src/inspector/inspector.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_INSPECTOR_H_
 #define SRC_INSPECTOR_INSPECTOR_H_

 #include <map>
 #include <memory>
 #include <string>
 #include <tuple>
 #include <unordered_map>
 #include <vector>

 #include "src/inspector/entry_point.h"
 #include "src/inspector/resource_binding.h"
 #include "src/inspector/scalar.h"
 #include "src/program.h"
 #include "src/sem/sampler_texture_pair.h"
 #include "src/utils/unique_vector.h"

 namespace tint {
 namespace inspector {

 /// A temporary alias to sem::SamplerTexturePair. [DEPRECATED]
 using SamplerTexturePair = sem::SamplerTexturePair;

 /// Extracts information from a program
 class Inspector {
  public:
   /// Constructor
   /// @param program Shader program to extract information from.
   explicit Inspector(const Program* program);

   /// Destructor
   ~Inspector();

   /// @returns error messages from the Inspector
   std::string error() { return diagnostics_.str(); }
   /// @returns true if an error was encountered
   bool has_error() const { return diagnostics_.contains_errors(); }

   /// @returns vector of entry point information
   std::vector<EntryPoint> GetEntryPoints();

   /// @param entry_point name of the entry point to get the remapped version of
   /// @returns the remapped name of the entry point, or the empty string if it
   ///          isn't a known entry point.
   std::string GetRemappedNameForEntryPoint(const std::string& entry_point);

   /// @returns map of const_id to initial value
   std::map<uint32_t, Scalar> GetConstantIDs();

   /// @returns map of module-constant name to pipeline constant ID
   std::map<std::string, uint32_t> GetConstantNameToIdMap();

   /// @param entry_point name of the entry point to get information about.
   /// @returns the total size of shared storage required by an entry point,
   ///          including all uniform storage buffers.
   uint32_t GetStorageSize(const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the resource bindings.
   std::vector<ResourceBinding> GetResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for uniform buffers.
   std::vector<ResourceBinding> GetUniformBufferResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for storage buffers.
   std::vector<ResourceBinding> GetStorageBufferResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for read-only storage buffers.
   std::vector<ResourceBinding> GetReadOnlyStorageBufferResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for regular samplers.
   std::vector<ResourceBinding> GetSamplerResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for comparison samplers.
   std::vector<ResourceBinding> GetComparisonSamplerResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for sampled textures.
   std::vector<ResourceBinding> GetSampledTextureResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for multisampled textures.
   std::vector<ResourceBinding> GetMultisampledTextureResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for write-only storage textures.
   std::vector<ResourceBinding> GetWriteOnlyStorageTextureResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for depth textures.
   std::vector<ResourceBinding> GetDepthTextureResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for depth textures.
   std::vector<ResourceBinding> GetDepthMultisampledTextureResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for external textures.
   std::vector<ResourceBinding> GetExternalTextureResourceBindings(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the sampler/texture sampling pairs that are used
   /// by that entry point.
   std::vector<sem::SamplerTexturePair> GetSamplerTextureUses(
       const std::string& entry_point);

   /// @param entry_point name of the entry point to get information about.
   /// @param placeholder the sampler binding point to use for texture-only
   /// access (e.g., textureLoad)
   /// @returns vector of all of the sampler/texture sampling pairs that are used
   /// by that entry point.
   std::vector<sem::SamplerTexturePair> GetSamplerTextureUses(
       const std::string& entry_point,
       const sem::BindingPoint& placeholder);

   /// @param entry_point name of the entry point to get information about.
   /// @returns the total size in bytes of all Workgroup storage-class storage
   /// referenced transitively by the entry point.
   uint32_t GetWorkgroupStorageSize(const std::string& entry_point);

  private:
   const Program* program_;
   diag::List diagnostics_;
   std::unique_ptr<
       std::unordered_map<std::string,
                          utils::UniqueVector<sem::SamplerTexturePair>>>
       sampler_targets_;

   /// @param name name of the entry point to find
   /// @returns a pointer to the entry point if it exists, otherwise returns
   ///          nullptr and sets the error string.
   const ast::Function* FindEntryPointByName(const std::string& name);

   /// Recursively add entry point IO variables.
   /// If `type` is a struct, recurse into members, appending the member name.
   /// Otherwise, add the variable unless it is a builtin.
   /// @param name the name of the variable being added
   /// @param type the type of the variable
   /// @param attributes the variable attributes
   /// @param variables the list to add the variables to
   void AddEntryPointInOutVariables(std::string name,
                                    const sem::Type* type,
                                    const ast::AttributeList& attributes,
                                    std::vector<StageVariable>& variables) const;

   /// Recursively determine if the type contains builtin.
   /// If `type` is a struct, recurse into members to check for the attribute.
   /// Otherwise, check `attributes` for the attribute.
   bool ContainsBuiltin(ast::Builtin builtin,
                        const sem::Type* type,
                        const ast::AttributeList& attributes) const;

   /// Gathers all the texture resource bindings of the given type for the given
   /// entry point.
   /// @param entry_point name of the entry point to get information about.
   /// @param texture_type the type of the textures to gather.
   /// @param resource_type the ResourceBinding::ResourceType for the given
   /// texture type.
   /// @returns vector of all of the bindings for depth textures.
   std::vector<ResourceBinding> GetTextureResourceBindings(
       const std::string& entry_point,
       const tint::TypeInfo* texture_type,
       ResourceBinding::ResourceType resource_type);

   /// @param entry_point name of the entry point to get information about.
   /// @param read_only if true get only read-only bindings, if false get
   ///                  write-only bindings.
   /// @returns vector of all of the bindings for the requested storage buffers.
   std::vector<ResourceBinding> GetStorageBufferResourceBindingsImpl(
       const std::string& entry_point,
       bool read_only);

   /// @param entry_point name of the entry point to get information about.
   /// @param multisampled_only only get multisampled textures if true, otherwise
   ///                          only get sampled textures.
   /// @returns vector of all of the bindings for the request storage buffers.
   std::vector<ResourceBinding> GetSampledTextureResourceBindingsImpl(
       const std::string& entry_point,
       bool multisampled_only);

   /// @param entry_point name of the entry point to get information about.
   /// @returns vector of all of the bindings for the requested storage textures.
   std::vector<ResourceBinding> GetStorageTextureResourceBindingsImpl(
       const std::string& entry_point);

   /// Constructs |sampler_targets_| if it hasn't already been instantiated.
   void GenerateSamplerTargets();

   /// For a N-uple of expressions, resolve to the appropriate global resources
   /// and call 'cb'.
   /// 'cb' may be called multiple times.
   /// Assumes that not being able to resolve the resources is an error, so will
   /// invoke TINT_ICE when that occurs.
   /// @tparam N number of expressions in the n-uple
   /// @tparam F type of the callback provided.
   /// @param exprs N-uple of expressions to resolve.
   /// @param cb is a callback function with the signature:
   /// `void(std::array<const sem::GlobalVariable*, N>)`, which is invoked
   /// whenever a set of expressions are resolved to globals.
   template <size_t N, typename F>
   void GetOriginatingResources(std::array<const ast::Expression*, N> exprs,
                                F&& cb);
 };

 }  // namespace inspector
 }  // namespace tint

 #endif  // SRC_INSPECTOR_INSPECTOR_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_INSPECTOR_H_
	#define SRC_INSPECTOR_INSPECTOR_H_

	#include <map>
	#include <memory>
	#include <string>
	#include <tuple>
	#include <unordered_map>
	#include <vector>

	#include "src/inspector/entry_point.h"
	#include "src/inspector/resource_binding.h"
	#include "src/inspector/scalar.h"
	#include "src/program.h"
	#include "src/sem/sampler_texture_pair.h"
	#include "src/utils/unique_vector.h"

	namespace tint {
	namespace inspector {

	/// A temporary alias to sem::SamplerTexturePair. [DEPRECATED]
	using SamplerTexturePair = sem::SamplerTexturePair;

	/// Extracts information from a program
	class Inspector {
	public:
	/// Constructor
	/// @param program Shader program to extract information from.
	explicit Inspector(const Program* program);

	/// Destructor
	~Inspector();

	/// @returns error messages from the Inspector
	std::string error() { return diagnostics_.str(); }
	/// @returns true if an error was encountered
	bool has_error() const { return diagnostics_.contains_errors(); }

	/// @returns vector of entry point information
	std::vector<EntryPoint> GetEntryPoints();

	/// @param entry_point name of the entry point to get the remapped version of
	/// @returns the remapped name of the entry point, or the empty string if it
	/// isn't a known entry point.
	std::string GetRemappedNameForEntryPoint(const std::string& entry_point);

	/// @returns map of const_id to initial value
	std::map<uint32_t, Scalar> GetConstantIDs();

	/// @returns map of module-constant name to pipeline constant ID
	std::map<std::string, uint32_t> GetConstantNameToIdMap();

	/// @param entry_point name of the entry point to get information about.
	/// @returns the total size of shared storage required by an entry point,
	/// including all uniform storage buffers.
	uint32_t GetStorageSize(const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the resource bindings.
	std::vector<ResourceBinding> GetResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for uniform buffers.
	std::vector<ResourceBinding> GetUniformBufferResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for storage buffers.
	std::vector<ResourceBinding> GetStorageBufferResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for read-only storage buffers.
	std::vector<ResourceBinding> GetReadOnlyStorageBufferResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for regular samplers.
	std::vector<ResourceBinding> GetSamplerResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for comparison samplers.
	std::vector<ResourceBinding> GetComparisonSamplerResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for sampled textures.
	std::vector<ResourceBinding> GetSampledTextureResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for multisampled textures.
	std::vector<ResourceBinding> GetMultisampledTextureResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for write-only storage textures.
	std::vector<ResourceBinding> GetWriteOnlyStorageTextureResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for depth textures.
	std::vector<ResourceBinding> GetDepthTextureResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for depth textures.
	std::vector<ResourceBinding> GetDepthMultisampledTextureResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for external textures.
	std::vector<ResourceBinding> GetExternalTextureResourceBindings(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the sampler/texture sampling pairs that are used
	/// by that entry point.
	std::vector<sem::SamplerTexturePair> GetSamplerTextureUses(
	const std::string& entry_point);

	/// @param entry_point name of the entry point to get information about.
	/// @param placeholder the sampler binding point to use for texture-only
	/// access (e.g., textureLoad)
	/// @returns vector of all of the sampler/texture sampling pairs that are used
	/// by that entry point.
	std::vector<sem::SamplerTexturePair> GetSamplerTextureUses(
	const std::string& entry_point,
	const sem::BindingPoint& placeholder);

	/// @param entry_point name of the entry point to get information about.
	/// @returns the total size in bytes of all Workgroup storage-class storage
	/// referenced transitively by the entry point.
	uint32_t GetWorkgroupStorageSize(const std::string& entry_point);

	private:
	const Program* program_;
	diag::List diagnostics_;
	std::unique_ptr<
	std::unordered_map<std::string,
	utils::UniqueVector<sem::SamplerTexturePair>>>
	sampler_targets_;

	/// @param name name of the entry point to find
	/// @returns a pointer to the entry point if it exists, otherwise returns
	/// nullptr and sets the error string.
	const ast::Function* FindEntryPointByName(const std::string& name);

	/// Recursively add entry point IO variables.
	/// If `type` is a struct, recurse into members, appending the member name.
	/// Otherwise, add the variable unless it is a builtin.
	/// @param name the name of the variable being added
	/// @param type the type of the variable
	/// @param attributes the variable attributes
	/// @param variables the list to add the variables to
	void AddEntryPointInOutVariables(std::string name,
	const sem::Type* type,
	const ast::AttributeList& attributes,
	std::vector<StageVariable>& variables) const;

	/// Recursively determine if the type contains builtin.
	/// If `type` is a struct, recurse into members to check for the attribute.
	/// Otherwise, check `attributes` for the attribute.
	bool ContainsBuiltin(ast::Builtin builtin,
	const sem::Type* type,
	const ast::AttributeList& attributes) const;

	/// Gathers all the texture resource bindings of the given type for the given
	/// entry point.
	/// @param entry_point name of the entry point to get information about.
	/// @param texture_type the type of the textures to gather.
	/// @param resource_type the ResourceBinding::ResourceType for the given
	/// texture type.
	/// @returns vector of all of the bindings for depth textures.
	std::vector<ResourceBinding> GetTextureResourceBindings(
	const std::string& entry_point,
	const tint::TypeInfo* texture_type,
	ResourceBinding::ResourceType resource_type);

	/// @param entry_point name of the entry point to get information about.
	/// @param read_only if true get only read-only bindings, if false get
	/// write-only bindings.
	/// @returns vector of all of the bindings for the requested storage buffers.
	std::vector<ResourceBinding> GetStorageBufferResourceBindingsImpl(
	const std::string& entry_point,
	bool read_only);

	/// @param entry_point name of the entry point to get information about.
	/// @param multisampled_only only get multisampled textures if true, otherwise
	/// only get sampled textures.
	/// @returns vector of all of the bindings for the request storage buffers.
	std::vector<ResourceBinding> GetSampledTextureResourceBindingsImpl(
	const std::string& entry_point,
	bool multisampled_only);

	/// @param entry_point name of the entry point to get information about.
	/// @returns vector of all of the bindings for the requested storage textures.
	std::vector<ResourceBinding> GetStorageTextureResourceBindingsImpl(
	const std::string& entry_point);

	/// Constructs \|sampler_targets_\| if it hasn't already been instantiated.
	void GenerateSamplerTargets();

	/// For a N-uple of expressions, resolve to the appropriate global resources
	/// and call 'cb'.
	/// 'cb' may be called multiple times.
	/// Assumes that not being able to resolve the resources is an error, so will
	/// invoke TINT_ICE when that occurs.
	/// @tparam N number of expressions in the n-uple
	/// @tparam F type of the callback provided.
	/// @param exprs N-uple of expressions to resolve.
	/// @param cb is a callback function with the signature:
	/// `void(std::array<const sem::GlobalVariable*, N>)`, which is invoked
	/// whenever a set of expressions are resolved to globals.
	template <size_t N, typename F>
	void GetOriginatingResources(std::array<const ast::Expression*, N> exprs,
	F&& cb);
	};

	} // namespace inspector
	} // namespace tint

	#endif // SRC_INSPECTOR_INSPECTOR_H_