// 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 "src/tint/ast/call_statement.h" #include "src/tint/ast/variable_decl_statement.h" #include "src/tint/writer/glsl/test_helper.h" using namespace tint::number_suffixes; // NOLINT namespace tint::writer::glsl { namespace { using GlslGeneratorImplTest_Binary = TestHelper; struct BinaryData { const char* result; ast::BinaryOp op; }; inline std::ostream& operator<<(std::ostream& out, BinaryData data) { out << data.op; return out; } using GlslBinaryTest = TestParamHelper; TEST_P(GlslBinaryTest, Emit_f32) { auto params = GetParam(); // Skip ops that are illegal for this type if (params.op == ast::BinaryOp::kAnd || params.op == ast::BinaryOp::kOr || params.op == ast::BinaryOp::kXor || params.op == ast::BinaryOp::kShiftLeft || params.op == ast::BinaryOp::kShiftRight || params.op == ast::BinaryOp::kModulo) { return; } GlobalVar("left", ty.f32(), ast::StorageClass::kPrivate); GlobalVar("right", ty.f32(), ast::StorageClass::kPrivate); auto* left = Expr("left"); auto* right = Expr("right"); auto* expr = create(params.op, left, right); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), params.result); } TEST_P(GlslBinaryTest, Emit_f16) { auto params = GetParam(); // Skip ops that are illegal for this type if (params.op == ast::BinaryOp::kAnd || params.op == ast::BinaryOp::kOr || params.op == ast::BinaryOp::kXor || params.op == ast::BinaryOp::kShiftLeft || params.op == ast::BinaryOp::kShiftRight || params.op == ast::BinaryOp::kModulo) { return; } Enable(ast::Extension::kF16); GlobalVar("left", ty.f16(), ast::StorageClass::kPrivate); GlobalVar("right", ty.f16(), ast::StorageClass::kPrivate); auto* left = Expr("left"); auto* right = Expr("right"); auto* expr = create(params.op, left, right); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), params.result); } TEST_P(GlslBinaryTest, Emit_u32) { auto params = GetParam(); GlobalVar("left", ty.u32(), ast::StorageClass::kPrivate); GlobalVar("right", ty.u32(), ast::StorageClass::kPrivate); auto* left = Expr("left"); auto* right = Expr("right"); auto* expr = create(params.op, left, right); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), params.result); } TEST_P(GlslBinaryTest, Emit_i32) { auto params = GetParam(); // Skip ops that are illegal for this type if (params.op == ast::BinaryOp::kShiftLeft || params.op == ast::BinaryOp::kShiftRight) { return; } GlobalVar("left", ty.i32(), ast::StorageClass::kPrivate); GlobalVar("right", ty.i32(), ast::StorageClass::kPrivate); auto* left = Expr("left"); auto* right = Expr("right"); auto* expr = create(params.op, left, right); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), params.result); } INSTANTIATE_TEST_SUITE_P( GlslGeneratorImplTest, GlslBinaryTest, testing::Values(BinaryData{"(left & right)", ast::BinaryOp::kAnd}, BinaryData{"(left | right)", ast::BinaryOp::kOr}, BinaryData{"(left ^ right)", ast::BinaryOp::kXor}, BinaryData{"(left == right)", ast::BinaryOp::kEqual}, BinaryData{"(left != right)", ast::BinaryOp::kNotEqual}, BinaryData{"(left < right)", ast::BinaryOp::kLessThan}, BinaryData{"(left > right)", ast::BinaryOp::kGreaterThan}, BinaryData{"(left <= right)", ast::BinaryOp::kLessThanEqual}, BinaryData{"(left >= right)", ast::BinaryOp::kGreaterThanEqual}, BinaryData{"(left << right)", ast::BinaryOp::kShiftLeft}, BinaryData{"(left >> right)", ast::BinaryOp::kShiftRight}, BinaryData{"(left + right)", ast::BinaryOp::kAdd}, BinaryData{"(left - right)", ast::BinaryOp::kSubtract}, BinaryData{"(left * right)", ast::BinaryOp::kMultiply}, BinaryData{"(left / right)", ast::BinaryOp::kDivide}, BinaryData{"(left % right)", ast::BinaryOp::kModulo})); TEST_F(GlslGeneratorImplTest_Binary, Multiply_VectorScalar_f32) { GlobalVar("a", vec3(1_f, 1_f, 1_f), ast::StorageClass::kPrivate); auto* lhs = Expr("a"); auto* rhs = Expr(1_f); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(a * 1.0f)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_VectorScalar_f16) { Enable(ast::Extension::kF16); GlobalVar("a", vec3(1_h, 1_h, 1_h), ast::StorageClass::kPrivate); auto* lhs = Expr("a"); auto* rhs = Expr(1_h); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(a * 1.0hf)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_ScalarVector_f32) { GlobalVar("a", vec3(1_f, 1_f, 1_f), ast::StorageClass::kPrivate); auto* lhs = Expr(1_f); auto* rhs = Expr("a"); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(1.0f * a)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_ScalarVector_f16) { Enable(ast::Extension::kF16); GlobalVar("a", vec3(1_h, 1_h, 1_h), ast::StorageClass::kPrivate); auto* lhs = Expr(1_h); auto* rhs = Expr("a"); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(1.0hf * a)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_MatrixScalar_f32) { GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = Expr("mat"); auto* rhs = Expr(1_f); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(mat * 1.0f)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_MatrixScalar_f16) { Enable(ast::Extension::kF16); GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = Expr("mat"); auto* rhs = Expr(1_h); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(mat * 1.0hf)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_ScalarMatrix_f32) { GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = Expr(1_f); auto* rhs = Expr("mat"); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(1.0f * mat)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_ScalarMatrix_f16) { Enable(ast::Extension::kF16); GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = Expr(1_h); auto* rhs = Expr("mat"); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(1.0hf * mat)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_MatrixVector_f32) { GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = Expr("mat"); auto* rhs = vec3(1_f, 1_f, 1_f); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(mat * vec3(1.0f))"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_MatrixVector_f16) { Enable(ast::Extension::kF16); GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = Expr("mat"); auto* rhs = vec3(1_h, 1_h, 1_h); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(mat * f16vec3(1.0hf))"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_VectorMatrix_f32) { GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = vec3(1_f, 1_f, 1_f); auto* rhs = Expr("mat"); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(vec3(1.0f) * mat)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_VectorMatrix_f16) { Enable(ast::Extension::kF16); GlobalVar("mat", ty.mat3x3(), ast::StorageClass::kPrivate); auto* lhs = vec3(1_h, 1_h, 1_h); auto* rhs = Expr("mat"); auto* expr = create(ast::BinaryOp::kMultiply, lhs, rhs); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(f16vec3(1.0hf) * mat)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_MatrixMatrix_f32) { GlobalVar("lhs", ty.mat3x3(), ast::StorageClass::kPrivate); GlobalVar("rhs", ty.mat3x3(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kMultiply, Expr("lhs"), Expr("rhs")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(lhs * rhs)"); } TEST_F(GlslGeneratorImplTest_Binary, Multiply_MatrixMatrix_f16) { Enable(ast::Extension::kF16); GlobalVar("lhs", ty.mat3x3(), ast::StorageClass::kPrivate); GlobalVar("rhs", ty.mat3x3(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kMultiply, Expr("lhs"), Expr("rhs")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; EXPECT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(lhs * rhs)"); } TEST_F(GlslGeneratorImplTest_Binary, ModF32) { GlobalVar("a", ty.f32(), ast::StorageClass::kPrivate); GlobalVar("b", ty.f32(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModF16) { Enable(ast::Extension::kF16); GlobalVar("a", ty.f16(), ast::StorageClass::kPrivate); GlobalVar("b", ty.f16(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModVec3F32) { GlobalVar("a", ty.vec3(), ast::StorageClass::kPrivate); GlobalVar("b", ty.vec3(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModVec3F16) { Enable(ast::Extension::kF16); GlobalVar("a", ty.vec3(), ast::StorageClass::kPrivate); GlobalVar("b", ty.vec3(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModVec3F32ScalarF32) { GlobalVar("a", ty.vec3(), ast::StorageClass::kPrivate); GlobalVar("b", ty.f32(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModVec3F16ScalarF16) { Enable(ast::Extension::kF16); GlobalVar("a", ty.vec3(), ast::StorageClass::kPrivate); GlobalVar("b", ty.f16(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModScalarF32Vec3F32) { GlobalVar("a", ty.f32(), ast::StorageClass::kPrivate); GlobalVar("b", ty.vec3(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModScalarF16Vec3F16) { Enable(ast::Extension::kF16); GlobalVar("a", ty.f16(), ast::StorageClass::kPrivate); GlobalVar("b", ty.vec3(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "tint_float_modulo(a, b)"); } TEST_F(GlslGeneratorImplTest_Binary, ModMixedVec3ScalarF32) { GlobalVar("a", ty.vec3(), ast::StorageClass::kPrivate); GlobalVar("b", ty.f32(), ast::StorageClass::kPrivate); auto* expr_vec_mod_vec = create(ast::BinaryOp::kModulo, Expr("a"), Expr("a")); auto* expr_vec_mod_scalar = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); auto* expr_scalar_mod_vec = create(ast::BinaryOp::kModulo, Expr("b"), Expr("a")); WrapInFunction(expr_vec_mod_vec, expr_vec_mod_scalar, expr_scalar_mod_vec); GeneratorImpl& gen = Build(); ASSERT_TRUE(gen.Generate()) << gen.error(); EXPECT_EQ(gen.result(), R"(#version 310 es vec3 tint_float_modulo(vec3 lhs, vec3 rhs) { return (lhs - rhs * trunc(lhs / rhs)); } vec3 tint_float_modulo_1(vec3 lhs, float rhs) { return (lhs - rhs * trunc(lhs / rhs)); } vec3 tint_float_modulo_2(float lhs, vec3 rhs) { return (lhs - rhs * trunc(lhs / rhs)); } vec3 a = vec3(0.0f, 0.0f, 0.0f); float b = 0.0f; layout(local_size_x = 1, local_size_y = 1, local_size_z = 1) in; void test_function() { vec3 tint_symbol = tint_float_modulo(a, a); vec3 tint_symbol_1 = tint_float_modulo_1(a, b); vec3 tint_symbol_2 = tint_float_modulo_2(b, a); return; } )"); } TEST_F(GlslGeneratorImplTest_Binary, ModMixedVec3ScalarF16) { Enable(ast::Extension::kF16); GlobalVar("a", ty.vec3(), ast::StorageClass::kPrivate); GlobalVar("b", ty.f16(), ast::StorageClass::kPrivate); auto* expr_vec_mod_vec = create(ast::BinaryOp::kModulo, Expr("a"), Expr("a")); auto* expr_vec_mod_scalar = create(ast::BinaryOp::kModulo, Expr("a"), Expr("b")); auto* expr_scalar_mod_vec = create(ast::BinaryOp::kModulo, Expr("b"), Expr("a")); WrapInFunction(expr_vec_mod_vec, expr_vec_mod_scalar, expr_scalar_mod_vec); GeneratorImpl& gen = Build(); ASSERT_TRUE(gen.Generate()) << gen.error(); EXPECT_EQ(gen.result(), R"(#version 310 es #extension GL_AMD_gpu_shader_half_float : require f16vec3 tint_float_modulo(f16vec3 lhs, f16vec3 rhs) { return (lhs - rhs * trunc(lhs / rhs)); } f16vec3 tint_float_modulo_1(f16vec3 lhs, float16_t rhs) { return (lhs - rhs * trunc(lhs / rhs)); } f16vec3 tint_float_modulo_2(float16_t lhs, f16vec3 rhs) { return (lhs - rhs * trunc(lhs / rhs)); } f16vec3 a = f16vec3(0.0hf, 0.0hf, 0.0hf); float16_t b = 0.0hf; layout(local_size_x = 1, local_size_y = 1, local_size_z = 1) in; void test_function() { f16vec3 tint_symbol = tint_float_modulo(a, a); f16vec3 tint_symbol_1 = tint_float_modulo_1(a, b); f16vec3 tint_symbol_2 = tint_float_modulo_2(b, a); return; } )"); } TEST_F(GlslGeneratorImplTest_Binary, Logical_And) { GlobalVar("a", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kLogicalAnd, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(tint_tmp)"); EXPECT_EQ(gen.result(), R"(bool tint_tmp = a; if (tint_tmp) { tint_tmp = b; } )"); } TEST_F(GlslGeneratorImplTest_Binary, Logical_Multi) { // (a && b) || (c || d) GlobalVar("a", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("c", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("d", ty.bool_(), ast::StorageClass::kPrivate); auto* expr = create( ast::BinaryOp::kLogicalOr, create(ast::BinaryOp::kLogicalAnd, Expr("a"), Expr("b")), create(ast::BinaryOp::kLogicalOr, Expr("c"), Expr("d"))); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(tint_tmp)"); EXPECT_EQ(gen.result(), R"(bool tint_tmp_1 = a; if (tint_tmp_1) { tint_tmp_1 = b; } bool tint_tmp = (tint_tmp_1); if (!tint_tmp) { bool tint_tmp_2 = c; if (!tint_tmp_2) { tint_tmp_2 = d; } tint_tmp = (tint_tmp_2); } )"); } TEST_F(GlslGeneratorImplTest_Binary, Logical_Or) { GlobalVar("a", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); auto* expr = create(ast::BinaryOp::kLogicalOr, Expr("a"), Expr("b")); WrapInFunction(expr); GeneratorImpl& gen = Build(); std::stringstream out; ASSERT_TRUE(gen.EmitExpression(out, expr)) << gen.error(); EXPECT_EQ(out.str(), "(tint_tmp)"); EXPECT_EQ(gen.result(), R"(bool tint_tmp = a; if (!tint_tmp) { tint_tmp = b; } )"); } TEST_F(GlslGeneratorImplTest_Binary, If_WithLogical) { // if (a && b) { // return 1i; // } else if (b || c) { // return 2i; // } else { // return 3i; // } GlobalVar("a", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("c", ty.bool_(), ast::StorageClass::kPrivate); auto* expr = If(create(ast::BinaryOp::kLogicalAnd, Expr("a"), Expr("b")), Block(Return(1_i)), Else(If(create(ast::BinaryOp::kLogicalOr, Expr("b"), Expr("c")), Block(Return(2_i)), Else(Block(Return(3_i)))))); Func("func", utils::Empty, ty.i32(), utils::Vector{WrapInStatement(expr)}); GeneratorImpl& gen = Build(); ASSERT_TRUE(gen.EmitStatement(expr)) << gen.error(); EXPECT_EQ(gen.result(), R"(bool tint_tmp = a; if (tint_tmp) { tint_tmp = b; } if ((tint_tmp)) { return 1; } else { bool tint_tmp_1 = b; if (!tint_tmp_1) { tint_tmp_1 = c; } if ((tint_tmp_1)) { return 2; } else { return 3; } } )"); } TEST_F(GlslGeneratorImplTest_Binary, Return_WithLogical) { // return (a && b) || c; GlobalVar("a", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("c", ty.bool_(), ast::StorageClass::kPrivate); auto* expr = Return(create( ast::BinaryOp::kLogicalOr, create(ast::BinaryOp::kLogicalAnd, Expr("a"), Expr("b")), Expr("c"))); Func("func", utils::Empty, ty.bool_(), utils::Vector{WrapInStatement(expr)}); GeneratorImpl& gen = Build(); ASSERT_TRUE(gen.EmitStatement(expr)) << gen.error(); EXPECT_EQ(gen.result(), R"(bool tint_tmp_1 = a; if (tint_tmp_1) { tint_tmp_1 = b; } bool tint_tmp = (tint_tmp_1); if (!tint_tmp) { tint_tmp = c; } return (tint_tmp); )"); } TEST_F(GlslGeneratorImplTest_Binary, Assign_WithLogical) { // a = (b || c) && d; GlobalVar("a", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("c", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("d", ty.bool_(), ast::StorageClass::kPrivate); auto* expr = Assign(Expr("a"), create( ast::BinaryOp::kLogicalAnd, create(ast::BinaryOp::kLogicalOr, Expr("b"), Expr("c")), Expr("d"))); WrapInFunction(expr); GeneratorImpl& gen = Build(); ASSERT_TRUE(gen.EmitStatement(expr)) << gen.error(); EXPECT_EQ(gen.result(), R"(bool tint_tmp_1 = b; if (!tint_tmp_1) { tint_tmp_1 = c; } bool tint_tmp = (tint_tmp_1); if (tint_tmp) { tint_tmp = d; } a = (tint_tmp); )"); } TEST_F(GlslGeneratorImplTest_Binary, Decl_WithLogical) { // var a : bool = (b && c) || d; GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("c", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("d", ty.bool_(), ast::StorageClass::kPrivate); auto* var = Var("a", ty.bool_(), create( ast::BinaryOp::kLogicalOr, create(ast::BinaryOp::kLogicalAnd, Expr("b"), Expr("c")), Expr("d"))); auto* decl = Decl(var); WrapInFunction(decl); GeneratorImpl& gen = Build(); ASSERT_TRUE(gen.EmitStatement(decl)) << gen.error(); EXPECT_EQ(gen.result(), R"(bool tint_tmp_1 = b; if (tint_tmp_1) { tint_tmp_1 = c; } bool tint_tmp = (tint_tmp_1); if (!tint_tmp) { tint_tmp = d; } bool a = (tint_tmp); )"); } TEST_F(GlslGeneratorImplTest_Binary, Call_WithLogical) { // foo(a && b, c || d, (a || c) && (b || d)) Func("foo", utils::Vector{ Param(Sym(), ty.bool_()), Param(Sym(), ty.bool_()), Param(Sym(), ty.bool_()), }, ty.void_(), utils::Empty, utils::Empty); GlobalVar("a", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("b", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("c", ty.bool_(), ast::StorageClass::kPrivate); GlobalVar("d", ty.bool_(), ast::StorageClass::kPrivate); utils::Vector params{ create(ast::BinaryOp::kLogicalAnd, Expr("a"), Expr("b")), create(ast::BinaryOp::kLogicalOr, Expr("c"), Expr("d")), create( ast::BinaryOp::kLogicalAnd, create(ast::BinaryOp::kLogicalOr, Expr("a"), Expr("c")), create(ast::BinaryOp::kLogicalOr, Expr("b"), Expr("d"))), }; auto* expr = CallStmt(Call("foo", params)); WrapInFunction(expr); GeneratorImpl& gen = Build(); ASSERT_TRUE(gen.EmitStatement(expr)) << gen.error(); EXPECT_EQ(gen.result(), R"(bool tint_tmp = a; if (tint_tmp) { tint_tmp = b; } bool tint_tmp_1 = c; if (!tint_tmp_1) { tint_tmp_1 = d; } bool tint_tmp_3 = a; if (!tint_tmp_3) { tint_tmp_3 = c; } bool tint_tmp_2 = (tint_tmp_3); if (tint_tmp_2) { bool tint_tmp_4 = b; if (!tint_tmp_4) { tint_tmp_4 = d; } tint_tmp_2 = (tint_tmp_4); } foo((tint_tmp), (tint_tmp_1), (tint_tmp_2)); )"); } } // namespace } // namespace tint::writer::glsl