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1 #ifndef _VKTSPVASMUTILS_HPP
2 #define _VKTSPVASMUTILS_HPP
3 /*-------------------------------------------------------------------------
4  * Vulkan Conformance Tests
5  * ------------------------
6  *
7  * Copyright (c) 2017 Google Inc.
8  *
9  * Licensed under the Apache License, Version 2.0 (the "License");
10  * you may not use this file except in compliance with the License.
11  * You may obtain a copy of the License at
12  *
13  *      http://www.apache.org/licenses/LICENSE-2.0
14  *
15  * Unless required by applicable law or agreed to in writing, software
16  * distributed under the License is distributed on an "AS IS" BASIS,
17  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
18  * See the License for the specific language governing permissions and
19  * limitations under the License.
20  *
21  *//*!
22  * \file
23  * \brief Utilities for Vulkan SPIR-V assembly tests
24  *//*--------------------------------------------------------------------*/
25 
26 #include "vkDefs.hpp"
27 #include "vkMemUtil.hpp"
28 #include "vkRef.hpp"
29 #include "vkTypeUtil.hpp"
30 #include "vktTestCase.hpp"
31 
32 #include "deMemory.h"
33 #include "deUniquePtr.hpp"
34 #include "deSharedPtr.hpp"
35 #include "deRandom.hpp"
36 #include "deFloat16.h"
37 
38 #include <string>
39 #include <vector>
40 
41 namespace vkt
42 {
43 namespace SpirVAssembly
44 {
45 
46 #define SPIRV_ASSEMBLY_TYPES																				\
47 	"%void = OpTypeVoid\n"																					\
48 	"%bool = OpTypeBool\n"																					\
49 																											\
50 	"%i32 = OpTypeInt 32 1\n"																				\
51 	"%u32 = OpTypeInt 32 0\n"																				\
52 																											\
53 	"%f32 = OpTypeFloat 32\n"																				\
54 	"%v2i32 = OpTypeVector %i32 2\n"																		\
55 	"%v2u32 = OpTypeVector %u32 2\n"																		\
56 	"%v2f32 = OpTypeVector %f32 2\n"																		\
57 	"%v3i32 = OpTypeVector %i32 3\n"																		\
58 	"%v3u32 = OpTypeVector %u32 3\n"																		\
59 	"%v3f32 = OpTypeVector %f32 3\n"																		\
60 	"%v4i32 = OpTypeVector %i32 4\n"																		\
61 	"%v4u32 = OpTypeVector %u32 4\n"																		\
62 	"%v4f32 = OpTypeVector %f32 4\n"																		\
63 	"%v4bool = OpTypeVector %bool 4\n"																		\
64 																											\
65 	"%v4f32_v4f32_function = OpTypeFunction %v4f32 %v4f32\n"									\
66 	"%bool_function = OpTypeFunction %bool\n"																\
67 	"%fun = OpTypeFunction %void\n"																			\
68 																											\
69 	"%ip_f32 = OpTypePointer Input %f32\n"																	\
70 	"%ip_i32 = OpTypePointer Input %i32\n"																	\
71 	"%ip_u32 = OpTypePointer Input %u32\n"																	\
72 	"%ip_v2f32 = OpTypePointer Input %v2f32\n"																\
73 	"%ip_v2i32 = OpTypePointer Input %v2i32\n"																\
74 	"%ip_v2u32 = OpTypePointer Input %v2u32\n"																\
75 	"%ip_v3f32 = OpTypePointer Input %v3f32\n"																\
76 	"%ip_v4f32 = OpTypePointer Input %v4f32\n"																\
77 	"%ip_v4i32 = OpTypePointer Input %v4i32\n"																\
78 	"%ip_v4u32 = OpTypePointer Input %v4u32\n"																\
79 																											\
80 	"%op_f32 = OpTypePointer Output %f32\n"																	\
81 	"%op_i32 = OpTypePointer Output %i32\n"																	\
82 	"%op_u32 = OpTypePointer Output %u32\n"																	\
83 	"%op_v2f32 = OpTypePointer Output %v2f32\n"																\
84 	"%op_v2i32 = OpTypePointer Output %v2i32\n"																\
85 	"%op_v2u32 = OpTypePointer Output %v2u32\n"																\
86 	"%op_v4f32 = OpTypePointer Output %v4f32\n"																\
87 	"%op_v4i32 = OpTypePointer Output %v4i32\n"																\
88 	"%op_v4u32 = OpTypePointer Output %v4u32\n"																\
89 																											\
90 	"%fp_f32   = OpTypePointer Function %f32\n"																\
91 	"%fp_i32   = OpTypePointer Function %i32\n"																\
92 	"%fp_v4f32 = OpTypePointer Function %v4f32\n"															\
93 
94 #define SPIRV_ASSEMBLY_CONSTANTS																			\
95 	"%c_f32_1 = OpConstant %f32 1.0\n"																		\
96 	"%c_f32_0 = OpConstant %f32 0.0\n"																		\
97 	"%c_f32_0_5 = OpConstant %f32 0.5\n"																	\
98 	"%c_f32_n1  = OpConstant %f32 -1.\n"																	\
99 	"%c_f32_7 = OpConstant %f32 7.0\n"																		\
100 	"%c_f32_8 = OpConstant %f32 8.0\n"																		\
101 	"%c_i32_0 = OpConstant %i32 0\n"																		\
102 	"%c_i32_1 = OpConstant %i32 1\n"																		\
103 	"%c_i32_2 = OpConstant %i32 2\n"																		\
104 	"%c_i32_3 = OpConstant %i32 3\n"																		\
105 	"%c_i32_4 = OpConstant %i32 4\n"																		\
106 	"%c_u32_0 = OpConstant %u32 0\n"																		\
107 	"%c_u32_1 = OpConstant %u32 1\n"																		\
108 	"%c_u32_2 = OpConstant %u32 2\n"																		\
109 	"%c_u32_3 = OpConstant %u32 3\n"																		\
110 	"%c_u32_32 = OpConstant %u32 32\n"																		\
111 	"%c_u32_4 = OpConstant %u32 4\n"																		\
112 	"%c_u32_31_bits = OpConstant %u32 0x7FFFFFFF\n"															\
113 	"%c_v4f32_1_1_1_1 = OpConstantComposite %v4f32 %c_f32_1 %c_f32_1 %c_f32_1 %c_f32_1\n"					\
114 	"%c_v4f32_1_0_0_1 = OpConstantComposite %v4f32 %c_f32_1 %c_f32_0 %c_f32_0 %c_f32_1\n"					\
115 	"%c_v4f32_0_5_0_5_0_5_0_5 = OpConstantComposite %v4f32 %c_f32_0_5 %c_f32_0_5 %c_f32_0_5 %c_f32_0_5\n"	\
116 
117 #define SPIRV_ASSEMBLY_ARRAYS																				\
118 	"%a1f32 = OpTypeArray %f32 %c_u32_1\n"																	\
119 	"%a2f32 = OpTypeArray %f32 %c_u32_2\n"																	\
120 	"%a3v4f32 = OpTypeArray %v4f32 %c_u32_3\n"																\
121 	"%a4f32 = OpTypeArray %f32 %c_u32_4\n"																	\
122 	"%a32v4f32 = OpTypeArray %v4f32 %c_u32_32\n"															\
123 	"%ip_a3v4f32 = OpTypePointer Input %a3v4f32\n"															\
124 	"%ip_a32v4f32 = OpTypePointer Input %a32v4f32\n"														\
125 	"%op_a2f32 = OpTypePointer Output %a2f32\n"																\
126 	"%op_a3v4f32 = OpTypePointer Output %a3v4f32\n"															\
127 	"%op_a4f32 = OpTypePointer Output %a4f32\n"																\
128 
129 /*--------------------------------------------------------------------*//*!
130  * \brief Abstract class for an input/output storage buffer object
131  *//*--------------------------------------------------------------------*/
132 class BufferInterface
133 {
134 public:
~BufferInterface(void)135 	virtual				~BufferInterface	(void)				{}
136 
137 	virtual void		getBytes			(std::vector<deUint8>& bytes) const = 0;
138 	virtual void		getPackedBytes		(std::vector<deUint8>& bytes) const = 0;
139 	virtual size_t		getByteSize			(void) const = 0;
140 };
141 
142 typedef de::SharedPtr<BufferInterface>	BufferSp;
143 typedef de::MovePtr<vk::Allocation>		AllocationMp;
144 typedef de::SharedPtr<vk::Allocation>	AllocationSp;
145 
146 class Resource
147 {
148 public:
Resource(const BufferSp & buffer_,vk::VkDescriptorType descriptorType_=vk::VK_DESCRIPTOR_TYPE_STORAGE_BUFFER)149 	Resource(const BufferSp& buffer_, vk::VkDescriptorType descriptorType_ = vk::VK_DESCRIPTOR_TYPE_STORAGE_BUFFER)
150 		: buffer(buffer_)
151 		, descriptorType(descriptorType_)
152 	{
153 	}
154 
getBuffer() const155 	virtual const BufferSp&			getBuffer			() const							{ return buffer; }
getBytes(std::vector<deUint8> & bytes) const156 	virtual void					getBytes			(std::vector<deUint8>& bytes) const	{ buffer->getBytes(bytes); }
getByteSize(void) const157 	virtual size_t					getByteSize			(void) const						{ return buffer->getByteSize(); }
158 
setDescriptorType(vk::VkDescriptorType type)159 	virtual void					setDescriptorType	(vk::VkDescriptorType type)		{ descriptorType = type; }
getDescriptorType() const160 	virtual vk::VkDescriptorType	getDescriptorType	()	const						{ return descriptorType; }
161 
162 private:
163 	BufferSp				buffer;
164 	vk::VkDescriptorType	descriptorType;
165 };
166 
167 typedef bool (*VerifyIOFunc) (const std::vector<Resource>&		inputs,
168 							  const std::vector<AllocationSp>&	outputAllocations,
169 							  const std::vector<Resource>&		expectedOutputs,
170 							  tcu::TestLog&						log);
171 
172 struct SpecConstants
173 {
174 public:
SpecConstantsvkt::SpirVAssembly::SpecConstants175 							SpecConstants (void)
176 							{}
177 
emptyvkt::SpirVAssembly::SpecConstants178 	bool					empty (void) const
179 							{
180 								return valuesBuffer.empty();
181 							}
182 
getValuesCountvkt::SpirVAssembly::SpecConstants183 	size_t					getValuesCount (void) const
184 							{
185 								return sizesBuffer.size();
186 							}
187 
getValueSizevkt::SpirVAssembly::SpecConstants188 	size_t					getValueSize (const size_t valueIndex) const
189 							{
190 								return sizesBuffer[valueIndex];
191 							}
192 
getValuesBuffervkt::SpirVAssembly::SpecConstants193 	const void*				getValuesBuffer (void) const
194 							{
195 								if (valuesBuffer.size() == 0)
196 									return DE_NULL;
197 								else
198 									return static_cast<const void*>(&valuesBuffer[0]);
199 							}
200 
201 	template<typename T>
appendvkt::SpirVAssembly::SpecConstants202 	void					append (const T value)
203 							{
204 								append(&value, sizeof(value));
205 							}
206 
appendvkt::SpirVAssembly::SpecConstants207 	void					append (const void* buf, const size_t byteSize)
208 							{
209 								DE_ASSERT(byteSize > 0);
210 
211 								valuesBuffer.resize(valuesBuffer.size() + byteSize);
212 								deMemcpy(&valuesBuffer[valuesBuffer.size() - byteSize], buf, byteSize);
213 
214 								sizesBuffer.push_back(byteSize);
215 							}
216 
217 private:
218 	std::vector<deUint8>	valuesBuffer;
219 	std::vector<size_t>		sizesBuffer;
220 };
221 
222 enum Extension8BitStorageFeatureBits
223 {
224 	EXT8BITSTORAGEFEATURES_STORAGE_BUFFER			= (1u << 1),
225 	EXT8BITSTORAGEFEATURES_UNIFORM_STORAGE_BUFFER	= (1u << 2),
226 	EXT8BITSTORAGEFEATURES_PUSH_CONSTANT			= (1u << 3),
227 };
228 typedef deUint32 Extension8BitStorageFeatures;
229 
230 enum Extension16BitStorageFeatureBits
231 {
232 	EXT16BITSTORAGEFEATURES_UNIFORM_BUFFER_BLOCK	= (1u << 1),
233 	EXT16BITSTORAGEFEATURES_UNIFORM					= (1u << 2),
234 	EXT16BITSTORAGEFEATURES_PUSH_CONSTANT			= (1u << 3),
235 	EXT16BITSTORAGEFEATURES_INPUT_OUTPUT			= (1u << 4),
236 };
237 typedef deUint32 Extension16BitStorageFeatures;
238 
239 enum ExtensionVariablePointersFeaturesBits
240 {
241 	EXTVARIABLEPOINTERSFEATURES_VARIABLE_POINTERS_STORAGEBUFFER	= (1u << 1),
242 	EXTVARIABLEPOINTERSFEATURES_VARIABLE_POINTERS				= (1u << 2),
243 };
244 typedef deUint32 ExtensionVariablePointersFeatures;
245 
246 enum ExtensionFloat16Int8FeaturesBits
247 {
248 	EXTFLOAT16INT8FEATURES_FLOAT16	= (1u << 1),
249 	EXTFLOAT16INT8FEATURES_INT8		= (1u << 2),
250 };
251 typedef deUint32 ExtensionFloat16Int8Features;
252 typedef vk::VkPhysicalDeviceFloatControlsPropertiesKHR ExtensionFloatControlsFeatures;
253 
254 struct VulkanFeatures
255 {
256 	vk::VkPhysicalDeviceFeatures		coreFeatures;
257 	ExtensionFloat16Int8Features		extFloat16Int8;
258 	Extension8BitStorageFeatures		ext8BitStorage;
259 	Extension16BitStorageFeatures		ext16BitStorage;
260 	ExtensionVariablePointersFeatures	extVariablePointers;
261 	ExtensionFloatControlsFeatures		floatControlsProperties;
262 
VulkanFeaturesvkt::SpirVAssembly::VulkanFeatures263 	VulkanFeatures				(void)
264 		: extFloat16Int8		(0)
265 		, ext8BitStorage		(0)
266 		, ext16BitStorage		(0)
267 		, extVariablePointers	(0)
268 	{
269 		deMemset(&coreFeatures, 0, sizeof(coreFeatures));
270 		deMemset(&floatControlsProperties, 0, sizeof(ExtensionFloatControlsFeatures));
271 	}
272 };
273 
274 // Returns true if the given 8bit storage extension features in `toCheck` are all supported.
275 bool is8BitStorageFeaturesSupported (const Context&						context,
276 									  Extension8BitStorageFeatures		toCheck);
277 
278 // Returns true if the given 16bit storage extension features in `toCheck` are all supported.
279 bool isCoreFeaturesSupported (const Context&						context,
280 							  const vk::VkPhysicalDeviceFeatures&	toCheck,
281 							  const char**							missingFeature);
282 
283 // Returns true if the given 16bit storage extension features in `toCheck` are all supported.
284 bool isCoreFeaturesSupported (const Context&						context,
285 							  const vk::VkPhysicalDeviceFeatures&	toCheck,
286 							  const char**							missingFeature);
287 
288 // Returns true if the given 16bit storage extension features in `toCheck` are all supported.
289 bool is16BitStorageFeaturesSupported (const Context&				context,
290 									  Extension16BitStorageFeatures	toCheck);
291 
292 // Returns true if the given variable pointers extension features in `toCheck` are all supported.
293 bool isVariablePointersFeaturesSupported (const Context&					context,
294 										  ExtensionVariablePointersFeatures	toCheck);
295 
296 // Returns true if the given 16bit float/8bit int extension features in `toCheck` are all supported.
297 bool isFloat16Int8FeaturesSupported (const Context&					context,
298 									 ExtensionFloat16Int8Features	toCheck);
299 
300 // Returns true if the given float controls features in `toCheck` are all supported.
301 bool isFloatControlsFeaturesSupported (const Context&							context,
302 									   const ExtensionFloatControlsFeatures&	toCheck);
303 
304 deUint32 getMinRequiredVulkanVersion (const vk::SpirvVersion version);
305 
306 std::string	getVulkanName (const deUint32 version);
307 
308 // Performs a bitwise copy of source to the destination type Dest.
309 template <typename Dest, typename Src>
bitwiseCast(Src source)310 Dest bitwiseCast (Src source)
311 {
312   Dest dest;
313   DE_STATIC_ASSERT(sizeof(source) == sizeof(dest));
314   deMemcpy(&dest, &source, sizeof(dest));
315   return dest;
316 }
317 
318 // Generate and return 64-bit integers.
319 //
320 // Expected count to be at least 16.
321 std::vector<deInt64> getInt64s (de::Random& rnd, const deUint32 count);
322 
323 // Generate and return 32-bit integers.
324 //
325 // Expected count to be at least 16.
326 std::vector<deInt32> getInt32s (de::Random& rnd, const deUint32 count);
327 
328 // Generate and return 16-bit integers.
329 //
330 // Expected count to be at least 8.
331 std::vector<deInt16> getInt16s (de::Random& rnd, const deUint32 count);
332 
333 // Generate and return 8-bit integers.
334 //
335 // Expected count to be at least 8.
336 std::vector<deInt8> getInt8s (de::Random& rnd, const deUint32 count);
337 
338 // Generate and return 64-bit floats
339 //
340 // The first 24 number pairs are manually picked, while the rest are randomly generated.
341 // Expected count to be at least 24 (numPicks).
342 std::vector<double> getFloat64s (de::Random& rnd, deUint32 count);
343 
344 // Generate and return 32-bit floats
345 //
346 // The first 24 number pairs are manually picked, while the rest are randomly generated.
347 // Expected count to be at least 24 (numPicks).
348 std::vector<float> getFloat32s (de::Random& rnd, deUint32 count);
349 
350 // Generate and return 16-bit floats and their corresponding 32-bit values.
351 //
352 // The first 14 number pairs are manually picked, while the rest are randomly generated.
353 // Expected count to be at least 14 (numPicks).
354 std::vector<deFloat16> getFloat16s (de::Random& rnd, deUint32 count);
355 
356 } // SpirVAssembly
357 } // vkt
358 
359 #endif // _VKTSPVASMUTILS_HPP
360