src/third_party/angle/src/tests/compiler_tests/QualificationOrderESSL31_test.cpp - cobalt - Git at Google

 //
 // Copyright (c) 2016 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //
 // QualificationOrderESSL31_test.cpp:
 //   OpenGL ES 3.1 removes the strict order of qualifiers imposed by the grammar.
 //   This file contains tests for invalid order and usage of qualifiers in GLSL ES 3.10.

 #include "gtest/gtest.h"

 #include "angle_gl.h"
 #include "compiler/translator/TranslatorESSL.h"
 #include "GLSLANG/ShaderLang.h"
 #include "tests/test_utils/compiler_test.h"
 #include "tests/test_utils/ShaderCompileTreeTest.h"

 using namespace sh;

 class QualificationVertexShaderTestESSL31 : public ShaderCompileTreeTest
 {
   public:
     QualificationVertexShaderTestESSL31() {}
   protected:
     ::GLenum getShaderType() const override { return GL_VERTEX_SHADER; }
     ShShaderSpec getShaderSpec() const override { return SH_GLES3_1_SPEC; }

     const TIntermSymbol *findSymbolInAST(const TString &symbolName, TBasicType basicType)
     {
         return FindSymbolNode(mASTRoot, symbolName, basicType);
     }
 };

 // GLSL ES 3.10 has relaxed checks on qualifier order. Any order is correct.
 TEST_F(QualificationVertexShaderTestESSL31, CentroidOut)
 {
     const std::string &shaderString =
         "#version 310 es\n"
         "precision lowp float;\n"
         "out centroid float something;\n"
         "void main(){\n"
         "   something = 1.0;\n"
         "}\n";
     if (!compile(shaderString))
     {
         FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
     }
     else
     {
         const TIntermSymbol *node = findSymbolInAST("something", EbtFloat);
         ASSERT_NE(nullptr, node);

         const TType &type = node->getType();
         EXPECT_EQ(EvqCentroidOut, type.getQualifier());
     }
 }

 // GLSL ES 3.10 has relaxed checks on qualifier order. Any order is correct.
 TEST_F(QualificationVertexShaderTestESSL31, AllQualifiersMixed)
 {
     const std::string &shaderString =
         "#version 310 es\n"
         "precision lowp float;\n"
         "highp out invariant centroid flat vec4 something;\n"
         "void main(){\n"
         "}\n";
     if (!compile(shaderString))
     {
         FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
     }
     else
     {
         const TIntermSymbol *node = findSymbolInAST("something", EbtFloat);
         ASSERT_NE(nullptr, node);

         const TType &type = node->getType();
         EXPECT_TRUE(type.isInvariant());
         EXPECT_EQ(EvqFlatOut, type.getQualifier());
         EXPECT_EQ(EbpHigh, type.getPrecision());
     }
 }

 // GLSL ES 3.10 allows multiple layout qualifiers to be specified.
 TEST_F(QualificationVertexShaderTestESSL31, MultipleLayouts)
 {
     const std::string &shaderString =
         "#version 310 es\n"
         "precision lowp float;\n"
         "in layout(location=1) layout(location=2) vec4 something;\n"
         "void main(){\n"
         "}\n";
     if (!compile(shaderString))
     {
         FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
     }
     else
     {
         const TIntermSymbol *node = findSymbolInAST("something", EbtFloat);
         ASSERT_NE(nullptr, node);

         const TType &type = node->getType();
         EXPECT_EQ(EvqVertexIn, type.getQualifier());
         EXPECT_EQ(2, type.getLayoutQualifier().location);
     }
 }

 // The test checks layout qualifier overriding when multiple layouts are specified.
 TEST_F(QualificationVertexShaderTestESSL31, MultipleLayoutsInterfaceBlock)
 {
     const std::string &shaderString =
         "#version 310 es\n"
         "precision lowp float;\n"
         "out float someValue;\n"
         "layout(shared) layout(std140) layout(column_major) uniform MyInterface\n"
         "{ vec4 something; } MyInterfaceName;\n"
         "void main(){\n"
         "   someValue = MyInterfaceName.something.r;\n"
         "}\n";
     if (!compile(shaderString))
     {
         FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
     }
     else
     {
         const TIntermSymbol *node = findSymbolInAST("MyInterfaceName", EbtInterfaceBlock);
         ASSERT_NE(nullptr, node);

         const TType &type                = node->getType();
         TLayoutQualifier layoutQualifier = type.getLayoutQualifier();
         EXPECT_EQ(EbsStd140, layoutQualifier.blockStorage);
         EXPECT_EQ(EmpColumnMajor, layoutQualifier.matrixPacking);
     }
 }

 // The test checks layout qualifier overriding when multiple layouts are specified.
 TEST_F(QualificationVertexShaderTestESSL31, MultipleLayoutsInterfaceBlock2)
 {
     const std::string &shaderString =
         "#version 310 es\n"
         "precision lowp float;\n"
         "out float someValue;\n"
         "layout(row_major) layout(std140) layout(shared) uniform MyInterface\n"
         "{ vec4 something; } MyInterfaceName;\n"
         "void main(){\n"
         "   someValue = MyInterfaceName.something.r;\n"
         "}\n";
     if (!compile(shaderString))
     {
         FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
     }
     else
     {
         const TIntermSymbol *node = findSymbolInAST("MyInterfaceName", EbtInterfaceBlock);
         ASSERT_NE(nullptr, node);

         const TType &type                = node->getType();
         TLayoutQualifier layoutQualifier = type.getLayoutQualifier();
         EXPECT_EQ(EbsShared, layoutQualifier.blockStorage);
         EXPECT_EQ(EmpRowMajor, layoutQualifier.matrixPacking);
     }
 }
	//
	// Copyright (c) 2016 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//
	// QualificationOrderESSL31_test.cpp:
	// OpenGL ES 3.1 removes the strict order of qualifiers imposed by the grammar.
	// This file contains tests for invalid order and usage of qualifiers in GLSL ES 3.10.

	#include "gtest/gtest.h"

	#include "angle_gl.h"
	#include "compiler/translator/TranslatorESSL.h"
	#include "GLSLANG/ShaderLang.h"
	#include "tests/test_utils/compiler_test.h"
	#include "tests/test_utils/ShaderCompileTreeTest.h"

	using namespace sh;

	class QualificationVertexShaderTestESSL31 : public ShaderCompileTreeTest
	{
	public:
	QualificationVertexShaderTestESSL31() {}
	protected:
	::GLenum getShaderType() const override { return GL_VERTEX_SHADER; }
	ShShaderSpec getShaderSpec() const override { return SH_GLES3_1_SPEC; }

	const TIntermSymbol *findSymbolInAST(const TString &symbolName, TBasicType basicType)
	{
	return FindSymbolNode(mASTRoot, symbolName, basicType);
	}
	};

	// GLSL ES 3.10 has relaxed checks on qualifier order. Any order is correct.
	TEST_F(QualificationVertexShaderTestESSL31, CentroidOut)
	{
	const std::string &shaderString =
	"#version 310 es\n"
	"precision lowp float;\n"
	"out centroid float something;\n"
	"void main(){\n"
	" something = 1.0;\n"
	"}\n";
	if (!compile(shaderString))
	{
	FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
	}
	else
	{
	const TIntermSymbol *node = findSymbolInAST("something", EbtFloat);
	ASSERT_NE(nullptr, node);

	const TType &type = node->getType();
	EXPECT_EQ(EvqCentroidOut, type.getQualifier());
	}
	}

	// GLSL ES 3.10 has relaxed checks on qualifier order. Any order is correct.
	TEST_F(QualificationVertexShaderTestESSL31, AllQualifiersMixed)
	{
	const std::string &shaderString =
	"#version 310 es\n"
	"precision lowp float;\n"
	"highp out invariant centroid flat vec4 something;\n"
	"void main(){\n"
	"}\n";
	if (!compile(shaderString))
	{
	FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
	}
	else
	{
	const TIntermSymbol *node = findSymbolInAST("something", EbtFloat);
	ASSERT_NE(nullptr, node);

	const TType &type = node->getType();
	EXPECT_TRUE(type.isInvariant());
	EXPECT_EQ(EvqFlatOut, type.getQualifier());
	EXPECT_EQ(EbpHigh, type.getPrecision());
	}
	}

	// GLSL ES 3.10 allows multiple layout qualifiers to be specified.
	TEST_F(QualificationVertexShaderTestESSL31, MultipleLayouts)
	{
	const std::string &shaderString =
	"#version 310 es\n"
	"precision lowp float;\n"
	"in layout(location=1) layout(location=2) vec4 something;\n"
	"void main(){\n"
	"}\n";
	if (!compile(shaderString))
	{
	FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
	}
	else
	{
	const TIntermSymbol *node = findSymbolInAST("something", EbtFloat);
	ASSERT_NE(nullptr, node);

	const TType &type = node->getType();
	EXPECT_EQ(EvqVertexIn, type.getQualifier());
	EXPECT_EQ(2, type.getLayoutQualifier().location);
	}
	}

	// The test checks layout qualifier overriding when multiple layouts are specified.
	TEST_F(QualificationVertexShaderTestESSL31, MultipleLayoutsInterfaceBlock)
	{
	const std::string &shaderString =
	"#version 310 es\n"
	"precision lowp float;\n"
	"out float someValue;\n"
	"layout(shared) layout(std140) layout(column_major) uniform MyInterface\n"
	"{ vec4 something; } MyInterfaceName;\n"
	"void main(){\n"
	" someValue = MyInterfaceName.something.r;\n"
	"}\n";
	if (!compile(shaderString))
	{
	FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
	}
	else
	{
	const TIntermSymbol *node = findSymbolInAST("MyInterfaceName", EbtInterfaceBlock);
	ASSERT_NE(nullptr, node);

	const TType &type = node->getType();
	TLayoutQualifier layoutQualifier = type.getLayoutQualifier();
	EXPECT_EQ(EbsStd140, layoutQualifier.blockStorage);
	EXPECT_EQ(EmpColumnMajor, layoutQualifier.matrixPacking);
	}
	}

	// The test checks layout qualifier overriding when multiple layouts are specified.
	TEST_F(QualificationVertexShaderTestESSL31, MultipleLayoutsInterfaceBlock2)
	{
	const std::string &shaderString =
	"#version 310 es\n"
	"precision lowp float;\n"
	"out float someValue;\n"
	"layout(row_major) layout(std140) layout(shared) uniform MyInterface\n"
	"{ vec4 something; } MyInterfaceName;\n"
	"void main(){\n"
	" someValue = MyInterfaceName.something.r;\n"
	"}\n";
	if (!compile(shaderString))
	{
	FAIL() << "Shader compilation failed, expecting success" << mInfoLog;
	}
	else
	{
	const TIntermSymbol *node = findSymbolInAST("MyInterfaceName", EbtInterfaceBlock);
	ASSERT_NE(nullptr, node);

	const TType &type = node->getType();
	TLayoutQualifier layoutQualifier = type.getLayoutQualifier();
	EXPECT_EQ(EbsShared, layoutQualifier.blockStorage);
	EXPECT_EQ(EmpRowMajor, layoutQualifier.matrixPacking);
	}
	}