sources/third_party/vulkan/src/layers/descriptor_sets.h - toolchain/prebuilts/ndk/r13 - Git at Google

 /* Copyright (c) 2015-2016 The Khronos Group Inc.
  * Copyright (c) 2015-2016 Valve Corporation
  * Copyright (c) 2015-2016 LunarG, Inc.
  * Copyright (C) 2015-2016 Google Inc.
  *
  * 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.
  *
  * Author: Tobin Ehlis <tobine@google.com>
  */
 #ifndef CORE_VALIDATION_DESCRIPTOR_SETS_H_
 #define CORE_VALIDATION_DESCRIPTOR_SETS_H_

 // Check for noexcept support
 #if defined(__clang__)
 #if __has_feature(cxx_noexcept)
 #define HAS_NOEXCEPT
 #endif
 #else
 #if defined(__GXX_EXPERIMENTAL_CXX0X__) && __GNUC__ * 10 + __GNUC_MINOR__ >= 46
 #define HAS_NOEXCEPT
 #else
 #if defined(_MSC_FULL_VER) && _MSC_FULL_VER >= 190023026 && defined(_HAS_EXCEPTIONS) && _HAS_EXCEPTIONS
 #define HAS_NOEXCEPT
 #endif
 #endif
 #endif

 #ifdef HAS_NOEXCEPT
 #define NOEXCEPT noexcept
 #else
 #define NOEXCEPT
 #endif

 #include "core_validation_error_enums.h"
 #include "core_validation_types.h"
 #include "vk_layer_logging.h"
 #include "vk_layer_utils.h"
 #include "vk_safe_struct.h"
 #include "vulkan/vk_layer.h"
 #include <map>
 #include <memory>
 #include <unordered_map>
 #include <unordered_set>
 #include <vector>

 // Descriptor Data structures

 /*
  * DescriptorSetLayout class
  *
  * Overview - This class encapsulates the Vulkan VkDescriptorSetLayout data (layout).
  *   A layout consists of some number of bindings, each of which has a binding#, a
  *   type, descriptor count, stage flags, and pImmutableSamplers.
  *
  * Index vs Binding - A layout is created with an array of VkDescriptorSetLayoutBinding
  *  where each array index will have a corresponding binding# that is defined in that struct.
  *  This class, therefore, provides utility functions where you can retrieve data for
  *  layout bindings based on either the original index into the pBindings array, or based
  *  on the binding#.
  *  Typically if you want to cover all of the bindings in a layout, you can do that by
  *   iterating over GetBindingCount() bindings and using the Get*FromIndex() functions.
  *  Otherwise, you can use the Get*FromBinding() functions to just grab binding info
  *   for a particular binding#.
  *
  * Global Index - The "Index" referenced above is the index into the original pBindings
  *  array. So there are as many indices as there are bindings.
  *  This class also has the concept of a Global Index. For the global index functions,
  *  there are as many global indices as there are descriptors in the layout.
  *  For the global index, consider all of the bindings to be a flat array where
  *  descriptor 0 of pBinding[0] is index 0 and each descriptor in the layout increments
  *  from there. So if pBinding[0] in this example had descriptorCount of 10, then
  *  the GlobalStartIndex of pBinding[1] will be 10 where 0-9 are the global indices
  *  for pBinding[0].
  */
 namespace cvdescriptorset {
 class DescriptorSetLayout {
   public:
     // Constructors and destructor
     DescriptorSetLayout(debug_report_data *report_data, const VkDescriptorSetLayoutCreateInfo *p_create_info,
                         const VkDescriptorSetLayout layout);
     // Straightforward Get functions
     VkDescriptorSetLayout GetDescriptorSetLayout() const { return layout_; };
     uint32_t GetTotalDescriptorCount() const { return descriptor_count_; };
     uint32_t GetDynamicDescriptorCount() const { return dynamic_descriptor_count_; };
     uint32_t GetBindingCount() const { return binding_count_; };
     // Fill passed-in set with bindings
     void FillBindingSet(std::unordered_set<uint32_t> *) const;
     // Return true if given binding is present in this layout
     bool HasBinding(const uint32_t binding) const { return binding_to_index_map_.count(binding) > 0; };
     // Return true if this layout is compatible with passed in layout,
     //   else return false and update error_msg with description of incompatibility
     bool IsCompatible(const DescriptorSetLayout *, std::string *) const;
     // Return true if binding 1 beyond given exists and has same type, stageFlags & immutable sampler use
     bool IsNextBindingConsistent(const uint32_t) const;
     // Various Get functions that can either be passed a binding#, which will
     //  be automatically translated into the appropriate index from the original
     //  pBindings array, or the index# can be passed in directly
     VkDescriptorSetLayoutBinding const *GetDescriptorSetLayoutBindingPtrFromBinding(const uint32_t) const;
     VkDescriptorSetLayoutBinding const *GetDescriptorSetLayoutBindingPtrFromIndex(const uint32_t) const;
     uint32_t GetDescriptorCountFromBinding(const uint32_t) const;
     uint32_t GetDescriptorCountFromIndex(const uint32_t) const;
     VkDescriptorType GetTypeFromBinding(const uint32_t) const;
     VkDescriptorType GetTypeFromIndex(const uint32_t) const;
     VkDescriptorType GetTypeFromGlobalIndex(const uint32_t) const;
     VkShaderStageFlags GetStageFlagsFromBinding(const uint32_t) const;
     VkSampler const *GetImmutableSamplerPtrFromBinding(const uint32_t) const;
     VkSampler const *GetImmutableSamplerPtrFromIndex(const uint32_t) const;
     // For a particular binding, get the global index
     //  These calls should be guarded by a call to "HasBinding(binding)" to verify that the given binding exists
     uint32_t GetGlobalStartIndexFromBinding(const uint32_t) const;
     uint32_t GetGlobalEndIndexFromBinding(const uint32_t) const;
     // For a particular binding starting at offset and having update_count descriptors
     //  updated, verify that for any binding boundaries crossed, the update is consistent
     bool VerifyUpdateConsistency(uint32_t, uint32_t, uint32_t, const char *, const VkDescriptorSet, std::string *) const;

   private:
     VkDescriptorSetLayout layout_;
     std::unordered_map<uint32_t, uint32_t> binding_to_index_map_;
     std::unordered_map<uint32_t, uint32_t> binding_to_global_start_index_map_;
     std::unordered_map<uint32_t, uint32_t> binding_to_global_end_index_map_;
     // VkDescriptorSetLayoutCreateFlags flags_;
     uint32_t binding_count_; // # of bindings in this layout
     std::vector<safe_VkDescriptorSetLayoutBinding> bindings_;
     uint32_t descriptor_count_; // total # descriptors in this layout
     uint32_t dynamic_descriptor_count_;
 };

 /*
  * Descriptor classes
  *  Descriptor is an abstract base class from which 5 separate descriptor types are derived.
  *   This allows the WriteUpdate() and CopyUpdate() operations to be specialized per
  *   descriptor type, but all descriptors in a set can be accessed via the common Descriptor*.
  */

 // Slightly broader than type, each c++ "class" will has a corresponding "DescriptorClass"
 enum DescriptorClass { PlainSampler, ImageSampler, Image, TexelBuffer, GeneralBuffer };

 class Descriptor {
   public:
     virtual ~Descriptor(){};
     virtual void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) = 0;
     virtual void CopyUpdate(const Descriptor *) = 0;
     // Create binding between resources of this descriptor and given cb_node
     virtual void BindCommandBuffer(const core_validation::layer_data *, GLOBAL_CB_NODE *) = 0;
     virtual DescriptorClass GetClass() const { return descriptor_class; };
     // Special fast-path check for SamplerDescriptors that are immutable
     virtual bool IsImmutableSampler() const { return false; };
     // Check for dynamic descriptor type
     virtual bool IsDynamic() const { return false; };
     // Check for storage descriptor type
     virtual bool IsStorage() const { return false; };
     bool updated; // Has descriptor been updated?
     DescriptorClass descriptor_class;
 };
 // Shared helper functions - These are useful because the shared sampler image descriptor type
 //  performs common functions with both sampler and image descriptors so they can share their common functions
 bool ValidateSampler(const VkSampler, const core_validation::layer_data *);
 bool ValidateImageUpdate(VkImageView, VkImageLayout, VkDescriptorType, const core_validation::layer_data *, std::string *);

 class SamplerDescriptor : public Descriptor {
   public:
     SamplerDescriptor();
     SamplerDescriptor(const VkSampler *);
     void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
     void CopyUpdate(const Descriptor *) override;
     void BindCommandBuffer(const core_validation::layer_data *, GLOBAL_CB_NODE *) override;
     virtual bool IsImmutableSampler() const override { return immutable_; };
     VkSampler GetSampler() const { return sampler_; }

   private:
     // bool ValidateSampler(const VkSampler) const;
     VkSampler sampler_;
     bool immutable_;
 };

 class ImageSamplerDescriptor : public Descriptor {
   public:
     ImageSamplerDescriptor();
     ImageSamplerDescriptor(const VkSampler *);
     void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
     void CopyUpdate(const Descriptor *) override;
     void BindCommandBuffer(const core_validation::layer_data *, GLOBAL_CB_NODE *) override;
     virtual bool IsImmutableSampler() const override { return immutable_; };
     VkSampler GetSampler() const { return sampler_; }
     VkImageView GetImageView() const { return image_view_; }
     VkImageLayout GetImageLayout() const { return image_layout_; }

   private:
     VkSampler sampler_;
     bool immutable_;
     VkImageView image_view_;
     VkImageLayout image_layout_;
 };

 class ImageDescriptor : public Descriptor {
   public:
     ImageDescriptor(const VkDescriptorType);
     void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
     void CopyUpdate(const Descriptor *) override;
     void BindCommandBuffer(const core_validation::layer_data *, GLOBAL_CB_NODE *) override;
     virtual bool IsStorage() const override { return storage_; }
     VkImageView GetImageView() const { return image_view_; }
     VkImageLayout GetImageLayout() const { return image_layout_; }

   private:
     bool storage_;
     VkImageView image_view_;
     VkImageLayout image_layout_;
 };

 class TexelDescriptor : public Descriptor {
   public:
     TexelDescriptor(const VkDescriptorType);
     void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
     void CopyUpdate(const Descriptor *) override;
     void BindCommandBuffer(const core_validation::layer_data *, GLOBAL_CB_NODE *) override;
     virtual bool IsStorage() const override { return storage_; }
     VkBufferView GetBufferView() const { return buffer_view_; }

   private:
     VkBufferView buffer_view_;
     bool storage_;
 };

 class BufferDescriptor : public Descriptor {
   public:
     BufferDescriptor(const VkDescriptorType);
     void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
     void CopyUpdate(const Descriptor *) override;
     void BindCommandBuffer(const core_validation::layer_data *, GLOBAL_CB_NODE *) override;
     virtual bool IsDynamic() const override { return dynamic_; }
     virtual bool IsStorage() const override { return storage_; }
     VkBuffer GetBuffer() const { return buffer_; }
     VkDeviceSize GetOffset() const { return offset_; }
     VkDeviceSize GetRange() const { return range_; }

   private:
     bool storage_;
     bool dynamic_;
     VkBuffer buffer_;
     VkDeviceSize offset_;
     VkDeviceSize range_;
 };
 // Structs to contain common elements that need to be shared between Validate* and Perform* calls below
 struct AllocateDescriptorSetsData {
     uint32_t required_descriptors_by_type[VK_DESCRIPTOR_TYPE_RANGE_SIZE];
     std::vector<cvdescriptorset::DescriptorSetLayout const *> layout_nodes;
     AllocateDescriptorSetsData(uint32_t);
 };
 // Helper functions for descriptor set functions that cross multiple sets
 // "Validate" will make sure an update is ok without actually performing it
 bool ValidateUpdateDescriptorSets(const debug_report_data *, const core_validation::layer_data *, uint32_t,
                                   const VkWriteDescriptorSet *, uint32_t, const VkCopyDescriptorSet *);
 // "Perform" does the update with the assumption that ValidateUpdateDescriptorSets() has passed for the given update
 void PerformUpdateDescriptorSets(const core_validation::layer_data *, uint32_t, const VkWriteDescriptorSet *, uint32_t,
                                  const VkCopyDescriptorSet *);
 // Validate that Allocation state is ok
 bool ValidateAllocateDescriptorSets(const debug_report_data *, const VkDescriptorSetAllocateInfo *,
                                     const core_validation::layer_data *, AllocateDescriptorSetsData *);
 // Update state based on allocating new descriptorsets
 void PerformAllocateDescriptorSets(const VkDescriptorSetAllocateInfo *, const VkDescriptorSet *, const AllocateDescriptorSetsData *,
                                    std::unordered_map<VkDescriptorPool, DESCRIPTOR_POOL_NODE *> *,
                                    std::unordered_map<VkDescriptorSet, cvdescriptorset::DescriptorSet *> *,
                                    const core_validation::layer_data *);

 /*
  * DescriptorSet class
  *
  * Overview - This class encapsulates the Vulkan VkDescriptorSet data (set).
  *   A set has an underlying layout which defines the bindings in the set and the
  *   types and numbers of descriptors in each descriptor slot. Most of the layout
  *   interfaces are exposed through identically-named functions in the set class.
  *   Please refer to the DescriptorSetLayout comment above for a description of
  *   index, binding, and global index.
  *
  * At construction a vector of Descriptor* is created with types corresponding to the
  *   layout. The primary operation performed on the descriptors is to update them
  *   via write or copy updates, and validate that the update contents are correct.
  *   In order to validate update contents, the DescriptorSet stores a bunch of ptrs
  *   to data maps where various Vulkan objects can be looked up. The management of
  *   those maps is performed externally. The set class relies on their contents to
  *   be correct at the time of update.
  */
 class DescriptorSet : public BASE_NODE {
   public:
     using BASE_NODE::in_use;
     using BASE_NODE::cb_bindings;
     DescriptorSet(const VkDescriptorSet, const DescriptorSetLayout *, const core_validation::layer_data *);
     ~DescriptorSet();
     // A number of common Get* functions that return data based on layout from which this set was created
     uint32_t GetTotalDescriptorCount() const { return p_layout_ ? p_layout_->GetTotalDescriptorCount() : 0; };
     uint32_t GetDynamicDescriptorCount() const { return p_layout_ ? p_layout_->GetDynamicDescriptorCount() : 0; };
     uint32_t GetBindingCount() const { return p_layout_ ? p_layout_->GetBindingCount() : 0; };
     VkDescriptorType GetTypeFromIndex(const uint32_t index) const {
         return p_layout_ ? p_layout_->GetTypeFromIndex(index) : VK_DESCRIPTOR_TYPE_MAX_ENUM;
     };
     VkDescriptorType GetTypeFromGlobalIndex(const uint32_t index) const {
         return p_layout_ ? p_layout_->GetTypeFromGlobalIndex(index) : VK_DESCRIPTOR_TYPE_MAX_ENUM;
     };
     VkDescriptorType GetTypeFromBinding(const uint32_t binding) const {
         return p_layout_ ? p_layout_->GetTypeFromBinding(binding) : VK_DESCRIPTOR_TYPE_MAX_ENUM;
     };
     uint32_t GetDescriptorCountFromIndex(const uint32_t index) const {
         return p_layout_ ? p_layout_->GetDescriptorCountFromIndex(index) : 0;
     };
     uint32_t GetDescriptorCountFromBinding(const uint32_t binding) const {
         return p_layout_ ? p_layout_->GetDescriptorCountFromBinding(binding) : 0;
     };
     // Return true if given binding is present in this set
     bool HasBinding(const uint32_t binding) const { return p_layout_->HasBinding(binding); };
     // Is this set compatible with the given layout?
     bool IsCompatible(const DescriptorSetLayout *, std::string *) const;
     // For given bindings validate state at time of draw is correct, returning false on error and writing error details into string*
     bool ValidateDrawState(const std::map<uint32_t, descriptor_req> &, const std::vector<uint32_t> &, std::string *) const;
     // For given set of bindings, add any buffers and images that will be updated to their respective unordered_sets & return number
     // of objects inserted
     uint32_t GetStorageUpdates(const std::map<uint32_t, descriptor_req> &, std::unordered_set<VkBuffer> *,
                                std::unordered_set<VkImageView> *) const;

     // Descriptor Update functions. These functions validate state and perform update separately
     // Validate contents of a WriteUpdate
     bool ValidateWriteUpdate(const debug_report_data *, const VkWriteDescriptorSet *, std::string *);
     // Perform a WriteUpdate whose contents were just validated using ValidateWriteUpdate
     void PerformWriteUpdate(const VkWriteDescriptorSet *);
     // Validate contents of a CopyUpdate
     bool ValidateCopyUpdate(const debug_report_data *, const VkCopyDescriptorSet *, const DescriptorSet *, std::string *);
     // Perform a CopyUpdate whose contents were just validated using ValidateCopyUpdate
     void PerformCopyUpdate(const VkCopyDescriptorSet *, const DescriptorSet *);

     const DescriptorSetLayout *GetLayout() const { return p_layout_; };
     VkDescriptorSet GetSet() const { return set_; };
     // Return unordered_set of all command buffers that this set is bound to
     std::unordered_set<GLOBAL_CB_NODE *> GetBoundCmdBuffers() const { return cb_bindings; }
     // Bind given cmd_buffer to this descriptor set
     void BindCommandBuffer(GLOBAL_CB_NODE *, const std::unordered_set<uint32_t> &);
     // If given cmd_buffer is in the cb_bindings set, remove it
     void RemoveBoundCommandBuffer(GLOBAL_CB_NODE *cb_node) { cb_bindings.erase(cb_node); }
     VkSampler const *GetImmutableSamplerPtrFromBinding(const uint32_t index) const {
         return p_layout_->GetImmutableSamplerPtrFromBinding(index);
     };
     // For a particular binding, get the global index
     uint32_t GetGlobalStartIndexFromBinding(const uint32_t binding) const {
         return p_layout_->GetGlobalStartIndexFromBinding(binding);
     };
     uint32_t GetGlobalEndIndexFromBinding(const uint32_t binding) const {
         return p_layout_->GetGlobalEndIndexFromBinding(binding);
     };
     // Return true if any part of set has ever been updated
     bool IsUpdated() const { return some_update_; };

   private:
     bool VerifyWriteUpdateContents(const VkWriteDescriptorSet *, const uint32_t, std::string *) const;
     bool VerifyCopyUpdateContents(const VkCopyDescriptorSet *, const DescriptorSet *, VkDescriptorType, uint32_t,
                                   std::string *) const;
     bool ValidateBufferUsage(BUFFER_NODE const *, VkDescriptorType, std::string *) const;
     bool ValidateBufferUpdate(VkDescriptorBufferInfo const *, VkDescriptorType, std::string *) const;
     // Private helper to set all bound cmd buffers to INVALID state
     void InvalidateBoundCmdBuffers();
     bool some_update_; // has any part of the set ever been updated?
     VkDescriptorSet set_;
     const DescriptorSetLayout *p_layout_;
     std::vector<std::unique_ptr<Descriptor>> descriptors_;
     // Ptr to device data used for various data look-ups
     const core_validation::layer_data *device_data_;
 };
 }
 #endif // CORE_VALIDATION_DESCRIPTOR_SETS_H_
	/* Copyright (c) 2015-2016 The Khronos Group Inc.
	* Copyright (c) 2015-2016 Valve Corporation
	* Copyright (c) 2015-2016 LunarG, Inc.
	* Copyright (C) 2015-2016 Google Inc.
	*
	* 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.
	*
	* Author: Tobin Ehlis <tobine@google.com>
	*/
	#ifndef CORE_VALIDATION_DESCRIPTOR_SETS_H_
	#define CORE_VALIDATION_DESCRIPTOR_SETS_H_

	// Check for noexcept support
	#if defined(__clang__)
	#if __has_feature(cxx_noexcept)
	#define HAS_NOEXCEPT
	#endif
	#else
	#if defined(__GXX_EXPERIMENTAL_CXX0X__) && __GNUC__ * 10 + __GNUC_MINOR__ >= 46
	#define HAS_NOEXCEPT
	#else
	#if defined(_MSC_FULL_VER) && _MSC_FULL_VER >= 190023026 && defined(_HAS_EXCEPTIONS) && _HAS_EXCEPTIONS
	#define HAS_NOEXCEPT
	#endif
	#endif
	#endif

	#ifdef HAS_NOEXCEPT
	#define NOEXCEPT noexcept
	#else
	#define NOEXCEPT
	#endif

	#include "core_validation_error_enums.h"
	#include "core_validation_types.h"
	#include "vk_layer_logging.h"
	#include "vk_layer_utils.h"
	#include "vk_safe_struct.h"
	#include "vulkan/vk_layer.h"
	#include <map>
	#include <memory>
	#include <unordered_map>
	#include <unordered_set>
	#include <vector>

	// Descriptor Data structures

	/*
	* DescriptorSetLayout class
	*
	* Overview - This class encapsulates the Vulkan VkDescriptorSetLayout data (layout).
	* A layout consists of some number of bindings, each of which has a binding#, a
	* type, descriptor count, stage flags, and pImmutableSamplers.
	*
	* Index vs Binding - A layout is created with an array of VkDescriptorSetLayoutBinding
	* where each array index will have a corresponding binding# that is defined in that struct.
	* This class, therefore, provides utility functions where you can retrieve data for
	* layout bindings based on either the original index into the pBindings array, or based
	* on the binding#.
	* Typically if you want to cover all of the bindings in a layout, you can do that by
	* iterating over GetBindingCount() bindings and using the Get*FromIndex() functions.
	* Otherwise, you can use the Get*FromBinding() functions to just grab binding info
	* for a particular binding#.
	*
	* Global Index - The "Index" referenced above is the index into the original pBindings
	* array. So there are as many indices as there are bindings.
	* This class also has the concept of a Global Index. For the global index functions,
	* there are as many global indices as there are descriptors in the layout.
	* For the global index, consider all of the bindings to be a flat array where
	* descriptor 0 of pBinding[0] is index 0 and each descriptor in the layout increments
	* from there. So if pBinding[0] in this example had descriptorCount of 10, then
	* the GlobalStartIndex of pBinding[1] will be 10 where 0-9 are the global indices
	* for pBinding[0].
	*/
	namespace cvdescriptorset {
	class DescriptorSetLayout {
	public:
	// Constructors and destructor
	DescriptorSetLayout(debug_report_data report_data, const VkDescriptorSetLayoutCreateInfo p_create_info,
	const VkDescriptorSetLayout layout);
	// Straightforward Get functions
	VkDescriptorSetLayout GetDescriptorSetLayout() const { return layout_; };
	uint32_t GetTotalDescriptorCount() const { return descriptor_count_; };
	uint32_t GetDynamicDescriptorCount() const { return dynamic_descriptor_count_; };
	uint32_t GetBindingCount() const { return binding_count_; };
	// Fill passed-in set with bindings
	void FillBindingSet(std::unordered_set<uint32_t> *) const;
	// Return true if given binding is present in this layout
	bool HasBinding(const uint32_t binding) const { return binding_to_index_map_.count(binding) > 0; };
	// Return true if this layout is compatible with passed in layout,
	// else return false and update error_msg with description of incompatibility
	bool IsCompatible(const DescriptorSetLayout , std::string ) const;
	// Return true if binding 1 beyond given exists and has same type, stageFlags & immutable sampler use
	bool IsNextBindingConsistent(const uint32_t) const;
	// Various Get functions that can either be passed a binding#, which will
	// be automatically translated into the appropriate index from the original
	// pBindings array, or the index# can be passed in directly
	VkDescriptorSetLayoutBinding const *GetDescriptorSetLayoutBindingPtrFromBinding(const uint32_t) const;
	VkDescriptorSetLayoutBinding const *GetDescriptorSetLayoutBindingPtrFromIndex(const uint32_t) const;
	uint32_t GetDescriptorCountFromBinding(const uint32_t) const;
	uint32_t GetDescriptorCountFromIndex(const uint32_t) const;
	VkDescriptorType GetTypeFromBinding(const uint32_t) const;
	VkDescriptorType GetTypeFromIndex(const uint32_t) const;
	VkDescriptorType GetTypeFromGlobalIndex(const uint32_t) const;
	VkShaderStageFlags GetStageFlagsFromBinding(const uint32_t) const;
	VkSampler const *GetImmutableSamplerPtrFromBinding(const uint32_t) const;
	VkSampler const *GetImmutableSamplerPtrFromIndex(const uint32_t) const;
	// For a particular binding, get the global index
	// These calls should be guarded by a call to "HasBinding(binding)" to verify that the given binding exists
	uint32_t GetGlobalStartIndexFromBinding(const uint32_t) const;
	uint32_t GetGlobalEndIndexFromBinding(const uint32_t) const;
	// For a particular binding starting at offset and having update_count descriptors
	// updated, verify that for any binding boundaries crossed, the update is consistent
	bool VerifyUpdateConsistency(uint32_t, uint32_t, uint32_t, const char , const VkDescriptorSet, std::string ) const;

	private:
	VkDescriptorSetLayout layout_;
	std::unordered_map<uint32_t, uint32_t> binding_to_index_map_;
	std::unordered_map<uint32_t, uint32_t> binding_to_global_start_index_map_;
	std::unordered_map<uint32_t, uint32_t> binding_to_global_end_index_map_;
	// VkDescriptorSetLayoutCreateFlags flags_;
	uint32_t binding_count_; // # of bindings in this layout
	std::vector<safe_VkDescriptorSetLayoutBinding> bindings_;
	uint32_t descriptor_count_; // total # descriptors in this layout
	uint32_t dynamic_descriptor_count_;
	};

	/*
	* Descriptor classes
	* Descriptor is an abstract base class from which 5 separate descriptor types are derived.
	* This allows the WriteUpdate() and CopyUpdate() operations to be specialized per
	* descriptor type, but all descriptors in a set can be accessed via the common Descriptor*.
	*/

	// Slightly broader than type, each c++ "class" will has a corresponding "DescriptorClass"
	enum DescriptorClass { PlainSampler, ImageSampler, Image, TexelBuffer, GeneralBuffer };

	class Descriptor {
	public:
	virtual ~Descriptor(){};
	virtual void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) = 0;
	virtual void CopyUpdate(const Descriptor *) = 0;
	// Create binding between resources of this descriptor and given cb_node
	virtual void BindCommandBuffer(const core_validation::layer_data , GLOBAL_CB_NODE ) = 0;
	virtual DescriptorClass GetClass() const { return descriptor_class; };
	// Special fast-path check for SamplerDescriptors that are immutable
	virtual bool IsImmutableSampler() const { return false; };
	// Check for dynamic descriptor type
	virtual bool IsDynamic() const { return false; };
	// Check for storage descriptor type
	virtual bool IsStorage() const { return false; };
	bool updated; // Has descriptor been updated?
	DescriptorClass descriptor_class;
	};
	// Shared helper functions - These are useful because the shared sampler image descriptor type
	// performs common functions with both sampler and image descriptors so they can share their common functions
	bool ValidateSampler(const VkSampler, const core_validation::layer_data *);
	bool ValidateImageUpdate(VkImageView, VkImageLayout, VkDescriptorType, const core_validation::layer_data , std::string );

	class SamplerDescriptor : public Descriptor {
	public:
	SamplerDescriptor();
	SamplerDescriptor(const VkSampler *);
	void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
	void CopyUpdate(const Descriptor *) override;
	void BindCommandBuffer(const core_validation::layer_data , GLOBAL_CB_NODE ) override;
	virtual bool IsImmutableSampler() const override { return immutable_; };
	VkSampler GetSampler() const { return sampler_; }

	private:
	// bool ValidateSampler(const VkSampler) const;
	VkSampler sampler_;
	bool immutable_;
	};

	class ImageSamplerDescriptor : public Descriptor {
	public:
	ImageSamplerDescriptor();
	ImageSamplerDescriptor(const VkSampler *);
	void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
	void CopyUpdate(const Descriptor *) override;
	void BindCommandBuffer(const core_validation::layer_data , GLOBAL_CB_NODE ) override;
	virtual bool IsImmutableSampler() const override { return immutable_; };
	VkSampler GetSampler() const { return sampler_; }
	VkImageView GetImageView() const { return image_view_; }
	VkImageLayout GetImageLayout() const { return image_layout_; }

	private:
	VkSampler sampler_;
	bool immutable_;
	VkImageView image_view_;
	VkImageLayout image_layout_;
	};

	class ImageDescriptor : public Descriptor {
	public:
	ImageDescriptor(const VkDescriptorType);
	void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
	void CopyUpdate(const Descriptor *) override;
	void BindCommandBuffer(const core_validation::layer_data , GLOBAL_CB_NODE ) override;
	virtual bool IsStorage() const override { return storage_; }
	VkImageView GetImageView() const { return image_view_; }
	VkImageLayout GetImageLayout() const { return image_layout_; }

	private:
	bool storage_;
	VkImageView image_view_;
	VkImageLayout image_layout_;
	};

	class TexelDescriptor : public Descriptor {
	public:
	TexelDescriptor(const VkDescriptorType);
	void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
	void CopyUpdate(const Descriptor *) override;
	void BindCommandBuffer(const core_validation::layer_data , GLOBAL_CB_NODE ) override;
	virtual bool IsStorage() const override { return storage_; }
	VkBufferView GetBufferView() const { return buffer_view_; }

	private:
	VkBufferView buffer_view_;
	bool storage_;
	};

	class BufferDescriptor : public Descriptor {
	public:
	BufferDescriptor(const VkDescriptorType);
	void WriteUpdate(const VkWriteDescriptorSet *, const uint32_t) override;
	void CopyUpdate(const Descriptor *) override;
	void BindCommandBuffer(const core_validation::layer_data , GLOBAL_CB_NODE ) override;
	virtual bool IsDynamic() const override { return dynamic_; }
	virtual bool IsStorage() const override { return storage_; }
	VkBuffer GetBuffer() const { return buffer_; }
	VkDeviceSize GetOffset() const { return offset_; }
	VkDeviceSize GetRange() const { return range_; }

	private:
	bool storage_;
	bool dynamic_;
	VkBuffer buffer_;
	VkDeviceSize offset_;
	VkDeviceSize range_;
	};
	// Structs to contain common elements that need to be shared between Validate* and Perform* calls below
	struct AllocateDescriptorSetsData {
	uint32_t required_descriptors_by_type[VK_DESCRIPTOR_TYPE_RANGE_SIZE];
	std::vector<cvdescriptorset::DescriptorSetLayout const *> layout_nodes;
	AllocateDescriptorSetsData(uint32_t);
	};
	// Helper functions for descriptor set functions that cross multiple sets
	// "Validate" will make sure an update is ok without actually performing it
	bool ValidateUpdateDescriptorSets(const debug_report_data , const core_validation::layer_data , uint32_t,
	const VkWriteDescriptorSet , uint32_t, const VkCopyDescriptorSet );
	// "Perform" does the update with the assumption that ValidateUpdateDescriptorSets() has passed for the given update
	void PerformUpdateDescriptorSets(const core_validation::layer_data , uint32_t, const VkWriteDescriptorSet , uint32_t,
	const VkCopyDescriptorSet *);
	// Validate that Allocation state is ok
	bool ValidateAllocateDescriptorSets(const debug_report_data , const VkDescriptorSetAllocateInfo ,
	const core_validation::layer_data , AllocateDescriptorSetsData );
	// Update state based on allocating new descriptorsets
	void PerformAllocateDescriptorSets(const VkDescriptorSetAllocateInfo , const VkDescriptorSet , const AllocateDescriptorSetsData *,
	std::unordered_map<VkDescriptorPool, DESCRIPTOR_POOL_NODE > ,
	std::unordered_map<VkDescriptorSet, cvdescriptorset::DescriptorSet > ,
	const core_validation::layer_data *);

	/*
	* DescriptorSet class
	*
	* Overview - This class encapsulates the Vulkan VkDescriptorSet data (set).
	* A set has an underlying layout which defines the bindings in the set and the
	* types and numbers of descriptors in each descriptor slot. Most of the layout
	* interfaces are exposed through identically-named functions in the set class.
	* Please refer to the DescriptorSetLayout comment above for a description of
	* index, binding, and global index.
	*
	* At construction a vector of Descriptor* is created with types corresponding to the
	* layout. The primary operation performed on the descriptors is to update them
	* via write or copy updates, and validate that the update contents are correct.
	* In order to validate update contents, the DescriptorSet stores a bunch of ptrs
	* to data maps where various Vulkan objects can be looked up. The management of
	* those maps is performed externally. The set class relies on their contents to
	* be correct at the time of update.
	*/
	class DescriptorSet : public BASE_NODE {
	public:
	using BASE_NODE::in_use;
	using BASE_NODE::cb_bindings;
	DescriptorSet(const VkDescriptorSet, const DescriptorSetLayout , const core_validation::layer_data );
	~DescriptorSet();
	// A number of common Get* functions that return data based on layout from which this set was created
	uint32_t GetTotalDescriptorCount() const { return p_layout_ ? p_layout_->GetTotalDescriptorCount() : 0; };
	uint32_t GetDynamicDescriptorCount() const { return p_layout_ ? p_layout_->GetDynamicDescriptorCount() : 0; };
	uint32_t GetBindingCount() const { return p_layout_ ? p_layout_->GetBindingCount() : 0; };
	VkDescriptorType GetTypeFromIndex(const uint32_t index) const {
	return p_layout_ ? p_layout_->GetTypeFromIndex(index) : VK_DESCRIPTOR_TYPE_MAX_ENUM;
	};
	VkDescriptorType GetTypeFromGlobalIndex(const uint32_t index) const {
	return p_layout_ ? p_layout_->GetTypeFromGlobalIndex(index) : VK_DESCRIPTOR_TYPE_MAX_ENUM;
	};
	VkDescriptorType GetTypeFromBinding(const uint32_t binding) const {
	return p_layout_ ? p_layout_->GetTypeFromBinding(binding) : VK_DESCRIPTOR_TYPE_MAX_ENUM;
	};
	uint32_t GetDescriptorCountFromIndex(const uint32_t index) const {
	return p_layout_ ? p_layout_->GetDescriptorCountFromIndex(index) : 0;
	};
	uint32_t GetDescriptorCountFromBinding(const uint32_t binding) const {
	return p_layout_ ? p_layout_->GetDescriptorCountFromBinding(binding) : 0;
	};
	// Return true if given binding is present in this set
	bool HasBinding(const uint32_t binding) const { return p_layout_->HasBinding(binding); };
	// Is this set compatible with the given layout?
	bool IsCompatible(const DescriptorSetLayout , std::string ) const;
	// For given bindings validate state at time of draw is correct, returning false on error and writing error details into string*
	bool ValidateDrawState(const std::map<uint32_t, descriptor_req> &, const std::vector<uint32_t> &, std::string *) const;
	// For given set of bindings, add any buffers and images that will be updated to their respective unordered_sets & return number
	// of objects inserted
	uint32_t GetStorageUpdates(const std::map<uint32_t, descriptor_req> &, std::unordered_set<VkBuffer> *,
	std::unordered_set<VkImageView> *) const;

	// Descriptor Update functions. These functions validate state and perform update separately
	// Validate contents of a WriteUpdate
	bool ValidateWriteUpdate(const debug_report_data , const VkWriteDescriptorSet , std::string *);
	// Perform a WriteUpdate whose contents were just validated using ValidateWriteUpdate
	void PerformWriteUpdate(const VkWriteDescriptorSet *);
	// Validate contents of a CopyUpdate
	bool ValidateCopyUpdate(const debug_report_data , const VkCopyDescriptorSet , const DescriptorSet , std::string );
	// Perform a CopyUpdate whose contents were just validated using ValidateCopyUpdate
	void PerformCopyUpdate(const VkCopyDescriptorSet , const DescriptorSet );

	const DescriptorSetLayout *GetLayout() const { return p_layout_; };
	VkDescriptorSet GetSet() const { return set_; };
	// Return unordered_set of all command buffers that this set is bound to
	std::unordered_set<GLOBAL_CB_NODE *> GetBoundCmdBuffers() const { return cb_bindings; }
	// Bind given cmd_buffer to this descriptor set
	void BindCommandBuffer(GLOBAL_CB_NODE *, const std::unordered_set<uint32_t> &);
	// If given cmd_buffer is in the cb_bindings set, remove it
	void RemoveBoundCommandBuffer(GLOBAL_CB_NODE *cb_node) { cb_bindings.erase(cb_node); }
	VkSampler const *GetImmutableSamplerPtrFromBinding(const uint32_t index) const {
	return p_layout_->GetImmutableSamplerPtrFromBinding(index);
	};
	// For a particular binding, get the global index
	uint32_t GetGlobalStartIndexFromBinding(const uint32_t binding) const {
	return p_layout_->GetGlobalStartIndexFromBinding(binding);
	};
	uint32_t GetGlobalEndIndexFromBinding(const uint32_t binding) const {
	return p_layout_->GetGlobalEndIndexFromBinding(binding);
	};
	// Return true if any part of set has ever been updated
	bool IsUpdated() const { return some_update_; };

	private:
	bool VerifyWriteUpdateContents(const VkWriteDescriptorSet , const uint32_t, std::string ) const;
	bool VerifyCopyUpdateContents(const VkCopyDescriptorSet , const DescriptorSet , VkDescriptorType, uint32_t,
	std::string *) const;
	bool ValidateBufferUsage(BUFFER_NODE const , VkDescriptorType, std::string ) const;
	bool ValidateBufferUpdate(VkDescriptorBufferInfo const , VkDescriptorType, std::string ) const;
	// Private helper to set all bound cmd buffers to INVALID state
	void InvalidateBoundCmdBuffers();
	bool some_update_; // has any part of the set ever been updated?
	VkDescriptorSet set_;
	const DescriptorSetLayout *p_layout_;
	std::vector<std::unique_ptr<Descriptor>> descriptors_;
	// Ptr to device data used for various data look-ups
	const core_validation::layer_data *device_data_;
	};
	}
	#endif // CORE_VALIDATION_DESCRIPTOR_SETS_H_