src/inspector/entry_point.h - tint - Git at Google

 // Copyright 2020 The Tint Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef SRC_INSPECTOR_ENTRY_POINT_H_
 #define SRC_INSPECTOR_ENTRY_POINT_H_

 #include <string>
 #include <tuple>
 #include <vector>

 #include "src/ast/interpolate_decoration.h"
 #include "src/ast/pipeline_stage.h"

 namespace tint {
 namespace inspector {

 /// Base component type of a stage variable.
 enum class ComponentType {
   kUnknown = -1,
   kFloat,
   kUInt,
   kSInt,
 };

 /// Composition of components of a stage variable.
 enum class CompositionType {
   kUnknown = -1,
   kScalar,
   kVec2,
   kVec3,
   kVec4,
 };

 /// Type of interpolation of a stage variable.
 enum class InterpolationType { kUnknown = -1, kPerspective, kLinear, kFlat };

 /// Type of interpolation sampling of a stage variable.
 enum class InterpolationSampling {
   kUnknown = -1,
   kNone,
   kCenter,
   kCentroid,
   kSample
 };

 /// Reflection data about an entry point input or output.
 struct StageVariable {
   /// Name of the variable in the shader.
   std::string name;
   /// Is Location Decoration present
   bool has_location_decoration = false;
   /// Value of Location Decoration, only valid if |has_location_decoration| is
   /// true.
   uint32_t location_decoration;
   /// Scalar type that the variable is composed of.
   ComponentType component_type = ComponentType::kUnknown;
   /// How the scalars are composed for the variable.
   CompositionType composition_type = CompositionType::kUnknown;
   /// Interpolation type of the variable.
   InterpolationType interpolation_type = InterpolationType::kUnknown;
   /// Interpolation sampling of the variable.
   InterpolationSampling interpolation_sampling =
       InterpolationSampling::kUnknown;
 };

 /// Convert from internal ast::InterpolationType to public ::InterpolationType.
 /// @param ast_type internal value to convert from
 /// @returns the publicly visible equivalent
 InterpolationType ASTToInspectorInterpolationType(
     ast::InterpolationType ast_type);

 /// Convert from internal ast::InterpolationSampling to public
 /// ::InterpolationSampling
 /// @param sampling internal value to convert from
 /// @returns the publicly visible equivalent
 InterpolationSampling ASTToInspectorInterpolationSampling(
     ast::InterpolationSampling sampling);

 /// Reflection data about a pipeline overridable constant referenced by an entry
 /// point
 struct OverridableConstant {
   /// Name of the constant
   std::string name;

   /// ID of the constant
   uint16_t numeric_id;

   /// Type of the scalar
   enum class Type {
     kBool,
     kFloat32,
     kUint32,
     kInt32,
   };

   /// Type of the scalar
   Type type;

   /// Does this pipeline overridable constant have an initializer?
   bool is_initialized = false;

   /// Does this pipeline overridable constant have a numeric ID specified
   /// explicitly?
   bool is_numeric_id_specified = false;
 };

 /// Reflection data for an entry point in the shader.
 struct EntryPoint {
   /// Constructors
   EntryPoint();
   /// Copy Constructor
   EntryPoint(EntryPoint&);
   /// Move Constructor
   EntryPoint(EntryPoint&&);
   ~EntryPoint();

   /// The entry point name
   std::string name;
   /// Remapped entry point name in the backend
   std::string remapped_name;
   /// The entry point stage
   ast::PipelineStage stage = ast::PipelineStage::kNone;
   /// The workgroup x size
   uint32_t workgroup_size_x = 0;
   /// The workgroup y size
   uint32_t workgroup_size_y = 0;
   /// The workgroup z size
   uint32_t workgroup_size_z = 0;
   /// List of the input variable accessed via this entry point.
   std::vector<StageVariable> input_variables;
   /// List of the output variable accessed via this entry point.
   std::vector<StageVariable> output_variables;
   /// List of the pipeline overridable constants accessed via this entry point.
   std::vector<OverridableConstant> overridable_constants;
   /// Does the entry point use the sample_mask builtin as an input builtin
   /// variable.
   bool input_sample_mask_used = false;
   /// Does the entry point use the sample_mask builtin as an output builtin
   /// variable.
   bool output_sample_mask_used = false;
   /// Does the entry point use the position builtin as an input builtin
   /// variable.
   bool input_position_used = false;
   /// Does the entry point use the front_facing builtin
   bool front_facing_used = false;
   /// Does the entry point use the sample_index builtin
   bool sample_index_used = false;
   /// Does the entry point use the num_workgroups builtin
   bool num_workgroups_used = false;

   /// @returns the size of the workgroup in {x,y,z} format
   std::tuple<uint32_t, uint32_t, uint32_t> workgroup_size() {
     return std::tuple<uint32_t, uint32_t, uint32_t>(
         workgroup_size_x, workgroup_size_y, workgroup_size_z);
   }
 };

 }  // namespace inspector
 }  // namespace tint

 #endif  // SRC_INSPECTOR_ENTRY_POINT_H_
	// Copyright 2020 The Tint Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef SRC_INSPECTOR_ENTRY_POINT_H_
	#define SRC_INSPECTOR_ENTRY_POINT_H_

	#include <string>
	#include <tuple>
	#include <vector>

	#include "src/ast/interpolate_decoration.h"
	#include "src/ast/pipeline_stage.h"

	namespace tint {
	namespace inspector {

	/// Base component type of a stage variable.
	enum class ComponentType {
	kUnknown = -1,
	kFloat,
	kUInt,
	kSInt,
	};

	/// Composition of components of a stage variable.
	enum class CompositionType {
	kUnknown = -1,
	kScalar,
	kVec2,
	kVec3,
	kVec4,
	};

	/// Type of interpolation of a stage variable.
	enum class InterpolationType { kUnknown = -1, kPerspective, kLinear, kFlat };

	/// Type of interpolation sampling of a stage variable.
	enum class InterpolationSampling {
	kUnknown = -1,
	kNone,
	kCenter,
	kCentroid,
	kSample
	};

	/// Reflection data about an entry point input or output.
	struct StageVariable {
	/// Name of the variable in the shader.
	std::string name;
	/// Is Location Decoration present
	bool has_location_decoration = false;
	/// Value of Location Decoration, only valid if \|has_location_decoration\| is
	/// true.
	uint32_t location_decoration;
	/// Scalar type that the variable is composed of.
	ComponentType component_type = ComponentType::kUnknown;
	/// How the scalars are composed for the variable.
	CompositionType composition_type = CompositionType::kUnknown;
	/// Interpolation type of the variable.
	InterpolationType interpolation_type = InterpolationType::kUnknown;
	/// Interpolation sampling of the variable.
	InterpolationSampling interpolation_sampling =
	InterpolationSampling::kUnknown;
	};

	/// Convert from internal ast::InterpolationType to public ::InterpolationType.
	/// @param ast_type internal value to convert from
	/// @returns the publicly visible equivalent
	InterpolationType ASTToInspectorInterpolationType(
	ast::InterpolationType ast_type);

	/// Convert from internal ast::InterpolationSampling to public
	/// ::InterpolationSampling
	/// @param sampling internal value to convert from
	/// @returns the publicly visible equivalent
	InterpolationSampling ASTToInspectorInterpolationSampling(
	ast::InterpolationSampling sampling);

	/// Reflection data about a pipeline overridable constant referenced by an entry
	/// point
	struct OverridableConstant {
	/// Name of the constant
	std::string name;

	/// ID of the constant
	uint16_t numeric_id;

	/// Type of the scalar
	enum class Type {
	kBool,
	kFloat32,
	kUint32,
	kInt32,
	};

	/// Type of the scalar
	Type type;

	/// Does this pipeline overridable constant have an initializer?
	bool is_initialized = false;

	/// Does this pipeline overridable constant have a numeric ID specified
	/// explicitly?
	bool is_numeric_id_specified = false;
	};

	/// Reflection data for an entry point in the shader.
	struct EntryPoint {
	/// Constructors
	EntryPoint();
	/// Copy Constructor
	EntryPoint(EntryPoint&);
	/// Move Constructor
	EntryPoint(EntryPoint&&);
	~EntryPoint();

	/// The entry point name
	std::string name;
	/// Remapped entry point name in the backend
	std::string remapped_name;
	/// The entry point stage
	ast::PipelineStage stage = ast::PipelineStage::kNone;
	/// The workgroup x size
	uint32_t workgroup_size_x = 0;
	/// The workgroup y size
	uint32_t workgroup_size_y = 0;
	/// The workgroup z size
	uint32_t workgroup_size_z = 0;
	/// List of the input variable accessed via this entry point.
	std::vector<StageVariable> input_variables;
	/// List of the output variable accessed via this entry point.
	std::vector<StageVariable> output_variables;
	/// List of the pipeline overridable constants accessed via this entry point.
	std::vector<OverridableConstant> overridable_constants;
	/// Does the entry point use the sample_mask builtin as an input builtin
	/// variable.
	bool input_sample_mask_used = false;
	/// Does the entry point use the sample_mask builtin as an output builtin
	/// variable.
	bool output_sample_mask_used = false;
	/// Does the entry point use the position builtin as an input builtin
	/// variable.
	bool input_position_used = false;
	/// Does the entry point use the front_facing builtin
	bool front_facing_used = false;
	/// Does the entry point use the sample_index builtin
	bool sample_index_used = false;
	/// Does the entry point use the num_workgroups builtin
	bool num_workgroups_used = false;

	/// @returns the size of the workgroup in {x,y,z} format
	std::tuple<uint32_t, uint32_t, uint32_t> workgroup_size() {
	return std::tuple<uint32_t, uint32_t, uint32_t>(
	workgroup_size_x, workgroup_size_y, workgroup_size_z);
	}
	};

	} // namespace inspector
	} // namespace tint

	#endif // SRC_INSPECTOR_ENTRY_POINT_H_