
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OpStore %param %23
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%33 = OpAccessChain %_ptr_Function_float %param %uint_0
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%34 = OpLoad %float %33
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%35 = OpAccessChain %_ptr_Function_float %param %uint_1
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%36 = OpLoad %float %35
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%37 = OpFAdd %float %34 %36
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OpStore %32 %37
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%24 = OpLoad %float %32
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%25 = OpCompositeConstruct %v4float %24 %24 %24 %24
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OpStore %color %25
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%26 = OpLoad %v4float %color
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OpStore %gl_FragColor %26
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OpReturn
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OpFunctionEnd
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)";
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const std::string nonEntryFuncs =
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R"(%foo_vf4_ = OpFunction %float None %15
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%bar = OpFunctionParameter %_ptr_Function_v4float
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%27 = OpLabel
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%28 = OpAccessChain %_ptr_Function_float %bar %uint_0
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%29 = OpLoad %float %28
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%30 = OpAccessChain %_ptr_Function_float %bar %uint_1
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%31 = OpLoad %float %30
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%9 = OpFAdd %float %29 %31
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OpReturnValue %9
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OpFunctionEnd
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)";
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SinglePassRunAndCheck<opt::InlineExhaustivePass>(
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predefs + before + nonEntryFuncs, predefs + after + nonEntryFuncs, false,
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true);
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}
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TEST_F(InlineTest, Decorated2) {
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// Same test as Simple with the difference
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// that the Result <id> of the outlined OpFunction
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// is decorated with RelaxedPrecision
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// Expected result is an equal decoration
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// of the created return variable
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//
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// #version 140
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//
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// in vec4 BaseColor;
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//
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// float foo(vec4 bar)
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// {
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// return bar.x + bar.y;
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// }
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//
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// void main()
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// {
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// vec4 color = vec4(foo(BaseColor));
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// gl_FragColor = color;
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// }
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const std::string predefs =
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R"(OpCapability Shader
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%1 = OpExtInstImport "GLSL.std.450"
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OpMemoryModel Logical GLSL450
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OpEntryPoint Fragment %main "main" %BaseColor %gl_FragColor
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OpExecutionMode %main OriginUpperLeft
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OpSource GLSL 140
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OpName %main "main"
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OpName %foo_vf4_ "foo(vf4;"
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OpName %bar "bar"
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OpName %color "color"
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OpName %BaseColor "BaseColor"
|
||||
OpName %param "param"
|
||||
OpName %gl_FragColor "gl_FragColor"
|
||||
OpDecorate %foo_vf4_ RelaxedPrecision
|
||||
)";
|
||||
|
||||
const std::string before =
|
||||
R"(%void = OpTypeVoid
|
||||
%10 = OpTypeFunction %void
|
||||
%float = OpTypeFloat 32
|
||||
%v4float = OpTypeVector %float 4
|
||||
%_ptr_Function_v4float = OpTypePointer Function %v4float
|
||||
%14 = OpTypeFunction %float %_ptr_Function_v4float
|
||||
%uint = OpTypeInt 32 0
|
||||
%uint_0 = OpConstant %uint 0
|
||||
%_ptr_Function_float = OpTypePointer Function %float
|
||||
%uint_1 = OpConstant %uint 1
|
||||
%_ptr_Input_v4float = OpTypePointer Input %v4float
|
||||
%BaseColor = OpVariable %_ptr_Input_v4float Input
|
||||
%_ptr_Output_v4float = OpTypePointer Output %v4float
|
||||
%gl_FragColor = OpVariable %_ptr_Output_v4float Output
|
||||
%main = OpFunction %void None %10
|
||||
%21 = OpLabel
|
||||
%color = OpVariable %_ptr_Function_v4float Function
|
||||
%param = OpVariable %_ptr_Function_v4float Function
|
||||
%22 = OpLoad %v4float %BaseColor
|
||||
OpStore %param %22
|
||||
%23 = OpFunctionCall %float %foo_vf4_ %param
|
||||
%24 = OpCompositeConstruct %v4float %23 %23 %23 %23
|
||||
OpStore %color %24
|
||||
%25 = OpLoad %v4float %color
|
||||
OpStore %gl_FragColor %25
|
||||
OpReturn
|
||||
OpFunctionEnd
|
||||
)";
|
||||
|
||||
|
||||
const std::string after =
|
||||
R"(OpDecorate %32 RelaxedPrecision
|
||||
%void = OpTypeVoid
|
||||
%10 = OpTypeFunction %void
|
||||
%float = OpTypeFloat 32
|
||||
%v4float = OpTypeVector %float 4
|
||||
%_ptr_Function_v4float = OpTypePointer Function %v4float
|
||||
%14 = OpTypeFunction %float %_ptr_Function_v4float
|
||||
%uint = OpTypeInt 32 0
|
||||
%uint_0 = OpConstant %uint 0
|
||||
%_ptr_Function_float = OpTypePointer Function %float
|
||||
%uint_1 = OpConstant %uint 1
|
||||
%_ptr_Input_v4float = OpTypePointer Input %v4float
|
||||
%BaseColor = OpVariable %_ptr_Input_v4float Input
|
||||
%_ptr_Output_v4float = OpTypePointer Output %v4float
|
||||
%gl_FragColor = OpVariable %_ptr_Output_v4float Output
|
||||
%main = OpFunction %void None %10
|
||||
%21 = OpLabel
|
||||
%32 = OpVariable %_ptr_Function_float Function
|
||||
%color = OpVariable %_ptr_Function_v4float Function
|
||||
%param = OpVariable %_ptr_Function_v4float Function
|
||||
%22 = OpLoad %v4float %BaseColor
|
||||
OpStore %param %22
|
||||
%33 = OpAccessChain %_ptr_Function_float %param %uint_0
|
||||
%34 = OpLoad %float %33
|
||||
%35 = OpAccessChain %_ptr_Function_float %param %uint_1
|
||||
%36 = OpLoad %float %35
|
||||
%37 = OpFAdd %float %34 %36
|
||||
OpStore %32 %37
|
||||
%23 = OpLoad %float %32
|
||||
%24 = OpCompositeConstruct %v4float %23 %23 %23 %23
|
||||
OpStore %color %24
|
||||
%25 = OpLoad %v4float %color
|
||||
OpStore %gl_FragColor %25
|
||||
OpReturn
|
||||
OpFunctionEnd
|
||||
)";
|
||||
|
||||
const std::string nonEntryFuncs =
|
||||
R"(%foo_vf4_ = OpFunction %float None %14
|
||||
%bar = OpFunctionParameter %_ptr_Function_v4float
|
||||
%26 = OpLabel
|
||||
%27 = OpAccessChain %_ptr_Function_float %bar %uint_0
|
||||
%28 = OpLoad %float %27
|
||||
%29 = OpAccessChain %_ptr_Function_float %bar %uint_1
|
||||
%30 = OpLoad %float %29
|
||||
%31 = OpFAdd %float %28 %30
|
||||
OpReturnValue %31
|
||||
OpFunctionEnd
|
||||
)";
|
||||
SinglePassRunAndCheck<opt::InlineExhaustivePass>(
|
||||
predefs + before + nonEntryFuncs, predefs + after + nonEntryFuncs, false,
|
||||
true);
|
||||
}
|
||||
// TODO(greg-lunarg): Add tests to verify handling of these cases:
|
||||
//
|
||||
// Empty modules
|
||||
|
Loading…
Reference in New Issue
Block a user