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//
// Copyright 2002 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
#ifndef COMPILER_TRANSLATOR_COMPILER_H_
#define COMPILER_TRANSLATOR_COMPILER_H_
//
// Machine independent part of the compiler private objects
// sent as ShHandle to the driver.
//
// This should not be included by driver code.
//
#include <GLSLANG/ShaderVars.h>
#include "common/PackedEnums.h"
#include "compiler/translator/BuiltInFunctionEmulator.h"
#include "compiler/translator/CallDAG.h"
#include "compiler/translator/Diagnostics.h"
#include "compiler/translator/ExtensionBehavior.h"
#include "compiler/translator/HashNames.h"
#include "compiler/translator/InfoSink.h"
#include "compiler/translator/Pragma.h"
#include "compiler/translator/SymbolTable.h"
#include "compiler/translator/ValidateAST.h"
namespace sh
{
class TCompiler;
class TParseContext;
#ifdef ANGLE_ENABLE_HLSL
class TranslatorHLSL;
#endif // ANGLE_ENABLE_HLSL
#ifdef ANGLE_ENABLE_METAL
class TranslatorMetalDirect;
#endif // ANGLE_ENABLE_METAL
using SpecConstUsageBits = angle::PackedEnumBitSet<vk::SpecConstUsage, uint32_t>;
//
// Helper function to check if the shader type is GLSL.
//
bool IsGLSL130OrNewer(ShShaderOutput output);
bool IsGLSL420OrNewer(ShShaderOutput output);
bool IsGLSL410OrOlder(ShShaderOutput output);
//
// Helper function to check if the invariant qualifier can be removed.
//
bool RemoveInvariant(sh::GLenum shaderType,
int shaderVersion,
ShShaderOutput outputType,
const ShCompileOptions &compileOptions);
//
// The base class used to back handles returned to the driver.
//
class TShHandleBase
{
public:
TShHandleBase();
virtual ~TShHandleBase();
virtual TCompiler *getAsCompiler() { return 0; }
#ifdef ANGLE_ENABLE_HLSL
virtual TranslatorHLSL *getAsTranslatorHLSL() { return 0; }
#endif // ANGLE_ENABLE_HLSL
#ifdef ANGLE_ENABLE_METAL
virtual TranslatorMetalDirect *getAsTranslatorMetalDirect() { return nullptr; }
#endif // ANGLE_ENABLE_METAL
protected:
// Memory allocator. Allocates and tracks memory required by the compiler.
// Deallocates all memory when compiler is destructed.
angle::PoolAllocator allocator;
};
struct TFunctionMetadata
{
bool used = false;
};
//
// The base class for the machine dependent compiler to derive from
// for managing object code from the compile.
//
class TCompiler : public TShHandleBase
{
public:
TCompiler(sh::GLenum type, ShShaderSpec spec, ShShaderOutput output);
~TCompiler() override;
TCompiler *getAsCompiler() override { return this; }
bool Init(const ShBuiltInResources &resources);
// compileTreeForTesting should be used only when tests require access to
// the AST. Users of this function need to manually manage the global pool
// allocator. Returns nullptr whenever there are compilation errors.
TIntermBlock *compileTreeForTesting(const char *const shaderStrings[],
size_t numStrings,
const ShCompileOptions &compileOptions);
bool compile(const char *const shaderStrings[],
size_t numStrings,
const ShCompileOptions &compileOptions);
// Get results of the last compilation.
int getShaderVersion() const { return mShaderVersion; }
TInfoSink &getInfoSink() { return mInfoSink; }
bool specifyEarlyFragmentTests() { return mEarlyFragmentTestsSpecified = true; }
bool isEarlyFragmentTestsSpecified() const { return mEarlyFragmentTestsSpecified; }
bool hasDiscard() const { return mHasDiscard; }
bool enablesPerSampleShading() const { return mEnablesPerSampleShading; }
SpecConstUsageBits getSpecConstUsageBits() const { return mSpecConstUsageBits; }
bool isComputeShaderLocalSizeDeclared() const { return mComputeShaderLocalSizeDeclared; }
const sh::WorkGroupSize &getComputeShaderLocalSize() const { return mComputeShaderLocalSize; }
int getNumViews() const { return mNumViews; }
// Clears the results from the previous compilation.
void clearResults();
const std::vector<sh::ShaderVariable> &getAttributes() const { return mAttributes; }
const std::vector<sh::ShaderVariable> &getOutputVariables() const { return mOutputVariables; }
const std::vector<sh::ShaderVariable> &getUniforms() const { return mUniforms; }
const std::vector<sh::ShaderVariable> &getInputVaryings() const { return mInputVaryings; }
const std::vector<sh::ShaderVariable> &getOutputVaryings() const { return mOutputVaryings; }
const std::vector<sh::InterfaceBlock> &getInterfaceBlocks() const { return mInterfaceBlocks; }
const std::vector<sh::InterfaceBlock> &getUniformBlocks() const { return mUniformBlocks; }
const std::vector<sh::InterfaceBlock> &getShaderStorageBlocks() const
{
return mShaderStorageBlocks;
}
ShHashFunction64 getHashFunction() const { return mResources.HashFunction; }
NameMap &getNameMap() { return mNameMap; }
TSymbolTable &getSymbolTable() { return mSymbolTable; }
ShShaderSpec getShaderSpec() const { return mShaderSpec; }
ShShaderOutput getOutputType() const { return mOutputType; }
ShBuiltInResources getBuiltInResources() const { return mResources; }
const std::string &getBuiltInResourcesString() const { return mBuiltInResourcesString; }
bool isHighPrecisionSupported() const;
bool shouldRunLoopAndIndexingValidation(const ShCompileOptions &compileOptions) const;
bool shouldLimitTypeSizes() const;
// Get the resources set by InitBuiltInSymbolTable
const ShBuiltInResources &getResources() const;
const TPragma &getPragma() const { return mPragma; }
int getGeometryShaderMaxVertices() const { return mGeometryShaderMaxVertices; }
int getGeometryShaderInvocations() const { return mGeometryShaderInvocations; }
TLayoutPrimitiveType getGeometryShaderInputPrimitiveType() const
{
return mGeometryShaderInputPrimitiveType;
}
TLayoutPrimitiveType getGeometryShaderOutputPrimitiveType() const
{
return mGeometryShaderOutputPrimitiveType;
}
unsigned int getStructSize(const ShaderVariable &var) const;
int getTessControlShaderOutputVertices() const { return mTessControlShaderOutputVertices; }
TLayoutTessEvaluationType getTessEvaluationShaderInputPrimitiveType() const
{
return mTessEvaluationShaderInputPrimitiveType;
}
TLayoutTessEvaluationType getTessEvaluationShaderInputVertexSpacingType() const
{
return mTessEvaluationShaderInputVertexSpacingType;
}
TLayoutTessEvaluationType getTessEvaluationShaderInputOrderingType() const
{
return mTessEvaluationShaderInputOrderingType;
}
TLayoutTessEvaluationType getTessEvaluationShaderInputPointType() const
{
return mTessEvaluationShaderInputPointType;
}
bool hasAnyPreciseType() const { return mHasAnyPreciseType; }
AdvancedBlendEquations getAdvancedBlendEquations() const { return mAdvancedBlendEquations; }
bool hasPixelLocalStorageUniforms() const { return mHasPixelLocalStorageUniforms; }
unsigned int getSharedMemorySize() const;
sh::GLenum getShaderType() const { return mShaderType; }
// Validate the AST and produce errors if it is inconsistent.
bool validateAST(TIntermNode *root);
// Some transformations may need to temporarily disable validation until they are complete. A
// set of disable/enable helpers are used for this purpose.
bool disableValidateFunctionCall();
void restoreValidateFunctionCall(bool enable);
bool disableValidateVariableReferences();
void restoreValidateVariableReferences(bool enable);
// When the AST is post-processed (such as to determine precise-ness of intermediate nodes),
// it's expected to no longer transform.
void enableValidateNoMoreTransformations();
protected:
// Add emulated functions to the built-in function emulator.
virtual void initBuiltInFunctionEmulator(BuiltInFunctionEmulator *emu,
const ShCompileOptions &compileOptions)
{}
// Translate to object code. May generate performance warnings through the diagnostics.
[[nodiscard]] virtual bool translate(TIntermBlock *root,
const ShCompileOptions &compileOptions,
PerformanceDiagnostics *perfDiagnostics) = 0;
// Get built-in extensions with default behavior.
const TExtensionBehavior &getExtensionBehavior() const;
const char *getSourcePath() const;
// Relies on collectVariables having been called.
bool isVaryingDefined(const char *varyingName);
const BuiltInFunctionEmulator &getBuiltInFunctionEmulator() const;
virtual bool shouldFlattenPragmaStdglInvariantAll() = 0;
virtual bool shouldCollectVariables(const ShCompileOptions &compileOptions);
bool wereVariablesCollected() const;
std::vector<sh::ShaderVariable> mAttributes;
std::vector<sh::ShaderVariable> mOutputVariables;
std::vector<sh::ShaderVariable> mUniforms;
std::vector<sh::ShaderVariable> mInputVaryings;
std::vector<sh::ShaderVariable> mOutputVaryings;
std::vector<sh::ShaderVariable> mSharedVariables;
std::vector<sh::InterfaceBlock> mInterfaceBlocks;
std::vector<sh::InterfaceBlock> mUniformBlocks;
std::vector<sh::InterfaceBlock> mShaderStorageBlocks;
// Track what should be validated given passes currently applied.
ValidateASTOptions mValidateASTOptions;
// Specialization constant usage bits
SpecConstUsageBits mSpecConstUsageBits;
private:
// Initialize symbol-table with built-in symbols.
bool initBuiltInSymbolTable(const ShBuiltInResources &resources);
// Compute the string representation of the built-in resources
void setResourceString();
// Return false if the call depth is exceeded.
bool checkCallDepth();
// Insert statements to reference all members in unused uniform blocks with standard and shared
// layout. This is to work around a Mac driver that treats unused standard/shared
// uniform blocks as inactive.
[[nodiscard]] bool useAllMembersInUnusedStandardAndSharedBlocks(TIntermBlock *root);
// Insert statements to initialize output variables in the beginning of main().
// This is to avoid undefined behaviors.
[[nodiscard]] bool initializeOutputVariables(TIntermBlock *root);
// Insert gl_Position = vec4(0,0,0,0) to the beginning of main().
// It is to work around a Linux driver bug where missing this causes compile failure
// while spec says it is allowed.
// This function should only be applied to vertex shaders.
[[nodiscard]] bool initializeGLPosition(TIntermBlock *root);
// Return true if the maximum expression complexity is below the limit.
bool limitExpressionComplexity(TIntermBlock *root);
// Creates the function call DAG for further analysis, returning false if there is a recursion
bool initCallDag(TIntermNode *root);
// Return false if "main" doesn't exist
bool tagUsedFunctions();
void internalTagUsedFunction(size_t index);
void collectInterfaceBlocks();
bool mVariablesCollected;
bool mGLPositionInitialized;
// Removes unused function declarations and prototypes from the AST
bool pruneUnusedFunctions(TIntermBlock *root);
TIntermBlock *compileTreeImpl(const char *const shaderStrings[],
size_t numStrings,
const ShCompileOptions &compileOptions);
// Fetches and stores shader metadata that is not stored within the AST itself, such as shader
// version.
void setASTMetadata(const TParseContext &parseContext);
// Check if shader version meets the requirement.
bool checkShaderVersion(TParseContext *parseContext);
// Does checks that need to be run after parsing is complete and returns true if they pass.
bool checkAndSimplifyAST(TIntermBlock *root,
const TParseContext &parseContext,
const ShCompileOptions &compileOptions);
bool postParseChecks(const TParseContext &parseContext);
sh::GLenum mShaderType;
ShShaderSpec mShaderSpec;
ShShaderOutput mOutputType;
CallDAG mCallDag;
std::vector<TFunctionMetadata> mFunctionMetadata;
ShBuiltInResources mResources;
std::string mBuiltInResourcesString;
// Built-in symbol table for the given language, spec, and resources.
// It is preserved from compile-to-compile.
TSymbolTable mSymbolTable;
// Built-in extensions with default behavior.
TExtensionBehavior mExtensionBehavior;
BuiltInFunctionEmulator mBuiltInFunctionEmulator;
// Results of compilation.
int mShaderVersion;
TInfoSink mInfoSink; // Output sink.
TDiagnostics mDiagnostics;
const char *mSourcePath; // Path of source file or NULL
// Fragment shader early fragment tests
bool mEarlyFragmentTestsSpecified;
// Fragment shader has the discard instruction
bool mHasDiscard;
// Whether per-sample shading is enabled by the shader. In OpenGL, this keyword should
// implicitly trigger per-sample shading without the API enabling it.
bool mEnablesPerSampleShading;
// compute shader local group size
bool mComputeShaderLocalSizeDeclared;
sh::WorkGroupSize mComputeShaderLocalSize;
// GL_OVR_multiview num_views.
int mNumViews;
// geometry shader parameters.
int mGeometryShaderMaxVertices;
int mGeometryShaderInvocations;
TLayoutPrimitiveType mGeometryShaderInputPrimitiveType;
TLayoutPrimitiveType mGeometryShaderOutputPrimitiveType;
// tesssellation shader parameters
int mTessControlShaderOutputVertices;
TLayoutTessEvaluationType mTessEvaluationShaderInputPrimitiveType;
TLayoutTessEvaluationType mTessEvaluationShaderInputVertexSpacingType;
TLayoutTessEvaluationType mTessEvaluationShaderInputOrderingType;
TLayoutTessEvaluationType mTessEvaluationShaderInputPointType;
bool mHasAnyPreciseType;
// advanced blend equation parameters
AdvancedBlendEquations mAdvancedBlendEquations;
// ANGLE_shader_pixel_local_storage.
bool mHasPixelLocalStorageUniforms;
// name hashing.
NameMap mNameMap;
TPragma mPragma;
ShCompileOptions mCompileOptions;
};
//
// This is the interface between the machine independent code
// and the machine dependent code.
//
// The machine dependent code should derive from the classes
// above. Then Construct*() and Delete*() will create and
// destroy the machine dependent objects, which contain the
// above machine independent information.
//
TCompiler *ConstructCompiler(sh::GLenum type, ShShaderSpec spec, ShShaderOutput output);
void DeleteCompiler(TCompiler *);
struct ShaderDumpHeader
{
uint32_t type;
uint32_t spec;
uint32_t output;
uint8_t basicCompileOptions[32];
uint8_t metalCompileOptions[32];
uint8_t plsCompileOptions[32];
uint8_t padding[20];
};
static_assert(sizeof(ShaderDumpHeader) == 128);
} // namespace sh
#endif // COMPILER_TRANSLATOR_COMPILER_H_
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