src/tint/lang/spirv/writer/constant_test.cc - tint - Git at Google

 // Copyright 2023 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.

 // GEN_BUILD:CONDITION(tint_build_ir)

 #include "src/tint/lang/core/fluent_types.h"
 #include "src/tint/lang/spirv/writer/common/helper_test.h"

 namespace tint::spirv::writer {
 namespace {

 using namespace tint::core::number_suffixes;  // NOLINT
 using namespace tint::core::fluent_types;     // NOLINT

 TEST_F(SpirvWriterTest, Constant_Bool) {
     writer_.Constant(b.Constant(true));
     writer_.Constant(b.Constant(false));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%true = OpConstantTrue %bool");
     EXPECT_INST("%false = OpConstantFalse %bool");
 }

 TEST_F(SpirvWriterTest, Constant_I32) {
     writer_.Constant(b.Constant(i32(42)));
     writer_.Constant(b.Constant(i32(-1)));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%int_42 = OpConstant %int 42");
     EXPECT_INST("%int_n1 = OpConstant %int -1");
 }

 TEST_F(SpirvWriterTest, Constant_U32) {
     writer_.Constant(b.Constant(u32(42)));
     writer_.Constant(b.Constant(u32(4000000000)));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%uint_42 = OpConstant %uint 42");
     EXPECT_INST("%uint_4000000000 = OpConstant %uint 4000000000");
 }

 TEST_F(SpirvWriterTest, Constant_F32) {
     writer_.Constant(b.Constant(f32(42)));
     writer_.Constant(b.Constant(f32(-1)));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%float_42 = OpConstant %float 42");
     EXPECT_INST("%float_n1 = OpConstant %float -1");
 }

 TEST_F(SpirvWriterTest, Constant_F16) {
     writer_.Constant(b.Constant(f16(42)));
     writer_.Constant(b.Constant(f16(-1)));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%half_0x1_5p_5 = OpConstant %half 0x1.5p+5");
     EXPECT_INST("%half_n0x1p_0 = OpConstant %half -0x1p+0");
 }

 TEST_F(SpirvWriterTest, Constant_Vec4Bool) {
     writer_.Constant(b.Composite(ty.vec4<bool>(), true, false, false, true));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%1 = OpConstantComposite %v4bool %true %false %false %true");
 }

 TEST_F(SpirvWriterTest, Constant_Vec2i) {
     writer_.Constant(b.Composite(ty.vec2<i32>(), 42_i, -1_i));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%1 = OpConstantComposite %v2int %int_42 %int_n1");
 }

 TEST_F(SpirvWriterTest, Constant_Vec3u) {
     writer_.Constant(b.Composite(ty.vec3<u32>(), 42_u, 0_u, 4000000000_u));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%1 = OpConstantComposite %v3uint %uint_42 %uint_0 %uint_4000000000");
 }

 TEST_F(SpirvWriterTest, Constant_Vec4f) {
     writer_.Constant(b.Composite(ty.vec4<f32>(), 42_f, 0_f, 0.25_f, -1_f));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%1 = OpConstantComposite %v4float %float_42 %float_0 %float_0_25 %float_n1");
 }

 TEST_F(SpirvWriterTest, Constant_Vec2h) {
     writer_.Constant(b.Composite(ty.vec2<f16>(), 42_h, 0.25_h));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%1 = OpConstantComposite %v2half %half_0x1_5p_5 %half_0x1pn2");
 }

 TEST_F(SpirvWriterTest, Constant_Mat2x3f) {
     writer_.Constant(b.Composite(ty.mat2x3<f32>(),  //
                                  b.Composite(ty.vec3<f32>(), 42_f, -1_f, 0.25_f),
                                  b.Composite(ty.vec3<f32>(), -42_f, 0_f, -0.25_f)));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
    %float_42 = OpConstant %float 42
    %float_n1 = OpConstant %float -1
  %float_0_25 = OpConstant %float 0.25
           %5 = OpConstantComposite %v3float %float_42 %float_n1 %float_0_25
   %float_n42 = OpConstant %float -42
     %float_0 = OpConstant %float 0
 %float_n0_25 = OpConstant %float -0.25
           %9 = OpConstantComposite %v3float %float_n42 %float_0 %float_n0_25
           %1 = OpConstantComposite %mat2v3float %5 %9
 )");
 }

 TEST_F(SpirvWriterTest, Constant_Mat4x2h) {
     writer_.Constant(b.Composite(ty.mat4x2<f16>(),                          //
                                  b.Composite(ty.vec2<f16>(), 42_h, -1_h),   //
                                  b.Composite(ty.vec2<f16>(), 0_h, 0.25_h),  //
                                  b.Composite(ty.vec2<f16>(), -42_h, 1_h),   //
                                  b.Composite(ty.vec2<f16>(), 0.5_h, f16(-0))));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
 %half_0x1_5p_5 = OpConstant %half 0x1.5p+5
 %half_n0x1p_0 = OpConstant %half -0x1p+0
           %5 = OpConstantComposite %v2half %half_0x1_5p_5 %half_n0x1p_0
 %half_0x0p_0 = OpConstant %half 0x0p+0
 %half_0x1pn2 = OpConstant %half 0x1p-2
           %8 = OpConstantComposite %v2half %half_0x0p_0 %half_0x1pn2
 %half_n0x1_5p_5 = OpConstant %half -0x1.5p+5
 %half_0x1p_0 = OpConstant %half 0x1p+0
          %11 = OpConstantComposite %v2half %half_n0x1_5p_5 %half_0x1p_0
 %half_0x1pn1 = OpConstant %half 0x1p-1
          %14 = OpConstantComposite %v2half %half_0x1pn1 %half_0x0p_0
           %1 = OpConstantComposite %mat4v2half %5 %8 %11 %14
 )");
 }

 TEST_F(SpirvWriterTest, Constant_Array_I32) {
     writer_.Constant(b.Composite(ty.array<i32, 4>(), 1_i, 2_i, 3_i, 4_i));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%1 = OpConstantComposite %_arr_int_uint_4 %int_1 %int_2 %int_3 %int_4");
 }

 TEST_F(SpirvWriterTest, Constant_Array_Array_I32) {
     auto* inner = b.Composite(ty.array<i32, 4>(), 1_i, 2_i, 3_i, 4_i);
     writer_.Constant(b.Composite(ty.array(ty.array<i32, 4>(), 4), inner, inner, inner, inner));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST(R"(
           %7 = OpConstantComposite %_arr_int_uint_4 %int_1 %int_2 %int_3 %int_4
           %1 = OpConstantComposite %_arr__arr_int_uint_4_uint_4 %7 %7 %7 %7
 )");
 }

 TEST_F(SpirvWriterTest, Constant_Struct) {
     auto* str_ty = ty.Struct(mod.symbols.New("MyStruct"), {
                                                               {mod.symbols.New("a"), ty.i32()},
                                                               {mod.symbols.New("b"), ty.u32()},
                                                               {mod.symbols.New("c"), ty.f32()},
                                                           });
     writer_.Constant(b.Composite(str_ty, 1_i, 2_u, 3_f));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%1 = OpConstantComposite %MyStruct %int_1 %uint_2 %float_3");
 }

 // Test that we do not emit the same constant more than once.
 TEST_F(SpirvWriterTest, Constant_Deduplicate) {
     writer_.Constant(b.Constant(42_i));
     writer_.Constant(b.Constant(42_i));
     writer_.Constant(b.Constant(42_i));
     ASSERT_TRUE(Generate()) << Error() << output_;
     EXPECT_INST("%int_42 = OpConstant %int 42");
 }

 }  // namespace
 }  // namespace tint::spirv::writer
	// Copyright 2023 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.

	// GEN_BUILD:CONDITION(tint_build_ir)

	#include "src/tint/lang/core/fluent_types.h"
	#include "src/tint/lang/spirv/writer/common/helper_test.h"

	namespace tint::spirv::writer {
	namespace {

	using namespace tint::core::number_suffixes; // NOLINT
	using namespace tint::core::fluent_types; // NOLINT

	TEST_F(SpirvWriterTest, Constant_Bool) {
	writer_.Constant(b.Constant(true));
	writer_.Constant(b.Constant(false));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%true = OpConstantTrue %bool");
	EXPECT_INST("%false = OpConstantFalse %bool");
	}

	TEST_F(SpirvWriterTest, Constant_I32) {
	writer_.Constant(b.Constant(i32(42)));
	writer_.Constant(b.Constant(i32(-1)));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%int_42 = OpConstant %int 42");
	EXPECT_INST("%int_n1 = OpConstant %int -1");
	}

	TEST_F(SpirvWriterTest, Constant_U32) {
	writer_.Constant(b.Constant(u32(42)));
	writer_.Constant(b.Constant(u32(4000000000)));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%uint_42 = OpConstant %uint 42");
	EXPECT_INST("%uint_4000000000 = OpConstant %uint 4000000000");
	}

	TEST_F(SpirvWriterTest, Constant_F32) {
	writer_.Constant(b.Constant(f32(42)));
	writer_.Constant(b.Constant(f32(-1)));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%float_42 = OpConstant %float 42");
	EXPECT_INST("%float_n1 = OpConstant %float -1");
	}

	TEST_F(SpirvWriterTest, Constant_F16) {
	writer_.Constant(b.Constant(f16(42)));
	writer_.Constant(b.Constant(f16(-1)));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%half_0x1_5p_5 = OpConstant %half 0x1.5p+5");
	EXPECT_INST("%half_n0x1p_0 = OpConstant %half -0x1p+0");
	}

	TEST_F(SpirvWriterTest, Constant_Vec4Bool) {
	writer_.Constant(b.Composite(ty.vec4<bool>(), true, false, false, true));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%1 = OpConstantComposite %v4bool %true %false %false %true");
	}

	TEST_F(SpirvWriterTest, Constant_Vec2i) {
	writer_.Constant(b.Composite(ty.vec2<i32>(), 42_i, -1_i));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%1 = OpConstantComposite %v2int %int_42 %int_n1");
	}

	TEST_F(SpirvWriterTest, Constant_Vec3u) {
	writer_.Constant(b.Composite(ty.vec3<u32>(), 42_u, 0_u, 4000000000_u));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%1 = OpConstantComposite %v3uint %uint_42 %uint_0 %uint_4000000000");
	}

	TEST_F(SpirvWriterTest, Constant_Vec4f) {
	writer_.Constant(b.Composite(ty.vec4<f32>(), 42_f, 0_f, 0.25_f, -1_f));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%1 = OpConstantComposite %v4float %float_42 %float_0 %float_0_25 %float_n1");
	}

	TEST_F(SpirvWriterTest, Constant_Vec2h) {
	writer_.Constant(b.Composite(ty.vec2<f16>(), 42_h, 0.25_h));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%1 = OpConstantComposite %v2half %half_0x1_5p_5 %half_0x1pn2");
	}

	TEST_F(SpirvWriterTest, Constant_Mat2x3f) {
	writer_.Constant(b.Composite(ty.mat2x3<f32>(), //
	b.Composite(ty.vec3<f32>(), 42_f, -1_f, 0.25_f),
	b.Composite(ty.vec3<f32>(), -42_f, 0_f, -0.25_f)));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	%float_42 = OpConstant %float 42
	%float_n1 = OpConstant %float -1
	%float_0_25 = OpConstant %float 0.25
	%5 = OpConstantComposite %v3float %float_42 %float_n1 %float_0_25
	%float_n42 = OpConstant %float -42
	%float_0 = OpConstant %float 0
	%float_n0_25 = OpConstant %float -0.25
	%9 = OpConstantComposite %v3float %float_n42 %float_0 %float_n0_25
	%1 = OpConstantComposite %mat2v3float %5 %9
	)");
	}

	TEST_F(SpirvWriterTest, Constant_Mat4x2h) {
	writer_.Constant(b.Composite(ty.mat4x2<f16>(), //
	b.Composite(ty.vec2<f16>(), 42_h, -1_h), //
	b.Composite(ty.vec2<f16>(), 0_h, 0.25_h), //
	b.Composite(ty.vec2<f16>(), -42_h, 1_h), //
	b.Composite(ty.vec2<f16>(), 0.5_h, f16(-0))));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	%half_0x1_5p_5 = OpConstant %half 0x1.5p+5
	%half_n0x1p_0 = OpConstant %half -0x1p+0
	%5 = OpConstantComposite %v2half %half_0x1_5p_5 %half_n0x1p_0
	%half_0x0p_0 = OpConstant %half 0x0p+0
	%half_0x1pn2 = OpConstant %half 0x1p-2
	%8 = OpConstantComposite %v2half %half_0x0p_0 %half_0x1pn2
	%half_n0x1_5p_5 = OpConstant %half -0x1.5p+5
	%half_0x1p_0 = OpConstant %half 0x1p+0
	%11 = OpConstantComposite %v2half %half_n0x1_5p_5 %half_0x1p_0
	%half_0x1pn1 = OpConstant %half 0x1p-1
	%14 = OpConstantComposite %v2half %half_0x1pn1 %half_0x0p_0
	%1 = OpConstantComposite %mat4v2half %5 %8 %11 %14
	)");
	}

	TEST_F(SpirvWriterTest, Constant_Array_I32) {
	writer_.Constant(b.Composite(ty.array<i32, 4>(), 1_i, 2_i, 3_i, 4_i));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%1 = OpConstantComposite %_arr_int_uint_4 %int_1 %int_2 %int_3 %int_4");
	}

	TEST_F(SpirvWriterTest, Constant_Array_Array_I32) {
	auto* inner = b.Composite(ty.array<i32, 4>(), 1_i, 2_i, 3_i, 4_i);
	writer_.Constant(b.Composite(ty.array(ty.array<i32, 4>(), 4), inner, inner, inner, inner));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST(R"(
	%7 = OpConstantComposite %_arr_int_uint_4 %int_1 %int_2 %int_3 %int_4
	%1 = OpConstantComposite %_arr__arr_int_uint_4_uint_4 %7 %7 %7 %7
	)");
	}

	TEST_F(SpirvWriterTest, Constant_Struct) {
	auto* str_ty = ty.Struct(mod.symbols.New("MyStruct"), {
	{mod.symbols.New("a"), ty.i32()},
	{mod.symbols.New("b"), ty.u32()},
	{mod.symbols.New("c"), ty.f32()},
	});
	writer_.Constant(b.Composite(str_ty, 1_i, 2_u, 3_f));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%1 = OpConstantComposite %MyStruct %int_1 %uint_2 %float_3");
	}

	// Test that we do not emit the same constant more than once.
	TEST_F(SpirvWriterTest, Constant_Deduplicate) {
	writer_.Constant(b.Constant(42_i));
	writer_.Constant(b.Constant(42_i));
	writer_.Constant(b.Constant(42_i));
	ASSERT_TRUE(Generate()) << Error() << output_;
	EXPECT_INST("%int_42 = OpConstant %int 42");
	}

	} // namespace
	} // namespace tint::spirv::writer