Source/ThirdParty/ANGLE/src/tests/compiler_tests/FloatLex_test.cpp - WebKit - Git at Google

 //
 // Copyright 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.
 //
 // FloatLex_test.cpp:
 // Tests for parsing floats in GLSL source.
 //

 #include <sstream>
 #include <string>

 #include "common/debug.h"
 #include "common/mathutil.h"
 #include "compiler/translator/util.h"
 #include "gtest/gtest.h"

 namespace
 {

 class StrtofClampParser
 {
   public:
     static float Parse(std::string str)
     {
         float value;
         sh::strtof_clamp(str, &value);
         return value;
     }
 };

 class NumericLexFloatParser
 {
   public:
     static float Parse(std::string str) { return sh::NumericLexFloat32OutOfRangeToInfinity(str); }
 };

 }  // anonymous namespace

 template <typename T>
 class FloatLexTest : public ::testing::Test
 {
   public:
     FloatLexTest() {}

   protected:
     void SetUp() override {}

     void TearDown() override {}

     static bool ParsedMatches(std::string str, float expected)
     {
         return (T::Parse(str) == expected);
     }

     static bool IsInfinity(std::string str)
     {
         float f = T::Parse(str);
         return gl::isInf(f);
     }

     static std::string Zeros(size_t count) { return std::string(count, '0'); }
 };

 typedef ::testing::Types<StrtofClampParser, NumericLexFloatParser> FloatParserTypes;
 TYPED_TEST_SUITE(FloatLexTest, FloatParserTypes);

 TYPED_TEST(FloatLexTest, One)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("1.0", 1.0f));
 }

 TYPED_TEST(FloatLexTest, Ten)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("10.0", 10.0f));
 }

 TYPED_TEST(FloatLexTest, TenScientific)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("1.0e1", 10.0f));
 }

 TYPED_TEST(FloatLexTest, ScientificWithSmallMantissa)
 {
     std::stringstream ss;
     ss << "0." << TestFixture::Zeros(100) << "125e102";
     ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 12.5f));
 }

 TYPED_TEST(FloatLexTest, ScientificWithLargeMantissa)
 {
     std::stringstream ss;
     ss << "9" << TestFixture::Zeros(100) << ".0e-100";
     ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 9.0f));
 }

 TYPED_TEST(FloatLexTest, ScientificWithVerySmallMantissa)
 {
     std::stringstream ss;
     ss << "0." << TestFixture::Zeros(5000) << "125e5002";
     ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 12.5f));
 }

 TYPED_TEST(FloatLexTest, ScientificWithVeryLargeMantissa)
 {
     std::stringstream ss;
     ss << "9" << TestFixture::Zeros(5000) << ".0e-5000";
     ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 9.0f));
 }

 TYPED_TEST(FloatLexTest, StartWithDecimalDot)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches(".125", 0.125f));
 }

 TYPED_TEST(FloatLexTest, EndWithDecimalDot)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("123.", 123.0f));
 }

 TYPED_TEST(FloatLexTest, NoDecimalDot)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("125e-2", 1.25f));
 }

 TYPED_TEST(FloatLexTest, EndStartWithDecimalDotScientific)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches(".625e-1", 0.0625f));
 }

 TYPED_TEST(FloatLexTest, EndWithDecimalDotScientific)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("102400.e-2", 1024.0f));
 }

 TYPED_TEST(FloatLexTest, UppercaseE)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("125E-2", 1.25f));
 }

 TYPED_TEST(FloatLexTest, PlusInExponent)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("1E+2", 100.0f));
 }

 TYPED_TEST(FloatLexTest, SlightlyAboveMaxFloat)
 {
     ASSERT_TRUE(TestFixture::IsInfinity("3.4029e38"));
 }

 TYPED_TEST(FloatLexTest, SlightlyBelowMaxFloat)
 {
     ASSERT_FALSE(TestFixture::IsInfinity("3.4028e38"));
     ASSERT_TRUE(TestFixture::ParsedMatches("3.4028e38", 3.4028e38f));
 }

 TYPED_TEST(FloatLexTest, SlightlyAboveMaxFloatLargerMantissa)
 {
     ASSERT_TRUE(TestFixture::IsInfinity("34.029e37"));
 }

 TYPED_TEST(FloatLexTest, SlightlyBelowMaxFloatLargerMantissa)
 {
     ASSERT_FALSE(TestFixture::IsInfinity("34.028e37"));
     ASSERT_TRUE(TestFixture::ParsedMatches("34.028e37", 3.4028e38f));
 }

 TYPED_TEST(FloatLexTest, SlightlyAboveMaxFloatSmallerMantissa)
 {
     ASSERT_TRUE(TestFixture::IsInfinity("0.34029e39"));
 }

 TYPED_TEST(FloatLexTest, SlightlyBelowMaxFloatSmallerMantissa)
 {
     ASSERT_FALSE(TestFixture::IsInfinity("0.34028e39"));
     ASSERT_TRUE(TestFixture::ParsedMatches("0.34028e39", 3.4028e38f));
 }

 TYPED_TEST(FloatLexTest, SlightlyBelowMinSubnormalFloat)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("1.0e-48", 0.0f));
 }

 TYPED_TEST(FloatLexTest, SlightlyAboveMinNormalFloat)
 {
     ASSERT_FALSE(TestFixture::ParsedMatches("1.0e-37", 0.0f));
 }

 TYPED_TEST(FloatLexTest, ManySignificantDigits)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("1.23456789", 1.23456789f));
 }

 TYPED_TEST(FloatLexTest, MantissaBitAboveMaxUint)
 {
     ASSERT_TRUE(TestFixture::ParsedMatches("4294967299.", 4294967299.0f));
 }

 TYPED_TEST(FloatLexTest, ExponentBitAboveMaxInt)
 {
     ASSERT_TRUE(TestFixture::IsInfinity("1.0e2147483649"));
 }

 TYPED_TEST(FloatLexTest, ExponentBitBelowMaxIntAndLargeMantissa)
 {
     std::stringstream ss;
     ss << "1" << TestFixture::Zeros(32) << ".0e2147483640";
     ASSERT_TRUE(TestFixture::IsInfinity(ss.str()));
 }

 TYPED_TEST(FloatLexTest, ExponentBitAboveMinIntAndSmallMantissa)
 {
     std::stringstream ss;
     ss << "0." << TestFixture::Zeros(32) << "1e-2147483640";
     ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 0.0f));
 }
	//
	// Copyright 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.
	//
	// FloatLex_test.cpp:
	// Tests for parsing floats in GLSL source.
	//

	#include <sstream>
	#include <string>

	#include "common/debug.h"
	#include "common/mathutil.h"
	#include "compiler/translator/util.h"
	#include "gtest/gtest.h"

	namespace
	{

	class StrtofClampParser
	{
	public:
	static float Parse(std::string str)
	{
	float value;
	sh::strtof_clamp(str, &value);
	return value;
	}
	};

	class NumericLexFloatParser
	{
	public:
	static float Parse(std::string str) { return sh::NumericLexFloat32OutOfRangeToInfinity(str); }
	};

	} // anonymous namespace

	template <typename T>
	class FloatLexTest : public ::testing::Test
	{
	public:
	FloatLexTest() {}

	protected:
	void SetUp() override {}

	void TearDown() override {}

	static bool ParsedMatches(std::string str, float expected)
	{
	return (T::Parse(str) == expected);
	}

	static bool IsInfinity(std::string str)
	{
	float f = T::Parse(str);
	return gl::isInf(f);
	}

	static std::string Zeros(size_t count) { return std::string(count, '0'); }
	};

	typedef ::testing::Types<StrtofClampParser, NumericLexFloatParser> FloatParserTypes;
	TYPED_TEST_SUITE(FloatLexTest, FloatParserTypes);

	TYPED_TEST(FloatLexTest, One)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("1.0", 1.0f));
	}

	TYPED_TEST(FloatLexTest, Ten)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("10.0", 10.0f));
	}

	TYPED_TEST(FloatLexTest, TenScientific)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("1.0e1", 10.0f));
	}

	TYPED_TEST(FloatLexTest, ScientificWithSmallMantissa)
	{
	std::stringstream ss;
	ss << "0." << TestFixture::Zeros(100) << "125e102";
	ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 12.5f));
	}

	TYPED_TEST(FloatLexTest, ScientificWithLargeMantissa)
	{
	std::stringstream ss;
	ss << "9" << TestFixture::Zeros(100) << ".0e-100";
	ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 9.0f));
	}

	TYPED_TEST(FloatLexTest, ScientificWithVerySmallMantissa)
	{
	std::stringstream ss;
	ss << "0." << TestFixture::Zeros(5000) << "125e5002";
	ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 12.5f));
	}

	TYPED_TEST(FloatLexTest, ScientificWithVeryLargeMantissa)
	{
	std::stringstream ss;
	ss << "9" << TestFixture::Zeros(5000) << ".0e-5000";
	ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 9.0f));
	}

	TYPED_TEST(FloatLexTest, StartWithDecimalDot)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches(".125", 0.125f));
	}

	TYPED_TEST(FloatLexTest, EndWithDecimalDot)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("123.", 123.0f));
	}

	TYPED_TEST(FloatLexTest, NoDecimalDot)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("125e-2", 1.25f));
	}

	TYPED_TEST(FloatLexTest, EndStartWithDecimalDotScientific)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches(".625e-1", 0.0625f));
	}

	TYPED_TEST(FloatLexTest, EndWithDecimalDotScientific)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("102400.e-2", 1024.0f));
	}

	TYPED_TEST(FloatLexTest, UppercaseE)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("125E-2", 1.25f));
	}

	TYPED_TEST(FloatLexTest, PlusInExponent)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("1E+2", 100.0f));
	}

	TYPED_TEST(FloatLexTest, SlightlyAboveMaxFloat)
	{
	ASSERT_TRUE(TestFixture::IsInfinity("3.4029e38"));
	}

	TYPED_TEST(FloatLexTest, SlightlyBelowMaxFloat)
	{
	ASSERT_FALSE(TestFixture::IsInfinity("3.4028e38"));
	ASSERT_TRUE(TestFixture::ParsedMatches("3.4028e38", 3.4028e38f));
	}

	TYPED_TEST(FloatLexTest, SlightlyAboveMaxFloatLargerMantissa)
	{
	ASSERT_TRUE(TestFixture::IsInfinity("34.029e37"));
	}

	TYPED_TEST(FloatLexTest, SlightlyBelowMaxFloatLargerMantissa)
	{
	ASSERT_FALSE(TestFixture::IsInfinity("34.028e37"));
	ASSERT_TRUE(TestFixture::ParsedMatches("34.028e37", 3.4028e38f));
	}

	TYPED_TEST(FloatLexTest, SlightlyAboveMaxFloatSmallerMantissa)
	{
	ASSERT_TRUE(TestFixture::IsInfinity("0.34029e39"));
	}

	TYPED_TEST(FloatLexTest, SlightlyBelowMaxFloatSmallerMantissa)
	{
	ASSERT_FALSE(TestFixture::IsInfinity("0.34028e39"));
	ASSERT_TRUE(TestFixture::ParsedMatches("0.34028e39", 3.4028e38f));
	}

	TYPED_TEST(FloatLexTest, SlightlyBelowMinSubnormalFloat)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("1.0e-48", 0.0f));
	}

	TYPED_TEST(FloatLexTest, SlightlyAboveMinNormalFloat)
	{
	ASSERT_FALSE(TestFixture::ParsedMatches("1.0e-37", 0.0f));
	}

	TYPED_TEST(FloatLexTest, ManySignificantDigits)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("1.23456789", 1.23456789f));
	}

	TYPED_TEST(FloatLexTest, MantissaBitAboveMaxUint)
	{
	ASSERT_TRUE(TestFixture::ParsedMatches("4294967299.", 4294967299.0f));
	}

	TYPED_TEST(FloatLexTest, ExponentBitAboveMaxInt)
	{
	ASSERT_TRUE(TestFixture::IsInfinity("1.0e2147483649"));
	}

	TYPED_TEST(FloatLexTest, ExponentBitBelowMaxIntAndLargeMantissa)
	{
	std::stringstream ss;
	ss << "1" << TestFixture::Zeros(32) << ".0e2147483640";
	ASSERT_TRUE(TestFixture::IsInfinity(ss.str()));
	}

	TYPED_TEST(FloatLexTest, ExponentBitAboveMinIntAndSmallMantissa)
	{
	std::stringstream ss;
	ss << "0." << TestFixture::Zeros(32) << "1e-2147483640";
	ASSERT_TRUE(TestFixture::ParsedMatches(ss.str(), 0.0f));
	}