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1 /*-------------------------------------------------------------------------
2  * drawElements Quality Program OpenGL (ES) Module
3  * -----------------------------------------------
4  *
5  * Copyright 2014 The Android Open Source Project
6  *
7  * Licensed under the Apache License, Version 2.0 (the "License");
8  * you may not use this file except in compliance with the License.
9  * You may obtain a copy of the License at
10  *
11  *      http://www.apache.org/licenses/LICENSE-2.0
12  *
13  * Unless required by applicable law or agreed to in writing, software
14  * distributed under the License is distributed on an "AS IS" BASIS,
15  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
16  * See the License for the specific language governing permissions and
17  * limitations under the License.
18  *
19  *//*!
20  * \file
21  * \brief Draw tests
22  *//*--------------------------------------------------------------------*/
23 
24 #include "glsDrawTest.hpp"
25 
26 #include "deRandom.h"
27 #include "deRandom.hpp"
28 #include "deMath.h"
29 #include "deStringUtil.hpp"
30 #include "deFloat16.h"
31 #include "deUniquePtr.hpp"
32 #include "deArrayUtil.hpp"
33 
34 #include "tcuTestLog.hpp"
35 #include "tcuPixelFormat.hpp"
36 #include "tcuRGBA.hpp"
37 #include "tcuSurface.hpp"
38 #include "tcuVector.hpp"
39 #include "tcuTestLog.hpp"
40 #include "tcuRenderTarget.hpp"
41 #include "tcuStringTemplate.hpp"
42 #include "tcuImageCompare.hpp"
43 #include "tcuFloat.hpp"
44 #include "tcuTextureUtil.hpp"
45 
46 #include "gluPixelTransfer.hpp"
47 #include "gluCallLogWrapper.hpp"
48 
49 #include "sglrContext.hpp"
50 #include "sglrReferenceContext.hpp"
51 #include "sglrGLContext.hpp"
52 
53 #include "rrGenericVector.hpp"
54 
55 #include <cstring>
56 #include <cmath>
57 #include <vector>
58 #include <sstream>
59 #include <limits>
60 
61 #include "glwDefs.hpp"
62 #include "glwEnums.hpp"
63 
64 namespace deqp
65 {
66 namespace gls
67 {
68 namespace
69 {
70 
71 using tcu::TestLog;
72 using namespace glw; // GL types
73 
74 const int MAX_RENDER_TARGET_SIZE = 512;
75 
76 // Utils
77 
targetToGL(DrawTestSpec::Target target)78 static GLenum targetToGL (DrawTestSpec::Target target)
79 {
80 	static const GLenum targets[] =
81 	{
82 		GL_ELEMENT_ARRAY_BUFFER,	// TARGET_ELEMENT_ARRAY = 0,
83 		GL_ARRAY_BUFFER				// TARGET_ARRAY,
84 	};
85 
86 	return de::getSizedArrayElement<DrawTestSpec::TARGET_LAST>(targets, (int)target);
87 }
88 
usageToGL(DrawTestSpec::Usage usage)89 static GLenum usageToGL (DrawTestSpec::Usage usage)
90 {
91 	static const GLenum usages[] =
92 	{
93 		GL_DYNAMIC_DRAW,	// USAGE_DYNAMIC_DRAW = 0,
94 		GL_STATIC_DRAW,		// USAGE_STATIC_DRAW,
95 		GL_STREAM_DRAW,		// USAGE_STREAM_DRAW,
96 
97 		GL_STREAM_READ,		// USAGE_STREAM_READ,
98 		GL_STREAM_COPY,		// USAGE_STREAM_COPY,
99 
100 		GL_STATIC_READ,		// USAGE_STATIC_READ,
101 		GL_STATIC_COPY,		// USAGE_STATIC_COPY,
102 
103 		GL_DYNAMIC_READ,	// USAGE_DYNAMIC_READ,
104 		GL_DYNAMIC_COPY		// USAGE_DYNAMIC_COPY,
105 	};
106 
107 	return de::getSizedArrayElement<DrawTestSpec::USAGE_LAST>(usages, (int)usage);
108 }
109 
inputTypeToGL(DrawTestSpec::InputType type)110 static GLenum inputTypeToGL (DrawTestSpec::InputType type)
111 {
112 	static const GLenum types[] =
113 	{
114 		GL_FLOAT,				// INPUTTYPE_FLOAT = 0,
115 		GL_FIXED,				// INPUTTYPE_FIXED,
116 		GL_DOUBLE,				// INPUTTYPE_DOUBLE
117 		GL_BYTE,				// INPUTTYPE_BYTE,
118 		GL_SHORT,				// INPUTTYPE_SHORT,
119 		GL_UNSIGNED_BYTE,		// INPUTTYPE_UNSIGNED_BYTE,
120 		GL_UNSIGNED_SHORT,		// INPUTTYPE_UNSIGNED_SHORT,
121 
122 		GL_INT,					// INPUTTYPE_INT,
123 		GL_UNSIGNED_INT,		// INPUTTYPE_UNSIGNED_INT,
124 		GL_HALF_FLOAT,			// INPUTTYPE_HALF,
125 		GL_UNSIGNED_INT_2_10_10_10_REV, // INPUTTYPE_UNSIGNED_INT_2_10_10_10,
126 		GL_INT_2_10_10_10_REV			// INPUTTYPE_INT_2_10_10_10,
127 	};
128 
129 	return de::getSizedArrayElement<DrawTestSpec::INPUTTYPE_LAST>(types, (int)type);
130 }
131 
outputTypeToGLType(DrawTestSpec::OutputType type)132 static std::string outputTypeToGLType (DrawTestSpec::OutputType type)
133 {
134 	static const char* types[] =
135 	{
136 		"float",		// OUTPUTTYPE_FLOAT = 0,
137 		"vec2",			// OUTPUTTYPE_VEC2,
138 		"vec3",			// OUTPUTTYPE_VEC3,
139 		"vec4",			// OUTPUTTYPE_VEC4,
140 
141 		"int",			// OUTPUTTYPE_INT,
142 		"uint",			// OUTPUTTYPE_UINT,
143 
144 		"ivec2",		// OUTPUTTYPE_IVEC2,
145 		"ivec3",		// OUTPUTTYPE_IVEC3,
146 		"ivec4",		// OUTPUTTYPE_IVEC4,
147 
148 		"uvec2",		// OUTPUTTYPE_UVEC2,
149 		"uvec3",		// OUTPUTTYPE_UVEC3,
150 		"uvec4",		// OUTPUTTYPE_UVEC4,
151 	};
152 
153 	return de::getSizedArrayElement<DrawTestSpec::OUTPUTTYPE_LAST>(types, (int)type);
154 }
155 
primitiveToGL(DrawTestSpec::Primitive primitive)156 static GLenum primitiveToGL (DrawTestSpec::Primitive primitive)
157 {
158 	static const GLenum primitives[] =
159 	{
160 		GL_POINTS,						// PRIMITIVE_POINTS = 0,
161 		GL_TRIANGLES,					// PRIMITIVE_TRIANGLES,
162 		GL_TRIANGLE_FAN,				// PRIMITIVE_TRIANGLE_FAN,
163 		GL_TRIANGLE_STRIP,				// PRIMITIVE_TRIANGLE_STRIP,
164 		GL_LINES,						// PRIMITIVE_LINES
165 		GL_LINE_STRIP,					// PRIMITIVE_LINE_STRIP
166 		GL_LINE_LOOP,					// PRIMITIVE_LINE_LOOP
167 		GL_LINES_ADJACENCY,				// PRIMITIVE_LINES_ADJACENCY
168 		GL_LINE_STRIP_ADJACENCY,		// PRIMITIVE_LINE_STRIP_ADJACENCY
169 		GL_TRIANGLES_ADJACENCY,			// PRIMITIVE_TRIANGLES_ADJACENCY
170 		GL_TRIANGLE_STRIP_ADJACENCY,	// PRIMITIVE_TRIANGLE_STRIP_ADJACENCY
171 	};
172 
173 	return de::getSizedArrayElement<DrawTestSpec::PRIMITIVE_LAST>(primitives, (int)primitive);
174 }
175 
indexTypeToGL(DrawTestSpec::IndexType indexType)176 static deUint32 indexTypeToGL (DrawTestSpec::IndexType indexType)
177 {
178 	static const GLenum indexTypes[] =
179 	{
180 		GL_UNSIGNED_BYTE,	// INDEXTYPE_BYTE = 0,
181 		GL_UNSIGNED_SHORT,	// INDEXTYPE_SHORT,
182 		GL_UNSIGNED_INT,	// INDEXTYPE_INT,
183 	};
184 
185 	return de::getSizedArrayElement<DrawTestSpec::INDEXTYPE_LAST>(indexTypes, (int)indexType);
186 }
187 
inputTypeIsFloatType(DrawTestSpec::InputType type)188 static bool inputTypeIsFloatType (DrawTestSpec::InputType type)
189 {
190 	if (type == DrawTestSpec::INPUTTYPE_FLOAT)
191 		return true;
192 	if (type == DrawTestSpec::INPUTTYPE_FIXED)
193 		return true;
194 	if (type == DrawTestSpec::INPUTTYPE_HALF)
195 		return true;
196 	if (type == DrawTestSpec::INPUTTYPE_DOUBLE)
197 		return true;
198 	return false;
199 }
200 
outputTypeIsFloatType(DrawTestSpec::OutputType type)201 static bool outputTypeIsFloatType (DrawTestSpec::OutputType type)
202 {
203 	if (type == DrawTestSpec::OUTPUTTYPE_FLOAT
204 		|| type == DrawTestSpec::OUTPUTTYPE_VEC2
205 		|| type == DrawTestSpec::OUTPUTTYPE_VEC3
206 		|| type == DrawTestSpec::OUTPUTTYPE_VEC4)
207 		return true;
208 
209 	return false;
210 }
211 
outputTypeIsIntType(DrawTestSpec::OutputType type)212 static bool outputTypeIsIntType (DrawTestSpec::OutputType type)
213 {
214 	if (type == DrawTestSpec::OUTPUTTYPE_INT
215 		|| type == DrawTestSpec::OUTPUTTYPE_IVEC2
216 		|| type == DrawTestSpec::OUTPUTTYPE_IVEC3
217 		|| type == DrawTestSpec::OUTPUTTYPE_IVEC4)
218 		return true;
219 
220 	return false;
221 }
222 
outputTypeIsUintType(DrawTestSpec::OutputType type)223 static bool outputTypeIsUintType (DrawTestSpec::OutputType type)
224 {
225 	if (type == DrawTestSpec::OUTPUTTYPE_UINT
226 		|| type == DrawTestSpec::OUTPUTTYPE_UVEC2
227 		|| type == DrawTestSpec::OUTPUTTYPE_UVEC3
228 		|| type == DrawTestSpec::OUTPUTTYPE_UVEC4)
229 		return true;
230 
231 	return false;
232 }
233 
getElementCount(DrawTestSpec::Primitive primitive,size_t primitiveCount)234 static size_t getElementCount (DrawTestSpec::Primitive primitive, size_t primitiveCount)
235 {
236 	switch (primitive)
237 	{
238 		case DrawTestSpec::PRIMITIVE_POINTS:						return primitiveCount;
239 		case DrawTestSpec::PRIMITIVE_TRIANGLES:						return primitiveCount * 3;
240 		case DrawTestSpec::PRIMITIVE_TRIANGLE_FAN:					return primitiveCount + 2;
241 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP:				return primitiveCount + 2;
242 		case DrawTestSpec::PRIMITIVE_LINES:							return primitiveCount * 2;
243 		case DrawTestSpec::PRIMITIVE_LINE_STRIP:					return primitiveCount + 1;
244 		case DrawTestSpec::PRIMITIVE_LINE_LOOP:						return (primitiveCount==1) ? (2) : (primitiveCount);
245 		case DrawTestSpec::PRIMITIVE_LINES_ADJACENCY:				return primitiveCount * 4;
246 		case DrawTestSpec::PRIMITIVE_LINE_STRIP_ADJACENCY:			return primitiveCount + 3;
247 		case DrawTestSpec::PRIMITIVE_TRIANGLES_ADJACENCY:			return primitiveCount * 6;
248 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP_ADJACENCY:		return primitiveCount * 2 + 4;
249 		default:
250 			DE_ASSERT(false);
251 			return 0;
252 	}
253 }
254 
255 struct MethodInfo
256 {
257 	bool indexed;
258 	bool instanced;
259 	bool ranged;
260 	bool first;
261 	bool baseVertex;
262 	bool indirect;
263 };
264 
getMethodInfo(gls::DrawTestSpec::DrawMethod method)265 static MethodInfo getMethodInfo (gls::DrawTestSpec::DrawMethod method)
266 {
267 	static const MethodInfo infos[] =
268 	{
269 		//	indexed		instanced	ranged		first		baseVertex	indirect
270 		{	false,		false,		false,		true,		false,		false	}, //!< DRAWMETHOD_DRAWARRAYS,
271 		{	false,		true,		false,		true,		false,		false	}, //!< DRAWMETHOD_DRAWARRAYS_INSTANCED,
272 		{	false,		true,		false,		true,		false,		true	}, //!< DRAWMETHOD_DRAWARRAYS_INDIRECT,
273 		{	true,		false,		false,		false,		false,		false	}, //!< DRAWMETHOD_DRAWELEMENTS,
274 		{	true,		false,		true,		false,		false,		false	}, //!< DRAWMETHOD_DRAWELEMENTS_RANGED,
275 		{	true,		true,		false,		false,		false,		false	}, //!< DRAWMETHOD_DRAWELEMENTS_INSTANCED,
276 		{	true,		true,		false,		false,		true,		true	}, //!< DRAWMETHOD_DRAWELEMENTS_INDIRECT,
277 		{	true,		false,		false,		false,		true,		false	}, //!< DRAWMETHOD_DRAWELEMENTS_BASEVERTEX,
278 		{	true,		true,		false,		false,		true,		false	}, //!< DRAWMETHOD_DRAWELEMENTS_INSTANCED_BASEVERTEX,
279 		{	true,		false,		true,		false,		true,		false	}, //!< DRAWMETHOD_DRAWELEMENTS_RANGED_BASEVERTEX,
280 	};
281 
282 	return de::getSizedArrayElement<DrawTestSpec::DRAWMETHOD_LAST>(infos, (int)method);
283 }
284 
285 template<class T>
alignmentSafeAssignment(char * dst,T val)286 inline static void alignmentSafeAssignment (char* dst, T val)
287 {
288 	std::memcpy(dst, &val, sizeof(T));
289 }
290 
checkSpecsShaderCompatible(const DrawTestSpec & a,const DrawTestSpec & b)291 static bool checkSpecsShaderCompatible (const DrawTestSpec& a, const DrawTestSpec& b)
292 {
293 	// Only the attributes matter
294 	if (a.attribs.size() != b.attribs.size())
295 		return false;
296 
297 	for (size_t ndx = 0; ndx < a.attribs.size(); ++ndx)
298 	{
299 		// Only the output type (== shader input type) matters and the usage in the shader.
300 
301 		if (a.attribs[ndx].additionalPositionAttribute != b.attribs[ndx].additionalPositionAttribute)
302 			return false;
303 
304 		// component counts need not to match
305 		if (outputTypeIsFloatType(a.attribs[ndx].outputType) && outputTypeIsFloatType(b.attribs[ndx].outputType))
306 			continue;
307 		if (outputTypeIsIntType(a.attribs[ndx].outputType) && outputTypeIsIntType(b.attribs[ndx].outputType))
308 			continue;
309 		if (outputTypeIsUintType(a.attribs[ndx].outputType) && outputTypeIsUintType(b.attribs[ndx].outputType))
310 			continue;
311 
312 		return false;
313 	}
314 
315 	return true;
316 }
317 
318 // generate random vectors in a way that does not depend on argument evaluation order
319 
generateRandomVec4(de::Random & random)320 tcu::Vec4 generateRandomVec4 (de::Random& random)
321 {
322 	tcu::Vec4 retVal;
323 
324 	for (int i = 0; i < 4; ++i)
325 		retVal[i] = random.getFloat();
326 
327 	return retVal;
328 }
329 
generateRandomIVec4(de::Random & random)330 tcu::IVec4 generateRandomIVec4 (de::Random& random)
331 {
332 	tcu::IVec4 retVal;
333 
334 	for (int i = 0; i < 4; ++i)
335 		retVal[i] = random.getUint32();
336 
337 	return retVal;
338 }
339 
generateRandomUVec4(de::Random & random)340 tcu::UVec4 generateRandomUVec4 (de::Random& random)
341 {
342 	tcu::UVec4 retVal;
343 
344 	for (int i = 0; i < 4; ++i)
345 		retVal[i] = random.getUint32();
346 
347 	return retVal;
348 }
349 
350 // IterationLogSectionEmitter
351 
352 class IterationLogSectionEmitter
353 {
354 public:
355 								IterationLogSectionEmitter		(tcu::TestLog& log, size_t testIteration, size_t testIterations, const std::string& description, bool enabled);
356 								~IterationLogSectionEmitter		(void);
357 private:
358 								IterationLogSectionEmitter		(const IterationLogSectionEmitter&); // delete
359 	IterationLogSectionEmitter&	operator=						(const IterationLogSectionEmitter&); // delete
360 
361 	tcu::TestLog&				m_log;
362 	bool						m_enabled;
363 };
364 
IterationLogSectionEmitter(tcu::TestLog & log,size_t testIteration,size_t testIterations,const std::string & description,bool enabled)365 IterationLogSectionEmitter::IterationLogSectionEmitter (tcu::TestLog& log, size_t testIteration, size_t testIterations, const std::string& description, bool enabled)
366 	: m_log		(log)
367 	, m_enabled	(enabled)
368 {
369 	if (m_enabled)
370 	{
371 		std::ostringstream buf;
372 		buf << "Iteration " << (testIteration+1) << "/" << testIterations;
373 
374 		if (!description.empty())
375 			buf << " - " << description;
376 
377 		m_log << tcu::TestLog::Section(buf.str(), buf.str());
378 	}
379 }
380 
~IterationLogSectionEmitter(void)381 IterationLogSectionEmitter::~IterationLogSectionEmitter (void)
382 {
383 	if (m_enabled)
384 		m_log << tcu::TestLog::EndSection;
385 }
386 
387 // GLValue
388 
389 class GLValue
390 {
391 public:
392 
393 	template<class Type>
394 	class WrappedType
395 	{
396 	public:
create(Type value)397 		static WrappedType<Type>	create			(Type value)							{ WrappedType<Type> v; v.m_value = value; return v; }
getValue(void) const398 		inline Type					getValue		(void) const							{ return m_value; }
399 
operator +(const WrappedType<Type> & other) const400 		inline WrappedType<Type>	operator+		(const WrappedType<Type>& other) const	{ return WrappedType<Type>::create((Type)(m_value + other.getValue())); }
operator *(const WrappedType<Type> & other) const401 		inline WrappedType<Type>	operator*		(const WrappedType<Type>& other) const	{ return WrappedType<Type>::create((Type)(m_value * other.getValue())); }
operator /(const WrappedType<Type> & other) const402 		inline WrappedType<Type>	operator/		(const WrappedType<Type>& other) const	{ return WrappedType<Type>::create((Type)(m_value / other.getValue())); }
operator -(const WrappedType<Type> & other) const403 		inline WrappedType<Type>	operator-		(const WrappedType<Type>& other) const	{ return WrappedType<Type>::create((Type)(m_value - other.getValue())); }
404 
operator +=(const WrappedType<Type> & other)405 		inline WrappedType<Type>&	operator+=		(const WrappedType<Type>& other)		{ m_value += other.getValue(); return *this; }
operator *=(const WrappedType<Type> & other)406 		inline WrappedType<Type>&	operator*=		(const WrappedType<Type>& other)		{ m_value *= other.getValue(); return *this; }
operator /=(const WrappedType<Type> & other)407 		inline WrappedType<Type>&	operator/=		(const WrappedType<Type>& other)		{ m_value /= other.getValue(); return *this; }
operator -=(const WrappedType<Type> & other)408 		inline WrappedType<Type>&	operator-=		(const WrappedType<Type>& other)		{ m_value -= other.getValue(); return *this; }
409 
operator ==(const WrappedType<Type> & other) const410 		inline bool					operator==		(const WrappedType<Type>& other) const	{ return m_value == other.m_value; }
operator !=(const WrappedType<Type> & other) const411 		inline bool					operator!=		(const WrappedType<Type>& other) const	{ return m_value != other.m_value; }
operator <(const WrappedType<Type> & other) const412 		inline bool					operator<		(const WrappedType<Type>& other) const	{ return m_value < other.m_value; }
operator >(const WrappedType<Type> & other) const413 		inline bool					operator>		(const WrappedType<Type>& other) const	{ return m_value > other.m_value; }
operator <=(const WrappedType<Type> & other) const414 		inline bool					operator<=		(const WrappedType<Type>& other) const	{ return m_value <= other.m_value; }
operator >=(const WrappedType<Type> & other) const415 		inline bool					operator>=		(const WrappedType<Type>& other) const	{ return m_value >= other.m_value; }
416 
operator Type(void) const417 		inline						operator Type	(void) const							{ return m_value; }
418 		template<class T>
to(void) const419 		inline T					to				(void) const							{ return (T)m_value; }
420 	private:
421 		Type	m_value;
422 	};
423 
424 	typedef WrappedType<deInt16>	Short;
425 	typedef WrappedType<deUint16>	Ushort;
426 
427 	typedef WrappedType<deInt8>		Byte;
428 	typedef WrappedType<deUint8>	Ubyte;
429 
430 	typedef WrappedType<float>		Float;
431 	typedef WrappedType<double>		Double;
432 
433 	typedef WrappedType<deInt32>	Int;
434 	typedef WrappedType<deUint32>	Uint;
435 
436 	class Half
437 	{
438 	public:
create(float value)439 		static Half			create			(float value)				{ Half h; h.m_value = floatToHalf(value); return h; }
getValue(void) const440 		inline deFloat16	getValue		(void) const				{ return m_value; }
441 
operator +(const Half & other) const442 		inline Half			operator+		(const Half& other) const	{ return create(halfToFloat(m_value) + halfToFloat(other.getValue())); }
operator *(const Half & other) const443 		inline Half			operator*		(const Half& other) const	{ return create(halfToFloat(m_value) * halfToFloat(other.getValue())); }
operator /(const Half & other) const444 		inline Half			operator/		(const Half& other) const	{ return create(halfToFloat(m_value) / halfToFloat(other.getValue())); }
operator -(const Half & other) const445 		inline Half			operator-		(const Half& other) const	{ return create(halfToFloat(m_value) - halfToFloat(other.getValue())); }
446 
operator +=(const Half & other)447 		inline Half&		operator+=		(const Half& other)			{ m_value = floatToHalf(halfToFloat(other.getValue()) + halfToFloat(m_value)); return *this; }
operator *=(const Half & other)448 		inline Half&		operator*=		(const Half& other)			{ m_value = floatToHalf(halfToFloat(other.getValue()) * halfToFloat(m_value)); return *this; }
operator /=(const Half & other)449 		inline Half&		operator/=		(const Half& other)			{ m_value = floatToHalf(halfToFloat(other.getValue()) / halfToFloat(m_value)); return *this; }
operator -=(const Half & other)450 		inline Half&		operator-=		(const Half& other)			{ m_value = floatToHalf(halfToFloat(other.getValue()) - halfToFloat(m_value)); return *this; }
451 
operator ==(const Half & other) const452 		inline bool			operator==		(const Half& other) const	{ return m_value == other.m_value; }
operator !=(const Half & other) const453 		inline bool			operator!=		(const Half& other) const	{ return m_value != other.m_value; }
operator <(const Half & other) const454 		inline bool			operator<		(const Half& other) const	{ return halfToFloat(m_value) < halfToFloat(other.m_value); }
operator >(const Half & other) const455 		inline bool			operator>		(const Half& other) const	{ return halfToFloat(m_value) > halfToFloat(other.m_value); }
operator <=(const Half & other) const456 		inline bool			operator<=		(const Half& other) const	{ return halfToFloat(m_value) <= halfToFloat(other.m_value); }
operator >=(const Half & other) const457 		inline bool			operator>=		(const Half& other) const	{ return halfToFloat(m_value) >= halfToFloat(other.m_value); }
458 
459 		template<class T>
to(void) const460 		inline T			to				(void) const				{ return (T)halfToFloat(m_value); }
461 
462 		inline static deFloat16	floatToHalf		(float f);
463 		inline static float		halfToFloat		(deFloat16 h);
464 	private:
465 		deFloat16 m_value;
466 	};
467 
468 	class Fixed
469 	{
470 	public:
create(deInt32 value)471 		static Fixed		create			(deInt32 value)				{ Fixed v; v.m_value = value; return v; }
getValue(void) const472 		inline deInt32		getValue		(void) const				{ return m_value; }
473 
operator +(const Fixed & other) const474 		inline Fixed		operator+		(const Fixed& other) const	{ return create(m_value + other.getValue()); }
operator *(const Fixed & other) const475 		inline Fixed		operator*		(const Fixed& other) const	{ return create(m_value * other.getValue()); }
operator /(const Fixed & other) const476 		inline Fixed		operator/		(const Fixed& other) const	{ return create(m_value / other.getValue()); }
operator -(const Fixed & other) const477 		inline Fixed		operator-		(const Fixed& other) const	{ return create(m_value - other.getValue()); }
478 
operator +=(const Fixed & other)479 		inline Fixed&		operator+=		(const Fixed& other)		{ m_value += other.getValue(); return *this; }
operator *=(const Fixed & other)480 		inline Fixed&		operator*=		(const Fixed& other)		{ m_value *= other.getValue(); return *this; }
operator /=(const Fixed & other)481 		inline Fixed&		operator/=		(const Fixed& other)		{ m_value /= other.getValue(); return *this; }
operator -=(const Fixed & other)482 		inline Fixed&		operator-=		(const Fixed& other)		{ m_value -= other.getValue(); return *this; }
483 
operator ==(const Fixed & other) const484 		inline bool			operator==		(const Fixed& other) const	{ return m_value == other.m_value; }
operator !=(const Fixed & other) const485 		inline bool			operator!=		(const Fixed& other) const	{ return m_value != other.m_value; }
operator <(const Fixed & other) const486 		inline bool			operator<		(const Fixed& other) const	{ return m_value < other.m_value; }
operator >(const Fixed & other) const487 		inline bool			operator>		(const Fixed& other) const	{ return m_value > other.m_value; }
operator <=(const Fixed & other) const488 		inline bool			operator<=		(const Fixed& other) const	{ return m_value <= other.m_value; }
operator >=(const Fixed & other) const489 		inline bool			operator>=		(const Fixed& other) const	{ return m_value >= other.m_value; }
490 
operator deInt32(void) const491 		inline				operator deInt32 (void) const				{ return m_value; }
492 		template<class T>
to(void) const493 		inline T			to				(void) const				{ return (T)m_value; }
494 	private:
495 		deInt32				m_value;
496 	};
497 
498 	// \todo [mika] This is pretty messy
GLValue(void)499 						GLValue			(void)			: type(DrawTestSpec::INPUTTYPE_LAST) {}
GLValue(Float value)500 	explicit			GLValue			(Float value)	: type(DrawTestSpec::INPUTTYPE_FLOAT),				fl(value)	{}
GLValue(Fixed value)501 	explicit			GLValue			(Fixed value)	: type(DrawTestSpec::INPUTTYPE_FIXED),				fi(value)	{}
GLValue(Byte value)502 	explicit			GLValue			(Byte value)	: type(DrawTestSpec::INPUTTYPE_BYTE),				b(value)	{}
GLValue(Ubyte value)503 	explicit			GLValue			(Ubyte value)	: type(DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE),		ub(value)	{}
GLValue(Short value)504 	explicit			GLValue			(Short value)	: type(DrawTestSpec::INPUTTYPE_SHORT),				s(value)	{}
GLValue(Ushort value)505 	explicit			GLValue			(Ushort value)	: type(DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT),		us(value)	{}
GLValue(Int value)506 	explicit			GLValue			(Int value)		: type(DrawTestSpec::INPUTTYPE_INT),				i(value)	{}
GLValue(Uint value)507 	explicit			GLValue			(Uint value)	: type(DrawTestSpec::INPUTTYPE_UNSIGNED_INT),		ui(value)	{}
GLValue(Half value)508 	explicit			GLValue			(Half value)	: type(DrawTestSpec::INPUTTYPE_HALF),				h(value)	{}
GLValue(Double value)509 	explicit			GLValue			(Double value)	: type(DrawTestSpec::INPUTTYPE_DOUBLE),				d(value)	{}
510 
511 	float				toFloat			(void) const;
512 
513 	static GLValue		getMaxValue		(DrawTestSpec::InputType type);
514 	static GLValue		getMinValue		(DrawTestSpec::InputType type);
515 
516 	DrawTestSpec::InputType	type;
517 
518 	union
519 	{
520 		Float		fl;
521 		Fixed		fi;
522 		Double		d;
523 		Byte		b;
524 		Ubyte		ub;
525 		Short		s;
526 		Ushort		us;
527 		Int			i;
528 		Uint		ui;
529 		Half		h;
530 	};
531 };
532 
floatToHalf(float f)533 inline deFloat16 GLValue::Half::floatToHalf (float f)
534 {
535 	// No denorm support.
536 	tcu::Float<deUint16, 5, 10, 15, tcu::FLOAT_HAS_SIGN> v(f);
537 	DE_ASSERT(!v.isNaN() && !v.isInf());
538 	return v.bits();
539 }
540 
halfToFloat(deFloat16 h)541 inline float GLValue::Half::halfToFloat (deFloat16 h)
542 {
543 	return tcu::Float16((deUint16)h).asFloat();
544 }
545 
toFloat(void) const546 float GLValue::toFloat (void) const
547 {
548 	switch (type)
549 	{
550 		case DrawTestSpec::INPUTTYPE_FLOAT:
551 			return fl.getValue();
552 			break;
553 
554 		case DrawTestSpec::INPUTTYPE_BYTE:
555 			return b.getValue();
556 			break;
557 
558 		case DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE:
559 			return ub.getValue();
560 			break;
561 
562 		case DrawTestSpec::INPUTTYPE_SHORT:
563 			return s.getValue();
564 			break;
565 
566 		case DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT:
567 			return us.getValue();
568 			break;
569 
570 		case DrawTestSpec::INPUTTYPE_FIXED:
571 		{
572 			int maxValue = 65536;
573 			return (float)(double(2 * fi.getValue() + 1) / (maxValue - 1));
574 
575 			break;
576 		}
577 
578 		case DrawTestSpec::INPUTTYPE_UNSIGNED_INT:
579 			return (float)ui.getValue();
580 			break;
581 
582 		case DrawTestSpec::INPUTTYPE_INT:
583 			return (float)i.getValue();
584 			break;
585 
586 		case DrawTestSpec::INPUTTYPE_HALF:
587 			return h.to<float>();
588 			break;
589 
590 		case DrawTestSpec::INPUTTYPE_DOUBLE:
591 			return d.to<float>();
592 			break;
593 
594 		default:
595 			DE_ASSERT(false);
596 			return 0.0f;
597 			break;
598 	};
599 }
600 
getMaxValue(DrawTestSpec::InputType type)601 GLValue GLValue::getMaxValue (DrawTestSpec::InputType type)
602 {
603 	GLValue rangesHi[(int)DrawTestSpec::INPUTTYPE_LAST];
604 
605 	rangesHi[(int)DrawTestSpec::INPUTTYPE_FLOAT]			= GLValue(Float::create(127.0f));
606 	rangesHi[(int)DrawTestSpec::INPUTTYPE_DOUBLE]			= GLValue(Double::create(127.0f));
607 	rangesHi[(int)DrawTestSpec::INPUTTYPE_BYTE]				= GLValue(Byte::create(127));
608 	rangesHi[(int)DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE]	= GLValue(Ubyte::create(255));
609 	rangesHi[(int)DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT]	= GLValue(Ushort::create(65530));
610 	rangesHi[(int)DrawTestSpec::INPUTTYPE_SHORT]			= GLValue(Short::create(32760));
611 	rangesHi[(int)DrawTestSpec::INPUTTYPE_FIXED]			= GLValue(Fixed::create(32760));
612 	rangesHi[(int)DrawTestSpec::INPUTTYPE_INT]				= GLValue(Int::create(2147483647));
613 	rangesHi[(int)DrawTestSpec::INPUTTYPE_UNSIGNED_INT]		= GLValue(Uint::create(4294967295u));
614 	rangesHi[(int)DrawTestSpec::INPUTTYPE_HALF]				= GLValue(Half::create(256.0f));
615 
616 	return rangesHi[(int)type];
617 }
618 
getMinValue(DrawTestSpec::InputType type)619 GLValue GLValue::getMinValue (DrawTestSpec::InputType type)
620 {
621 	GLValue rangesLo[(int)DrawTestSpec::INPUTTYPE_LAST];
622 
623 	rangesLo[(int)DrawTestSpec::INPUTTYPE_FLOAT]			= GLValue(Float::create(-127.0f));
624 	rangesLo[(int)DrawTestSpec::INPUTTYPE_DOUBLE]			= GLValue(Double::create(-127.0f));
625 	rangesLo[(int)DrawTestSpec::INPUTTYPE_BYTE]				= GLValue(Byte::create(-127));
626 	rangesLo[(int)DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE]	= GLValue(Ubyte::create(0));
627 	rangesLo[(int)DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT]	= GLValue(Ushort::create(0));
628 	rangesLo[(int)DrawTestSpec::INPUTTYPE_SHORT]			= GLValue(Short::create(-32760));
629 	rangesLo[(int)DrawTestSpec::INPUTTYPE_FIXED]			= GLValue(Fixed::create(-32760));
630 	rangesLo[(int)DrawTestSpec::INPUTTYPE_INT]				= GLValue(Int::create(-2147483647));
631 	rangesLo[(int)DrawTestSpec::INPUTTYPE_UNSIGNED_INT]		= GLValue(Uint::create(0));
632 	rangesLo[(int)DrawTestSpec::INPUTTYPE_HALF]				= GLValue(Half::create(-256.0f));
633 
634 	return rangesLo[(int)type];
635 }
636 
637 template<typename T>
638 struct GLValueTypeTraits;
639 
640 template<> struct GLValueTypeTraits<GLValue::Float>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_FLOAT;			};
641 template<> struct GLValueTypeTraits<GLValue::Double> { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_DOUBLE;			};
642 template<> struct GLValueTypeTraits<GLValue::Byte>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_BYTE;			};
643 template<> struct GLValueTypeTraits<GLValue::Ubyte>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE;	};
644 template<> struct GLValueTypeTraits<GLValue::Ushort> { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT;	};
645 template<> struct GLValueTypeTraits<GLValue::Short>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_SHORT;			};
646 template<> struct GLValueTypeTraits<GLValue::Fixed>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_FIXED;			};
647 template<> struct GLValueTypeTraits<GLValue::Int>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_INT;			};
648 template<> struct GLValueTypeTraits<GLValue::Uint>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_UNSIGNED_INT;	};
649 template<> struct GLValueTypeTraits<GLValue::Half>	 { static const DrawTestSpec::InputType Type = DrawTestSpec::INPUTTYPE_HALF;			};
650 
651 template<typename T>
652 inline T extractGLValue (const GLValue& v);
653 
extractGLValue(const GLValue & v)654 template<> GLValue::Float	inline extractGLValue<GLValue::Float>		(const GLValue& v) { return v.fl; };
extractGLValue(const GLValue & v)655 template<> GLValue::Double	inline extractGLValue<GLValue::Double>		(const GLValue& v) { return v.d; };
extractGLValue(const GLValue & v)656 template<> GLValue::Byte	inline extractGLValue<GLValue::Byte>		(const GLValue& v) { return v.b; };
extractGLValue(const GLValue & v)657 template<> GLValue::Ubyte	inline extractGLValue<GLValue::Ubyte>		(const GLValue& v) { return v.ub; };
extractGLValue(const GLValue & v)658 template<> GLValue::Ushort	inline extractGLValue<GLValue::Ushort>		(const GLValue& v) { return v.us; };
extractGLValue(const GLValue & v)659 template<> GLValue::Short	inline extractGLValue<GLValue::Short>		(const GLValue& v) { return v.s; };
extractGLValue(const GLValue & v)660 template<> GLValue::Fixed	inline extractGLValue<GLValue::Fixed>		(const GLValue& v) { return v.fi; };
extractGLValue(const GLValue & v)661 template<> GLValue::Int		inline extractGLValue<GLValue::Int>			(const GLValue& v) { return v.i; };
extractGLValue(const GLValue & v)662 template<> GLValue::Uint	inline extractGLValue<GLValue::Uint>		(const GLValue& v) { return v.ui; };
extractGLValue(const GLValue & v)663 template<> GLValue::Half	inline extractGLValue<GLValue::Half>		(const GLValue& v) { return v.h; };
664 
665 template<class T>
666 inline T getRandom (deRandom& rnd, T min, T max);
667 
668 template<>
getRandom(deRandom & rnd,GLValue::Float min,GLValue::Float max)669 inline GLValue::Float getRandom (deRandom& rnd, GLValue::Float min, GLValue::Float max)
670 {
671 	if (max < min)
672 		return min;
673 
674 	return GLValue::Float::create(min + deRandom_getFloat(&rnd) * (max.to<float>() - min.to<float>()));
675 }
676 
677 template<>
getRandom(deRandom & rnd,GLValue::Double min,GLValue::Double max)678 inline GLValue::Double getRandom (deRandom& rnd, GLValue::Double min, GLValue::Double max)
679 {
680 	if (max < min)
681 		return min;
682 
683 	return GLValue::Double::create(min + deRandom_getFloat(&rnd) * (max.to<float>() - min.to<float>()));
684 }
685 
686 template<>
getRandom(deRandom & rnd,GLValue::Short min,GLValue::Short max)687 inline GLValue::Short getRandom (deRandom& rnd, GLValue::Short min, GLValue::Short max)
688 {
689 	if (max < min)
690 		return min;
691 
692 	return GLValue::Short::create((min == max ? min : (deInt16)(min + (deRandom_getUint32(&rnd) % (max.to<int>() - min.to<int>())))));
693 }
694 
695 template<>
getRandom(deRandom & rnd,GLValue::Ushort min,GLValue::Ushort max)696 inline GLValue::Ushort getRandom (deRandom& rnd, GLValue::Ushort min, GLValue::Ushort max)
697 {
698 	if (max < min)
699 		return min;
700 
701 	return GLValue::Ushort::create((min == max ? min : (deUint16)(min + (deRandom_getUint32(&rnd) % (max.to<int>() - min.to<int>())))));
702 }
703 
704 template<>
getRandom(deRandom & rnd,GLValue::Byte min,GLValue::Byte max)705 inline GLValue::Byte getRandom (deRandom& rnd, GLValue::Byte min, GLValue::Byte max)
706 {
707 	if (max < min)
708 		return min;
709 
710 	return GLValue::Byte::create((min == max ? min : (deInt8)(min + (deRandom_getUint32(&rnd) % (max.to<int>() - min.to<int>())))));
711 }
712 
713 template<>
getRandom(deRandom & rnd,GLValue::Ubyte min,GLValue::Ubyte max)714 inline GLValue::Ubyte getRandom (deRandom& rnd, GLValue::Ubyte min, GLValue::Ubyte max)
715 {
716 	if (max < min)
717 		return min;
718 
719 	return GLValue::Ubyte::create((min == max ? min : (deUint8)(min + (deRandom_getUint32(&rnd) % (max.to<int>() - min.to<int>())))));
720 }
721 
722 template<>
getRandom(deRandom & rnd,GLValue::Fixed min,GLValue::Fixed max)723 inline GLValue::Fixed getRandom (deRandom& rnd, GLValue::Fixed min, GLValue::Fixed max)
724 {
725 	if (max < min)
726 		return min;
727 
728 	return GLValue::Fixed::create((min == max ? min : min + (deRandom_getUint32(&rnd) % (max.to<deUint32>() - min.to<deUint32>()))));
729 }
730 
731 template<>
getRandom(deRandom & rnd,GLValue::Half min,GLValue::Half max)732 inline GLValue::Half getRandom (deRandom& rnd, GLValue::Half min, GLValue::Half max)
733 {
734 	if (max < min)
735 		return min;
736 
737 	float fMax = max.to<float>();
738 	float fMin = min.to<float>();
739 	GLValue::Half h = GLValue::Half::create(fMin + deRandom_getFloat(&rnd) * (fMax - fMin));
740 	return h;
741 }
742 
743 template<>
getRandom(deRandom & rnd,GLValue::Int min,GLValue::Int max)744 inline GLValue::Int getRandom (deRandom& rnd, GLValue::Int min, GLValue::Int max)
745 {
746 	if (max < min)
747 		return min;
748 
749 	return GLValue::Int::create((min == max ? min : min + (deRandom_getUint32(&rnd) % (max.to<deUint32>() - min.to<deUint32>()))));
750 }
751 
752 template<>
getRandom(deRandom & rnd,GLValue::Uint min,GLValue::Uint max)753 inline GLValue::Uint getRandom (deRandom& rnd, GLValue::Uint min, GLValue::Uint max)
754 {
755 	if (max < min)
756 		return min;
757 
758 	return GLValue::Uint::create((min == max ? min : min + (deRandom_getUint32(&rnd) % (max.to<deUint32>() - min.to<deUint32>()))));
759 }
760 
761 // Minimum difference required between coordinates
762 template<class T>
763 inline T minValue (void);
764 
765 template<>
minValue(void)766 inline GLValue::Float minValue (void)
767 {
768 	return GLValue::Float::create(4 * 1.0f);
769 }
770 
771 template<>
minValue(void)772 inline GLValue::Double minValue (void)
773 {
774 	return GLValue::Double::create(4 * 1.0f);
775 }
776 
777 template<>
minValue(void)778 inline GLValue::Short minValue (void)
779 {
780 	return GLValue::Short::create(4 * 256);
781 }
782 
783 template<>
minValue(void)784 inline GLValue::Ushort minValue (void)
785 {
786 	return GLValue::Ushort::create(4 * 256);
787 }
788 
789 template<>
minValue(void)790 inline GLValue::Byte minValue (void)
791 {
792 	return GLValue::Byte::create(4 * 1);
793 }
794 
795 template<>
minValue(void)796 inline GLValue::Ubyte minValue (void)
797 {
798 	return GLValue::Ubyte::create(4 * 2);
799 }
800 
801 template<>
minValue(void)802 inline GLValue::Fixed minValue (void)
803 {
804 	return GLValue::Fixed::create(4 * 1);
805 }
806 
807 template<>
minValue(void)808 inline GLValue::Int minValue (void)
809 {
810 	return GLValue::Int::create(4 * 16777216);
811 }
812 
813 template<>
minValue(void)814 inline GLValue::Uint minValue (void)
815 {
816 	return GLValue::Uint::create(4 * 16777216);
817 }
818 
819 template<>
minValue(void)820 inline GLValue::Half minValue (void)
821 {
822 	return GLValue::Half::create(4 * 1.0f);
823 }
824 
825 template<class T>
826 inline T abs (T val);
827 
828 template<>
abs(GLValue::Fixed val)829 inline GLValue::Fixed abs (GLValue::Fixed val)
830 {
831 	return GLValue::Fixed::create(0x7FFFu & val.getValue());
832 }
833 
834 template<>
abs(GLValue::Ubyte val)835 inline GLValue::Ubyte abs (GLValue::Ubyte val)
836 {
837 	return val;
838 }
839 
840 template<>
abs(GLValue::Byte val)841 inline GLValue::Byte abs (GLValue::Byte val)
842 {
843 	return GLValue::Byte::create(0x7Fu & val.getValue());
844 }
845 
846 template<>
abs(GLValue::Ushort val)847 inline GLValue::Ushort abs (GLValue::Ushort val)
848 {
849 	return val;
850 }
851 
852 template<>
abs(GLValue::Short val)853 inline GLValue::Short abs (GLValue::Short val)
854 {
855 	return GLValue::Short::create(0x7FFFu & val.getValue());
856 }
857 
858 template<>
abs(GLValue::Float val)859 inline GLValue::Float abs (GLValue::Float val)
860 {
861 	return GLValue::Float::create(std::fabs(val.to<float>()));
862 }
863 
864 template<>
abs(GLValue::Double val)865 inline GLValue::Double abs (GLValue::Double val)
866 {
867 	return GLValue::Double::create(std::fabs(val.to<float>()));
868 }
869 
870 template<>
abs(GLValue::Uint val)871 inline GLValue::Uint abs (GLValue::Uint val)
872 {
873 	return val;
874 }
875 
876 template<>
abs(GLValue::Int val)877 inline GLValue::Int abs (GLValue::Int val)
878 {
879 	return GLValue::Int::create(0x7FFFFFFFu & val.getValue());
880 }
881 
882 template<>
abs(GLValue::Half val)883 inline GLValue::Half abs (GLValue::Half val)
884 {
885 	return GLValue::Half::create(std::fabs(val.to<float>()));
886 }
887 
888 // AttributeArray
889 
890 class AttributeArray
891 {
892 public:
893 								AttributeArray		(DrawTestSpec::Storage storage, sglr::Context& context);
894 								~AttributeArray		(void);
895 
896 	void						data				(DrawTestSpec::Target target, size_t size, const char* data, DrawTestSpec::Usage usage);
897 	void						setupArray			(bool bound, int offset, int size, DrawTestSpec::InputType inType, DrawTestSpec::OutputType outType, bool normalized, int stride, int instanceDivisor, const rr::GenericVec4& defaultAttrib, bool isPositionAttr, bool bgraComponentOrder);
898 	void						bindAttribute		(deUint32 loc);
899 	void						bindIndexArray		(DrawTestSpec::Target storage);
900 
getComponentCount(void) const901 	int							getComponentCount	(void) const { return m_componentCount; }
getTarget(void) const902 	DrawTestSpec::Target		getTarget			(void) const { return m_target; }
getInputType(void) const903 	DrawTestSpec::InputType		getInputType		(void) const { return m_inputType; }
getOutputType(void) const904 	DrawTestSpec::OutputType	getOutputType		(void) const { return m_outputType; }
getStorageType(void) const905 	DrawTestSpec::Storage		getStorageType		(void) const { return m_storage; }
getNormalized(void) const906 	bool						getNormalized		(void) const { return m_normalize; }
getStride(void) const907 	int							getStride			(void) const { return m_stride; }
isBound(void) const908 	bool						isBound				(void) const { return m_bound; }
isPositionAttribute(void) const909 	bool						isPositionAttribute	(void) const { return m_isPositionAttr; }
910 
911 private:
912 	DrawTestSpec::Storage		m_storage;
913 	sglr::Context&				m_ctx;
914 	deUint32					m_glBuffer;
915 
916 	int							m_size;
917 	char*						m_data;
918 	int							m_componentCount;
919 	bool						m_bound;
920 	DrawTestSpec::Target		m_target;
921 	DrawTestSpec::InputType		m_inputType;
922 	DrawTestSpec::OutputType	m_outputType;
923 	bool						m_normalize;
924 	int							m_stride;
925 	int							m_offset;
926 	rr::GenericVec4				m_defaultAttrib;
927 	int							m_instanceDivisor;
928 	bool						m_isPositionAttr;
929 	bool						m_bgraOrder;
930 };
931 
AttributeArray(DrawTestSpec::Storage storage,sglr::Context & context)932 AttributeArray::AttributeArray (DrawTestSpec::Storage storage, sglr::Context& context)
933 	: m_storage			(storage)
934 	, m_ctx				(context)
935 	, m_glBuffer		(0)
936 	, m_size			(0)
937 	, m_data			(DE_NULL)
938 	, m_componentCount	(1)
939 	, m_bound			(false)
940 	, m_target			(DrawTestSpec::TARGET_ARRAY)
941 	, m_inputType		(DrawTestSpec::INPUTTYPE_FLOAT)
942 	, m_outputType		(DrawTestSpec::OUTPUTTYPE_VEC4)
943 	, m_normalize		(false)
944 	, m_stride			(0)
945 	, m_offset			(0)
946 	, m_instanceDivisor	(0)
947 	, m_isPositionAttr	(false)
948 	, m_bgraOrder		(false)
949 {
950 	if (m_storage == DrawTestSpec::STORAGE_BUFFER)
951 	{
952 		m_ctx.genBuffers(1, &m_glBuffer);
953 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glGenBuffers()");
954 	}
955 }
956 
~AttributeArray(void)957 AttributeArray::~AttributeArray	(void)
958 {
959 	if (m_storage == DrawTestSpec::STORAGE_BUFFER)
960 	{
961 		m_ctx.deleteBuffers(1, &m_glBuffer);
962 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDeleteBuffers()");
963 	}
964 	else if (m_storage == DrawTestSpec::STORAGE_USER)
965 		delete[] m_data;
966 	else
967 		DE_ASSERT(false);
968 }
969 
data(DrawTestSpec::Target target,size_t size,const char * ptr,DrawTestSpec::Usage usage)970 void AttributeArray::data (DrawTestSpec::Target target, size_t size, const char* ptr, DrawTestSpec::Usage usage)
971 {
972 	m_size = (int)size;
973 	m_target = target;
974 
975 	if (m_storage == DrawTestSpec::STORAGE_BUFFER)
976 	{
977 		m_ctx.bindBuffer(targetToGL(target), m_glBuffer);
978 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glBindBuffer()");
979 
980 		m_ctx.bufferData(targetToGL(target), size, ptr, usageToGL(usage));
981 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glBufferData()");
982 	}
983 	else if (m_storage == DrawTestSpec::STORAGE_USER)
984 	{
985 		if (m_data)
986 			delete[] m_data;
987 
988 		m_data = new char[size];
989 		std::memcpy(m_data, ptr, size);
990 	}
991 	else
992 		DE_ASSERT(false);
993 }
994 
setupArray(bool bound,int offset,int size,DrawTestSpec::InputType inputType,DrawTestSpec::OutputType outType,bool normalized,int stride,int instanceDivisor,const rr::GenericVec4 & defaultAttrib,bool isPositionAttr,bool bgraComponentOrder)995 void AttributeArray::setupArray (bool bound, int offset, int size, DrawTestSpec::InputType inputType, DrawTestSpec::OutputType outType, bool normalized, int stride, int instanceDivisor, const rr::GenericVec4& defaultAttrib, bool isPositionAttr, bool bgraComponentOrder)
996 {
997 	m_componentCount	= size;
998 	m_bound				= bound;
999 	m_inputType			= inputType;
1000 	m_outputType		= outType;
1001 	m_normalize			= normalized;
1002 	m_stride			= stride;
1003 	m_offset			= offset;
1004 	m_defaultAttrib		= defaultAttrib;
1005 	m_instanceDivisor	= instanceDivisor;
1006 	m_isPositionAttr	= isPositionAttr;
1007 	m_bgraOrder			= bgraComponentOrder;
1008 }
1009 
bindAttribute(deUint32 loc)1010 void AttributeArray::bindAttribute (deUint32 loc)
1011 {
1012 	if (!isBound())
1013 	{
1014 		switch (m_inputType)
1015 		{
1016 			case DrawTestSpec::INPUTTYPE_FLOAT:
1017 			{
1018 				tcu::Vec4 attr = m_defaultAttrib.get<float>();
1019 
1020 				switch (m_componentCount)
1021 				{
1022 					case 1: m_ctx.vertexAttrib1f(loc, attr.x()); break;
1023 					case 2: m_ctx.vertexAttrib2f(loc, attr.x(), attr.y()); break;
1024 					case 3: m_ctx.vertexAttrib3f(loc, attr.x(), attr.y(), attr.z()); break;
1025 					case 4: m_ctx.vertexAttrib4f(loc, attr.x(), attr.y(), attr.z(), attr.w()); break;
1026 					default: DE_ASSERT(DE_FALSE); break;
1027 				}
1028 				break;
1029 			}
1030 			case DrawTestSpec::INPUTTYPE_INT:
1031 			{
1032 				tcu::IVec4 attr = m_defaultAttrib.get<deInt32>();
1033 				m_ctx.vertexAttribI4i(loc, attr.x(), attr.y(), attr.z(), attr.w());
1034 				break;
1035 			}
1036 			case DrawTestSpec::INPUTTYPE_UNSIGNED_INT:
1037 			{
1038 				tcu::UVec4 attr = m_defaultAttrib.get<deUint32>();
1039 				m_ctx.vertexAttribI4ui(loc, attr.x(), attr.y(), attr.z(), attr.w());
1040 				break;
1041 			}
1042 			default:
1043 				DE_ASSERT(DE_FALSE);
1044 				break;
1045 		}
1046 	}
1047 	else
1048 	{
1049 		const deUint8* basePtr = DE_NULL;
1050 
1051 		if (m_storage == DrawTestSpec::STORAGE_BUFFER)
1052 		{
1053 			m_ctx.bindBuffer(targetToGL(m_target), m_glBuffer);
1054 			GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glBindBuffer()");
1055 
1056 			basePtr = DE_NULL;
1057 		}
1058 		else if (m_storage == DrawTestSpec::STORAGE_USER)
1059 		{
1060 			m_ctx.bindBuffer(targetToGL(m_target), 0);
1061 			GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glBindBuffer()");
1062 
1063 			basePtr = (const deUint8*)m_data;
1064 		}
1065 		else
1066 			DE_ASSERT(DE_FALSE);
1067 
1068 		if (!inputTypeIsFloatType(m_inputType))
1069 		{
1070 			// Input is not float type
1071 
1072 			if (outputTypeIsFloatType(m_outputType))
1073 			{
1074 				const int size = (m_bgraOrder) ? (GL_BGRA) : (m_componentCount);
1075 
1076 				DE_ASSERT(!(m_bgraOrder && m_componentCount != 4));
1077 
1078 				// Output type is float type
1079 				m_ctx.vertexAttribPointer(loc, size, inputTypeToGL(m_inputType), m_normalize, m_stride, basePtr + m_offset);
1080 				GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glVertexAttribPointer()");
1081 			}
1082 			else
1083 			{
1084 				// Output type is int type
1085 				m_ctx.vertexAttribIPointer(loc, m_componentCount, inputTypeToGL(m_inputType), m_stride, basePtr + m_offset);
1086 				GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glVertexAttribIPointer()");
1087 			}
1088 		}
1089 		else
1090 		{
1091 			// Input type is float type
1092 
1093 			// Output type must be float type
1094 			DE_ASSERT(outputTypeIsFloatType(m_outputType));
1095 
1096 			m_ctx.vertexAttribPointer(loc, m_componentCount, inputTypeToGL(m_inputType), m_normalize, m_stride, basePtr + m_offset);
1097 			GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glVertexAttribPointer()");
1098 		}
1099 
1100 		if (m_instanceDivisor)
1101 			m_ctx.vertexAttribDivisor(loc, m_instanceDivisor);
1102 	}
1103 }
1104 
bindIndexArray(DrawTestSpec::Target target)1105 void AttributeArray::bindIndexArray (DrawTestSpec::Target target)
1106 {
1107 	if (m_storage == DrawTestSpec::STORAGE_USER)
1108 	{
1109 	}
1110 	else if (m_storage == DrawTestSpec::STORAGE_BUFFER)
1111 	{
1112 		m_ctx.bindBuffer(targetToGL(target), m_glBuffer);
1113 	}
1114 }
1115 
1116 // DrawTestShaderProgram
1117 
1118 class DrawTestShaderProgram : public sglr::ShaderProgram
1119 {
1120 public:
1121 												DrawTestShaderProgram		(const glu::RenderContext& ctx, const std::vector<AttributeArray*>& arrays);
1122 
1123 	void										shadeVertices				(const rr::VertexAttrib* inputs, rr::VertexPacket* const* packets, const int numPackets) const;
1124 	void										shadeFragments				(rr::FragmentPacket* packets, const int numPackets, const rr::FragmentShadingContext& context) const;
1125 
1126 private:
1127 	static std::string							genVertexSource				(const glu::RenderContext& ctx, const std::vector<AttributeArray*>& arrays);
1128 	static std::string							genFragmentSource			(const glu::RenderContext& ctx);
1129 	static void									generateShaderParams		(std::map<std::string, std::string>& params, glu::ContextType type);
1130 	static rr::GenericVecType					mapOutputType				(const DrawTestSpec::OutputType& type);
1131 	static int									getComponentCount			(const DrawTestSpec::OutputType& type);
1132 
1133 	static sglr::pdec::ShaderProgramDeclaration createProgramDeclaration	(const glu::RenderContext& ctx, const std::vector<AttributeArray*>& arrays);
1134 
1135 	std::vector<int>							m_componentCount;
1136 	std::vector<bool>							m_isCoord;
1137 	std::vector<rr::GenericVecType>				m_attrType;
1138 };
1139 
DrawTestShaderProgram(const glu::RenderContext & ctx,const std::vector<AttributeArray * > & arrays)1140 DrawTestShaderProgram::DrawTestShaderProgram (const glu::RenderContext& ctx, const std::vector<AttributeArray*>& arrays)
1141 	: sglr::ShaderProgram	(createProgramDeclaration(ctx, arrays))
1142 	, m_componentCount		(arrays.size())
1143 	, m_isCoord				(arrays.size())
1144 	, m_attrType			(arrays.size())
1145 {
1146 	for (int arrayNdx = 0; arrayNdx < (int)arrays.size(); arrayNdx++)
1147 	{
1148 		m_componentCount[arrayNdx]	= getComponentCount(arrays[arrayNdx]->getOutputType());
1149 		m_isCoord[arrayNdx]			= arrays[arrayNdx]->isPositionAttribute();
1150 		m_attrType[arrayNdx]		= mapOutputType(arrays[arrayNdx]->getOutputType());
1151 	}
1152 }
1153 
1154 template <typename T>
calcShaderColorCoord(tcu::Vec2 & coord,tcu::Vec3 & color,const tcu::Vector<T,4> & attribValue,bool isCoordinate,int numComponents)1155 void calcShaderColorCoord (tcu::Vec2& coord, tcu::Vec3& color, const tcu::Vector<T, 4>& attribValue, bool isCoordinate, int numComponents)
1156 {
1157 	if (isCoordinate)
1158 		switch (numComponents)
1159 		{
1160 			case 1:	coord += tcu::Vec2((float)attribValue.x(),							(float)attribValue.x());							break;
1161 			case 2:	coord += tcu::Vec2((float)attribValue.x(),							(float)attribValue.y());							break;
1162 			case 3:	coord += tcu::Vec2((float)attribValue.x() + (float)attribValue.z(),	(float)attribValue.y());							break;
1163 			case 4:	coord += tcu::Vec2((float)attribValue.x() + (float)attribValue.z(),	(float)attribValue.y() + (float)attribValue.w());	break;
1164 
1165 			default:
1166 				DE_ASSERT(false);
1167 		}
1168 	else
1169 	{
1170 		switch (numComponents)
1171 		{
1172 			case 1:
1173 				color = color * (float)attribValue.x();
1174 				break;
1175 
1176 			case 2:
1177 				color.x() = color.x() * (float)attribValue.x();
1178 				color.y() = color.y() * (float)attribValue.y();
1179 				break;
1180 
1181 			case 3:
1182 				color.x() = color.x() * (float)attribValue.x();
1183 				color.y() = color.y() * (float)attribValue.y();
1184 				color.z() = color.z() * (float)attribValue.z();
1185 				break;
1186 
1187 			case 4:
1188 				color.x() = color.x() * (float)attribValue.x() * (float)attribValue.w();
1189 				color.y() = color.y() * (float)attribValue.y() * (float)attribValue.w();
1190 				color.z() = color.z() * (float)attribValue.z() * (float)attribValue.w();
1191 				break;
1192 
1193 			default:
1194 				DE_ASSERT(false);
1195 		}
1196 	}
1197 }
1198 
shadeVertices(const rr::VertexAttrib * inputs,rr::VertexPacket * const * packets,const int numPackets) const1199 void DrawTestShaderProgram::shadeVertices (const rr::VertexAttrib* inputs, rr::VertexPacket* const* packets, const int numPackets) const
1200 {
1201 	const float	u_coordScale = getUniformByName("u_coordScale").value.f;
1202 	const float u_colorScale = getUniformByName("u_colorScale").value.f;
1203 
1204 	for (int packetNdx = 0; packetNdx < numPackets; ++packetNdx)
1205 	{
1206 		const size_t varyingLocColor = 0;
1207 
1208 		rr::VertexPacket& packet = *packets[packetNdx];
1209 
1210 		// Calc output color
1211 		tcu::Vec2 coord = tcu::Vec2(0.0, 0.0);
1212 		tcu::Vec3 color = tcu::Vec3(1.0, 1.0, 1.0);
1213 
1214 		for (int attribNdx = 0; attribNdx < (int)m_attrType.size(); attribNdx++)
1215 		{
1216 			const int	numComponents	= m_componentCount[attribNdx];
1217 			const bool	isCoord			= m_isCoord[attribNdx];
1218 
1219 			switch (m_attrType[attribNdx])
1220 			{
1221 				case rr::GENERICVECTYPE_FLOAT:	calcShaderColorCoord(coord, color, rr::readVertexAttribFloat(inputs[attribNdx], packet.instanceNdx, packet.vertexNdx), isCoord, numComponents);	break;
1222 				case rr::GENERICVECTYPE_INT32:	calcShaderColorCoord(coord, color, rr::readVertexAttribInt	(inputs[attribNdx], packet.instanceNdx, packet.vertexNdx), isCoord, numComponents);	break;
1223 				case rr::GENERICVECTYPE_UINT32:	calcShaderColorCoord(coord, color, rr::readVertexAttribUint	(inputs[attribNdx], packet.instanceNdx, packet.vertexNdx), isCoord, numComponents);	break;
1224 				default:
1225 					DE_ASSERT(false);
1226 			}
1227 		}
1228 
1229 		// Transform position
1230 		{
1231 			packet.position = tcu::Vec4(u_coordScale * coord.x(), u_coordScale * coord.y(), 1.0f, 1.0f);
1232 			packet.pointSize = 1.0f;
1233 		}
1234 
1235 		// Pass color to FS
1236 		{
1237 			packet.outputs[varyingLocColor] = tcu::Vec4(u_colorScale * color.x(), u_colorScale * color.y(), u_colorScale * color.z(), 1.0f) * 0.5f + tcu::Vec4(0.5f, 0.5f, 0.5f, 0.5f);
1238 		}
1239 	}
1240 }
1241 
shadeFragments(rr::FragmentPacket * packets,const int numPackets,const rr::FragmentShadingContext & context) const1242 void DrawTestShaderProgram::shadeFragments (rr::FragmentPacket* packets, const int numPackets, const rr::FragmentShadingContext& context) const
1243 {
1244 	const size_t varyingLocColor = 0;
1245 
1246 	for (int packetNdx = 0; packetNdx < numPackets; ++packetNdx)
1247 	{
1248 		rr::FragmentPacket& packet = packets[packetNdx];
1249 
1250 		for (int fragNdx = 0; fragNdx < 4; ++fragNdx)
1251 			rr::writeFragmentOutput(context, packetNdx, fragNdx, 0, rr::readVarying<float>(packet, context, varyingLocColor, fragNdx));
1252 	}
1253 }
1254 
genVertexSource(const glu::RenderContext & ctx,const std::vector<AttributeArray * > & arrays)1255 std::string DrawTestShaderProgram::genVertexSource (const glu::RenderContext& ctx, const std::vector<AttributeArray*>& arrays)
1256 {
1257 	std::map<std::string, std::string>	params;
1258 	std::stringstream					vertexShaderTmpl;
1259 
1260 	generateShaderParams(params, ctx.getType());
1261 
1262 	vertexShaderTmpl << "${VTX_HDR}";
1263 
1264 	for (int arrayNdx = 0; arrayNdx < (int)arrays.size(); arrayNdx++)
1265 	{
1266 		vertexShaderTmpl
1267 			<< "${VTX_IN} highp " << outputTypeToGLType(arrays[arrayNdx]->getOutputType()) << " a_" << arrayNdx << ";\n";
1268 	}
1269 
1270 	vertexShaderTmpl <<
1271 		"uniform highp float u_coordScale;\n"
1272 		"uniform highp float u_colorScale;\n"
1273 		"${VTX_OUT} ${COL_PRECISION} vec4 v_color;\n"
1274 		"void main(void)\n"
1275 		"{\n"
1276 		"\tgl_PointSize = 1.0;\n"
1277 		"\thighp vec2 coord = vec2(0.0, 0.0);\n"
1278 		"\thighp vec3 color = vec3(1.0, 1.0, 1.0);\n";
1279 
1280 	for (int arrayNdx = 0; arrayNdx < (int)arrays.size(); arrayNdx++)
1281 	{
1282 		const bool isPositionAttr = arrays[arrayNdx]->isPositionAttribute();
1283 
1284 		if (isPositionAttr)
1285 		{
1286 			switch (arrays[arrayNdx]->getOutputType())
1287 			{
1288 				case (DrawTestSpec::OUTPUTTYPE_FLOAT):
1289 				case (DrawTestSpec::OUTPUTTYPE_INT):
1290 				case (DrawTestSpec::OUTPUTTYPE_UINT):
1291 					vertexShaderTmpl <<
1292 						"\tcoord += vec2(float(a_" << arrayNdx << "), float(a_" << arrayNdx << "));\n";
1293 					break;
1294 
1295 				case (DrawTestSpec::OUTPUTTYPE_VEC2):
1296 				case (DrawTestSpec::OUTPUTTYPE_IVEC2):
1297 				case (DrawTestSpec::OUTPUTTYPE_UVEC2):
1298 					vertexShaderTmpl <<
1299 						"\tcoord += vec2(a_" << arrayNdx << ".xy);\n";
1300 					break;
1301 
1302 				case (DrawTestSpec::OUTPUTTYPE_VEC3):
1303 				case (DrawTestSpec::OUTPUTTYPE_IVEC3):
1304 				case (DrawTestSpec::OUTPUTTYPE_UVEC3):
1305 					vertexShaderTmpl <<
1306 						"\tcoord += vec2(a_" << arrayNdx << ".xy);\n"
1307 						"\tcoord.x += float(a_" << arrayNdx << ".z);\n";
1308 					break;
1309 
1310 				case (DrawTestSpec::OUTPUTTYPE_VEC4):
1311 				case (DrawTestSpec::OUTPUTTYPE_IVEC4):
1312 				case (DrawTestSpec::OUTPUTTYPE_UVEC4):
1313 					vertexShaderTmpl <<
1314 						"\tcoord += vec2(a_" << arrayNdx << ".xy);\n"
1315 						"\tcoord += vec2(a_" << arrayNdx << ".zw);\n";
1316 					break;
1317 
1318 				default:
1319 					DE_ASSERT(false);
1320 					break;
1321 			}
1322 		}
1323 		else
1324 		{
1325 			switch (arrays[arrayNdx]->getOutputType())
1326 			{
1327 				case (DrawTestSpec::OUTPUTTYPE_FLOAT):
1328 				case (DrawTestSpec::OUTPUTTYPE_INT):
1329 				case (DrawTestSpec::OUTPUTTYPE_UINT):
1330 					vertexShaderTmpl <<
1331 						"\tcolor = color * float(a_" << arrayNdx << ");\n";
1332 					break;
1333 
1334 				case (DrawTestSpec::OUTPUTTYPE_VEC2):
1335 				case (DrawTestSpec::OUTPUTTYPE_IVEC2):
1336 				case (DrawTestSpec::OUTPUTTYPE_UVEC2):
1337 					vertexShaderTmpl <<
1338 						"\tcolor.rg = color.rg * vec2(a_" << arrayNdx << ".xy);\n";
1339 					break;
1340 
1341 				case (DrawTestSpec::OUTPUTTYPE_VEC3):
1342 				case (DrawTestSpec::OUTPUTTYPE_IVEC3):
1343 				case (DrawTestSpec::OUTPUTTYPE_UVEC3):
1344 					vertexShaderTmpl <<
1345 						"\tcolor = color.rgb * vec3(a_" << arrayNdx << ".xyz);\n";
1346 					break;
1347 
1348 				case (DrawTestSpec::OUTPUTTYPE_VEC4):
1349 				case (DrawTestSpec::OUTPUTTYPE_IVEC4):
1350 				case (DrawTestSpec::OUTPUTTYPE_UVEC4):
1351 					vertexShaderTmpl <<
1352 						"\tcolor = color.rgb * vec3(a_" << arrayNdx << ".xyz) * float(a_" << arrayNdx << ".w);\n";
1353 					break;
1354 
1355 				default:
1356 					DE_ASSERT(false);
1357 					break;
1358 			}
1359 		}
1360 	}
1361 
1362 	vertexShaderTmpl <<
1363 		"\tv_color = vec4(u_colorScale * color, 1.0) * 0.5 + vec4(0.5, 0.5, 0.5, 0.5);\n"
1364 		"\tgl_Position = vec4(u_coordScale * coord, 1.0, 1.0);\n"
1365 		"}\n";
1366 
1367 	return tcu::StringTemplate(vertexShaderTmpl.str().c_str()).specialize(params);
1368 }
1369 
genFragmentSource(const glu::RenderContext & ctx)1370 std::string DrawTestShaderProgram::genFragmentSource (const glu::RenderContext& ctx)
1371 {
1372 	std::map<std::string, std::string> params;
1373 
1374 	generateShaderParams(params, ctx.getType());
1375 
1376 	static const char* fragmentShaderTmpl =
1377 		"${FRAG_HDR}"
1378 		"${FRAG_IN} ${COL_PRECISION} vec4 v_color;\n"
1379 		"void main(void)\n"
1380 		"{\n"
1381 		"\t${FRAG_COLOR} = v_color;\n"
1382 		"}\n";
1383 
1384 	return tcu::StringTemplate(fragmentShaderTmpl).specialize(params);
1385 }
1386 
generateShaderParams(std::map<std::string,std::string> & params,glu::ContextType type)1387 void DrawTestShaderProgram::generateShaderParams (std::map<std::string, std::string>& params, glu::ContextType type)
1388 {
1389 	if (glu::isGLSLVersionSupported(type, glu::GLSL_VERSION_300_ES))
1390 	{
1391 		params["VTX_IN"]		= "in";
1392 		params["VTX_OUT"]		= "out";
1393 		params["FRAG_IN"]		= "in";
1394 		params["FRAG_COLOR"]	= "dEQP_FragColor";
1395 		params["VTX_HDR"]		= "#version 300 es\n";
1396 		params["FRAG_HDR"]		= "#version 300 es\nlayout(location = 0) out mediump vec4 dEQP_FragColor;\n";
1397 		params["COL_PRECISION"]	= "mediump";
1398 	}
1399 	else if (glu::isGLSLVersionSupported(type, glu::GLSL_VERSION_100_ES))
1400 	{
1401 		params["VTX_IN"]		= "attribute";
1402 		params["VTX_OUT"]		= "varying";
1403 		params["FRAG_IN"]		= "varying";
1404 		params["FRAG_COLOR"]	= "gl_FragColor";
1405 		params["VTX_HDR"]		= "";
1406 		params["FRAG_HDR"]		= "";
1407 		params["COL_PRECISION"]	= "mediump";
1408 	}
1409 	else if (glu::isGLSLVersionSupported(type, glu::GLSL_VERSION_430))
1410 	{
1411 		params["VTX_IN"]		= "in";
1412 		params["VTX_OUT"]		= "out";
1413 		params["FRAG_IN"]		= "in";
1414 		params["FRAG_COLOR"]	= "dEQP_FragColor";
1415 		params["VTX_HDR"]		= "#version 430\n";
1416 		params["FRAG_HDR"]		= "#version 430\nlayout(location = 0) out highp vec4 dEQP_FragColor;\n";
1417 		params["COL_PRECISION"]	= "highp";
1418 	}
1419 	else if (glu::isGLSLVersionSupported(type, glu::GLSL_VERSION_330))
1420 	{
1421 		params["VTX_IN"]		= "in";
1422 		params["VTX_OUT"]		= "out";
1423 		params["FRAG_IN"]		= "in";
1424 		params["FRAG_COLOR"]	= "dEQP_FragColor";
1425 		params["VTX_HDR"]		= "#version 330\n";
1426 		params["FRAG_HDR"]		= "#version 330\nlayout(location = 0) out mediump vec4 dEQP_FragColor;\n";
1427 		params["COL_PRECISION"]	= "mediump";
1428 	}
1429 	else
1430 		DE_ASSERT(DE_FALSE);
1431 }
1432 
mapOutputType(const DrawTestSpec::OutputType & type)1433 rr::GenericVecType DrawTestShaderProgram::mapOutputType (const DrawTestSpec::OutputType& type)
1434 {
1435 	switch (type)
1436 	{
1437 		case (DrawTestSpec::OUTPUTTYPE_FLOAT):
1438 		case (DrawTestSpec::OUTPUTTYPE_VEC2):
1439 		case (DrawTestSpec::OUTPUTTYPE_VEC3):
1440 		case (DrawTestSpec::OUTPUTTYPE_VEC4):
1441 			return rr::GENERICVECTYPE_FLOAT;
1442 
1443 		case (DrawTestSpec::OUTPUTTYPE_INT):
1444 		case (DrawTestSpec::OUTPUTTYPE_IVEC2):
1445 		case (DrawTestSpec::OUTPUTTYPE_IVEC3):
1446 		case (DrawTestSpec::OUTPUTTYPE_IVEC4):
1447 			return rr::GENERICVECTYPE_INT32;
1448 
1449 		case (DrawTestSpec::OUTPUTTYPE_UINT):
1450 		case (DrawTestSpec::OUTPUTTYPE_UVEC2):
1451 		case (DrawTestSpec::OUTPUTTYPE_UVEC3):
1452 		case (DrawTestSpec::OUTPUTTYPE_UVEC4):
1453 			return rr::GENERICVECTYPE_UINT32;
1454 
1455 		default:
1456 			DE_ASSERT(false);
1457 			return rr::GENERICVECTYPE_LAST;
1458 	}
1459 }
1460 
getComponentCount(const DrawTestSpec::OutputType & type)1461 int DrawTestShaderProgram::getComponentCount (const DrawTestSpec::OutputType& type)
1462 {
1463 	switch (type)
1464 	{
1465 		case (DrawTestSpec::OUTPUTTYPE_FLOAT):
1466 		case (DrawTestSpec::OUTPUTTYPE_INT):
1467 		case (DrawTestSpec::OUTPUTTYPE_UINT):
1468 			return 1;
1469 
1470 		case (DrawTestSpec::OUTPUTTYPE_VEC2):
1471 		case (DrawTestSpec::OUTPUTTYPE_IVEC2):
1472 		case (DrawTestSpec::OUTPUTTYPE_UVEC2):
1473 			return 2;
1474 
1475 		case (DrawTestSpec::OUTPUTTYPE_VEC3):
1476 		case (DrawTestSpec::OUTPUTTYPE_IVEC3):
1477 		case (DrawTestSpec::OUTPUTTYPE_UVEC3):
1478 			return 3;
1479 
1480 		case (DrawTestSpec::OUTPUTTYPE_VEC4):
1481 		case (DrawTestSpec::OUTPUTTYPE_IVEC4):
1482 		case (DrawTestSpec::OUTPUTTYPE_UVEC4):
1483 			return 4;
1484 
1485 		default:
1486 			DE_ASSERT(false);
1487 			return 0;
1488 	}
1489 }
1490 
createProgramDeclaration(const glu::RenderContext & ctx,const std::vector<AttributeArray * > & arrays)1491 sglr::pdec::ShaderProgramDeclaration DrawTestShaderProgram::createProgramDeclaration (const glu::RenderContext& ctx, const std::vector<AttributeArray*>& arrays)
1492 {
1493 	sglr::pdec::ShaderProgramDeclaration decl;
1494 
1495 	for (int arrayNdx = 0; arrayNdx < (int)arrays.size(); arrayNdx++)
1496 		decl << sglr::pdec::VertexAttribute(std::string("a_") + de::toString(arrayNdx), mapOutputType(arrays[arrayNdx]->getOutputType()));
1497 
1498 	decl << sglr::pdec::VertexToFragmentVarying(rr::GENERICVECTYPE_FLOAT);
1499 	decl << sglr::pdec::FragmentOutput(rr::GENERICVECTYPE_FLOAT);
1500 
1501 	decl << sglr::pdec::VertexSource(genVertexSource(ctx, arrays));
1502 	decl << sglr::pdec::FragmentSource(genFragmentSource(ctx));
1503 
1504 	decl << sglr::pdec::Uniform("u_coordScale", glu::TYPE_FLOAT);
1505 	decl << sglr::pdec::Uniform("u_colorScale", glu::TYPE_FLOAT);
1506 
1507 	return decl;
1508 }
1509 
1510 class RandomArrayGenerator
1511 {
1512 public:
1513 	static char*			generateArray			(int seed, int elementCount, int componentCount, int offset, int stride, DrawTestSpec::InputType type);
1514 	static char*			generateIndices			(int seed, int elementCount, DrawTestSpec::IndexType type, int offset, int min, int max, int indexBase);
1515 	static rr::GenericVec4	generateAttributeValue	(int seed, DrawTestSpec::InputType type);
1516 
1517 private:
1518 	template<typename T>
1519 	static char*			createIndices			(int seed, int elementCount, int offset, int min, int max, int indexBase);
1520 
1521 	static char*			generateBasicArray		(int seed, int elementCount, int componentCount, int offset, int stride, DrawTestSpec::InputType type);
1522 	template<typename T, typename GLType>
1523 	static char*			createBasicArray		(int seed, int elementCount, int componentCount, int offset, int stride);
1524 	static char*			generatePackedArray		(int seed, int elementCount, int componentCount, int offset, int stride);
1525 };
1526 
generateArray(int seed,int elementCount,int componentCount,int offset,int stride,DrawTestSpec::InputType type)1527 char* RandomArrayGenerator::generateArray (int seed, int elementCount, int componentCount, int offset, int stride, DrawTestSpec::InputType type)
1528 {
1529 	if (type == DrawTestSpec::INPUTTYPE_INT_2_10_10_10 || type == DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10)
1530 		return generatePackedArray(seed, elementCount, componentCount, offset, stride);
1531 	else
1532 		return generateBasicArray(seed, elementCount, componentCount, offset, stride, type);
1533 }
1534 
generateBasicArray(int seed,int elementCount,int componentCount,int offset,int stride,DrawTestSpec::InputType type)1535 char* RandomArrayGenerator::generateBasicArray (int seed, int elementCount, int componentCount, int offset, int stride, DrawTestSpec::InputType type)
1536 {
1537 	switch (type)
1538 	{
1539 		case DrawTestSpec::INPUTTYPE_FLOAT:				return createBasicArray<float,		GLValue::Float>	(seed, elementCount, componentCount, offset, stride);
1540 		case DrawTestSpec::INPUTTYPE_DOUBLE:			return createBasicArray<double,		GLValue::Double>(seed, elementCount, componentCount, offset, stride);
1541 		case DrawTestSpec::INPUTTYPE_SHORT:				return createBasicArray<deInt16,	GLValue::Short>	(seed, elementCount, componentCount, offset, stride);
1542 		case DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT:	return createBasicArray<deUint16,	GLValue::Ushort>(seed, elementCount, componentCount, offset, stride);
1543 		case DrawTestSpec::INPUTTYPE_BYTE:				return createBasicArray<deInt8,		GLValue::Byte>	(seed, elementCount, componentCount, offset, stride);
1544 		case DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE:		return createBasicArray<deUint8,	GLValue::Ubyte>	(seed, elementCount, componentCount, offset, stride);
1545 		case DrawTestSpec::INPUTTYPE_FIXED:				return createBasicArray<deInt32,	GLValue::Fixed>	(seed, elementCount, componentCount, offset, stride);
1546 		case DrawTestSpec::INPUTTYPE_INT:				return createBasicArray<deInt32,	GLValue::Int>	(seed, elementCount, componentCount, offset, stride);
1547 		case DrawTestSpec::INPUTTYPE_UNSIGNED_INT:		return createBasicArray<deUint32,	GLValue::Uint>	(seed, elementCount, componentCount, offset, stride);
1548 		case DrawTestSpec::INPUTTYPE_HALF:				return createBasicArray<deFloat16,	GLValue::Half>	(seed, elementCount, componentCount, offset, stride);
1549 		default:
1550 			DE_ASSERT(false);
1551 			break;
1552 	}
1553 	return DE_NULL;
1554 }
1555 
1556 #if (DE_COMPILER == DE_COMPILER_GCC) && (__GNUC__ == 4) && (__GNUC_MINOR__ >= 8)
1557 	// GCC 4.8/4.9 incorrectly emits array-bounds warning from createBasicArray()
1558 #	define GCC_ARRAY_BOUNDS_FALSE_NEGATIVE 1
1559 #endif
1560 
1561 #if defined(GCC_ARRAY_BOUNDS_FALSE_NEGATIVE)
1562 #	pragma GCC diagnostic push
1563 #	pragma GCC diagnostic ignored "-Warray-bounds"
1564 #endif
1565 
1566 template<typename T, typename GLType>
createBasicArray(int seed,int elementCount,int componentCount,int offset,int stride)1567 char* RandomArrayGenerator::createBasicArray (int seed, int elementCount, int componentCount, int offset, int stride)
1568 {
1569 	DE_ASSERT(componentCount >= 1 && componentCount <= 4);
1570 
1571 	const GLType min = extractGLValue<GLType>(GLValue::getMinValue(GLValueTypeTraits<GLType>::Type));
1572 	const GLType max = extractGLValue<GLType>(GLValue::getMaxValue(GLValueTypeTraits<GLType>::Type));
1573 
1574 	const size_t componentSize	= sizeof(T);
1575 	const size_t elementSize	= componentSize * componentCount;
1576 	const size_t bufferSize		= offset + (elementCount - 1) * stride + elementSize;
1577 
1578 	char* data = new char[bufferSize];
1579 	char* writePtr = data + offset;
1580 
1581 	GLType previousComponents[4];
1582 
1583 	deRandom rnd;
1584 	deRandom_init(&rnd, seed);
1585 
1586 	for (int vertexNdx = 0; vertexNdx < elementCount; vertexNdx++)
1587 	{
1588 		GLType components[4];
1589 
1590 		for (int componentNdx = 0; componentNdx < componentCount; componentNdx++)
1591 		{
1592 			components[componentNdx] = getRandom<GLType>(rnd, min, max);
1593 
1594 			// Try to not create vertex near previous
1595 			if (vertexNdx != 0 && abs(components[componentNdx] - previousComponents[componentNdx]) < minValue<GLType>())
1596 			{
1597 				// Too close, try again (but only once)
1598 				components[componentNdx] = getRandom<GLType>(rnd, min, max);
1599 			}
1600 		}
1601 
1602 		for (int componentNdx = 0; componentNdx < componentCount; componentNdx++)
1603 			previousComponents[componentNdx] = components[componentNdx];
1604 
1605 		for (int componentNdx = 0; componentNdx < componentCount; componentNdx++)
1606 			alignmentSafeAssignment(writePtr + componentNdx*componentSize, components[componentNdx].getValue());
1607 
1608 		writePtr += stride;
1609 	}
1610 
1611 	return data;
1612 }
1613 
1614 #if defined(GCC_ARRAY_BOUNDS_FALSE_NEGATIVE)
1615 #	pragma GCC diagnostic pop
1616 #endif
1617 
generatePackedArray(int seed,int elementCount,int componentCount,int offset,int stride)1618 char* RandomArrayGenerator::generatePackedArray (int seed, int elementCount, int componentCount, int offset, int stride)
1619 {
1620 	DE_ASSERT(componentCount == 4);
1621 	DE_UNREF(componentCount);
1622 
1623 	const deUint32 limit10		= (1 << 10);
1624 	const deUint32 limit2		= (1 << 2);
1625 	const size_t elementSize	= 4;
1626 	const size_t bufferSize		= offset + (elementCount - 1) * stride + elementSize;
1627 
1628 	char* data = new char[bufferSize];
1629 	char* writePtr = data + offset;
1630 
1631 	deRandom rnd;
1632 	deRandom_init(&rnd, seed);
1633 
1634 	for (int vertexNdx = 0; vertexNdx < elementCount; vertexNdx++)
1635 	{
1636 		const deUint32 x			= deRandom_getUint32(&rnd) % limit10;
1637 		const deUint32 y			= deRandom_getUint32(&rnd) % limit10;
1638 		const deUint32 z			= deRandom_getUint32(&rnd) % limit10;
1639 		const deUint32 w			= deRandom_getUint32(&rnd) % limit2;
1640 		const deUint32 packedValue	= (w << 30) | (z << 20) | (y << 10) | (x);
1641 
1642 		alignmentSafeAssignment(writePtr, packedValue);
1643 		writePtr += stride;
1644 	}
1645 
1646 	return data;
1647 }
1648 
generateIndices(int seed,int elementCount,DrawTestSpec::IndexType type,int offset,int min,int max,int indexBase)1649 char* RandomArrayGenerator::generateIndices (int seed, int elementCount, DrawTestSpec::IndexType type, int offset, int min, int max, int indexBase)
1650 {
1651 	char* data = DE_NULL;
1652 
1653 	switch (type)
1654 	{
1655 		case DrawTestSpec::INDEXTYPE_BYTE:
1656 			data = createIndices<deUint8>(seed, elementCount, offset, min, max, indexBase);
1657 			break;
1658 
1659 		case DrawTestSpec::INDEXTYPE_SHORT:
1660 			data = createIndices<deUint16>(seed, elementCount, offset, min, max, indexBase);
1661 			break;
1662 
1663 		case DrawTestSpec::INDEXTYPE_INT:
1664 			data = createIndices<deUint32>(seed, elementCount, offset, min, max, indexBase);
1665 			break;
1666 
1667 		default:
1668 			DE_ASSERT(false);
1669 			break;
1670 	}
1671 
1672 	return data;
1673 }
1674 
1675 template<typename T>
createIndices(int seed,int elementCount,int offset,int min,int max,int indexBase)1676 char* RandomArrayGenerator::createIndices (int seed, int elementCount, int offset, int min, int max, int indexBase)
1677 {
1678 	const size_t elementSize	= sizeof(T);
1679 	const size_t bufferSize		= offset + elementCount * elementSize;
1680 
1681 	char* data = new char[bufferSize];
1682 	char* writePtr = data + offset;
1683 
1684 	deUint32 oldNdx1 = deUint32(-1);
1685 	deUint32 oldNdx2 = deUint32(-1);
1686 
1687 	deRandom rnd;
1688 	deRandom_init(&rnd, seed);
1689 
1690 	DE_ASSERT(indexBase >= 0); // watch for underflows
1691 
1692 	if (min < 0 || (size_t)min > std::numeric_limits<T>::max() ||
1693 		max < 0 || (size_t)max > std::numeric_limits<T>::max() ||
1694 		min > max)
1695 		DE_FATAL("Invalid range");
1696 
1697 	for (int elementNdx = 0; elementNdx < elementCount; ++elementNdx)
1698 	{
1699 		deUint32 ndx = getRandom(rnd, GLValue::Uint::create(min), GLValue::Uint::create(max)).getValue();
1700 
1701 		// Try not to generate same index as any of previous two. This prevents
1702 		// generation of degenerate triangles and lines. If [min, max] is too
1703 		// small this cannot be guaranteed.
1704 
1705 		if (ndx == oldNdx1)			++ndx;
1706 		if (ndx > (deUint32)max)	ndx = min;
1707 		if (ndx == oldNdx2)			++ndx;
1708 		if (ndx > (deUint32)max)	ndx = min;
1709 		if (ndx == oldNdx1)			++ndx;
1710 		if (ndx > (deUint32)max)	ndx = min;
1711 
1712 		oldNdx2 = oldNdx1;
1713 		oldNdx1 = ndx;
1714 
1715 		ndx += indexBase;
1716 
1717 		alignmentSafeAssignment<T>(writePtr + elementSize * elementNdx, T(ndx));
1718 	}
1719 
1720 	return data;
1721 }
1722 
generateAttributeValue(int seed,DrawTestSpec::InputType type)1723 rr::GenericVec4	RandomArrayGenerator::generateAttributeValue (int seed, DrawTestSpec::InputType type)
1724 {
1725 	de::Random random(seed);
1726 
1727 	switch (type)
1728 	{
1729 		case DrawTestSpec::INPUTTYPE_FLOAT:
1730 			return rr::GenericVec4(generateRandomVec4(random));
1731 
1732 		case DrawTestSpec::INPUTTYPE_INT:
1733 			return rr::GenericVec4(generateRandomIVec4(random));
1734 
1735 		case DrawTestSpec::INPUTTYPE_UNSIGNED_INT:
1736 			return rr::GenericVec4(generateRandomUVec4(random));
1737 
1738 		default:
1739 			DE_ASSERT(false);
1740 			return rr::GenericVec4(tcu::Vec4(1, 1, 1, 1));
1741 	}
1742 }
1743 
1744 } // anonymous
1745 
1746 // AttributePack
1747 
1748 class AttributePack
1749 {
1750 public:
1751 
1752 								AttributePack		(tcu::TestContext& testCtx, glu::RenderContext& renderCtx, sglr::Context& drawContext, const tcu::UVec2& screenSize, bool useVao, bool logEnabled);
1753 								~AttributePack		(void);
1754 
1755 	AttributeArray*				getArray			(int i);
1756 	int							getArrayCount		(void);
1757 
1758 	void						newArray			(DrawTestSpec::Storage storage);
1759 	void						clearArrays			(void);
1760 	void						updateProgram		(void);
1761 
1762 	void						render				(DrawTestSpec::Primitive primitive, DrawTestSpec::DrawMethod drawMethod, int firstVertex, int vertexCount, DrawTestSpec::IndexType indexType, const void* indexOffset, int rangeStart, int rangeEnd, int instanceCount, int indirectOffset, int baseVertex, float coordScale, float colorScale, AttributeArray* indexArray);
1763 
getSurface(void) const1764 	const tcu::Surface&			getSurface			(void) const { return m_screen; }
1765 private:
1766 	tcu::TestContext&			m_testCtx;
1767 	glu::RenderContext&			m_renderCtx;
1768 	sglr::Context&				m_ctx;
1769 
1770 	std::vector<AttributeArray*>m_arrays;
1771 	sglr::ShaderProgram*		m_program;
1772 	tcu::Surface				m_screen;
1773 	const bool					m_useVao;
1774 	const bool					m_logEnabled;
1775 	deUint32					m_programID;
1776 	deUint32					m_vaoID;
1777 };
1778 
AttributePack(tcu::TestContext & testCtx,glu::RenderContext & renderCtx,sglr::Context & drawContext,const tcu::UVec2 & screenSize,bool useVao,bool logEnabled)1779 AttributePack::AttributePack (tcu::TestContext& testCtx, glu::RenderContext& renderCtx, sglr::Context& drawContext, const tcu::UVec2& screenSize, bool useVao, bool logEnabled)
1780 	: m_testCtx		(testCtx)
1781 	, m_renderCtx	(renderCtx)
1782 	, m_ctx			(drawContext)
1783 	, m_program		(DE_NULL)
1784 	, m_screen		(screenSize.x(), screenSize.y())
1785 	, m_useVao		(useVao)
1786 	, m_logEnabled	(logEnabled)
1787 	, m_programID	(0)
1788 	, m_vaoID		(0)
1789 {
1790 	if (m_useVao)
1791 		m_ctx.genVertexArrays(1, &m_vaoID);
1792 }
1793 
~AttributePack(void)1794 AttributePack::~AttributePack (void)
1795 {
1796 	clearArrays();
1797 
1798 	if (m_programID)
1799 		m_ctx.deleteProgram(m_programID);
1800 
1801 	if (m_program)
1802 		delete m_program;
1803 
1804 	if (m_useVao)
1805 		m_ctx.deleteVertexArrays(1, &m_vaoID);
1806 }
1807 
getArray(int i)1808 AttributeArray* AttributePack::getArray (int i)
1809 {
1810 	return m_arrays.at(i);
1811 }
1812 
getArrayCount(void)1813 int AttributePack::getArrayCount (void)
1814 {
1815 	return (int)m_arrays.size();
1816 }
1817 
newArray(DrawTestSpec::Storage storage)1818 void AttributePack::newArray (DrawTestSpec::Storage storage)
1819 {
1820 	m_arrays.push_back(new AttributeArray(storage, m_ctx));
1821 }
1822 
clearArrays(void)1823 void AttributePack::clearArrays (void)
1824 {
1825 	for (std::vector<AttributeArray*>::iterator itr = m_arrays.begin(); itr != m_arrays.end(); itr++)
1826 		delete *itr;
1827 	m_arrays.clear();
1828 }
1829 
updateProgram(void)1830 void AttributePack::updateProgram (void)
1831 {
1832 	if (m_programID)
1833 		m_ctx.deleteProgram(m_programID);
1834 	if (m_program)
1835 		delete m_program;
1836 
1837 	m_program = new DrawTestShaderProgram(m_renderCtx, m_arrays);
1838 	m_programID = m_ctx.createProgram(m_program);
1839 }
1840 
render(DrawTestSpec::Primitive primitive,DrawTestSpec::DrawMethod drawMethod,int firstVertex,int vertexCount,DrawTestSpec::IndexType indexType,const void * indexOffset,int rangeStart,int rangeEnd,int instanceCount,int indirectOffset,int baseVertex,float coordScale,float colorScale,AttributeArray * indexArray)1841 void AttributePack::render (DrawTestSpec::Primitive primitive, DrawTestSpec::DrawMethod drawMethod, int firstVertex, int vertexCount, DrawTestSpec::IndexType indexType, const void* indexOffset, int rangeStart, int rangeEnd, int instanceCount, int indirectOffset, int baseVertex, float coordScale, float colorScale, AttributeArray* indexArray)
1842 {
1843 	DE_ASSERT(m_program != DE_NULL);
1844 	DE_ASSERT(m_programID != 0);
1845 
1846 	m_ctx.viewport(0, 0, m_screen.getWidth(), m_screen.getHeight());
1847 	m_ctx.clearColor(0.0, 0.0, 0.0, 1.0);
1848 	m_ctx.clear(GL_COLOR_BUFFER_BIT);
1849 
1850 	m_ctx.useProgram(m_programID);
1851 	GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glUseProgram()");
1852 
1853 	m_ctx.uniform1f(m_ctx.getUniformLocation(m_programID, "u_coordScale"), coordScale);
1854 	m_ctx.uniform1f(m_ctx.getUniformLocation(m_programID, "u_colorScale"), colorScale);
1855 
1856 	if (m_useVao)
1857 		m_ctx.bindVertexArray(m_vaoID);
1858 
1859 	if (indexArray)
1860 		indexArray->bindIndexArray(DrawTestSpec::TARGET_ELEMENT_ARRAY);
1861 
1862 	for (int arrayNdx = 0; arrayNdx < (int)m_arrays.size(); arrayNdx++)
1863 	{
1864 		std::stringstream attribName;
1865 		attribName << "a_" << arrayNdx;
1866 
1867 		deUint32 loc = m_ctx.getAttribLocation(m_programID, attribName.str().c_str());
1868 
1869 		if (m_arrays[arrayNdx]->isBound())
1870 		{
1871 			m_ctx.enableVertexAttribArray(loc);
1872 			GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glEnableVertexAttribArray()");
1873 		}
1874 
1875 		m_arrays[arrayNdx]->bindAttribute(loc);
1876 	}
1877 
1878 	if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWARRAYS)
1879 	{
1880 		m_ctx.drawArrays(primitiveToGL(primitive), firstVertex, vertexCount);
1881 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawArrays()");
1882 	}
1883 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWARRAYS_INSTANCED)
1884 	{
1885 		m_ctx.drawArraysInstanced(primitiveToGL(primitive), firstVertex, vertexCount, instanceCount);
1886 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawArraysInstanced()");
1887 	}
1888 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWELEMENTS)
1889 	{
1890 		m_ctx.drawElements(primitiveToGL(primitive), vertexCount, indexTypeToGL(indexType), indexOffset);
1891 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawElements()");
1892 	}
1893 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWELEMENTS_RANGED)
1894 	{
1895 		m_ctx.drawRangeElements(primitiveToGL(primitive), rangeStart, rangeEnd, vertexCount, indexTypeToGL(indexType), indexOffset);
1896 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawRangeElements()");
1897 	}
1898 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWELEMENTS_INSTANCED)
1899 	{
1900 		m_ctx.drawElementsInstanced(primitiveToGL(primitive), vertexCount, indexTypeToGL(indexType), indexOffset, instanceCount);
1901 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawElementsInstanced()");
1902 	}
1903 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWARRAYS_INDIRECT)
1904 	{
1905 		struct DrawCommand
1906 		{
1907 			GLuint count;
1908 			GLuint primCount;
1909 			GLuint first;
1910 			GLuint reservedMustBeZero;
1911 		};
1912 		deUint8* buffer = new deUint8[sizeof(DrawCommand) + indirectOffset];
1913 
1914 		{
1915 			DrawCommand command;
1916 
1917 			command.count				= vertexCount;
1918 			command.primCount			= instanceCount;
1919 			command.first				= firstVertex;
1920 			command.reservedMustBeZero	= 0;
1921 
1922 			memcpy(buffer + indirectOffset, &command, sizeof(command));
1923 
1924 			if (m_logEnabled)
1925 				m_testCtx.getLog()
1926 					<< tcu::TestLog::Message
1927 					<< "DrawArraysIndirectCommand:\n"
1928 					<< "\tcount: " << command.count << "\n"
1929 					<< "\tprimCount: " << command.primCount << "\n"
1930 					<< "\tfirst: " << command.first << "\n"
1931 					<< "\treservedMustBeZero: " << command.reservedMustBeZero << "\n"
1932 					<< tcu::TestLog::EndMessage;
1933 		}
1934 
1935 		GLuint indirectBuf = 0;
1936 		m_ctx.genBuffers(1, &indirectBuf);
1937 		m_ctx.bindBuffer(GL_DRAW_INDIRECT_BUFFER, indirectBuf);
1938 		m_ctx.bufferData(GL_DRAW_INDIRECT_BUFFER, sizeof(DrawCommand) + indirectOffset, buffer, GL_STATIC_DRAW);
1939 		delete [] buffer;
1940 
1941 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "Setup draw indirect buffer");
1942 
1943 		m_ctx.drawArraysIndirect(primitiveToGL(primitive), (const deInt8*)DE_NULL + indirectOffset);
1944 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawArraysIndirect()");
1945 
1946 		m_ctx.deleteBuffers(1, &indirectBuf);
1947 	}
1948 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWELEMENTS_INDIRECT)
1949 	{
1950 		struct DrawCommand
1951 		{
1952 			GLuint count;
1953 			GLuint primCount;
1954 			GLuint firstIndex;
1955 			GLint  baseVertex;
1956 			GLuint reservedMustBeZero;
1957 		};
1958 		deUint8* buffer = new deUint8[sizeof(DrawCommand) + indirectOffset];
1959 
1960 		{
1961 			DrawCommand command;
1962 
1963 			// index offset must be converted to firstIndex by dividing with the index element size
1964 			DE_ASSERT(((const deUint8*)indexOffset - (const deUint8*)DE_NULL) % gls::DrawTestSpec::indexTypeSize(indexType) == 0); // \note This is checked in spec validation
1965 
1966 			command.count				= vertexCount;
1967 			command.primCount			= instanceCount;
1968 			command.firstIndex			= (glw::GLuint)(((const deUint8*)indexOffset - (const deUint8*)DE_NULL) / gls::DrawTestSpec::indexTypeSize(indexType));
1969 			command.baseVertex			= baseVertex;
1970 			command.reservedMustBeZero	= 0;
1971 
1972 			memcpy(buffer + indirectOffset, &command, sizeof(command));
1973 
1974 			if (m_logEnabled)
1975 				m_testCtx.getLog()
1976 					<< tcu::TestLog::Message
1977 					<< "DrawElementsIndirectCommand:\n"
1978 					<< "\tcount: " << command.count << "\n"
1979 					<< "\tprimCount: " << command.primCount << "\n"
1980 					<< "\tfirstIndex: " << command.firstIndex << "\n"
1981 					<< "\tbaseVertex: " << command.baseVertex << "\n"
1982 					<< "\treservedMustBeZero: " << command.reservedMustBeZero << "\n"
1983 					<< tcu::TestLog::EndMessage;
1984 		}
1985 
1986 		GLuint indirectBuf = 0;
1987 		m_ctx.genBuffers(1, &indirectBuf);
1988 		m_ctx.bindBuffer(GL_DRAW_INDIRECT_BUFFER, indirectBuf);
1989 		m_ctx.bufferData(GL_DRAW_INDIRECT_BUFFER, sizeof(DrawCommand) + indirectOffset, buffer, GL_STATIC_DRAW);
1990 		delete [] buffer;
1991 
1992 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "Setup draw indirect buffer");
1993 
1994 		m_ctx.drawElementsIndirect(primitiveToGL(primitive), indexTypeToGL(indexType), (const deInt8*)DE_NULL + indirectOffset);
1995 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawArraysIndirect()");
1996 
1997 		m_ctx.deleteBuffers(1, &indirectBuf);
1998 	}
1999 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWELEMENTS_BASEVERTEX)
2000 	{
2001 		m_ctx.drawElementsBaseVertex(primitiveToGL(primitive), vertexCount, indexTypeToGL(indexType), indexOffset, baseVertex);
2002 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawElementsBaseVertex()");
2003 	}
2004 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWELEMENTS_INSTANCED_BASEVERTEX)
2005 	{
2006 		m_ctx.drawElementsInstancedBaseVertex(primitiveToGL(primitive), vertexCount, indexTypeToGL(indexType), indexOffset, instanceCount, baseVertex);
2007 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawElementsInstancedBaseVertex()");
2008 	}
2009 	else if (drawMethod == DrawTestSpec::DRAWMETHOD_DRAWELEMENTS_RANGED_BASEVERTEX)
2010 	{
2011 		m_ctx.drawRangeElementsBaseVertex(primitiveToGL(primitive), rangeStart, rangeEnd, vertexCount, indexTypeToGL(indexType), indexOffset, baseVertex);
2012 		GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDrawRangeElementsBaseVertex()");
2013 	}
2014 	else
2015 		DE_ASSERT(DE_FALSE);
2016 
2017 	for (int arrayNdx = 0; arrayNdx < (int)m_arrays.size(); arrayNdx++)
2018 	{
2019 		if (m_arrays[arrayNdx]->isBound())
2020 		{
2021 			std::stringstream attribName;
2022 			attribName << "a_" << arrayNdx;
2023 
2024 			deUint32 loc = m_ctx.getAttribLocation(m_programID, attribName.str().c_str());
2025 
2026 			m_ctx.disableVertexAttribArray(loc);
2027 			GLU_EXPECT_NO_ERROR(m_ctx.getError(), "glDisableVertexAttribArray()");
2028 		}
2029 	}
2030 
2031 	if (m_useVao)
2032 		m_ctx.bindVertexArray(0);
2033 
2034 	m_ctx.useProgram(0);
2035 	m_ctx.readPixels(m_screen, 0, 0, m_screen.getWidth(), m_screen.getHeight());
2036 }
2037 
2038 // DrawTestSpec
2039 
createAttributeArray(InputType inputType,OutputType outputType,Storage storage,Usage usage,int componentCount,int offset,int stride,bool normalize,int instanceDivisor)2040 DrawTestSpec::AttributeSpec	DrawTestSpec::AttributeSpec::createAttributeArray (InputType inputType, OutputType outputType, Storage storage, Usage usage, int componentCount, int offset, int stride, bool normalize, int instanceDivisor)
2041 {
2042 	DrawTestSpec::AttributeSpec spec;
2043 
2044 	spec.inputType			= inputType;
2045 	spec.outputType			= outputType;
2046 	spec.storage			= storage;
2047 	spec.usage				= usage;
2048 	spec.componentCount		= componentCount;
2049 	spec.offset				= offset;
2050 	spec.stride				= stride;
2051 	spec.normalize			= normalize;
2052 	spec.instanceDivisor	= instanceDivisor;
2053 
2054 	spec.useDefaultAttribute= false;
2055 
2056 	return spec;
2057 }
2058 
createDefaultAttribute(InputType inputType,OutputType outputType,int componentCount)2059 DrawTestSpec::AttributeSpec	DrawTestSpec::AttributeSpec::createDefaultAttribute (InputType inputType, OutputType outputType, int componentCount)
2060 {
2061 	DE_ASSERT(inputType == INPUTTYPE_INT || inputType == INPUTTYPE_UNSIGNED_INT || inputType == INPUTTYPE_FLOAT);
2062 	DE_ASSERT(inputType == INPUTTYPE_FLOAT || componentCount == 4);
2063 
2064 	DrawTestSpec::AttributeSpec spec;
2065 
2066 	spec.inputType				= inputType;
2067 	spec.outputType				= outputType;
2068 	spec.storage				= DrawTestSpec::STORAGE_LAST;
2069 	spec.usage					= DrawTestSpec::USAGE_LAST;
2070 	spec.componentCount			= componentCount;
2071 	spec.offset					= 0;
2072 	spec.stride					= 0;
2073 	spec.normalize				= 0;
2074 	spec.instanceDivisor		= 0;
2075 
2076 	spec.useDefaultAttribute	= true;
2077 
2078 	return spec;
2079 }
2080 
AttributeSpec(void)2081 DrawTestSpec::AttributeSpec::AttributeSpec (void)
2082 {
2083 	inputType					= DrawTestSpec::INPUTTYPE_LAST;
2084 	outputType					= DrawTestSpec::OUTPUTTYPE_LAST;
2085 	storage						= DrawTestSpec::STORAGE_LAST;
2086 	usage						= DrawTestSpec::USAGE_LAST;
2087 	componentCount				= 0;
2088 	offset						= 0;
2089 	stride						= 0;
2090 	normalize					= false;
2091 	instanceDivisor				= 0;
2092 	useDefaultAttribute			= false;
2093 	additionalPositionAttribute = false;
2094 	bgraComponentOrder			= false;
2095 }
2096 
hash(void) const2097 int DrawTestSpec::AttributeSpec::hash (void) const
2098 {
2099 	if (useDefaultAttribute)
2100 	{
2101 		return 1 * int(inputType) + 7 * int(outputType) + 13 * componentCount;
2102 	}
2103 	else
2104 	{
2105 		return 1 * int(inputType) + 2 * int(outputType) + 3 * int(storage) + 5 * int(usage) + 7 * componentCount + 11 * offset + 13 * stride + 17 * (normalize ? 0 : 1) + 19 * instanceDivisor;
2106 	}
2107 }
2108 
valid(glu::ApiType ctxType) const2109 bool DrawTestSpec::AttributeSpec::valid (glu::ApiType ctxType) const
2110 {
2111 	const bool inputTypeFloat				= inputType == DrawTestSpec::INPUTTYPE_FLOAT || inputType  == DrawTestSpec::INPUTTYPE_FIXED || inputType == DrawTestSpec::INPUTTYPE_HALF;
2112 	const bool inputTypeUnsignedInteger		= inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE || inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT || inputType  == DrawTestSpec::INPUTTYPE_UNSIGNED_INT || inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10;
2113 	const bool inputTypeSignedInteger		= inputType == DrawTestSpec::INPUTTYPE_BYTE  || inputType == DrawTestSpec::INPUTTYPE_SHORT || inputType == DrawTestSpec::INPUTTYPE_INT || inputType == DrawTestSpec::INPUTTYPE_INT_2_10_10_10;
2114 	const bool inputTypePacked				= inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10 || inputType == DrawTestSpec::INPUTTYPE_INT_2_10_10_10;
2115 
2116 	const bool outputTypeFloat				= outputType == DrawTestSpec::OUTPUTTYPE_FLOAT || outputType == DrawTestSpec::OUTPUTTYPE_VEC2  || outputType == DrawTestSpec::OUTPUTTYPE_VEC3  || outputType == DrawTestSpec::OUTPUTTYPE_VEC4;
2117 	const bool outputTypeSignedInteger		= outputType == DrawTestSpec::OUTPUTTYPE_INT   || outputType == DrawTestSpec::OUTPUTTYPE_IVEC2 || outputType == DrawTestSpec::OUTPUTTYPE_IVEC3 || outputType == DrawTestSpec::OUTPUTTYPE_IVEC4;
2118 	const bool outputTypeUnsignedInteger	= outputType == DrawTestSpec::OUTPUTTYPE_UINT  || outputType == DrawTestSpec::OUTPUTTYPE_UVEC2 || outputType == DrawTestSpec::OUTPUTTYPE_UVEC3 || outputType == DrawTestSpec::OUTPUTTYPE_UVEC4;
2119 
2120 	if (useDefaultAttribute)
2121 	{
2122 		if (inputType != DrawTestSpec::INPUTTYPE_INT && inputType != DrawTestSpec::INPUTTYPE_UNSIGNED_INT && inputType != DrawTestSpec::INPUTTYPE_FLOAT)
2123 			return false;
2124 
2125 		if (inputType != DrawTestSpec::INPUTTYPE_FLOAT && componentCount != 4)
2126 			return false;
2127 
2128 		// no casting allowed (undefined results)
2129 		if (inputType == DrawTestSpec::INPUTTYPE_INT && !outputTypeSignedInteger)
2130 			return false;
2131 		if (inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_INT && !outputTypeUnsignedInteger)
2132 			return false;
2133 	}
2134 
2135 	if (inputTypePacked && componentCount != 4)
2136 		return false;
2137 
2138 	// Invalid conversions:
2139 
2140 	// float -> [u]int
2141 	if (inputTypeFloat && !outputTypeFloat)
2142 		return false;
2143 
2144 	// uint -> int		(undefined results)
2145 	if (inputTypeUnsignedInteger && outputTypeSignedInteger)
2146 		return false;
2147 
2148 	// int -> uint		(undefined results)
2149 	if (inputTypeSignedInteger && outputTypeUnsignedInteger)
2150 		return false;
2151 
2152 	// packed -> non-float (packed formats are converted to floats)
2153 	if (inputTypePacked && !outputTypeFloat)
2154 		return false;
2155 
2156 	// Invalid normalize. Normalize is only valid if output type is float
2157 	if (normalize && !outputTypeFloat)
2158 		return false;
2159 
2160 	// Allow reverse order (GL_BGRA) only for packed and 4-component ubyte
2161 	if (bgraComponentOrder && componentCount != 4)
2162 		return false;
2163 	if (bgraComponentOrder && inputType != DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10 && inputType != DrawTestSpec::INPUTTYPE_INT_2_10_10_10 && inputType != DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE)
2164 		return false;
2165 	if (bgraComponentOrder && normalize != true)
2166 		return false;
2167 
2168 	// GLES2 limits
2169 	if (ctxType == glu::ApiType::es(2,0))
2170 	{
2171 		if (inputType != DrawTestSpec::INPUTTYPE_FLOAT && inputType != DrawTestSpec::INPUTTYPE_FIXED &&
2172 			inputType != DrawTestSpec::INPUTTYPE_BYTE  && inputType != DrawTestSpec::INPUTTYPE_UNSIGNED_BYTE &&
2173 			inputType != DrawTestSpec::INPUTTYPE_SHORT && inputType != DrawTestSpec::INPUTTYPE_UNSIGNED_SHORT)
2174 			return false;
2175 
2176 		if (!outputTypeFloat)
2177 			return false;
2178 
2179 		if (bgraComponentOrder)
2180 			return false;
2181 	}
2182 
2183 	// GLES3 limits
2184 	if (ctxType.getProfile() == glu::PROFILE_ES && ctxType.getMajorVersion() == 3)
2185 	{
2186 		if (bgraComponentOrder)
2187 			return false;
2188 	}
2189 
2190 	// No user pointers in GL core
2191 	if (ctxType.getProfile() == glu::PROFILE_CORE)
2192 	{
2193 		if (!useDefaultAttribute && storage == DrawTestSpec::STORAGE_USER)
2194 			return false;
2195 	}
2196 
2197 	return true;
2198 }
2199 
isBufferAligned(void) const2200 bool DrawTestSpec::AttributeSpec::isBufferAligned (void) const
2201 {
2202 	const bool inputTypePacked = inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10 || inputType == DrawTestSpec::INPUTTYPE_INT_2_10_10_10;
2203 
2204 	// Buffer alignment, offset is a multiple of underlying data type size?
2205 	if (storage == STORAGE_BUFFER)
2206 	{
2207 		int dataTypeSize = gls::DrawTestSpec::inputTypeSize(inputType);
2208 		if (inputTypePacked)
2209 			dataTypeSize = 4;
2210 
2211 		if (offset % dataTypeSize != 0)
2212 			return false;
2213 	}
2214 
2215 	return true;
2216 }
2217 
isBufferStrideAligned(void) const2218 bool DrawTestSpec::AttributeSpec::isBufferStrideAligned (void) const
2219 {
2220 	const bool inputTypePacked = inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10 || inputType == DrawTestSpec::INPUTTYPE_INT_2_10_10_10;
2221 
2222 	// Buffer alignment, offset is a multiple of underlying data type size?
2223 	if (storage == STORAGE_BUFFER)
2224 	{
2225 		int dataTypeSize = gls::DrawTestSpec::inputTypeSize(inputType);
2226 		if (inputTypePacked)
2227 			dataTypeSize = 4;
2228 
2229 		if (stride % dataTypeSize != 0)
2230 			return false;
2231 	}
2232 
2233 	return true;
2234 }
2235 
targetToString(Target target)2236 std::string DrawTestSpec::targetToString(Target target)
2237 {
2238 	static const char* targets[] =
2239 	{
2240 		"element_array",	// TARGET_ELEMENT_ARRAY = 0,
2241 		"array"				// TARGET_ARRAY,
2242 	};
2243 
2244 	return de::getSizedArrayElement<DrawTestSpec::TARGET_LAST>(targets, (int)target);
2245 }
2246 
inputTypeToString(InputType type)2247 std::string DrawTestSpec::inputTypeToString(InputType type)
2248 {
2249 	static const char* types[] =
2250 	{
2251 		"float",			// INPUTTYPE_FLOAT = 0,
2252 		"fixed",			// INPUTTYPE_FIXED,
2253 		"double",			// INPUTTYPE_DOUBLE
2254 
2255 		"byte",				// INPUTTYPE_BYTE,
2256 		"short",			// INPUTTYPE_SHORT,
2257 
2258 		"unsigned_byte",	// INPUTTYPE_UNSIGNED_BYTE,
2259 		"unsigned_short",	// INPUTTYPE_UNSIGNED_SHORT,
2260 
2261 		"int",						// INPUTTYPE_INT,
2262 		"unsigned_int",				// INPUTTYPE_UNSIGNED_INT,
2263 		"half",						// INPUTTYPE_HALF,
2264 		"unsigned_int2_10_10_10",	// INPUTTYPE_UNSIGNED_INT_2_10_10_10,
2265 		"int2_10_10_10"				// INPUTTYPE_INT_2_10_10_10,
2266 	};
2267 
2268 	return de::getSizedArrayElement<DrawTestSpec::INPUTTYPE_LAST>(types, (int)type);
2269 }
2270 
outputTypeToString(OutputType type)2271 std::string DrawTestSpec::outputTypeToString(OutputType type)
2272 {
2273 	static const char* types[] =
2274 	{
2275 		"float",		// OUTPUTTYPE_FLOAT = 0,
2276 		"vec2",			// OUTPUTTYPE_VEC2,
2277 		"vec3",			// OUTPUTTYPE_VEC3,
2278 		"vec4",			// OUTPUTTYPE_VEC4,
2279 
2280 		"int",			// OUTPUTTYPE_INT,
2281 		"uint",			// OUTPUTTYPE_UINT,
2282 
2283 		"ivec2",		// OUTPUTTYPE_IVEC2,
2284 		"ivec3",		// OUTPUTTYPE_IVEC3,
2285 		"ivec4",		// OUTPUTTYPE_IVEC4,
2286 
2287 		"uvec2",		// OUTPUTTYPE_UVEC2,
2288 		"uvec3",		// OUTPUTTYPE_UVEC3,
2289 		"uvec4",		// OUTPUTTYPE_UVEC4,
2290 	};
2291 
2292 	return de::getSizedArrayElement<DrawTestSpec::OUTPUTTYPE_LAST>(types, (int)type);
2293 }
2294 
usageTypeToString(Usage usage)2295 std::string DrawTestSpec::usageTypeToString(Usage usage)
2296 {
2297 	static const char* usages[] =
2298 	{
2299 		"dynamic_draw",	// USAGE_DYNAMIC_DRAW = 0,
2300 		"static_draw",	// USAGE_STATIC_DRAW,
2301 		"stream_draw",	// USAGE_STREAM_DRAW,
2302 
2303 		"stream_read",	// USAGE_STREAM_READ,
2304 		"stream_copy",	// USAGE_STREAM_COPY,
2305 
2306 		"static_read",	// USAGE_STATIC_READ,
2307 		"static_copy",	// USAGE_STATIC_COPY,
2308 
2309 		"dynamic_read",	// USAGE_DYNAMIC_READ,
2310 		"dynamic_copy",	// USAGE_DYNAMIC_COPY,
2311 	};
2312 
2313 	return de::getSizedArrayElement<DrawTestSpec::USAGE_LAST>(usages, (int)usage);
2314 }
2315 
storageToString(Storage storage)2316 std::string	DrawTestSpec::storageToString (Storage storage)
2317 {
2318 	static const char* storages[] =
2319 	{
2320 		"user_ptr",	// STORAGE_USER = 0,
2321 		"buffer"	// STORAGE_BUFFER,
2322 	};
2323 
2324 	return de::getSizedArrayElement<DrawTestSpec::STORAGE_LAST>(storages, (int)storage);
2325 }
2326 
primitiveToString(Primitive primitive)2327 std::string DrawTestSpec::primitiveToString (Primitive primitive)
2328 {
2329 	static const char* primitives[] =
2330 	{
2331 		"points",					// PRIMITIVE_POINTS ,
2332 		"triangles",				// PRIMITIVE_TRIANGLES,
2333 		"triangle_fan",				// PRIMITIVE_TRIANGLE_FAN,
2334 		"triangle_strip",			// PRIMITIVE_TRIANGLE_STRIP,
2335 		"lines",					// PRIMITIVE_LINES
2336 		"line_strip",				// PRIMITIVE_LINE_STRIP
2337 		"line_loop",				// PRIMITIVE_LINE_LOOP
2338 		"lines_adjacency",			// PRIMITIVE_LINES_ADJACENCY
2339 		"line_strip_adjacency",		// PRIMITIVE_LINE_STRIP_ADJACENCY
2340 		"triangles_adjacency",		// PRIMITIVE_TRIANGLES_ADJACENCY
2341 		"triangle_strip_adjacency",	// PRIMITIVE_TRIANGLE_STRIP_ADJACENCY
2342 	};
2343 
2344 	return de::getSizedArrayElement<DrawTestSpec::PRIMITIVE_LAST>(primitives, (int)primitive);
2345 }
2346 
indexTypeToString(IndexType type)2347 std::string DrawTestSpec::indexTypeToString (IndexType type)
2348 {
2349 	static const char* indexTypes[] =
2350 	{
2351 		"byte",		// INDEXTYPE_BYTE = 0,
2352 		"short",	// INDEXTYPE_SHORT,
2353 		"int",		// INDEXTYPE_INT,
2354 	};
2355 
2356 	return de::getSizedArrayElement<DrawTestSpec::INDEXTYPE_LAST>(indexTypes, (int)type);
2357 }
2358 
drawMethodToString(DrawTestSpec::DrawMethod method)2359 std::string DrawTestSpec::drawMethodToString (DrawTestSpec::DrawMethod method)
2360 {
2361 	static const char* methods[] =
2362 	{
2363 		"draw_arrays",							//!< DRAWMETHOD_DRAWARRAYS
2364 		"draw_arrays_instanced",				//!< DRAWMETHOD_DRAWARRAYS_INSTANCED
2365 		"draw_arrays_indirect",					//!< DRAWMETHOD_DRAWARRAYS_INDIRECT
2366 		"draw_elements",						//!< DRAWMETHOD_DRAWELEMENTS
2367 		"draw_range_elements",					//!< DRAWMETHOD_DRAWELEMENTS_RANGED
2368 		"draw_elements_instanced",				//!< DRAWMETHOD_DRAWELEMENTS_INSTANCED
2369 		"draw_elements_indirect",				//!< DRAWMETHOD_DRAWELEMENTS_INDIRECT
2370 		"draw_elements_base_vertex",			//!< DRAWMETHOD_DRAWELEMENTS_BASEVERTEX,
2371 		"draw_elements_instanced_base_vertex",	//!< DRAWMETHOD_DRAWELEMENTS_INSTANCED_BASEVERTEX,
2372 		"draw_range_elements_base_vertex",		//!< DRAWMETHOD_DRAWELEMENTS_RANGED_BASEVERTEX,
2373 	};
2374 
2375 	return de::getSizedArrayElement<DrawTestSpec::DRAWMETHOD_LAST>(methods, (int)method);
2376 }
2377 
inputTypeSize(InputType type)2378 int DrawTestSpec::inputTypeSize (InputType type)
2379 {
2380 	static const int size[] =
2381 	{
2382 		(int)sizeof(float),			// INPUTTYPE_FLOAT = 0,
2383 		(int)sizeof(deInt32),		// INPUTTYPE_FIXED,
2384 		(int)sizeof(double),		// INPUTTYPE_DOUBLE
2385 
2386 		(int)sizeof(deInt8),		// INPUTTYPE_BYTE,
2387 		(int)sizeof(deInt16),		// INPUTTYPE_SHORT,
2388 
2389 		(int)sizeof(deUint8),		// INPUTTYPE_UNSIGNED_BYTE,
2390 		(int)sizeof(deUint16),		// INPUTTYPE_UNSIGNED_SHORT,
2391 
2392 		(int)sizeof(deInt32),		// INPUTTYPE_INT,
2393 		(int)sizeof(deUint32),		// INPUTTYPE_UNSIGNED_INT,
2394 		(int)sizeof(deFloat16),		// INPUTTYPE_HALF,
2395 		(int)sizeof(deUint32) / 4,	// INPUTTYPE_UNSIGNED_INT_2_10_10_10,
2396 		(int)sizeof(deUint32) / 4	// INPUTTYPE_INT_2_10_10_10,
2397 	};
2398 
2399 	return de::getSizedArrayElement<DrawTestSpec::INPUTTYPE_LAST>(size, (int)type);
2400 }
2401 
indexTypeSize(IndexType type)2402 int DrawTestSpec::indexTypeSize (IndexType type)
2403 {
2404 	static const int size[] =
2405 	{
2406 		sizeof(deUint8),	// INDEXTYPE_BYTE,
2407 		sizeof(deUint16),	// INDEXTYPE_SHORT,
2408 		sizeof(deUint32),	// INDEXTYPE_INT,
2409 	};
2410 
2411 	return de::getSizedArrayElement<DrawTestSpec::INDEXTYPE_LAST>(size, (int)type);
2412 }
2413 
getName(void) const2414 std::string DrawTestSpec::getName (void) const
2415 {
2416 	const MethodInfo	methodInfo	= getMethodInfo(drawMethod);
2417 	const bool			hasFirst	= methodInfo.first;
2418 	const bool			instanced	= methodInfo.instanced;
2419 	const bool			ranged		= methodInfo.ranged;
2420 	const bool			indexed		= methodInfo.indexed;
2421 
2422 	std::stringstream name;
2423 
2424 	for (size_t ndx = 0; ndx < attribs.size(); ++ndx)
2425 	{
2426 		const AttributeSpec& attrib = attribs[ndx];
2427 
2428 		if (attribs.size() > 1)
2429 			name << "attrib" << ndx << "_";
2430 
2431 		if (ndx == 0|| attrib.additionalPositionAttribute)
2432 			name << "pos_";
2433 		else
2434 			name << "col_";
2435 
2436 		if (attrib.useDefaultAttribute)
2437 		{
2438 			name
2439 				<< "non_array_"
2440 				<< DrawTestSpec::inputTypeToString((DrawTestSpec::InputType)attrib.inputType) << "_"
2441 				<< attrib.componentCount << "_"
2442 				<< DrawTestSpec::outputTypeToString(attrib.outputType) << "_";
2443 		}
2444 		else
2445 		{
2446 			name
2447 				<< DrawTestSpec::storageToString(attrib.storage) << "_"
2448 				<< attrib.offset << "_"
2449 				<< attrib.stride << "_"
2450 				<< DrawTestSpec::inputTypeToString((DrawTestSpec::InputType)attrib.inputType);
2451 			if (attrib.inputType != DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10 && attrib.inputType != DrawTestSpec::INPUTTYPE_INT_2_10_10_10)
2452 				name << attrib.componentCount;
2453 			name
2454 				<< "_"
2455 				<< (attrib.normalize ? "normalized_" : "")
2456 				<< DrawTestSpec::outputTypeToString(attrib.outputType) << "_"
2457 				<< DrawTestSpec::usageTypeToString(attrib.usage) << "_"
2458 				<< attrib.instanceDivisor << "_";
2459 		}
2460 	}
2461 
2462 	if (indexed)
2463 		name
2464 			<< "index_" << DrawTestSpec::indexTypeToString(indexType) << "_"
2465 			<< DrawTestSpec::storageToString(indexStorage) << "_"
2466 			<< "offset" << indexPointerOffset << "_";
2467 	if (hasFirst)
2468 		name << "first" << first << "_";
2469 	if (ranged)
2470 		name << "ranged_" << indexMin << "_" << indexMax << "_";
2471 	if (instanced)
2472 		name << "instances" << instanceCount << "_";
2473 
2474 	switch (primitive)
2475 	{
2476 		case DrawTestSpec::PRIMITIVE_POINTS:
2477 			name << "points_";
2478 			break;
2479 		case DrawTestSpec::PRIMITIVE_TRIANGLES:
2480 			name << "triangles_";
2481 			break;
2482 		case DrawTestSpec::PRIMITIVE_TRIANGLE_FAN:
2483 			name << "triangle_fan_";
2484 			break;
2485 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP:
2486 			name << "triangle_strip_";
2487 			break;
2488 		case DrawTestSpec::PRIMITIVE_LINES:
2489 			name << "lines_";
2490 			break;
2491 		case DrawTestSpec::PRIMITIVE_LINE_STRIP:
2492 			name << "line_strip_";
2493 			break;
2494 		case DrawTestSpec::PRIMITIVE_LINE_LOOP:
2495 			name << "line_loop_";
2496 			break;
2497 		case DrawTestSpec::PRIMITIVE_LINES_ADJACENCY:
2498 			name << "line_adjancency";
2499 			break;
2500 		case DrawTestSpec::PRIMITIVE_LINE_STRIP_ADJACENCY:
2501 			name << "line_strip_adjancency";
2502 			break;
2503 		case DrawTestSpec::PRIMITIVE_TRIANGLES_ADJACENCY:
2504 			name << "triangles_adjancency";
2505 			break;
2506 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP_ADJACENCY:
2507 			name << "triangle_strip_adjancency";
2508 			break;
2509 		default:
2510 			DE_ASSERT(false);
2511 			break;
2512 	}
2513 
2514 	name << primitiveCount;
2515 
2516 	return name.str();
2517 }
2518 
getDesc(void) const2519 std::string DrawTestSpec::getDesc (void) const
2520 {
2521 	std::stringstream desc;
2522 
2523 	for (size_t ndx = 0; ndx < attribs.size(); ++ndx)
2524 	{
2525 		const AttributeSpec& attrib = attribs[ndx];
2526 
2527 		if (attrib.useDefaultAttribute)
2528 		{
2529 			desc
2530 				<< "Attribute " << ndx << ": default, " << ((ndx == 0|| attrib.additionalPositionAttribute) ? ("position ,") : ("color ,"))
2531 				<< "input datatype " << DrawTestSpec::inputTypeToString((DrawTestSpec::InputType)attrib.inputType) << ", "
2532 				<< "input component count " << attrib.componentCount << ", "
2533 				<< "used as " << DrawTestSpec::outputTypeToString(attrib.outputType) << ", ";
2534 		}
2535 		else
2536 		{
2537 			desc
2538 				<< "Attribute " << ndx << ": " << ((ndx == 0|| attrib.additionalPositionAttribute) ? ("position ,") : ("color ,"))
2539 				<< "Storage in " << DrawTestSpec::storageToString(attrib.storage) << ", "
2540 				<< "stride " << attrib.stride << ", "
2541 				<< "input datatype " << DrawTestSpec::inputTypeToString((DrawTestSpec::InputType)attrib.inputType) << ", "
2542 				<< "input component count " << attrib.componentCount << ", "
2543 				<< (attrib.normalize ? "normalized, " : "")
2544 				<< "used as " << DrawTestSpec::outputTypeToString(attrib.outputType) << ", "
2545 				<< "instance divisor " << attrib.instanceDivisor << ", ";
2546 		}
2547 	}
2548 
2549 	if (drawMethod == DRAWMETHOD_DRAWARRAYS)
2550 	{
2551 		desc
2552 			<< "drawArrays(), "
2553 			<< "first " << first << ", ";
2554 	}
2555 	else if (drawMethod == DRAWMETHOD_DRAWARRAYS_INSTANCED)
2556 	{
2557 		desc
2558 			<< "drawArraysInstanced(), "
2559 			<< "first " << first << ", "
2560 			<< "instance count " << instanceCount << ", ";
2561 	}
2562 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS)
2563 	{
2564 		desc
2565 			<< "drawElements(), "
2566 			<< "index type " << DrawTestSpec::indexTypeToString(indexType) << ", "
2567 			<< "index storage in " << DrawTestSpec::storageToString(indexStorage) << ", "
2568 			<< "index offset " << indexPointerOffset << ", ";
2569 	}
2570 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_RANGED)
2571 	{
2572 		desc
2573 			<< "drawElementsRanged(), "
2574 			<< "index type " << DrawTestSpec::indexTypeToString(indexType) << ", "
2575 			<< "index storage in " << DrawTestSpec::storageToString(indexStorage) << ", "
2576 			<< "index offset " << indexPointerOffset << ", "
2577 			<< "range start " << indexMin << ", "
2578 			<< "range end " << indexMax << ", ";
2579 	}
2580 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_INSTANCED)
2581 	{
2582 		desc
2583 			<< "drawElementsInstanced(), "
2584 			<< "index type " << DrawTestSpec::indexTypeToString(indexType) << ", "
2585 			<< "index storage in " << DrawTestSpec::storageToString(indexStorage) << ", "
2586 			<< "index offset " << indexPointerOffset << ", "
2587 			<< "instance count " << instanceCount << ", ";
2588 	}
2589 	else if (drawMethod == DRAWMETHOD_DRAWARRAYS_INDIRECT)
2590 	{
2591 		desc
2592 			<< "drawArraysIndirect(), "
2593 			<< "first " << first << ", "
2594 			<< "instance count " << instanceCount << ", "
2595 			<< "indirect offset " << indirectOffset << ", ";
2596 	}
2597 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_INDIRECT)
2598 	{
2599 		desc
2600 			<< "drawElementsIndirect(), "
2601 			<< "index type " << DrawTestSpec::indexTypeToString(indexType) << ", "
2602 			<< "index storage in " << DrawTestSpec::storageToString(indexStorage) << ", "
2603 			<< "index offset " << indexPointerOffset << ", "
2604 			<< "instance count " << instanceCount << ", "
2605 			<< "indirect offset " << indirectOffset << ", "
2606 			<< "base vertex " << baseVertex << ", ";
2607 	}
2608 	else
2609 		DE_ASSERT(DE_FALSE);
2610 
2611 	desc << primitiveCount;
2612 
2613 	switch (primitive)
2614 	{
2615 		case DrawTestSpec::PRIMITIVE_POINTS:
2616 			desc << "points";
2617 			break;
2618 		case DrawTestSpec::PRIMITIVE_TRIANGLES:
2619 			desc << "triangles";
2620 			break;
2621 		case DrawTestSpec::PRIMITIVE_TRIANGLE_FAN:
2622 			desc << "triangles (fan)";
2623 			break;
2624 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP:
2625 			desc << "triangles (strip)";
2626 			break;
2627 		case DrawTestSpec::PRIMITIVE_LINES:
2628 			desc << "lines";
2629 			break;
2630 		case DrawTestSpec::PRIMITIVE_LINE_STRIP:
2631 			desc << "lines (strip)";
2632 			break;
2633 		case DrawTestSpec::PRIMITIVE_LINE_LOOP:
2634 			desc << "lines (loop)";
2635 			break;
2636 		case DrawTestSpec::PRIMITIVE_LINES_ADJACENCY:
2637 			desc << "lines (adjancency)";
2638 			break;
2639 		case DrawTestSpec::PRIMITIVE_LINE_STRIP_ADJACENCY:
2640 			desc << "lines (strip, adjancency)";
2641 			break;
2642 		case DrawTestSpec::PRIMITIVE_TRIANGLES_ADJACENCY:
2643 			desc << "triangles (adjancency)";
2644 			break;
2645 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP_ADJACENCY:
2646 			desc << "triangles (strip, adjancency)";
2647 			break;
2648 		default:
2649 			DE_ASSERT(false);
2650 			break;
2651 	}
2652 
2653 	return desc.str();
2654 }
2655 
getMultilineDesc(void) const2656 std::string DrawTestSpec::getMultilineDesc (void) const
2657 {
2658 	std::stringstream desc;
2659 
2660 	for (size_t ndx = 0; ndx < attribs.size(); ++ndx)
2661 	{
2662 		const AttributeSpec& attrib = attribs[ndx];
2663 
2664 		if (attrib.useDefaultAttribute)
2665 		{
2666 			desc
2667 				<< "Attribute " << ndx << ": default, " << ((ndx == 0|| attrib.additionalPositionAttribute) ? ("position\n") : ("color\n"))
2668 				<< "\tinput datatype " << DrawTestSpec::inputTypeToString((DrawTestSpec::InputType)attrib.inputType) << "\n"
2669 				<< "\tinput component count " << attrib.componentCount << "\n"
2670 				<< "\tused as " << DrawTestSpec::outputTypeToString(attrib.outputType) << "\n";
2671 		}
2672 		else
2673 		{
2674 			desc
2675 				<< "Attribute " << ndx << ": " << ((ndx == 0|| attrib.additionalPositionAttribute) ? ("position\n") : ("color\n"))
2676 				<< "\tStorage in " << DrawTestSpec::storageToString(attrib.storage) << "\n"
2677 				<< "\tstride " << attrib.stride << "\n"
2678 				<< "\tinput datatype " << DrawTestSpec::inputTypeToString((DrawTestSpec::InputType)attrib.inputType) << "\n"
2679 				<< "\tinput component count " << attrib.componentCount << "\n"
2680 				<< (attrib.normalize ? "\tnormalized\n" : "")
2681 				<< "\tused as " << DrawTestSpec::outputTypeToString(attrib.outputType) << "\n"
2682 				<< "\tinstance divisor " << attrib.instanceDivisor << "\n";
2683 		}
2684 	}
2685 
2686 	if (drawMethod == DRAWMETHOD_DRAWARRAYS)
2687 	{
2688 		desc
2689 			<< "drawArrays()\n"
2690 			<< "\tfirst " << first << "\n";
2691 	}
2692 	else if (drawMethod == DRAWMETHOD_DRAWARRAYS_INSTANCED)
2693 	{
2694 		desc
2695 			<< "drawArraysInstanced()\n"
2696 			<< "\tfirst " << first << "\n"
2697 			<< "\tinstance count " << instanceCount << "\n";
2698 	}
2699 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS)
2700 	{
2701 		desc
2702 			<< "drawElements()\n"
2703 			<< "\tindex type " << DrawTestSpec::indexTypeToString(indexType) << "\n"
2704 			<< "\tindex storage in " << DrawTestSpec::storageToString(indexStorage) << "\n"
2705 			<< "\tindex offset " << indexPointerOffset << "\n";
2706 	}
2707 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_RANGED)
2708 	{
2709 		desc
2710 			<< "drawElementsRanged()\n"
2711 			<< "\tindex type " << DrawTestSpec::indexTypeToString(indexType) << "\n"
2712 			<< "\tindex storage in " << DrawTestSpec::storageToString(indexStorage) << "\n"
2713 			<< "\tindex offset " << indexPointerOffset << "\n"
2714 			<< "\trange start " << indexMin << "\n"
2715 			<< "\trange end " << indexMax << "\n";
2716 	}
2717 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_INSTANCED)
2718 	{
2719 		desc
2720 			<< "drawElementsInstanced()\n"
2721 			<< "\tindex type " << DrawTestSpec::indexTypeToString(indexType) << "\n"
2722 			<< "\tindex storage in " << DrawTestSpec::storageToString(indexStorage) << "\n"
2723 			<< "\tindex offset " << indexPointerOffset << "\n"
2724 			<< "\tinstance count " << instanceCount << "\n";
2725 	}
2726 	else if (drawMethod == DRAWMETHOD_DRAWARRAYS_INDIRECT)
2727 	{
2728 		desc
2729 			<< "drawArraysIndirect()\n"
2730 			<< "\tfirst " << first << "\n"
2731 			<< "\tinstance count " << instanceCount << "\n"
2732 			<< "\tindirect offset " << indirectOffset << "\n";
2733 	}
2734 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_INDIRECT)
2735 	{
2736 		desc
2737 			<< "drawElementsIndirect()\n"
2738 			<< "\tindex type " << DrawTestSpec::indexTypeToString(indexType) << "\n"
2739 			<< "\tindex storage in " << DrawTestSpec::storageToString(indexStorage) << "\n"
2740 			<< "\tindex offset " << indexPointerOffset << "\n"
2741 			<< "\tinstance count " << instanceCount << "\n"
2742 			<< "\tindirect offset " << indirectOffset << "\n"
2743 			<< "\tbase vertex " << baseVertex << "\n";
2744 	}
2745 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_BASEVERTEX)
2746 	{
2747 		desc
2748 			<< "drawElementsBaseVertex()\n"
2749 			<< "\tindex type " << DrawTestSpec::indexTypeToString(indexType) << "\n"
2750 			<< "\tindex storage in " << DrawTestSpec::storageToString(indexStorage) << "\n"
2751 			<< "\tindex offset " << indexPointerOffset << "\n"
2752 			<< "\tbase vertex " << baseVertex << "\n";
2753 	}
2754 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_INSTANCED_BASEVERTEX)
2755 	{
2756 		desc
2757 			<< "drawElementsInstancedBaseVertex()\n"
2758 			<< "\tindex type " << DrawTestSpec::indexTypeToString(indexType) << "\n"
2759 			<< "\tindex storage in " << DrawTestSpec::storageToString(indexStorage) << "\n"
2760 			<< "\tindex offset " << indexPointerOffset << "\n"
2761 			<< "\tinstance count " << instanceCount << "\n"
2762 			<< "\tbase vertex " << baseVertex << "\n";
2763 	}
2764 	else if (drawMethod == DRAWMETHOD_DRAWELEMENTS_RANGED_BASEVERTEX)
2765 	{
2766 		desc
2767 			<< "drawRangeElementsBaseVertex()\n"
2768 			<< "\tindex type " << DrawTestSpec::indexTypeToString(indexType) << "\n"
2769 			<< "\tindex storage in " << DrawTestSpec::storageToString(indexStorage) << "\n"
2770 			<< "\tindex offset " << indexPointerOffset << "\n"
2771 			<< "\tbase vertex " << baseVertex << "\n"
2772 			<< "\trange start " << indexMin << "\n"
2773 			<< "\trange end " << indexMax << "\n";
2774 	}
2775 	else
2776 		DE_ASSERT(DE_FALSE);
2777 
2778 	desc << "\t" << primitiveCount << " ";
2779 
2780 	switch (primitive)
2781 	{
2782 		case DrawTestSpec::PRIMITIVE_POINTS:
2783 			desc << "points";
2784 			break;
2785 		case DrawTestSpec::PRIMITIVE_TRIANGLES:
2786 			desc << "triangles";
2787 			break;
2788 		case DrawTestSpec::PRIMITIVE_TRIANGLE_FAN:
2789 			desc << "triangles (fan)";
2790 			break;
2791 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP:
2792 			desc << "triangles (strip)";
2793 			break;
2794 		case DrawTestSpec::PRIMITIVE_LINES:
2795 			desc << "lines";
2796 			break;
2797 		case DrawTestSpec::PRIMITIVE_LINE_STRIP:
2798 			desc << "lines (strip)";
2799 			break;
2800 		case DrawTestSpec::PRIMITIVE_LINE_LOOP:
2801 			desc << "lines (loop)";
2802 			break;
2803 		case DrawTestSpec::PRIMITIVE_LINES_ADJACENCY:
2804 			desc << "lines (adjancency)";
2805 			break;
2806 		case DrawTestSpec::PRIMITIVE_LINE_STRIP_ADJACENCY:
2807 			desc << "lines (strip, adjancency)";
2808 			break;
2809 		case DrawTestSpec::PRIMITIVE_TRIANGLES_ADJACENCY:
2810 			desc << "triangles (adjancency)";
2811 			break;
2812 		case DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP_ADJACENCY:
2813 			desc << "triangles (strip, adjancency)";
2814 			break;
2815 		default:
2816 			DE_ASSERT(false);
2817 			break;
2818 	}
2819 
2820 	desc << "\n";
2821 
2822 	return desc.str();
2823 }
2824 
DrawTestSpec(void)2825 DrawTestSpec::DrawTestSpec (void)
2826 {
2827 	primitive			= PRIMITIVE_LAST;
2828 	primitiveCount		= 0;
2829 	drawMethod			= DRAWMETHOD_LAST;
2830 	indexType			= INDEXTYPE_LAST;
2831 	indexPointerOffset	= 0;
2832 	indexStorage		= STORAGE_LAST;
2833 	first				= 0;
2834 	indexMin			= 0;
2835 	indexMax			= 0;
2836 	instanceCount		= 0;
2837 	indirectOffset		= 0;
2838 	baseVertex			= 0;
2839 }
2840 
hash(void) const2841 int DrawTestSpec::hash (void) const
2842 {
2843 	// Use only drawmode-relevant values in "hashing" as the unrelevant values might not be set (causing non-deterministic behavior).
2844 	const MethodInfo	methodInfo		= getMethodInfo(drawMethod);
2845 	const bool			arrayed			= methodInfo.first;
2846 	const bool			instanced		= methodInfo.instanced;
2847 	const bool			ranged			= methodInfo.ranged;
2848 	const bool			indexed			= methodInfo.indexed;
2849 	const bool			indirect		= methodInfo.indirect;
2850 	const bool			hasBaseVtx		= methodInfo.baseVertex;
2851 
2852 	const int			indexHash		= (!indexed)	? (0) : (int(indexType) + 10 * indexPointerOffset + 100 * int(indexStorage));
2853 	const int			arrayHash		= (!arrayed)	? (0) : (first);
2854 	const int			indexRangeHash	= (!ranged)		? (0) : (indexMin + 10 * indexMax);
2855 	const int			instanceHash	= (!instanced)	? (0) : (instanceCount);
2856 	const int			indirectHash	= (!indirect)	? (0) : (indirectOffset);
2857 	const int			baseVtxHash		= (!hasBaseVtx)	? (0) : (baseVertex);
2858 	const int			basicHash		= int(primitive) + 10 * primitiveCount + 100 * int(drawMethod);
2859 
2860 	return indexHash + 3 * arrayHash + 5 * indexRangeHash + 7 * instanceHash + 13 * basicHash + 17 * (int)attribs.size() + 19 * primitiveCount + 23 * indirectHash + 27 * baseVtxHash;
2861 }
2862 
valid(void) const2863 bool DrawTestSpec::valid (void) const
2864 {
2865 	DE_ASSERT(apiType.getProfile() != glu::PROFILE_LAST);
2866 	DE_ASSERT(primitive != PRIMITIVE_LAST);
2867 	DE_ASSERT(drawMethod != DRAWMETHOD_LAST);
2868 
2869 	const MethodInfo methodInfo = getMethodInfo(drawMethod);
2870 
2871 	for (int ndx = 0; ndx < (int)attribs.size(); ++ndx)
2872 		if (!attribs[ndx].valid(apiType))
2873 			return false;
2874 
2875 	if (methodInfo.ranged)
2876 	{
2877 		deUint32 maxIndexValue = 0;
2878 		if (indexType == INDEXTYPE_BYTE)
2879 			maxIndexValue = GLValue::getMaxValue(INPUTTYPE_UNSIGNED_BYTE).ub.getValue();
2880 		else if (indexType == INDEXTYPE_SHORT)
2881 			maxIndexValue = GLValue::getMaxValue(INPUTTYPE_UNSIGNED_SHORT).us.getValue();
2882 		else if (indexType == INDEXTYPE_INT)
2883 			maxIndexValue = GLValue::getMaxValue(INPUTTYPE_UNSIGNED_INT).ui.getValue();
2884 		else
2885 			DE_ASSERT(DE_FALSE);
2886 
2887 		if (indexMin > indexMax)
2888 			return false;
2889 		if (indexMin < 0 || indexMax < 0)
2890 			return false;
2891 		if ((deUint32)indexMin > maxIndexValue || (deUint32)indexMax > maxIndexValue)
2892 			return false;
2893 	}
2894 
2895 	if (methodInfo.first && first < 0)
2896 		return false;
2897 
2898 	// GLES2 limits
2899 	if (apiType == glu::ApiType::es(2,0))
2900 	{
2901 		if (drawMethod != gls::DrawTestSpec::DRAWMETHOD_DRAWARRAYS && drawMethod != gls::DrawTestSpec::DRAWMETHOD_DRAWELEMENTS)
2902 			return false;
2903 		if (drawMethod == gls::DrawTestSpec::DRAWMETHOD_DRAWELEMENTS && (indexType != INDEXTYPE_BYTE && indexType != INDEXTYPE_SHORT))
2904 			return false;
2905 	}
2906 
2907 	// Indirect limitations
2908 	if (methodInfo.indirect)
2909 	{
2910 		// Indirect offset alignment
2911 		if (indirectOffset % 4 != 0)
2912 			return false;
2913 
2914 		// All attribute arrays must be stored in a buffer
2915 		for (int ndx = 0; ndx < (int)attribs.size(); ++ndx)
2916 			if (!attribs[ndx].useDefaultAttribute && attribs[ndx].storage == gls::DrawTestSpec::STORAGE_USER)
2917 				return false;
2918 	}
2919 	if (drawMethod == DRAWMETHOD_DRAWELEMENTS_INDIRECT)
2920 	{
2921 		// index offset must be convertable to firstIndex
2922 		if (indexPointerOffset % gls::DrawTestSpec::indexTypeSize(indexType) != 0)
2923 			return false;
2924 
2925 		// Indices must be in a buffer
2926 		if (indexStorage != STORAGE_BUFFER)
2927 			return false;
2928 	}
2929 
2930 	// Do not allow user pointer in GL core
2931 	if (apiType.getProfile() == glu::PROFILE_CORE)
2932 	{
2933 		if (methodInfo.indexed && indexStorage == DrawTestSpec::STORAGE_USER)
2934 			return false;
2935 	}
2936 
2937 	return true;
2938 }
2939 
isCompatibilityTest(void) const2940 DrawTestSpec::CompatibilityTestType DrawTestSpec::isCompatibilityTest (void) const
2941 {
2942 	const MethodInfo methodInfo = getMethodInfo(drawMethod);
2943 
2944 	bool bufferAlignmentBad = false;
2945 	bool strideAlignmentBad = false;
2946 
2947 	// Attribute buffer alignment
2948 	for (int ndx = 0; ndx < (int)attribs.size(); ++ndx)
2949 		if (!attribs[ndx].isBufferAligned())
2950 			bufferAlignmentBad = true;
2951 
2952 	// Attribute stride alignment
2953 	for (int ndx = 0; ndx < (int)attribs.size(); ++ndx)
2954 		if (!attribs[ndx].isBufferStrideAligned())
2955 			strideAlignmentBad = true;
2956 
2957 	// Index buffer alignment
2958 	if (methodInfo.indexed)
2959 	{
2960 		if (indexStorage == STORAGE_BUFFER)
2961 		{
2962 			int indexSize = 0;
2963 			if (indexType == INDEXTYPE_BYTE)
2964 				indexSize = 1;
2965 			else if (indexType == INDEXTYPE_SHORT)
2966 				indexSize = 2;
2967 			else if (indexType == INDEXTYPE_INT)
2968 				indexSize = 4;
2969 			else
2970 				DE_ASSERT(DE_FALSE);
2971 
2972 			if (indexPointerOffset % indexSize != 0)
2973 				bufferAlignmentBad = true;
2974 		}
2975 	}
2976 
2977 	// \note combination bad alignment & stride is treated as bad offset
2978 	if (bufferAlignmentBad)
2979 		return COMPATIBILITY_UNALIGNED_OFFSET;
2980 	else if (strideAlignmentBad)
2981 		return COMPATIBILITY_UNALIGNED_STRIDE;
2982 	else
2983 		return COMPATIBILITY_NONE;
2984 }
2985 
2986 enum PrimitiveClass
2987 {
2988 	PRIMITIVECLASS_POINT = 0,
2989 	PRIMITIVECLASS_LINE,
2990 	PRIMITIVECLASS_TRIANGLE,
2991 
2992 	PRIMITIVECLASS_LAST
2993 };
2994 
getDrawPrimitiveClass(gls::DrawTestSpec::Primitive primitiveType)2995 static PrimitiveClass getDrawPrimitiveClass (gls::DrawTestSpec::Primitive primitiveType)
2996 {
2997 	switch (primitiveType)
2998 	{
2999 		case gls::DrawTestSpec::PRIMITIVE_POINTS:
3000 			return PRIMITIVECLASS_POINT;
3001 
3002 		case gls::DrawTestSpec::PRIMITIVE_LINES:
3003 		case gls::DrawTestSpec::PRIMITIVE_LINE_STRIP:
3004 		case gls::DrawTestSpec::PRIMITIVE_LINE_LOOP:
3005 		case gls::DrawTestSpec::PRIMITIVE_LINES_ADJACENCY:
3006 		case gls::DrawTestSpec::PRIMITIVE_LINE_STRIP_ADJACENCY:
3007 			return PRIMITIVECLASS_LINE;
3008 
3009 		case gls::DrawTestSpec::PRIMITIVE_TRIANGLES:
3010 		case gls::DrawTestSpec::PRIMITIVE_TRIANGLE_FAN:
3011 		case gls::DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP:
3012 		case gls::DrawTestSpec::PRIMITIVE_TRIANGLES_ADJACENCY:
3013 		case gls::DrawTestSpec::PRIMITIVE_TRIANGLE_STRIP_ADJACENCY:
3014 			return PRIMITIVECLASS_TRIANGLE;
3015 
3016 		default:
3017 			DE_ASSERT(false);
3018 			return PRIMITIVECLASS_LAST;
3019 	}
3020 }
3021 
containsLineCases(const std::vector<DrawTestSpec> & m_specs)3022 static bool containsLineCases (const std::vector<DrawTestSpec>& m_specs)
3023 {
3024 	for (int ndx = 0; ndx < (int)m_specs.size(); ++ndx)
3025 	{
3026 		if (getDrawPrimitiveClass(m_specs[ndx].primitive) == PRIMITIVECLASS_LINE)
3027 			return true;
3028 	}
3029 	return false;
3030 }
3031 
3032 // DrawTest
3033 
DrawTest(tcu::TestContext & testCtx,glu::RenderContext & renderCtx,const DrawTestSpec & spec,const char * name,const char * desc)3034 DrawTest::DrawTest (tcu::TestContext& testCtx, glu::RenderContext& renderCtx, const DrawTestSpec& spec, const char* name, const char* desc)
3035 	: TestCase			(testCtx, name, desc)
3036 	, m_renderCtx		(renderCtx)
3037 	, m_refBuffers		(DE_NULL)
3038 	, m_refContext		(DE_NULL)
3039 	, m_glesContext		(DE_NULL)
3040 	, m_glArrayPack		(DE_NULL)
3041 	, m_rrArrayPack		(DE_NULL)
3042 	, m_maxDiffRed		(-1)
3043 	, m_maxDiffGreen	(-1)
3044 	, m_maxDiffBlue		(-1)
3045 	, m_iteration		(0)
3046 	, m_result			()	// \note no per-iteration result logging (only one iteration)
3047 {
3048 	addIteration(spec);
3049 }
3050 
DrawTest(tcu::TestContext & testCtx,glu::RenderContext & renderCtx,const char * name,const char * desc)3051 DrawTest::DrawTest (tcu::TestContext& testCtx, glu::RenderContext& renderCtx, const char* name, const char* desc)
3052 	: TestCase			(testCtx, name, desc)
3053 	, m_renderCtx		(renderCtx)
3054 	, m_refBuffers		(DE_NULL)
3055 	, m_refContext		(DE_NULL)
3056 	, m_glesContext		(DE_NULL)
3057 	, m_glArrayPack		(DE_NULL)
3058 	, m_rrArrayPack		(DE_NULL)
3059 	, m_maxDiffRed		(-1)
3060 	, m_maxDiffGreen	(-1)
3061 	, m_maxDiffBlue		(-1)
3062 	, m_iteration		(0)
3063 	, m_result			(testCtx.getLog(), "Iteration result: ")
3064 {
3065 }
3066 
~DrawTest(void)3067 DrawTest::~DrawTest	(void)
3068 {
3069 	deinit();
3070 }
3071 
addIteration(const DrawTestSpec & spec,const char * description)3072 void DrawTest::addIteration (const DrawTestSpec& spec, const char* description)
3073 {
3074 	// Validate spec
3075 	const bool validSpec = spec.valid();
3076 	DE_ASSERT(validSpec);
3077 
3078 	if (!validSpec)
3079 		return;
3080 
3081 	// Check the context type is the same with other iterations
3082 	if (!m_specs.empty())
3083 	{
3084 		const bool validContext = m_specs[0].apiType == spec.apiType;
3085 		DE_ASSERT(validContext);
3086 
3087 		if (!validContext)
3088 			return;
3089 	}
3090 
3091 	m_specs.push_back(spec);
3092 
3093 	if (description)
3094 		m_iteration_descriptions.push_back(std::string(description));
3095 	else
3096 		m_iteration_descriptions.push_back(std::string());
3097 }
3098 
init(void)3099 void DrawTest::init (void)
3100 {
3101 	DE_ASSERT(!m_specs.empty());
3102 	DE_ASSERT(contextSupports(m_renderCtx.getType(), m_specs[0].apiType));
3103 
3104 	const int						renderTargetWidth	= de::min(MAX_RENDER_TARGET_SIZE, m_renderCtx.getRenderTarget().getWidth());
3105 	const int						renderTargetHeight	= de::min(MAX_RENDER_TARGET_SIZE, m_renderCtx.getRenderTarget().getHeight());
3106 
3107 	// lines have significantly different rasterization in MSAA mode
3108 	const bool						isLineCase			= containsLineCases(m_specs);
3109 	const bool						isMSAACase			= m_renderCtx.getRenderTarget().getNumSamples() > 1;
3110 	const int						renderTargetSamples	= (isMSAACase && isLineCase) ? (4) : (1);
3111 
3112 	sglr::ReferenceContextLimits	limits				(m_renderCtx);
3113 	bool							useVao				= false;
3114 
3115 	m_glesContext = new sglr::GLContext(m_renderCtx, m_testCtx.getLog(), sglr::GLCONTEXT_LOG_CALLS | sglr::GLCONTEXT_LOG_PROGRAMS, tcu::IVec4(0, 0, renderTargetWidth, renderTargetHeight));
3116 
3117 	if (m_renderCtx.getType().getAPI() == glu::ApiType::es(2,0) || m_renderCtx.getType().getAPI() == glu::ApiType::es(3,0))
3118 		useVao = false;
3119 	else if (contextSupports(m_renderCtx.getType(), glu::ApiType::es(3,1)) || glu::isContextTypeGLCore(m_renderCtx.getType()))
3120 		useVao = true;
3121 	else
3122 		DE_FATAL("Unknown context type");
3123 
3124 	m_refBuffers	= new sglr::ReferenceContextBuffers(m_renderCtx.getRenderTarget().getPixelFormat(), 0, 0, renderTargetWidth, renderTargetHeight, renderTargetSamples);
3125 	m_refContext	= new sglr::ReferenceContext(limits, m_refBuffers->getColorbuffer(), m_refBuffers->getDepthbuffer(), m_refBuffers->getStencilbuffer());
3126 
3127 	m_glArrayPack	= new AttributePack(m_testCtx, m_renderCtx, *m_glesContext, tcu::UVec2(renderTargetWidth, renderTargetHeight), useVao, true);
3128 	m_rrArrayPack	= new AttributePack(m_testCtx, m_renderCtx, *m_refContext,  tcu::UVec2(renderTargetWidth, renderTargetHeight), useVao, false);
3129 
3130 	m_maxDiffRed	= deCeilFloatToInt32(256.0f * (6.0f / (float)(1 << m_renderCtx.getRenderTarget().getPixelFormat().redBits)));
3131 	m_maxDiffGreen	= deCeilFloatToInt32(256.0f * (6.0f / (float)(1 << m_renderCtx.getRenderTarget().getPixelFormat().greenBits)));
3132 	m_maxDiffBlue	= deCeilFloatToInt32(256.0f * (6.0f / (float)(1 << m_renderCtx.getRenderTarget().getPixelFormat().blueBits)));
3133 }
3134 
deinit(void)3135 void DrawTest::deinit (void)
3136 {
3137 	delete m_glArrayPack;
3138 	delete m_rrArrayPack;
3139 	delete m_refBuffers;
3140 	delete m_refContext;
3141 	delete m_glesContext;
3142 
3143 	m_glArrayPack	= DE_NULL;
3144 	m_rrArrayPack	= DE_NULL;
3145 	m_refBuffers	= DE_NULL;
3146 	m_refContext	= DE_NULL;
3147 	m_glesContext	= DE_NULL;
3148 }
3149 
iterate(void)3150 DrawTest::IterateResult DrawTest::iterate (void)
3151 {
3152 	const int					specNdx			= (m_iteration / 2);
3153 	const bool					drawStep		= (m_iteration % 2) == 0;
3154 	const bool					compareStep		= (m_iteration % 2) == 1;
3155 	const IterateResult			iterateResult	= ((size_t)m_iteration + 1 == m_specs.size()*2) ? (STOP) : (CONTINUE);
3156 	const DrawTestSpec&			spec			= m_specs[specNdx];
3157 	const bool					updateProgram	= (m_iteration == 0) || (drawStep && !checkSpecsShaderCompatible(m_specs[specNdx], m_specs[specNdx-1])); // try to use the same shader in all iterations
3158 	IterationLogSectionEmitter	sectionEmitter	(m_testCtx.getLog(), specNdx, m_specs.size(), m_iteration_descriptions[specNdx], drawStep && m_specs.size()!=1);
3159 
3160 	if (drawStep)
3161 	{
3162 		const MethodInfo	methodInfo				= getMethodInfo(spec.drawMethod);
3163 		const bool			indexed					= methodInfo.indexed;
3164 		const bool			instanced				= methodInfo.instanced;
3165 		const bool			ranged					= methodInfo.ranged;
3166 		const bool			hasFirst				= methodInfo.first;
3167 		const bool			hasBaseVtx				= methodInfo.baseVertex;
3168 
3169 		const size_t		primitiveElementCount	= getElementCount(spec.primitive, spec.primitiveCount);						// !< elements to be drawn
3170 		const int			indexMin				= (ranged) ? (spec.indexMin) : (0);
3171 		const int			firstAddition			= (hasFirst) ? (spec.first) : (0);
3172 		const int			baseVertexAddition		= (hasBaseVtx && spec.baseVertex > 0) ? ( spec.baseVertex) : (0);			// spec.baseVertex > 0 => Create bigger attribute buffer
3173 		const int			indexBase				= (hasBaseVtx && spec.baseVertex < 0) ? (-spec.baseVertex) : (0);			// spec.baseVertex < 0 => Create bigger indices
3174 		const size_t		elementCount			= primitiveElementCount + indexMin + firstAddition + baseVertexAddition;	// !< elements in buffer (buffer should have at least primitiveElementCount ACCESSIBLE (index range, first) elements)
3175 		const int			maxElementIndex			= (int)primitiveElementCount + indexMin + firstAddition - 1;
3176 		const int			indexMax				= de::max(0, (ranged) ? (de::clamp<int>(spec.indexMax, 0, maxElementIndex)) : (maxElementIndex));
3177 		float				coordScale				= getCoordScale(spec);
3178 		float				colorScale				= getColorScale(spec);
3179 
3180 		rr::GenericVec4		nullAttribValue;
3181 
3182 		// Log info
3183 		m_testCtx.getLog() << TestLog::Message << spec.getMultilineDesc() << TestLog::EndMessage;
3184 		m_testCtx.getLog() << TestLog::Message << TestLog::EndMessage; // extra line for clarity
3185 
3186 		// Data
3187 
3188 		m_glArrayPack->clearArrays();
3189 		m_rrArrayPack->clearArrays();
3190 
3191 		for (int attribNdx = 0; attribNdx < (int)spec.attribs.size(); attribNdx++)
3192 		{
3193 			DrawTestSpec::AttributeSpec attribSpec		= spec.attribs[attribNdx];
3194 			const bool					isPositionAttr	= (attribNdx == 0) || (attribSpec.additionalPositionAttribute);
3195 
3196 			if (attribSpec.useDefaultAttribute)
3197 			{
3198 				const int		seed		= 10 * attribSpec.hash() + 100 * spec.hash() + attribNdx;
3199 				rr::GenericVec4 attribValue = RandomArrayGenerator::generateAttributeValue(seed, attribSpec.inputType);
3200 
3201 				m_glArrayPack->newArray(DrawTestSpec::STORAGE_USER);
3202 				m_rrArrayPack->newArray(DrawTestSpec::STORAGE_USER);
3203 
3204 				m_glArrayPack->getArray(attribNdx)->setupArray(false, 0, attribSpec.componentCount, attribSpec.inputType, attribSpec.outputType, false, 0, 0, attribValue, isPositionAttr, false);
3205 				m_rrArrayPack->getArray(attribNdx)->setupArray(false, 0, attribSpec.componentCount, attribSpec.inputType, attribSpec.outputType, false, 0, 0, attribValue, isPositionAttr, false);
3206 			}
3207 			else
3208 			{
3209 				const int					seed					= attribSpec.hash() + 100 * spec.hash() + attribNdx;
3210 				const size_t				elementSize				= attribSpec.componentCount * DrawTestSpec::inputTypeSize(attribSpec.inputType);
3211 				const size_t				stride					= (attribSpec.stride == 0) ? (elementSize) : (attribSpec.stride);
3212 				const size_t				evaluatedElementCount	= (instanced && attribSpec.instanceDivisor > 0) ? (spec.instanceCount / attribSpec.instanceDivisor + 1) : (elementCount);
3213 				const size_t				referencedElementCount	= (ranged) ? (de::max<size_t>(evaluatedElementCount, spec.indexMax + 1)) : (evaluatedElementCount);
3214 				const size_t				bufferSize				= attribSpec.offset + stride * (referencedElementCount - 1) + elementSize;
3215 				const char*					data					= RandomArrayGenerator::generateArray(seed, (int)referencedElementCount, attribSpec.componentCount, attribSpec.offset, (int)stride, attribSpec.inputType);
3216 
3217 				try
3218 				{
3219 					m_glArrayPack->newArray(attribSpec.storage);
3220 					m_rrArrayPack->newArray(attribSpec.storage);
3221 
3222 					m_glArrayPack->getArray(attribNdx)->data(DrawTestSpec::TARGET_ARRAY, bufferSize, data, attribSpec.usage);
3223 					m_rrArrayPack->getArray(attribNdx)->data(DrawTestSpec::TARGET_ARRAY, bufferSize, data, attribSpec.usage);
3224 
3225 					m_glArrayPack->getArray(attribNdx)->setupArray(true, attribSpec.offset, attribSpec.componentCount, attribSpec.inputType, attribSpec.outputType, attribSpec.normalize, attribSpec.stride, attribSpec.instanceDivisor, nullAttribValue, isPositionAttr, attribSpec.bgraComponentOrder);
3226 					m_rrArrayPack->getArray(attribNdx)->setupArray(true, attribSpec.offset, attribSpec.componentCount, attribSpec.inputType, attribSpec.outputType, attribSpec.normalize, attribSpec.stride, attribSpec.instanceDivisor, nullAttribValue, isPositionAttr, attribSpec.bgraComponentOrder);
3227 
3228 					delete [] data;
3229 					data = NULL;
3230 				}
3231 				catch (...)
3232 				{
3233 					delete [] data;
3234 					throw;
3235 				}
3236 			}
3237 		}
3238 
3239 		// Shader program
3240 		if (updateProgram)
3241 		{
3242 			m_glArrayPack->updateProgram();
3243 			m_rrArrayPack->updateProgram();
3244 		}
3245 
3246 		// Draw
3247 		try
3248 		{
3249 			// indices
3250 			if (indexed)
3251 			{
3252 				const int		seed				= spec.hash();
3253 				const size_t	indexElementSize	= DrawTestSpec::indexTypeSize(spec.indexType);
3254 				const size_t	indexArraySize		= spec.indexPointerOffset + indexElementSize * elementCount;
3255 				const char*		indexArray			= RandomArrayGenerator::generateIndices(seed, (int)elementCount, spec.indexType, spec.indexPointerOffset, indexMin, indexMax, indexBase);
3256 				const char*		indexPointerBase	= (spec.indexStorage == DrawTestSpec::STORAGE_USER) ? (indexArray) : ((char*)DE_NULL);
3257 				const char*		indexPointer		= indexPointerBase + spec.indexPointerOffset;
3258 
3259 				de::UniquePtr<AttributeArray> glArray	(new AttributeArray(spec.indexStorage, *m_glesContext));
3260 				de::UniquePtr<AttributeArray> rrArray	(new AttributeArray(spec.indexStorage, *m_refContext));
3261 
3262 				try
3263 				{
3264 					glArray->data(DrawTestSpec::TARGET_ELEMENT_ARRAY, indexArraySize, indexArray, DrawTestSpec::USAGE_STATIC_DRAW);
3265 					rrArray->data(DrawTestSpec::TARGET_ELEMENT_ARRAY, indexArraySize, indexArray, DrawTestSpec::USAGE_STATIC_DRAW);
3266 
3267 					m_glArrayPack->render(spec.primitive, spec.drawMethod, 0, (int)primitiveElementCount, spec.indexType, indexPointer, spec.indexMin, spec.indexMax, spec.instanceCount, spec.indirectOffset, spec.baseVertex, coordScale, colorScale, glArray.get());
3268 					m_rrArrayPack->render(spec.primitive, spec.drawMethod, 0, (int)primitiveElementCount, spec.indexType, indexPointer, spec.indexMin, spec.indexMax, spec.instanceCount, spec.indirectOffset, spec.baseVertex, coordScale, colorScale, rrArray.get());
3269 
3270 					delete [] indexArray;
3271 					indexArray = NULL;
3272 				}
3273 				catch (...)
3274 				{
3275 					delete [] indexArray;
3276 					throw;
3277 				}
3278 			}
3279 			else
3280 			{
3281 				m_glArrayPack->render(spec.primitive, spec.drawMethod, spec.first, (int)primitiveElementCount, DrawTestSpec::INDEXTYPE_LAST, DE_NULL, 0, 0, spec.instanceCount, spec.indirectOffset, 0, coordScale, colorScale, DE_NULL);
3282 				m_rrArrayPack->render(spec.primitive, spec.drawMethod, spec.first, (int)primitiveElementCount, DrawTestSpec::INDEXTYPE_LAST, DE_NULL, 0, 0, spec.instanceCount, spec.indirectOffset, 0, coordScale, colorScale, DE_NULL);
3283 			}
3284 		}
3285 		catch (glu::Error& err)
3286 		{
3287 			// GL Errors are ok if the mode is not properly aligned
3288 
3289 			const DrawTestSpec::CompatibilityTestType ctype = spec.isCompatibilityTest();
3290 
3291 			m_testCtx.getLog() << TestLog::Message << "Got error: " << err.what() << TestLog::EndMessage;
3292 
3293 			if (ctype == DrawTestSpec::COMPATIBILITY_UNALIGNED_OFFSET)
3294 				m_result.addResult(QP_TEST_RESULT_COMPATIBILITY_WARNING, "Failed to draw with unaligned buffers.");
3295 			else if (ctype == DrawTestSpec::COMPATIBILITY_UNALIGNED_STRIDE)
3296 				m_result.addResult(QP_TEST_RESULT_COMPATIBILITY_WARNING, "Failed to draw with unaligned stride.");
3297 			else
3298 				throw;
3299 		}
3300 	}
3301 	else if (compareStep)
3302 	{
3303 		if (!compare(spec.primitive))
3304 		{
3305 			const DrawTestSpec::CompatibilityTestType ctype = spec.isCompatibilityTest();
3306 
3307 			if (ctype == DrawTestSpec::COMPATIBILITY_UNALIGNED_OFFSET)
3308 				m_result.addResult(QP_TEST_RESULT_COMPATIBILITY_WARNING, "Failed to draw with unaligned buffers.");
3309 			else if (ctype == DrawTestSpec::COMPATIBILITY_UNALIGNED_STRIDE)
3310 				m_result.addResult(QP_TEST_RESULT_COMPATIBILITY_WARNING, "Failed to draw with unaligned stride.");
3311 			else
3312 				m_result.addResult(QP_TEST_RESULT_FAIL, "Image comparison failed.");
3313 		}
3314 	}
3315 	else
3316 	{
3317 		DE_ASSERT(false);
3318 		return STOP;
3319 	}
3320 
3321 	m_result.setTestContextResult(m_testCtx);
3322 
3323 	m_iteration++;
3324 	return iterateResult;
3325 }
3326 
isBlack(const tcu::RGBA & c)3327 static bool isBlack (const tcu::RGBA& c)
3328 {
3329 	// ignore alpha channel
3330 	return c.getRed() == 0 && c.getGreen() == 0 && c.getBlue() == 0;
3331 }
3332 
isEdgeTripletComponent(int c1,int c2,int c3,int renderTargetDifference)3333 static bool isEdgeTripletComponent (int c1, int c2, int c3, int renderTargetDifference)
3334 {
3335 	const int	roundingDifference	= 2 * renderTargetDifference; // src and dst pixels rounded to different directions
3336 	const int	d1					= c2 - c1;
3337 	const int	d2					= c3 - c2;
3338 	const int	rampDiff			= de::abs(d2 - d1);
3339 
3340 	return rampDiff > roundingDifference;
3341 }
3342 
isEdgeTriplet(const tcu::RGBA & c1,const tcu::RGBA & c2,const tcu::RGBA & c3,const tcu::IVec3 & renderTargetThreshold)3343 static bool isEdgeTriplet (const tcu::RGBA& c1, const tcu::RGBA& c2, const tcu::RGBA& c3, const tcu::IVec3& renderTargetThreshold)
3344 {
3345 	// black (background color) and non-black is always an edge
3346 	{
3347 		const bool b1 = isBlack(c1);
3348 		const bool b2 = isBlack(c2);
3349 		const bool b3 = isBlack(c3);
3350 
3351 		// both pixels with coverage and pixels without coverage
3352 		if ((b1 && b2 && b3) == false && (b1 || b2 || b3) == true)
3353 			return true;
3354 		// all black
3355 		if (b1 && b2 && b3)
3356 			return false;
3357 		// all with coverage
3358 		DE_ASSERT(!b1 && !b2 && !b3);
3359 	}
3360 
3361 	// Color is always linearly interpolated => component values change nearly linearly
3362 	// in any constant direction on triangle hull. (df/dx ~= C).
3363 
3364 	// Edge detection (this function) is run against the reference image
3365 	// => no dithering to worry about
3366 
3367 	return	isEdgeTripletComponent(c1.getRed(),		c2.getRed(),	c3.getRed(),	renderTargetThreshold.x())	||
3368 			isEdgeTripletComponent(c1.getGreen(),	c2.getGreen(),	c3.getGreen(),	renderTargetThreshold.y())	||
3369 			isEdgeTripletComponent(c1.getBlue(),	c2.getBlue(),	c3.getBlue(),	renderTargetThreshold.z());
3370 }
3371 
pixelNearEdge(int x,int y,const tcu::Surface & ref,const tcu::IVec3 & renderTargetThreshold)3372 static bool pixelNearEdge (int x, int y, const tcu::Surface& ref, const tcu::IVec3& renderTargetThreshold)
3373 {
3374 	// should not be called for edge pixels
3375 	DE_ASSERT(x >= 1 && x <= ref.getWidth()-2);
3376 	DE_ASSERT(y >= 1 && y <= ref.getHeight()-2);
3377 
3378 	// horizontal
3379 
3380 	for (int dy = -1; dy < 2; ++dy)
3381 	{
3382 		const tcu::RGBA c1 = ref.getPixel(x-1, y+dy);
3383 		const tcu::RGBA c2 = ref.getPixel(x,   y+dy);
3384 		const tcu::RGBA c3 = ref.getPixel(x+1, y+dy);
3385 		if (isEdgeTriplet(c1, c2, c3, renderTargetThreshold))
3386 			return true;
3387 	}
3388 
3389 	// vertical
3390 
3391 	for (int dx = -1; dx < 2; ++dx)
3392 	{
3393 		const tcu::RGBA c1 = ref.getPixel(x+dx, y-1);
3394 		const tcu::RGBA c2 = ref.getPixel(x+dx, y);
3395 		const tcu::RGBA c3 = ref.getPixel(x+dx, y+1);
3396 		if (isEdgeTriplet(c1, c2, c3, renderTargetThreshold))
3397 			return true;
3398 	}
3399 
3400 	return false;
3401 }
3402 
getVisualizationGrayscaleColor(const tcu::RGBA & c)3403 static deUint32 getVisualizationGrayscaleColor (const tcu::RGBA& c)
3404 {
3405 	// make triangle coverage and error pixels obvious by converting coverage to grayscale
3406 	if (isBlack(c))
3407 		return 0;
3408 	else
3409 		return 50u + (deUint32)(c.getRed() + c.getBlue() + c.getGreen()) / 8u;
3410 }
3411 
pixelNearLineIntersection(int x,int y,const tcu::Surface & target)3412 static bool pixelNearLineIntersection (int x, int y, const tcu::Surface& target)
3413 {
3414 	// should not be called for edge pixels
3415 	DE_ASSERT(x >= 1 && x <= target.getWidth()-2);
3416 	DE_ASSERT(y >= 1 && y <= target.getHeight()-2);
3417 
3418 	int coveredPixels = 0;
3419 
3420 	for (int dy = -1; dy < 2; dy++)
3421 	for (int dx = -1; dx < 2; dx++)
3422 	{
3423 		const bool targetCoverage = !isBlack(target.getPixel(x+dx, y+dy));
3424 		if (targetCoverage)
3425 		{
3426 			++coveredPixels;
3427 
3428 			// A single thin line cannot have more than 3 covered pixels in a 3x3 area
3429 			if (coveredPixels >= 4)
3430 				return true;
3431 		}
3432 	}
3433 
3434 	return false;
3435 }
3436 
colorsEqual(const tcu::RGBA & colorA,const tcu::RGBA & colorB,const tcu::IVec3 & compareThreshold)3437 static inline bool colorsEqual (const tcu::RGBA& colorA, const tcu::RGBA& colorB, const tcu::IVec3& compareThreshold)
3438 {
3439 	enum
3440 	{
3441 		TCU_RGBA_RGB_MASK = tcu::RGBA::RED_MASK | tcu::RGBA::GREEN_MASK | tcu::RGBA::BLUE_MASK
3442 	};
3443 
3444 	return tcu::compareThresholdMasked(colorA, colorB, tcu::RGBA(compareThreshold.x(), compareThreshold.y(), compareThreshold.z(), 0), TCU_RGBA_RGB_MASK);
3445 }
3446 
3447 // search 3x3 are for matching color
pixelNeighborhoodContainsColor(const tcu::Surface & target,int x,int y,const tcu::RGBA & color,const tcu::IVec3 & compareThreshold)3448 static bool pixelNeighborhoodContainsColor (const tcu::Surface& target, int x, int y, const tcu::RGBA& color, const tcu::IVec3& compareThreshold)
3449 {
3450 	// should not be called for edge pixels
3451 	DE_ASSERT(x >= 1 && x <= target.getWidth()-2);
3452 	DE_ASSERT(y >= 1 && y <= target.getHeight()-2);
3453 
3454 	for (int dy = -1; dy < 2; dy++)
3455 	for (int dx = -1; dx < 2; dx++)
3456 	{
3457 		const tcu::RGBA	targetCmpPixel = target.getPixel(x+dx, y+dy);
3458 		if (colorsEqual(color, targetCmpPixel, compareThreshold))
3459 			return true;
3460 	}
3461 
3462 	return false;
3463 }
3464 
3465 // search 3x3 are for matching coverage (coverage == (color != background color))
pixelNeighborhoodContainsCoverage(const tcu::Surface & target,int x,int y,bool coverage)3466 static bool pixelNeighborhoodContainsCoverage (const tcu::Surface& target, int x, int y, bool coverage)
3467 {
3468 	// should not be called for edge pixels
3469 	DE_ASSERT(x >= 1 && x <= target.getWidth()-2);
3470 	DE_ASSERT(y >= 1 && y <= target.getHeight()-2);
3471 
3472 	for (int dy = -1; dy < 2; dy++)
3473 	for (int dx = -1; dx < 2; dx++)
3474 	{
3475 		const bool targetCmpCoverage = !isBlack(target.getPixel(x+dx, y+dy));
3476 		if (targetCmpCoverage == coverage)
3477 			return true;
3478 	}
3479 
3480 	return false;
3481 }
3482 
edgeRelaxedImageCompare(tcu::TestLog & log,const char * imageSetName,const char * imageSetDesc,const tcu::Surface & reference,const tcu::Surface & result,const tcu::IVec3 & compareThreshold,const tcu::IVec3 & renderTargetThreshold,int maxAllowedInvalidPixels)3483 static bool edgeRelaxedImageCompare (tcu::TestLog& log, const char* imageSetName, const char* imageSetDesc, const tcu::Surface& reference, const tcu::Surface& result, const tcu::IVec3& compareThreshold, const tcu::IVec3& renderTargetThreshold, int maxAllowedInvalidPixels)
3484 {
3485 	DE_ASSERT(result.getWidth() == reference.getWidth() && result.getHeight() == reference.getHeight());
3486 
3487 	const tcu::IVec4				green						(0, 255, 0, 255);
3488 	const tcu::IVec4				red							(255, 0, 0, 255);
3489 	const int						width						= reference.getWidth();
3490 	const int						height						= reference.getHeight();
3491 	tcu::TextureLevel				errorMask					(tcu::TextureFormat(tcu::TextureFormat::RGB, tcu::TextureFormat::UNORM_INT8), width, height);
3492 	const tcu::PixelBufferAccess	errorAccess					= errorMask.getAccess();
3493 	int								numFailingPixels			= 0;
3494 
3495 	// clear errormask edges which would otherwise be transparent
3496 
3497 	tcu::clear(tcu::getSubregion(errorAccess, 0,			0,			width,	1),			green);
3498 	tcu::clear(tcu::getSubregion(errorAccess, 0,			height-1,	width,	1),			green);
3499 	tcu::clear(tcu::getSubregion(errorAccess, 0,			0,			1,		height),	green);
3500 	tcu::clear(tcu::getSubregion(errorAccess, width-1,		0,			1,		height),	green);
3501 
3502 	// skip edge pixels since coverage on edge cannot be verified
3503 
3504 	for (int y = 1; y < height - 1; ++y)
3505 	for (int x = 1; x < width - 1; ++x)
3506 	{
3507 		const tcu::RGBA	refPixel			= reference.getPixel(x, y);
3508 		const tcu::RGBA	screenPixel			= result.getPixel(x, y);
3509 		const bool		directMatch			= colorsEqual(refPixel, screenPixel, compareThreshold);
3510 		const bool		isOkReferencePixel	= directMatch || pixelNeighborhoodContainsColor(result, x, y, refPixel, compareThreshold);			// screen image has a matching pixel nearby (~= If something is drawn on reference, it must be drawn to screen too.)
3511 		const bool		isOkScreenPixel		= directMatch || pixelNeighborhoodContainsColor(reference, x, y, screenPixel, compareThreshold);	// reference image has a matching pixel nearby (~= If something is drawn on screen, it must be drawn to reference too.)
3512 
3513 		if (isOkScreenPixel && isOkReferencePixel)
3514 		{
3515 			// pixel valid, write greenish pixels to make the result image easier to read
3516 			const deUint32 grayscaleValue = getVisualizationGrayscaleColor(screenPixel);
3517 			errorAccess.setPixel(tcu::UVec4(grayscaleValue, 255, grayscaleValue, 255), x, y);
3518 		}
3519 		else if (!pixelNearEdge(x, y, reference, renderTargetThreshold))
3520 		{
3521 			// non-edge pixel values must be within threshold of the reference values
3522 			errorAccess.setPixel(red, x, y);
3523 			++numFailingPixels;
3524 		}
3525 		else
3526 		{
3527 			// we are on/near an edge, verify only coverage (coverage == not background colored)
3528 			const bool	referenceCoverage		= !isBlack(refPixel);
3529 			const bool	screenCoverage			= !isBlack(screenPixel);
3530 			const bool	isOkReferenceCoverage	= pixelNeighborhoodContainsCoverage(result, x, y, referenceCoverage);	// Check reference pixel against screen pixel
3531 			const bool	isOkScreenCoverage		= pixelNeighborhoodContainsCoverage(reference, x, y, screenCoverage);	// Check screen pixels against reference pixel
3532 
3533 			if (isOkScreenCoverage && isOkReferenceCoverage)
3534 			{
3535 				// pixel valid, write greenish pixels to make the result image easier to read
3536 				const deUint32 grayscaleValue = getVisualizationGrayscaleColor(screenPixel);
3537 				errorAccess.setPixel(tcu::UVec4(grayscaleValue, 255, grayscaleValue, 255), x, y);
3538 			}
3539 			else
3540 			{
3541 				// coverage does not match
3542 				errorAccess.setPixel(red, x, y);
3543 				++numFailingPixels;
3544 			}
3545 		}
3546 	}
3547 
3548 	log	<< TestLog::Message
3549 		<< "Comparing images:\n"
3550 		<< "\tallowed deviation in pixel positions = 1\n"
3551 		<< "\tnumber of allowed invalid pixels = " << maxAllowedInvalidPixels << "\n"
3552 		<< "\tnumber of invalid pixels = " << numFailingPixels
3553 		<< TestLog::EndMessage;
3554 
3555 	if (numFailingPixels > maxAllowedInvalidPixels)
3556 	{
3557 		log << TestLog::Message
3558 			<< "Image comparison failed. Color threshold = (" << compareThreshold.x() << ", " << compareThreshold.y() << ", " << compareThreshold.z() << ")"
3559 			<< TestLog::EndMessage
3560 			<< TestLog::ImageSet(imageSetName, imageSetDesc)
3561 			<< TestLog::Image("Result",		"Result",		result)
3562 			<< TestLog::Image("Reference",	"Reference",	reference)
3563 			<< TestLog::Image("ErrorMask",	"Error mask",	errorMask)
3564 			<< TestLog::EndImageSet;
3565 
3566 		return false;
3567 	}
3568 	else
3569 	{
3570 		log << TestLog::ImageSet(imageSetName, imageSetDesc)
3571 			<< TestLog::Image("Result", "Result", result)
3572 			<< TestLog::EndImageSet;
3573 
3574 		return true;
3575 	}
3576 }
3577 
intersectionRelaxedLineImageCompare(tcu::TestLog & log,const char * imageSetName,const char * imageSetDesc,const tcu::Surface & reference,const tcu::Surface & result,const tcu::IVec3 & compareThreshold,int maxAllowedInvalidPixels)3578 static bool intersectionRelaxedLineImageCompare (tcu::TestLog& log, const char* imageSetName, const char* imageSetDesc, const tcu::Surface& reference, const tcu::Surface& result, const tcu::IVec3& compareThreshold, int maxAllowedInvalidPixels)
3579 {
3580 	DE_ASSERT(result.getWidth() == reference.getWidth() && result.getHeight() == reference.getHeight());
3581 
3582 	const tcu::IVec4				green						(0, 255, 0, 255);
3583 	const tcu::IVec4				red							(255, 0, 0, 255);
3584 	const int						width						= reference.getWidth();
3585 	const int						height						= reference.getHeight();
3586 	tcu::TextureLevel				errorMask					(tcu::TextureFormat(tcu::TextureFormat::RGB, tcu::TextureFormat::UNORM_INT8), width, height);
3587 	const tcu::PixelBufferAccess	errorAccess					= errorMask.getAccess();
3588 	int								numFailingPixels			= 0;
3589 
3590 	// clear errormask edges which would otherwise be transparent
3591 
3592 	tcu::clear(tcu::getSubregion(errorAccess, 0,			0,			width,	1),			green);
3593 	tcu::clear(tcu::getSubregion(errorAccess, 0,			height-1,	width,	1),			green);
3594 	tcu::clear(tcu::getSubregion(errorAccess, 0,			0,			1,		height),	green);
3595 	tcu::clear(tcu::getSubregion(errorAccess, width-1,		0,			1,		height),	green);
3596 
3597 	// skip edge pixels since coverage on edge cannot be verified
3598 
3599 	for (int y = 1; y < height - 1; ++y)
3600 	for (int x = 1; x < width - 1; ++x)
3601 	{
3602 		const tcu::RGBA	refPixel			= reference.getPixel(x, y);
3603 		const tcu::RGBA	screenPixel			= result.getPixel(x, y);
3604 		const bool		directMatch			= colorsEqual(refPixel, screenPixel, compareThreshold);
3605 		const bool		isOkScreenPixel		= directMatch || pixelNeighborhoodContainsColor(reference, x, y, screenPixel, compareThreshold);	// reference image has a matching pixel nearby (~= If something is drawn on screen, it must be drawn to reference too.)
3606 		const bool		isOkReferencePixel	= directMatch || pixelNeighborhoodContainsColor(result, x, y, refPixel, compareThreshold);			// screen image has a matching pixel nearby (~= If something is drawn on reference, it must be drawn to screen too.)
3607 
3608 		if (isOkScreenPixel && isOkReferencePixel)
3609 		{
3610 			// pixel valid, write greenish pixels to make the result image easier to read
3611 			const deUint32 grayscaleValue = getVisualizationGrayscaleColor(screenPixel);
3612 			errorAccess.setPixel(tcu::UVec4(grayscaleValue, 255, grayscaleValue, 255), x, y);
3613 		}
3614 		else if (!pixelNearLineIntersection(x, y, reference) &&
3615 				 !pixelNearLineIntersection(x, y, result))
3616 		{
3617 			// non-intersection pixel values must be within threshold of the reference values
3618 			errorAccess.setPixel(red, x, y);
3619 			++numFailingPixels;
3620 		}
3621 		else
3622 		{
3623 			// pixel is near a line intersection
3624 			// we are on/near an edge, verify only coverage (coverage == not background colored)
3625 			const bool	referenceCoverage		= !isBlack(refPixel);
3626 			const bool	screenCoverage			= !isBlack(screenPixel);
3627 			const bool	isOkScreenCoverage		= pixelNeighborhoodContainsCoverage(reference, x, y, screenCoverage);	// Check screen pixels against reference pixel
3628 			const bool	isOkReferenceCoverage	= pixelNeighborhoodContainsCoverage(result, x, y, referenceCoverage);	// Check reference pixel against screen pixel
3629 
3630 			if (isOkScreenCoverage && isOkReferenceCoverage)
3631 			{
3632 				// pixel valid, write greenish pixels to make the result image easier to read
3633 				const deUint32 grayscaleValue = getVisualizationGrayscaleColor(screenPixel);
3634 				errorAccess.setPixel(tcu::UVec4(grayscaleValue, 255, grayscaleValue, 255), x, y);
3635 			}
3636 			else
3637 			{
3638 				// coverage does not match
3639 				errorAccess.setPixel(red, x, y);
3640 				++numFailingPixels;
3641 			}
3642 		}
3643 	}
3644 
3645 	log	<< TestLog::Message
3646 		<< "Comparing images:\n"
3647 		<< "\tallowed deviation in pixel positions = 1\n"
3648 		<< "\tnumber of allowed invalid pixels = " << maxAllowedInvalidPixels << "\n"
3649 		<< "\tnumber of invalid pixels = " << numFailingPixels
3650 		<< TestLog::EndMessage;
3651 
3652 	if (numFailingPixels > maxAllowedInvalidPixels)
3653 	{
3654 		log << TestLog::Message
3655 			<< "Image comparison failed. Color threshold = (" << compareThreshold.x() << ", " << compareThreshold.y() << ", " << compareThreshold.z() << ")"
3656 			<< TestLog::EndMessage
3657 			<< TestLog::ImageSet(imageSetName, imageSetDesc)
3658 			<< TestLog::Image("Result",		"Result",		result)
3659 			<< TestLog::Image("Reference",	"Reference",	reference)
3660 			<< TestLog::Image("ErrorMask",	"Error mask",	errorMask)
3661 			<< TestLog::EndImageSet;
3662 
3663 		return false;
3664 	}
3665 	else
3666 	{
3667 		log << TestLog::ImageSet(imageSetName, imageSetDesc)
3668 			<< TestLog::Image("Result", "Result", result)
3669 			<< TestLog::EndImageSet;
3670 
3671 		return true;
3672 	}
3673 }
3674 
compare(gls::DrawTestSpec::Primitive primitiveType)3675 bool DrawTest::compare (gls::DrawTestSpec::Primitive primitiveType)
3676 {
3677 	const tcu::Surface&	ref		= m_rrArrayPack->getSurface();
3678 	const tcu::Surface&	screen	= m_glArrayPack->getSurface();
3679 
3680 	if (m_renderCtx.getRenderTarget().getNumSamples() > 1)
3681 	{
3682 		// \todo [mika] Improve compare when using multisampling
3683 		m_testCtx.getLog() << tcu::TestLog::Message << "Warning: Comparision of result from multisample render targets are not as stricts as without multisampling. Might produce false positives!" << tcu::TestLog::EndMessage;
3684 		return tcu::fuzzyCompare(m_testCtx.getLog(), "Compare Results", "Compare Results", ref.getAccess(), screen.getAccess(), 0.3f, tcu::COMPARE_LOG_RESULT);
3685 	}
3686 	else
3687 	{
3688 		const PrimitiveClass	primitiveClass							= getDrawPrimitiveClass(primitiveType);
3689 		const int				maxAllowedInvalidPixelsWithPoints		= 0;	//!< points are unlikely to have overlapping fragments
3690 		const int				maxAllowedInvalidPixelsWithLines		= 5;	//!< line are allowed to have a few bad pixels
3691 		const int				maxAllowedInvalidPixelsWithTriangles	= 10;
3692 
3693 		switch (primitiveClass)
3694 		{
3695 			case PRIMITIVECLASS_POINT:
3696 			{
3697 				// Point are extremely unlikely to have overlapping regions, don't allow any no extra / missing pixels
3698 				return tcu::intThresholdPositionDeviationErrorThresholdCompare(m_testCtx.getLog(),
3699 																			   "CompareResult",
3700 																			   "Result of rendering",
3701 																			   ref.getAccess(),
3702 																			   screen.getAccess(),
3703 																			   tcu::UVec4(m_maxDiffRed, m_maxDiffGreen, m_maxDiffBlue, 256),
3704 																			   tcu::IVec3(1, 1, 0),					//!< 3x3 search kernel
3705 																			   true,								//!< relax comparison on the image boundary
3706 																			   maxAllowedInvalidPixelsWithPoints,	//!< error threshold
3707 																			   tcu::COMPARE_LOG_RESULT);
3708 			}
3709 
3710 			case PRIMITIVECLASS_LINE:
3711 			{
3712 				// Lines can potentially have a large number of overlapping pixels. Pixel comparison may potentially produce
3713 				// false negatives in such pixels if for example the pixel in question is overdrawn by another line in the
3714 				// reference image but not in the resultin image. Relax comparison near line intersection points (areas) and
3715 				// compare only coverage, not color, in such pixels
3716 				return intersectionRelaxedLineImageCompare(m_testCtx.getLog(),
3717 														   "CompareResult",
3718 														   "Result of rendering",
3719 														   ref,
3720 														   screen,
3721 														   tcu::IVec3(m_maxDiffRed, m_maxDiffGreen, m_maxDiffBlue),
3722 														   maxAllowedInvalidPixelsWithLines);
3723 			}
3724 
3725 			case PRIMITIVECLASS_TRIANGLE:
3726 			{
3727 				// Triangles are likely to partially or fully overlap. Pixel difference comparison is fragile in pixels
3728 				// where there could be potential overlapping since the  pixels might be covered by one triangle in the
3729 				// reference image and by the other in the result image. Relax comparsion near primitive edges and
3730 				// compare only coverage, not color, in such pixels.
3731 				const tcu::IVec3	renderTargetThreshold					= m_renderCtx.getRenderTarget().getPixelFormat().getColorThreshold().toIVec().xyz();
3732 
3733 				return edgeRelaxedImageCompare(m_testCtx.getLog(),
3734 											   "CompareResult",
3735 											   "Result of rendering",
3736 											   ref,
3737 											   screen,
3738 											   tcu::IVec3(m_maxDiffRed, m_maxDiffGreen, m_maxDiffBlue),
3739 											   renderTargetThreshold,
3740 											   maxAllowedInvalidPixelsWithTriangles);
3741 			}
3742 
3743 			default:
3744 				DE_ASSERT(false);
3745 				return false;
3746 		}
3747 	}
3748 }
3749 
getCoordScale(const DrawTestSpec & spec) const3750 float DrawTest::getCoordScale (const DrawTestSpec& spec) const
3751 {
3752 	float maxValue = 1.0f;
3753 
3754 	for (int arrayNdx = 0; arrayNdx < (int)spec.attribs.size(); arrayNdx++)
3755 	{
3756 		DrawTestSpec::AttributeSpec attribSpec		= spec.attribs[arrayNdx];
3757 		const bool					isPositionAttr	= (arrayNdx == 0) || (attribSpec.additionalPositionAttribute);
3758 		float						attrMaxValue	= 0;
3759 
3760 		if (!isPositionAttr)
3761 			continue;
3762 
3763 		if (attribSpec.inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10)
3764 		{
3765 			if (attribSpec.normalize)
3766 				attrMaxValue += 1.0f;
3767 			else
3768 				attrMaxValue += 1024.0f;
3769 		}
3770 		else if (attribSpec.inputType == DrawTestSpec::INPUTTYPE_INT_2_10_10_10)
3771 		{
3772 			if (attribSpec.normalize)
3773 				attrMaxValue += 1.0f;
3774 			else
3775 				attrMaxValue += 512.0f;
3776 		}
3777 		else
3778 		{
3779 			const float max = GLValue::getMaxValue(attribSpec.inputType).toFloat();
3780 
3781 			attrMaxValue += (attribSpec.normalize && !inputTypeIsFloatType(attribSpec.inputType)) ? (1.0f) : (max * 1.1f);
3782 		}
3783 
3784 		if (attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_VEC3 || attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_VEC4
3785 			|| attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_IVEC3 || attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_IVEC4
3786 			|| attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_UVEC3 || attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_UVEC4)
3787 				attrMaxValue *= 2;
3788 
3789 		maxValue += attrMaxValue;
3790 	}
3791 
3792 	return 1.0f / maxValue;
3793 }
3794 
getColorScale(const DrawTestSpec & spec) const3795 float DrawTest::getColorScale (const DrawTestSpec& spec) const
3796 {
3797 	float colorScale = 1.0f;
3798 
3799 	for (int arrayNdx = 1; arrayNdx < (int)spec.attribs.size(); arrayNdx++)
3800 	{
3801 		DrawTestSpec::AttributeSpec attribSpec		= spec.attribs[arrayNdx];
3802 		const bool					isPositionAttr	= (arrayNdx == 0) || (attribSpec.additionalPositionAttribute);
3803 
3804 		if (isPositionAttr)
3805 			continue;
3806 
3807 		if (attribSpec.inputType == DrawTestSpec::INPUTTYPE_UNSIGNED_INT_2_10_10_10)
3808 		{
3809 			if (!attribSpec.normalize)
3810 				colorScale *= 1.0f / 1024.0f;
3811 		}
3812 		else if (attribSpec.inputType == DrawTestSpec::INPUTTYPE_INT_2_10_10_10)
3813 		{
3814 			if (!attribSpec.normalize)
3815 				colorScale *= 1.0f / 512.0f;
3816 		}
3817 		else
3818 		{
3819 			const float max = GLValue::getMaxValue(attribSpec.inputType).toFloat();
3820 
3821 			colorScale *= (attribSpec.normalize && !inputTypeIsFloatType(attribSpec.inputType) ? 1.0f : float(1.0 / double(max)));
3822 			if (attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_VEC4 ||
3823 				attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_UVEC4 ||
3824 				attribSpec.outputType == DrawTestSpec::OUTPUTTYPE_IVEC4)
3825 				colorScale *= (attribSpec.normalize && !inputTypeIsFloatType(attribSpec.inputType) ? 1.0f : float(1.0 / double(max)));
3826 		}
3827 	}
3828 
3829 	return colorScale;
3830 }
3831 
3832 } // gls
3833 } // deqp
3834