src/writer/glsl/generator_impl_constructor_test.cc - dawn - Git at Google

 // Copyright 2021 The Tint Authors.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "gmock/gmock.h"
 #include "src/writer/glsl/test_helper.h"

 namespace tint {
 namespace writer {
 namespace glsl {
 namespace {

 using ::testing::HasSubstr;

 using GlslGeneratorImplTest_Constructor = TestHelper;

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Bool) {
   WrapInFunction(Expr(false));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("false"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Int) {
   WrapInFunction(Expr(-12345));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("-12345"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_UInt) {
   WrapInFunction(Expr(56779u));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("56779u"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Float) {
   // Use a number close to 1<<30 but whose decimal representation ends in 0.
   WrapInFunction(Expr(static_cast<float>((1 << 30) - 4)));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("1073741824.0f"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Float) {
   WrapInFunction(Construct<f32>(-1.2e-5f));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("float(-0.000012f)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Bool) {
   WrapInFunction(Construct<bool>(true));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("bool(true)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Int) {
   WrapInFunction(Construct<i32>(-12345));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("int(-12345)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Uint) {
   WrapInFunction(Construct<u32>(12345u));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("uint(12345u)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Vec) {
   WrapInFunction(vec3<f32>(1.f, 2.f, 3.f));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("vec3(1.0f, 2.0f, 3.0f)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Vec_Empty) {
   WrapInFunction(vec3<f32>());

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("vec3(0.0f, 0.0f, 0.0f)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor,
        EmitConstructor_Type_Vec_SingleScalar_Float) {
   WrapInFunction(vec3<f32>(2.0f));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("vec3(2.0f)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor,
        EmitConstructor_Type_Vec_SingleScalar_Bool) {
   WrapInFunction(vec3<bool>(true));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("bvec3(true)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor,
        EmitConstructor_Type_Vec_SingleScalar_Int) {
   WrapInFunction(vec3<i32>(2));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("ivec3(2)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor,
        EmitConstructor_Type_Vec_SingleScalar_UInt) {
   WrapInFunction(vec3<u32>(2u));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("uvec3(2u)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Mat) {
   WrapInFunction(
       mat2x3<f32>(vec3<f32>(1.f, 2.f, 3.f), vec3<f32>(3.f, 4.f, 5.f)));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();

   EXPECT_THAT(
       gen.result(),
       HasSubstr("mat2x3(vec3(1.0f, 2.0f, 3.0f), vec3(3.0f, 4.0f, 5.0f))"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Mat_Empty) {
   WrapInFunction(mat2x3<f32>());

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();

   EXPECT_THAT(gen.result(),
               HasSubstr("mat2x3(0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f)"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Array) {
   WrapInFunction(Construct(ty.array(ty.vec3<f32>(), 3),
                            vec3<f32>(1.f, 2.f, 3.f), vec3<f32>(4.f, 5.f, 6.f),
                            vec3<f32>(7.f, 8.f, 9.f)));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("vec3[3](vec3(1.0f, 2.0f, 3.0f), "
                                       "vec3(4.0f, 5.0f, 6.0f), "
                                       "vec3(7.0f, 8.0f, 9.0f))"));
 }

 // TODO(bclayton): Zero-init arrays
 TEST_F(GlslGeneratorImplTest_Constructor,
        DISABLED_EmitConstructor_Type_Array_Empty) {
   WrapInFunction(Construct(ty.array(ty.vec3<f32>(), 3)));

   GeneratorImpl& gen = Build();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(),
               HasSubstr("{vec3(0.0f, 0.0f, 0.0f), vec3(0.0f, 0.0f, 0.0f),"
                         " vec3(0.0f, 0.0f, 0.0f)}"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Struct) {
   auto* str = Structure("S", {
                                  Member("a", ty.i32()),
                                  Member("b", ty.f32()),
                                  Member("c", ty.vec3<i32>()),
                              });

   WrapInFunction(Construct(ty.Of(str), 1, 2.0f, vec3<i32>(3, 4, 5)));

   GeneratorImpl& gen = SanitizeAndBuild();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("S(1, 2.0f, ivec3(3, 4, 5))"));
 }

 TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Struct_Empty) {
   auto* str = Structure("S", {
                                  Member("a", ty.i32()),
                                  Member("b", ty.f32()),
                                  Member("c", ty.vec3<i32>()),
                              });

   WrapInFunction(Construct(ty.Of(str)));

   GeneratorImpl& gen = SanitizeAndBuild();

   ASSERT_TRUE(gen.Generate()) << gen.error();
   EXPECT_THAT(gen.result(), HasSubstr("S(0"));
 }

 }  // namespace
 }  // namespace glsl
 }  // namespace writer
 }  // namespace tint
	// Copyright 2021 The Tint Authors.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "gmock/gmock.h"
	#include "src/writer/glsl/test_helper.h"

	namespace tint {
	namespace writer {
	namespace glsl {
	namespace {

	using ::testing::HasSubstr;

	using GlslGeneratorImplTest_Constructor = TestHelper;

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Bool) {
	WrapInFunction(Expr(false));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("false"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Int) {
	WrapInFunction(Expr(-12345));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("-12345"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_UInt) {
	WrapInFunction(Expr(56779u));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("56779u"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Float) {
	// Use a number close to 1<<30 but whose decimal representation ends in 0.
	WrapInFunction(Expr(static_cast<float>((1 << 30) - 4)));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("1073741824.0f"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Float) {
	WrapInFunction(Construct<f32>(-1.2e-5f));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("float(-0.000012f)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Bool) {
	WrapInFunction(Construct<bool>(true));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("bool(true)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Int) {
	WrapInFunction(Construct<i32>(-12345));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("int(-12345)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Uint) {
	WrapInFunction(Construct<u32>(12345u));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("uint(12345u)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Vec) {
	WrapInFunction(vec3<f32>(1.f, 2.f, 3.f));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("vec3(1.0f, 2.0f, 3.0f)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Vec_Empty) {
	WrapInFunction(vec3<f32>());

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("vec3(0.0f, 0.0f, 0.0f)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor,
	EmitConstructor_Type_Vec_SingleScalar_Float) {
	WrapInFunction(vec3<f32>(2.0f));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("vec3(2.0f)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor,
	EmitConstructor_Type_Vec_SingleScalar_Bool) {
	WrapInFunction(vec3<bool>(true));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("bvec3(true)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor,
	EmitConstructor_Type_Vec_SingleScalar_Int) {
	WrapInFunction(vec3<i32>(2));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("ivec3(2)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor,
	EmitConstructor_Type_Vec_SingleScalar_UInt) {
	WrapInFunction(vec3<u32>(2u));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("uvec3(2u)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Mat) {
	WrapInFunction(
	mat2x3<f32>(vec3<f32>(1.f, 2.f, 3.f), vec3<f32>(3.f, 4.f, 5.f)));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();

	EXPECT_THAT(
	gen.result(),
	HasSubstr("mat2x3(vec3(1.0f, 2.0f, 3.0f), vec3(3.0f, 4.0f, 5.0f))"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Mat_Empty) {
	WrapInFunction(mat2x3<f32>());

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();

	EXPECT_THAT(gen.result(),
	HasSubstr("mat2x3(0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f)"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Array) {
	WrapInFunction(Construct(ty.array(ty.vec3<f32>(), 3),
	vec3<f32>(1.f, 2.f, 3.f), vec3<f32>(4.f, 5.f, 6.f),
	vec3<f32>(7.f, 8.f, 9.f)));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("vec3[3](vec3(1.0f, 2.0f, 3.0f), "
	"vec3(4.0f, 5.0f, 6.0f), "
	"vec3(7.0f, 8.0f, 9.0f))"));
	}

	// TODO(bclayton): Zero-init arrays
	TEST_F(GlslGeneratorImplTest_Constructor,
	DISABLED_EmitConstructor_Type_Array_Empty) {
	WrapInFunction(Construct(ty.array(ty.vec3<f32>(), 3)));

	GeneratorImpl& gen = Build();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(),
	HasSubstr("{vec3(0.0f, 0.0f, 0.0f), vec3(0.0f, 0.0f, 0.0f),"
	" vec3(0.0f, 0.0f, 0.0f)}"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Struct) {
	auto* str = Structure("S", {
	Member("a", ty.i32()),
	Member("b", ty.f32()),
	Member("c", ty.vec3<i32>()),
	});

	WrapInFunction(Construct(ty.Of(str), 1, 2.0f, vec3<i32>(3, 4, 5)));

	GeneratorImpl& gen = SanitizeAndBuild();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("S(1, 2.0f, ivec3(3, 4, 5))"));
	}

	TEST_F(GlslGeneratorImplTest_Constructor, EmitConstructor_Type_Struct_Empty) {
	auto* str = Structure("S", {
	Member("a", ty.i32()),
	Member("b", ty.f32()),
	Member("c", ty.vec3<i32>()),
	});

	WrapInFunction(Construct(ty.Of(str)));

	GeneratorImpl& gen = SanitizeAndBuild();

	ASSERT_TRUE(gen.Generate()) << gen.error();
	EXPECT_THAT(gen.result(), HasSubstr("S(0"));
	}

	} // namespace
	} // namespace glsl
	} // namespace writer
	} // namespace tint