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https://gitee.com/openharmony/third_party_spirv-tools
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e8ad9735b1
Signed-off-by: huruitao <huruitao@kaihong.com>
398 lines
20 KiB
C++
398 lines
20 KiB
C++
// Copyright (c) 2022 Google LLC
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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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#ifndef SOURCE_OPT_INTERFACE_VAR_SROA_H_
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#define SOURCE_OPT_INTERFACE_VAR_SROA_H_
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#include <unordered_set>
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#include "source/opt/pass.h"
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namespace spvtools {
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namespace opt {
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// See optimizer.hpp for documentation.
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//
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// Note that the current implementation of this pass covers only store, load,
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// access chain instructions for the interface variables. Supporting other types
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// of instructions is a future work.
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class InterfaceVariableScalarReplacement : public Pass {
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public:
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InterfaceVariableScalarReplacement() {}
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const char* name() const override {
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return "interface-variable-scalar-replacement";
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}
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Status Process() override;
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IRContext::Analysis GetPreservedAnalyses() override {
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return IRContext::kAnalysisDecorations | IRContext::kAnalysisDefUse |
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IRContext::kAnalysisConstants | IRContext::kAnalysisTypes;
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}
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private:
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// A struct containing components of a composite variable. If the composite
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// consists of multiple or recursive components, |component_variable| is
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// nullptr and |nested_composite_components| keeps the components. If it has a
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// single component, |nested_composite_components| is empty and
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// |component_variable| is the component. Note that each element of
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// |nested_composite_components| has the NestedCompositeComponents struct as
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// its type that can recursively keep the components.
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struct NestedCompositeComponents {
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NestedCompositeComponents() : component_variable(nullptr) {}
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bool HasMultipleComponents() const {
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return !nested_composite_components.empty();
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}
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const std::vector<NestedCompositeComponents>& GetComponents() const {
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return nested_composite_components;
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}
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void AddComponent(const NestedCompositeComponents& component) {
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nested_composite_components.push_back(component);
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}
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Instruction* GetComponentVariable() const { return component_variable; }
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void SetSingleComponentVariable(Instruction* var) {
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component_variable = var;
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}
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private:
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std::vector<NestedCompositeComponents> nested_composite_components;
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Instruction* component_variable;
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};
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// Collects all interface variables used by the |entry_point|.
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std::vector<Instruction*> CollectInterfaceVariables(Instruction& entry_point);
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// Returns whether |var| has the extra arrayness for the entry point
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// |entry_point| or not.
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bool HasExtraArrayness(Instruction& entry_point, Instruction* var);
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// Finds a Location BuiltIn decoration of |var| and returns it via
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// |location|. Returns true whether the location exists or not.
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bool GetVariableLocation(Instruction* var, uint32_t* location);
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// Finds a Component BuiltIn decoration of |var| and returns it via
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// |component|. Returns true whether the component exists or not.
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bool GetVariableComponent(Instruction* var, uint32_t* component);
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// Returns the type of |var| as an instruction.
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Instruction* GetTypeOfVariable(Instruction* var);
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// Replaces an interface variable |interface_var| whose type is
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// |interface_var_type| with scalars and returns whether it succeeds or not.
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// |location| is the value of Location Decoration for |interface_var|.
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// |component| is the value of Component Decoration for |interface_var|.
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// If |extra_array_length| is 0, it means |interface_var| has a Patch
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// decoration. Otherwise, |extra_array_length| denotes the length of the extra
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// array of |interface_var|.
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bool ReplaceInterfaceVariableWithScalars(Instruction* interface_var,
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Instruction* interface_var_type,
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uint32_t location,
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uint32_t component,
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uint32_t extra_array_length);
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// Creates scalar variables with the storage classe |storage_class| to replace
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// an interface variable whose type is |interface_var_type|. If
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// |extra_array_length| is not zero, adds the extra arrayness to the created
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// scalar variables.
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NestedCompositeComponents CreateScalarInterfaceVarsForReplacement(
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Instruction* interface_var_type, spv::StorageClass storage_class,
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uint32_t extra_array_length);
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// Creates scalar variables with the storage classe |storage_class| to replace
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// the interface variable whose type is OpTypeArray |interface_var_type| with.
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// If |extra_array_length| is not zero, adds the extra arrayness to all the
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// scalar variables.
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NestedCompositeComponents CreateScalarInterfaceVarsForArray(
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Instruction* interface_var_type, spv::StorageClass storage_class,
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uint32_t extra_array_length);
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// Creates scalar variables with the storage classe |storage_class| to replace
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// the interface variable whose type is OpTypeMatrix |interface_var_type|
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// with. If |extra_array_length| is not zero, adds the extra arrayness to all
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// the scalar variables.
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NestedCompositeComponents CreateScalarInterfaceVarsForMatrix(
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Instruction* interface_var_type, spv::StorageClass storage_class,
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uint32_t extra_array_length);
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// Recursively adds Location and Component decorations to variables in
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// |vars| with |location| and |component|. Increases |location| by one after
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// it actually adds Location and Component decorations for a variable.
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void AddLocationAndComponentDecorations(const NestedCompositeComponents& vars,
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uint32_t* location,
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uint32_t component);
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// Replaces the interface variable |interface_var| with
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// |scalar_interface_vars| and returns whether it succeeds or not.
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// |extra_arrayness| is the extra arrayness of the interface variable.
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// |scalar_interface_vars| contains the nested variables to replace the
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// interface variable with.
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bool ReplaceInterfaceVarWith(
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Instruction* interface_var, uint32_t extra_arrayness,
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const NestedCompositeComponents& scalar_interface_vars);
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// Replaces |interface_var| in the operands of instructions
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// |interface_var_users| with |scalar_interface_vars|. This is a recursive
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// method and |interface_var_component_indices| is used to specify which
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// recursive component of |interface_var| is replaced. Returns composite
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// construct instructions to be replaced with load instructions of
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// |interface_var_users| via |loads_to_composites|. Returns composite
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// construct instructions to be replaced with load instructions of access
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// chain instructions in |interface_var_users| via
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// |loads_for_access_chain_to_composites|.
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bool ReplaceComponentsOfInterfaceVarWith(
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Instruction* interface_var,
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const std::vector<Instruction*>& interface_var_users,
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const NestedCompositeComponents& scalar_interface_vars,
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std::vector<uint32_t>& interface_var_component_indices,
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const uint32_t* extra_array_index,
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std::unordered_map<Instruction*, Instruction*>* loads_to_composites,
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std::unordered_map<Instruction*, Instruction*>*
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loads_for_access_chain_to_composites);
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// Replaces |interface_var| in the operands of instructions
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// |interface_var_users| with |components| that is a vector of components for
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// the interface variable |interface_var|. This is a recursive method and
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// |interface_var_component_indices| is used to specify which recursive
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// component of |interface_var| is replaced. Returns composite construct
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// instructions to be replaced with load instructions of |interface_var_users|
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// via |loads_to_composites|. Returns composite construct instructions to be
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// replaced with load instructions of access chain instructions in
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// |interface_var_users| via |loads_for_access_chain_to_composites|.
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bool ReplaceMultipleComponentsOfInterfaceVarWith(
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Instruction* interface_var,
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const std::vector<Instruction*>& interface_var_users,
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const std::vector<NestedCompositeComponents>& components,
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std::vector<uint32_t>& interface_var_component_indices,
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const uint32_t* extra_array_index,
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std::unordered_map<Instruction*, Instruction*>* loads_to_composites,
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std::unordered_map<Instruction*, Instruction*>*
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loads_for_access_chain_to_composites);
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// Replaces a component of |interface_var| that is used as an operand of
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// instruction |interface_var_user| with |scalar_var|.
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// |interface_var_component_indices| is a vector of recursive indices for
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// which recursive component of |interface_var| is replaced. If
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// |interface_var_user| is a load, returns the component value via
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// |loads_to_component_values|. If |interface_var_user| is an access chain,
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// returns the component value for loads of |interface_var_user| via
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// |loads_for_access_chain_to_component_values|.
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bool ReplaceComponentOfInterfaceVarWith(
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Instruction* interface_var, Instruction* interface_var_user,
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Instruction* scalar_var,
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const std::vector<uint32_t>& interface_var_component_indices,
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const uint32_t* extra_array_index,
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std::unordered_map<Instruction*, Instruction*>* loads_to_component_values,
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std::unordered_map<Instruction*, Instruction*>*
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loads_for_access_chain_to_component_values);
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// Creates instructions to load |scalar_var| and inserts them before
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// |insert_before|. If |extra_array_index| is not null, they load
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// |extra_array_index| th component of |scalar_var| instead of |scalar_var|
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// itself.
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Instruction* LoadScalarVar(Instruction* scalar_var,
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const uint32_t* extra_array_index,
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Instruction* insert_before);
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// Creates instructions to load an access chain to |var| and inserts them
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// before |insert_before|. |Indexes| will be Indexes operand of the access
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// chain.
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Instruction* LoadAccessChainToVar(Instruction* var,
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const std::vector<uint32_t>& indexes,
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Instruction* insert_before);
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// Creates instructions to store a component of an aggregate whose id is
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// |value_id| to an access chain to |scalar_var| and inserts the created
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// instructions before |insert_before|. To get the component, recursively
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// traverses the aggregate with |component_indices| as indexes.
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// Numbers in |access_chain_indices| are the Indexes operand of the access
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// chain to |scalar_var|
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void StoreComponentOfValueToAccessChainToScalarVar(
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uint32_t value_id, const std::vector<uint32_t>& component_indices,
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Instruction* scalar_var,
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const std::vector<uint32_t>& access_chain_indices,
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Instruction* insert_before);
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// Creates instructions to store a component of an aggregate whose id is
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// |value_id| to |scalar_var| and inserts the created instructions before
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// |insert_before|. To get the component, recursively traverses the aggregate
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// using |extra_array_index| and |component_indices| as indexes.
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void StoreComponentOfValueToScalarVar(
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uint32_t value_id, const std::vector<uint32_t>& component_indices,
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Instruction* scalar_var, const uint32_t* extra_array_index,
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Instruction* insert_before);
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// Creates instructions to store a component of an aggregate whose id is
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// |value_id| to |ptr| and inserts the created instructions before
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// |insert_before|. To get the component, recursively traverses the aggregate
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// using |extra_array_index| and |component_indices| as indexes.
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// |component_type_id| is the id of the type instruction of the component.
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void StoreComponentOfValueTo(uint32_t component_type_id, uint32_t value_id,
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const std::vector<uint32_t>& component_indices,
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Instruction* ptr,
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const uint32_t* extra_array_index,
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Instruction* insert_before);
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// Creates new OpCompositeExtract with |type_id| for Result Type,
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// |composite_id| for Composite operand, and |indexes| for Indexes operands.
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// If |extra_first_index| is not nullptr, uses it as the first Indexes
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// operand.
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Instruction* CreateCompositeExtract(uint32_t type_id, uint32_t composite_id,
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const std::vector<uint32_t>& indexes,
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const uint32_t* extra_first_index);
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// Creates a new OpLoad whose Result Type is |type_id| and Pointer operand is
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// |ptr|. Inserts the new instruction before |insert_before|.
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Instruction* CreateLoad(uint32_t type_id, Instruction* ptr,
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Instruction* insert_before);
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// Clones an annotation instruction |annotation_inst| and sets the target
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// operand of the new annotation instruction as |var_id|.
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void CloneAnnotationForVariable(Instruction* annotation_inst,
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uint32_t var_id);
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// Replaces the interface variable |interface_var| in the operands of the
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// entry point |entry_point| with |scalar_var_id|. If it cannot find
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// |interface_var| from the operands of the entry point |entry_point|, adds
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// |scalar_var_id| as an operand of the entry point |entry_point|.
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bool ReplaceInterfaceVarInEntryPoint(Instruction* interface_var,
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Instruction* entry_point,
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uint32_t scalar_var_id);
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// Creates an access chain instruction whose Base operand is |var| and Indexes
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// operand is |index|. |component_type_id| is the id of the type instruction
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// that is the type of component. Inserts the new access chain before
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// |insert_before|.
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Instruction* CreateAccessChainWithIndex(uint32_t component_type_id,
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Instruction* var, uint32_t index,
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Instruction* insert_before);
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// Returns the pointee type of the type of variable |var|.
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uint32_t GetPointeeTypeIdOfVar(Instruction* var);
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// Replaces the access chain |access_chain| and its users with a new access
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// chain that points |scalar_var| as the Base operand having
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// |interface_var_component_indices| as Indexes operands and users of the new
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// access chain. When some of the users are load instructions, returns the
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// original load instruction to the new instruction that loads a component of
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// the original load value via |loads_to_component_values|.
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void ReplaceAccessChainWith(
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Instruction* access_chain,
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const std::vector<uint32_t>& interface_var_component_indices,
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Instruction* scalar_var,
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std::unordered_map<Instruction*, Instruction*>*
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loads_to_component_values);
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// Assuming that |access_chain| is an access chain instruction whose Base
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// operand is |base_access_chain|, replaces the operands of |access_chain|
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// with operands of |base_access_chain| and Indexes operands of
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// |access_chain|.
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void UseBaseAccessChainForAccessChain(Instruction* access_chain,
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Instruction* base_access_chain);
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// Creates composite construct instructions for load instructions that are the
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// keys of |loads_to_component_values| if no such composite construct
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// instructions exist. Adds a component of the composite as an operand of the
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// created composite construct instruction. Each value of
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// |loads_to_component_values| is the component. Returns the created composite
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// construct instructions using |loads_to_composites|. |depth_to_component| is
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// the number of recursive access steps to get the component from the
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// composite.
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void AddComponentsToCompositesForLoads(
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const std::unordered_map<Instruction*, Instruction*>&
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loads_to_component_values,
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std::unordered_map<Instruction*, Instruction*>* loads_to_composites,
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uint32_t depth_to_component);
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// Creates a composite construct instruction for a component of the value of
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// instruction |load| in |depth_to_component| th recursive depth and inserts
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// it after |load|.
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Instruction* CreateCompositeConstructForComponentOfLoad(
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Instruction* load, uint32_t depth_to_component);
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// Creates a new access chain instruction that points to variable |var| whose
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// type is the instruction with |var_type_id| and inserts it before
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// |insert_before|. The new access chain will have |index_ids| for Indexes
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// operands. Returns the type id of the component that is pointed by the new
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// access chain via |component_type_id|.
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Instruction* CreateAccessChainToVar(uint32_t var_type_id, Instruction* var,
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const std::vector<uint32_t>& index_ids,
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Instruction* insert_before,
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uint32_t* component_type_id);
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// Returns the result id of OpTypeArray instrunction whose Element Type
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// operand is |elem_type_id| and Length operand is |array_length|.
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uint32_t GetArrayType(uint32_t elem_type_id, uint32_t array_length);
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// Returns the result id of OpTypePointer instrunction whose Type
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// operand is |type_id| and Storage Class operand is |storage_class|.
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uint32_t GetPointerType(uint32_t type_id, spv::StorageClass storage_class);
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// Kills an instrunction |inst| and its users.
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void KillInstructionAndUsers(Instruction* inst);
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// Kills a vector of instrunctions |insts| and their users.
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void KillInstructionsAndUsers(const std::vector<Instruction*>& insts);
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// Kills all OpDecorate instructions for Location and Component of the
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// variable whose id is |var_id|.
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void KillLocationAndComponentDecorations(uint32_t var_id);
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// If |var| has the extra arrayness for an entry point, reports an error and
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// returns true. Otherwise, returns false.
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bool ReportErrorIfHasExtraArraynessForOtherEntry(Instruction* var);
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// If |var| does not have the extra arrayness for an entry point, reports an
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// error and returns true. Otherwise, returns false.
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bool ReportErrorIfHasNoExtraArraynessForOtherEntry(Instruction* var);
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// If |interface_var| has the extra arrayness for an entry point but it does
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// not have one for another entry point, reports an error and returns false.
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// Otherwise, returns true. |has_extra_arrayness| denotes whether it has an
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// extra arrayness for an entry point or not.
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bool CheckExtraArraynessConflictBetweenEntries(Instruction* interface_var,
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bool has_extra_arrayness);
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// Conducts the scalar replacement for the interface variables used by the
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// |entry_point|.
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Pass::Status ReplaceInterfaceVarsWithScalars(Instruction& entry_point);
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// A set of interface variable ids that were already removed from operands of
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// the entry point.
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std::unordered_set<uint32_t>
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interface_vars_removed_from_entry_point_operands_;
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// A mapping from ids of new composite construct instructions that load
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// instructions are replaced with to the recursive depth of the component of
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// load that the new component construct instruction is used for.
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std::unordered_map<uint32_t, uint32_t> composite_ids_to_component_depths;
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// A set of interface variables with the extra arrayness for any of the entry
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// points.
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std::unordered_set<Instruction*> vars_with_extra_arrayness;
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// A set of interface variables without the extra arrayness for any of the
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// entry points.
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std::unordered_set<Instruction*> vars_without_extra_arrayness;
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};
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} // namespace opt
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} // namespace spvtools
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#endif // SOURCE_OPT_INTERFACE_VAR_SROA_H_
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