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1 #ifndef _VKTSHADERRENDER_HPP
2 #define _VKTSHADERRENDER_HPP
3 /*------------------------------------------------------------------------
4  * Vulkan Conformance Tests
5  * ------------------------
6  *
7  * Copyright (c) 2015 The Khronos Group Inc.
8  * Copyright (c) 2015 Samsung Electronics Co., Ltd.
9  *
10  * Licensed under the Apache License, Version 2.0 (the "License");
11  * you may not use this file except in compliance with the License.
12  * You may obtain a copy of the License at
13  *
14  *      http://www.apache.org/licenses/LICENSE-2.0
15  *
16  * Unless required by applicable law or agreed to in writing, software
17  * distributed under the License is distributed on an "AS IS" BASIS,
18  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
19  * See the License for the specific language governing permissions and
20  * limitations under the License.
21  *
22  *//*!
23  * \file
24  * \brief Vulkan ShaderRenderCase
25  *//*--------------------------------------------------------------------*/
26 
27 #include "tcuTexture.hpp"
28 #include "tcuSurface.hpp"
29 #include "tcuMaybe.hpp"
30 
31 #include "deMemory.h"
32 #include "deSharedPtr.hpp"
33 #include "deUniquePtr.hpp"
34 
35 #include "vkDefs.hpp"
36 #include "vkRefUtil.hpp"
37 #include "vkPrograms.hpp"
38 #include "vkRef.hpp"
39 #include "vkMemUtil.hpp"
40 #include "vkBuilderUtil.hpp"
41 #include "vkTypeUtil.hpp"
42 #include "vkPlatform.hpp"
43 
44 #include "vktTestCaseUtil.hpp"
45 
46 namespace vkt
47 {
48 namespace sr
49 {
50 
51 class LineStream
52 {
53 public:
LineStream(int indent=0)54 						LineStream		(int indent = 0)	{ m_indent = indent; }
~LineStream(void)55 						~LineStream		(void)				{}
56 
str(void) const57 	const char*			str				(void) const		{ m_string = m_stream.str(); return m_string.c_str(); }
operator <<(const char * line)58 	LineStream&			operator<<		(const char* line)	{ for (int i = 0; i < m_indent; i++) { m_stream << "\t"; } m_stream << line << "\n"; return *this; }
59 
60 private:
61 	int					m_indent;
62 	std::ostringstream	m_stream;
63 	mutable std::string	m_string;
64 };
65 
66 class QuadGrid;
67 class ShaderRenderCaseInstance;
68 
69 class TextureBinding
70 {
71 public:
72 	enum Type
73 	{
74 		TYPE_NONE = 0,
75 		TYPE_1D,
76 		TYPE_2D,
77 		TYPE_3D,
78 		TYPE_CUBE_MAP,
79 		TYPE_1D_ARRAY,
80 		TYPE_2D_ARRAY,
81 		TYPE_CUBE_ARRAY,
82 
83 		TYPE_LAST
84 	};
85 
86 	enum Init
87 	{
88 		INIT_UPLOAD_DATA,
89 		INIT_CLEAR,
90 
91 		INIT_LAST
92 	};
93 
94 	struct MinMaxLod
95 	{
96 		float minLod;
97 		float maxLod;
98 
MinMaxLodvkt::sr::TextureBinding::MinMaxLod99 		MinMaxLod (float min, float max) : minLod(min), maxLod(max) {}
100 	};
101 
102 	struct Parameters
103 	{
104 		deUint32					baseMipLevel;
105 		vk::VkComponentMapping		componentMapping;
106 		vk::VkSampleCountFlagBits	samples;
107 		Init						initialization;
108 		tcu::Maybe<MinMaxLod>		minMaxLod;
109 
Parametersvkt::sr::TextureBinding::Parameters110 		Parameters (deUint32						baseMipLevel_		= 0,
111 					vk::VkComponentMapping			componentMapping_	= vk::makeComponentMappingRGBA(),
112 					vk::VkSampleCountFlagBits		samples_			= vk::VK_SAMPLE_COUNT_1_BIT,
113 					Init							initialization_		= INIT_UPLOAD_DATA,
114 					const tcu::Maybe<MinMaxLod>&	minMaxLod_			= tcu::Nothing)
115 			: baseMipLevel		(baseMipLevel_)
116 			, componentMapping	(componentMapping_)
117 			, samples			(samples_)
118 			, initialization	(initialization_)
119 			, minMaxLod			(minMaxLod_)
120 		{
121 		}
122 	};
123 
124 										TextureBinding		(const tcu::Archive&	archive,
125 															const char*				filename,
126 															const Type				type,
127 															const tcu::Sampler&		sampler);
128 
129 										TextureBinding		(const tcu::Texture1D* tex1D, const tcu::Sampler& sampler);
130 										TextureBinding		(const tcu::Texture2D* tex2D, const tcu::Sampler& sampler);
131 										TextureBinding		(const tcu::Texture3D* tex3D, const tcu::Sampler& sampler);
132 										TextureBinding		(const tcu::TextureCube* texCube, const tcu::Sampler& sampler);
133 										TextureBinding		(const tcu::Texture1DArray* tex1DArray, const tcu::Sampler& sampler);
134 										TextureBinding		(const tcu::Texture2DArray* tex2DArray, const tcu::Sampler& sampler);
135 										TextureBinding		(const tcu::TextureCubeArray* texCubeArray, const tcu::Sampler& sampler);
136 
137 										~TextureBinding		(void);
138 
getType(void) const139 	Type								getType				(void) const { return m_type;		}
getSampler(void) const140 	const tcu::Sampler&					getSampler			(void) const { return m_sampler;	}
141 
get1D(void) const142 	const tcu::Texture1D&				get1D				(void) const { DE_ASSERT(getType() == TYPE_1D && m_binding.tex1D != NULL);					return *m_binding.tex1D;		}
get2D(void) const143 	const tcu::Texture2D&				get2D				(void) const { DE_ASSERT(getType() == TYPE_2D && m_binding.tex2D != NULL);					return *m_binding.tex2D;		}
get3D(void) const144 	const tcu::Texture3D&				get3D				(void) const { DE_ASSERT(getType() == TYPE_3D && m_binding.tex3D != NULL);					return *m_binding.tex3D;		}
getCube(void) const145 	const tcu::TextureCube&				getCube				(void) const { DE_ASSERT(getType() == TYPE_CUBE_MAP && m_binding.texCube != NULL);			return *m_binding.texCube;		}
get1DArray(void) const146 	const tcu::Texture1DArray&			get1DArray			(void) const { DE_ASSERT(getType() == TYPE_1D_ARRAY && m_binding.tex1DArray != NULL);		return *m_binding.tex1DArray;	}
get2DArray(void) const147 	const tcu::Texture2DArray&			get2DArray			(void) const { DE_ASSERT(getType() == TYPE_2D_ARRAY && m_binding.tex2DArray != NULL);		return *m_binding.tex2DArray;	}
getCubeArray(void) const148 	const tcu::TextureCubeArray&		getCubeArray		(void) const { DE_ASSERT(getType() == TYPE_CUBE_ARRAY && m_binding.texCubeArray != NULL);	return *m_binding.texCubeArray;	}
149 
setParameters(const Parameters & params)150 	void								setParameters		(const Parameters& params) { m_params = params; }
getParameters(void) const151 	const Parameters&					getParameters		(void) const { return m_params; }
152 
153 private:
154 										TextureBinding		(const TextureBinding&);	// not allowed!
155 	TextureBinding&						operator=			(const TextureBinding&);	// not allowed!
156 
157 	static de::MovePtr<tcu::Texture2D>	loadTexture2D		(const tcu::Archive& archive, const char* filename);
158 
159 	Type								m_type;
160 	tcu::Sampler						m_sampler;
161 	Parameters							m_params;
162 
163 	union
164 	{
165 		const tcu::Texture1D*			tex1D;
166 		const tcu::Texture2D*			tex2D;
167 		const tcu::Texture3D*			tex3D;
168 		const tcu::TextureCube*			texCube;
169 		const tcu::Texture1DArray*		tex1DArray;
170 		const tcu::Texture2DArray*		tex2DArray;
171 		const tcu::TextureCubeArray*	texCubeArray;
172 	} m_binding;
173 };
174 
175 typedef de::SharedPtr<TextureBinding> TextureBindingSp;
176 
177 // ShaderEvalContext.
178 
179 class ShaderEvalContext
180 {
181 public:
182 	// Limits.
183 	enum
184 	{
185 		MAX_USER_ATTRIBS	= 4,
186 		MAX_TEXTURES		= 4
187 	};
188 
189 	struct ShaderSampler
190 	{
191 		tcu::Sampler					sampler;
192 		const tcu::Texture1D*			tex1D;
193 		const tcu::Texture2D*			tex2D;
194 		const tcu::Texture3D*			tex3D;
195 		const tcu::TextureCube*			texCube;
196 		const tcu::Texture1DArray*		tex1DArray;
197 		const tcu::Texture2DArray*		tex2DArray;
198 		const tcu::TextureCubeArray*	texCubeArray;
199 
ShaderSamplervkt::sr::ShaderEvalContext::ShaderSampler200 		inline ShaderSampler (void)
201 			: tex1D			(DE_NULL)
202 			, tex2D			(DE_NULL)
203 			, tex3D			(DE_NULL)
204 			, texCube		(DE_NULL)
205 			, tex1DArray	(DE_NULL)
206 			, tex2DArray	(DE_NULL)
207 			, texCubeArray	(DE_NULL)
208 		{
209 		}
210 	};
211 
212 							ShaderEvalContext		(const QuadGrid& quadGrid);
213 							~ShaderEvalContext		(void);
214 
215 	void					reset					(float sx, float sy);
216 
217 	// Inputs.
218 	tcu::Vec4				coords;
219 	tcu::Vec4				unitCoords;
220 	tcu::Vec4				constCoords;
221 
222 	tcu::Vec4				in[MAX_USER_ATTRIBS];
223 	ShaderSampler			textures[MAX_TEXTURES];
224 
225 	// Output.
226 	tcu::Vec4				color;
227 	bool					isDiscarded;
228 
229 	// Functions.
discard(void)230 	inline void				discard					(void)  { isDiscarded = true; }
231 	tcu::Vec4				texture2D				(int unitNdx, const tcu::Vec2& coords);
232 
233 private:
234 	const QuadGrid&			m_quadGrid;
235 };
236 
237 typedef void (*ShaderEvalFunc) (ShaderEvalContext& c);
238 
evalCoordsPassthroughX(ShaderEvalContext & c)239 inline void evalCoordsPassthroughX		(ShaderEvalContext& c) { c.color.x() = c.coords.x(); }
evalCoordsPassthroughXY(ShaderEvalContext & c)240 inline void evalCoordsPassthroughXY		(ShaderEvalContext& c) { c.color.xy() = c.coords.swizzle(0,1); }
evalCoordsPassthroughXYZ(ShaderEvalContext & c)241 inline void evalCoordsPassthroughXYZ	(ShaderEvalContext& c) { c.color.xyz() = c.coords.swizzle(0,1,2); }
evalCoordsPassthrough(ShaderEvalContext & c)242 inline void evalCoordsPassthrough		(ShaderEvalContext& c) { c.color = c.coords; }
evalCoordsSwizzleWZYX(ShaderEvalContext & c)243 inline void evalCoordsSwizzleWZYX		(ShaderEvalContext& c) { c.color = c.coords.swizzle(3,2,1,0); }
244 
245 // ShaderEvaluator
246 // Either inherit a class with overridden evaluate() or just pass in an evalFunc.
247 
248 class ShaderEvaluator
249 {
250 public:
251 							ShaderEvaluator			(void);
252 							ShaderEvaluator			(const ShaderEvalFunc evalFunc);
253 	virtual					~ShaderEvaluator		(void);
254 
255 	virtual void			evaluate				(ShaderEvalContext& ctx) const;
256 
257 private:
258 							ShaderEvaluator			(const ShaderEvaluator&);   // not allowed!
259 	ShaderEvaluator&		operator=				(const ShaderEvaluator&);   // not allowed!
260 
261 	const ShaderEvalFunc	m_evalFunc;
262 };
263 
264 // UniformSetup
265 
266 typedef void (*UniformSetupFunc) (ShaderRenderCaseInstance& instance, const tcu::Vec4& constCoords);
267 
268 class UniformSetup
269 {
270 public:
271 							UniformSetup			(void);
272 							UniformSetup			(const UniformSetupFunc setup);
273 	virtual					~UniformSetup			(void);
274 	virtual void			setup					(ShaderRenderCaseInstance& instance, const tcu::Vec4& constCoords) const;
275 
276 private:
277 							UniformSetup			(const UniformSetup&);	// not allowed!
278 	UniformSetup&			operator=				(const UniformSetup&);	// not allowed!
279 
280 	const UniformSetupFunc	m_setupFunc;
281 };
282 
283 typedef void (*AttributeSetupFunc) (ShaderRenderCaseInstance& instance, deUint32 numVertices);
284 
285 class ShaderRenderCase : public vkt::TestCase
286 {
287 public:
288 													ShaderRenderCase	(tcu::TestContext&			testCtx,
289 																		 const std::string&			name,
290 																		 const std::string&			description,
291 																		 const bool					isVertexCase,
292 																		 const ShaderEvalFunc		evalFunc,
293 																		 const UniformSetup*		uniformSetup,
294 																		 const AttributeSetupFunc	attribFunc);
295 
296 													ShaderRenderCase	(tcu::TestContext&			testCtx,
297 																		 const std::string&			name,
298 																		 const std::string&			description,
299 																		 const bool					isVertexCase,
300 																		 const ShaderEvaluator*		evaluator,
301 																		 const UniformSetup*		uniformSetup,
302 																		 const AttributeSetupFunc	attribFunc);
303 
304 	virtual											~ShaderRenderCase	(void);
305 	virtual	void									initPrograms		(vk::SourceCollections& programCollection) const;
306 	virtual	TestInstance*							createInstance		(Context& context) const;
307 
308 protected:
309 	std::string										m_vertShaderSource;
310 	std::string										m_fragShaderSource;
311 
312 	const bool										m_isVertexCase;
313 	const de::UniquePtr<const ShaderEvaluator>		m_evaluator;
314 	const de::UniquePtr<const UniformSetup>			m_uniformSetup;
315 	const AttributeSetupFunc						m_attribFunc;
316 };
317 
318 enum BaseUniformType
319 {
320 // Bool
321 	UB_FALSE,
322 	UB_TRUE,
323 
324 // BVec4
325 	UB4_FALSE,
326 	UB4_TRUE,
327 
328 // Integers
329 	UI_ZERO,
330 	UI_ONE,
331 	UI_TWO,
332 	UI_THREE,
333 	UI_FOUR,
334 	UI_FIVE,
335 	UI_SIX,
336 	UI_SEVEN,
337 	UI_EIGHT,
338 	UI_ONEHUNDREDONE,
339 
340 // IVec2
341 	UI2_MINUS_ONE,
342 	UI2_ZERO,
343 	UI2_ONE,
344 	UI2_TWO,
345 	UI2_THREE,
346 	UI2_FOUR,
347 	UI2_FIVE,
348 
349 // IVec3
350 	UI3_MINUS_ONE,
351 	UI3_ZERO,
352 	UI3_ONE,
353 	UI3_TWO,
354 	UI3_THREE,
355 	UI3_FOUR,
356 	UI3_FIVE,
357 
358 // IVec4
359 	UI4_MINUS_ONE,
360 	UI4_ZERO,
361 	UI4_ONE,
362 	UI4_TWO,
363 	UI4_THREE,
364 	UI4_FOUR,
365 	UI4_FIVE,
366 
367 // Float
368 	UF_ZERO,
369 	UF_ONE,
370 	UF_TWO,
371 	UF_THREE,
372 	UF_FOUR,
373 	UF_FIVE,
374 	UF_SIX,
375 	UF_SEVEN,
376 	UF_EIGHT,
377 
378 	UF_HALF,
379 	UF_THIRD,
380 	UF_FOURTH,
381 	UF_FIFTH,
382 	UF_SIXTH,
383 	UF_SEVENTH,
384 	UF_EIGHTH,
385 
386 // Vec2
387 	UV2_MINUS_ONE,
388 	UV2_ZERO,
389 	UV2_ONE,
390 	UV2_TWO,
391 	UV2_THREE,
392 
393 	UV2_HALF,
394 
395 // Vec3
396 	UV3_MINUS_ONE,
397 	UV3_ZERO,
398 	UV3_ONE,
399 	UV3_TWO,
400 	UV3_THREE,
401 
402 	UV3_HALF,
403 
404 // Vec4
405 	UV4_MINUS_ONE,
406 	UV4_ZERO,
407 	UV4_ONE,
408 	UV4_TWO,
409 	UV4_THREE,
410 
411 	UV4_HALF,
412 
413 	UV4_BLACK,
414 	UV4_GRAY,
415 	UV4_WHITE,
416 
417 // Last
418 	U_LAST
419 };
420 
421 enum BaseAttributeType
422 {
423 // User attributes
424 	A_IN0,
425 	A_IN1,
426 	A_IN2,
427 	A_IN3,
428 
429 // Matrices
430 	MAT2,
431 	MAT2x3,
432 	MAT2x4,
433 	MAT3x2,
434 	MAT3,
435 	MAT3x4,
436 	MAT4x2,
437 	MAT4x3,
438 	MAT4
439 };
440 
441 // ShaderRenderCaseInstance.
442 
443 class ShaderRenderCaseInstance : public vkt::TestInstance
444 {
445 public:
446 	enum ImageBackingMode
447 	{
448 		IMAGE_BACKING_MODE_REGULAR = 0,
449 		IMAGE_BACKING_MODE_SPARSE,
450 	};
451 
452 	// Default wertex and fragment grid sizes are used by a large collection of tests
453 	// to generate input sets. Some tests might change their behavior if the
454 	// default grid size values are altered, so care should be taken to confirm that
455 	// any changes to default values do not produce regressions.
456 	// If a particular tests needs to use a different grid size value, rather than
457 	// modifying the default grid size values for all tests, it is recommended that
458 	// the test specifies the required grid size using the gridSize parameter in the
459 	// ShaderRenderCaseInstance constuctor instead.
460 	enum
461 	{
462 		GRID_SIZE_DEFAULTS			= 0,
463 		GRID_SIZE_DEFAULT_VERTEX	= 90,
464 		GRID_SIZE_DEFAULT_FRAGMENT	= 4,
465 	};
466 
467 														ShaderRenderCaseInstance	(Context&					context);
468 														ShaderRenderCaseInstance	(Context&					context,
469 																					const bool					isVertexCase,
470 																					const ShaderEvaluator&		evaluator,
471 																					const UniformSetup&			uniformSetup,
472 																					const AttributeSetupFunc	attribFunc,
473 																					const ImageBackingMode		imageBackingMode = IMAGE_BACKING_MODE_REGULAR,
474 																					const deUint32				gridSize = static_cast<deUint32>(GRID_SIZE_DEFAULTS),
475 																					const bool					fuzzyCompare = true);
476 
477 	virtual												~ShaderRenderCaseInstance	(void);
478 	virtual tcu::TestStatus								iterate						(void);
479 
480 	void												addAttribute				(deUint32			bindingLocation,
481 																					vk::VkFormat		format,
482 																					deUint32			sizePerElement,
483 																					deUint32			count,
484 																					const void*			data);
485 	void												useAttribute				(deUint32			bindingLocation,
486 																					BaseAttributeType	type);
487 
488 	template<typename T>
489 	void												addUniform					(deUint32				bindingLocation,
490 																					vk::VkDescriptorType	descriptorType,
491 																					const T&				data);
492 	void												addUniform					(deUint32				bindingLocation,
493 																					vk::VkDescriptorType	descriptorType,
494 																					size_t					dataSize,
495 																					const void*				data);
496 	void												useUniform					(deUint32				bindingLocation,
497 																					BaseUniformType			type);
498 	void												useSampler					(deUint32				bindingLocation,
499 																					deUint32				textureId);
500 
getDefaultConstCoords(void)501 	static const tcu::Vec4								getDefaultConstCoords		(void) { return tcu::Vec4(0.125f, 0.25f, 0.5f, 1.0f); }
502 	void												setPushConstantRanges		(const deUint32 rangeCount, const vk::VkPushConstantRange* const pcRanges);
503 	virtual void										updatePushConstants			(vk::VkCommandBuffer commandBuffer, vk::VkPipelineLayout pipelineLayout);
504 
505 protected:
506 														ShaderRenderCaseInstance	(Context&					context,
507 																					 const bool					isVertexCase,
508 																					 const ShaderEvaluator*		evaluator,
509 																					 const UniformSetup*		uniformSetup,
510 																					 const AttributeSetupFunc	attribFunc,
511 																					 const ImageBackingMode		imageBackingMode = IMAGE_BACKING_MODE_REGULAR,
512 																					 const deUint32				gridSize = static_cast<deUint32>(GRID_SIZE_DEFAULTS));
513 
514 	virtual void										setup						(void);
515 	virtual void										setupUniforms				(const tcu::Vec4& constCoords);
516 	virtual void										setupDefaultInputs			(void);
517 
518 	void												render						(deUint32					numVertices,
519 																					 deUint32					numTriangles,
520 																					 const deUint16*			indices,
521 																					 const tcu::Vec4&			constCoords		= getDefaultConstCoords());
522 
523 	void												render						(deUint32					numVertices,
524 																					 deUint32					numIndices,
525 																					 const deUint16*			indices,
526 																					 vk::VkPrimitiveTopology	topology,
527 																					 const tcu::Vec4&			constCoords		= getDefaultConstCoords());
528 
getResultImage(void) const529 	const tcu::TextureLevel&							getResultImage				(void) const { return m_resultImage; }
530 
531 	const tcu::UVec2									getViewportSize				(void) const;
532 
533 	void												setSampleCount				(vk::VkSampleCountFlagBits sampleCount);
534 
535 	bool												isMultiSampling				(void) const;
536 
537 	ImageBackingMode									m_imageBackingMode;
538 
539 	deUint32											m_quadGridSize;
540 
541 protected:
542 	vk::Allocator&										m_memAlloc;
543 	const tcu::Vec4										m_clearColor;
544 	const bool											m_isVertexCase;
545 
546 	std::vector<tcu::Mat4>								m_userAttribTransforms;
547 	std::vector<TextureBindingSp>						m_textures;
548 
549 	std::string											m_vertexShaderName;
550 	std::string											m_fragmentShaderName;
551 	tcu::UVec2											m_renderSize;
552 	vk::VkFormat										m_colorFormat;
553 
554 private:
555 	typedef std::vector<tcu::ConstPixelBufferAccess>	TextureLayerData;
556 	typedef std::vector<TextureLayerData>				TextureData;
557 
558 	void												uploadImage					(const tcu::TextureFormat&		texFormat,
559 																					 const TextureData&				textureData,
560 																					 const tcu::Sampler&			refSampler,
561 																					 deUint32						mipLevels,
562 																					 deUint32						arrayLayers,
563 																					 vk::VkImage					destImage);
564 
565 	void												clearImage					(const tcu::Sampler&			refSampler,
566 																					 deUint32						mipLevels,
567 																					 deUint32						arrayLayers,
568 																					 vk::VkImage					destImage);
569 
570 	void												checkSparseSupport			(const vk::VkImageCreateInfo&	imageInfo) const;
571 
572 	void												uploadSparseImage			(const tcu::TextureFormat&		texFormat,
573 																					 const TextureData&				textureData,
574 																					 const tcu::Sampler&			refSampler,
575 																					 const deUint32					mipLevels,
576 																					 const deUint32					arrayLayers,
577 																					 const vk::VkImage				sparseImage,
578 																					 const vk::VkImageCreateInfo&	imageCreateInfo,
579 																					 const tcu::UVec3				texSize);
580 
581 	void												createSamplerUniform		(deUint32						bindingLocation,
582 																					 TextureBinding::Type			textureType,
583 																					 TextureBinding::Init			textureInit,
584 																					 const tcu::TextureFormat&		texFormat,
585 																					 const tcu::UVec3				texSize,
586 																					 const TextureData&				textureData,
587 																					 const tcu::Sampler&			refSampler,
588 																					 deUint32						mipLevels,
589 																					 deUint32						arrayLayers,
590 																					 TextureBinding::Parameters		textureParams);
591 
592 	void												setupUniformData			(deUint32 bindingLocation, size_t size, const void* dataPtr);
593 
594 	void												computeVertexReference		(tcu::Surface& result, const QuadGrid& quadGrid);
595 	void												computeFragmentReference	(tcu::Surface& result, const QuadGrid& quadGrid);
596 	bool												compareImages				(const tcu::Surface&	resImage,
597 																					 const tcu::Surface&	refImage,
598 																					 float					errorThreshold);
599 
600 private:
601 	const ShaderEvaluator*								m_evaluator;
602 	const UniformSetup*									m_uniformSetup;
603 	const AttributeSetupFunc							m_attribFunc;
604 	de::MovePtr<QuadGrid>								m_quadGrid;
605 	tcu::TextureLevel									m_resultImage;
606 
607 	struct EnabledBaseAttribute
608 	{
609 		deUint32			location;
610 		BaseAttributeType	type;
611 	};
612 	std::vector<EnabledBaseAttribute>					m_enabledBaseAttributes;
613 
614 	de::MovePtr<vk::DescriptorSetLayoutBuilder>			m_descriptorSetLayoutBuilder;
615 	de::MovePtr<vk::DescriptorPoolBuilder>				m_descriptorPoolBuilder;
616 	de::MovePtr<vk::DescriptorSetUpdateBuilder>			m_descriptorSetUpdateBuilder;
617 
618 	typedef de::SharedPtr<vk::Unique<vk::VkBuffer> >		VkBufferSp;
619 	typedef de::SharedPtr<vk::Unique<vk::VkImage> >			VkImageSp;
620 	typedef de::SharedPtr<vk::Unique<vk::VkImageView> >		VkImageViewSp;
621 	typedef de::SharedPtr<vk::Unique<vk::VkSampler> >		VkSamplerSp;
622 	typedef de::SharedPtr<vk::Allocation>					AllocationSp;
623 
624 	class UniformInfo
625 	{
626 	public:
UniformInfo(void)627 									UniformInfo		(void) {}
~UniformInfo(void)628 		virtual						~UniformInfo	(void) {}
629 
630 		vk::VkDescriptorType		type;
631 		deUint32					location;
632 	};
633 
634 	class BufferUniform : public UniformInfo
635 	{
636 	public:
BufferUniform(void)637 									BufferUniform	(void) {}
~BufferUniform(void)638 		virtual						~BufferUniform	(void) {}
639 
640 		VkBufferSp					buffer;
641 		AllocationSp				alloc;
642 		vk::VkDescriptorBufferInfo	descriptor;
643 	};
644 
645 	class SamplerUniform : public UniformInfo
646 	{
647 	public:
SamplerUniform(void)648 									SamplerUniform	(void) {}
~SamplerUniform(void)649 		virtual						~SamplerUniform	(void) {}
650 
651 		VkImageSp					image;
652 		VkImageViewSp				imageView;
653 		VkSamplerSp					sampler;
654 		AllocationSp				alloc;
655 		vk::VkDescriptorImageInfo	descriptor;
656 	};
657 
658 	typedef de::SharedPtr<de::UniquePtr<UniformInfo> >	UniformInfoSp;
659 	std::vector<UniformInfoSp>							m_uniformInfos;
660 
661 	std::vector< de::SharedPtr<vk::Allocation> >		m_allocations;
662 
663 	std::vector<vk::VkVertexInputBindingDescription>	m_vertexBindingDescription;
664 	std::vector<vk::VkVertexInputAttributeDescription>	m_vertexAttributeDescription;
665 
666 	std::vector<VkBufferSp>								m_vertexBuffers;
667 	std::vector<AllocationSp>							m_vertexBufferAllocs;
668 
669 	vk::VkSampleCountFlagBits							m_sampleCount;
670 	std::vector<vk::VkPushConstantRange>				m_pushConstantRanges;
671 
672 	bool												m_fuzzyCompare;
673 
674 	vk::VkDevice										getDevice						(void) const;
675 	deUint32											getUniversalQueueFamilyIndex	(void) const;
676 	deUint32											getSparseQueueFamilyIndex		(void) const;
677 	const vk::DeviceInterface&							getDeviceInterface				(void) const;
678 	vk::VkQueue											getUniversalQueue				(void) const;
679 	vk::VkQueue											getSparseQueue					(void) const;
680 	vk::VkPhysicalDevice								getPhysicalDevice				(void) const;
681 	const vk::InstanceInterface&						getInstanceInterface			(void) const;
682 	vk::Allocator&										getAllocator					(void) const;
683 };
684 
685 template<typename T>
addUniform(deUint32 bindingLocation,vk::VkDescriptorType descriptorType,const T & data)686 void ShaderRenderCaseInstance::addUniform (deUint32 bindingLocation, vk::VkDescriptorType descriptorType, const T& data)
687 {
688 	addUniform(bindingLocation, descriptorType, sizeof(T), &data);
689 }
690 
691 vk::VkImageViewType		textureTypeToImageViewType	(TextureBinding::Type type);
692 vk::VkImageType			viewTypeToImageType			(vk::VkImageViewType type);
693 vk::VkImageUsageFlags	textureUsageFlags			(void);
694 vk::VkImageCreateFlags	textureCreateFlags			(vk::VkImageViewType viewType, ShaderRenderCaseInstance::ImageBackingMode backingMode);
695 
696 } // sr
697 } // vkt
698 
699 #endif // _VKTSHADERRENDER_HPP
700