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dawn-cmake/src/tint/writer/append_vector_test.cc
Ben Clayton 01208e7e42 tint: Rename Global() -> GlobalVar() 
We have `GlobalLet()`, `Let()`, `Var()`, so this just
keeps things consistent

Change-Id: Ie9f79b62e737a15b995c5a2b19f84621a5ac3cc9
Reviewed-on: https://dawn-review.googlesource.com/c/dawn/+/94604
Commit-Queue: Ben Clayton <bclayton@google.com>
Reviewed-by: David Neto <dneto@google.com>
Kokoro: Kokoro <noreply+kokoro@google.com>
2022-06-25 08:12:59 +00:00

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// 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/writer/append_vector.h"
#include "src/tint/program_builder.h"
#include "src/tint/resolver/resolver.h"
#include "src/tint/sem/type_constructor.h"
#include "gtest/gtest.h"
using namespace tint::number_suffixes; // NOLINT
namespace tint::writer {
namespace {
class AppendVectorTest : public ::testing::Test, public ProgramBuilder {};
// AppendVector(vec2<i32>(1, 2), 3) -> vec3<i32>(1, 2, 3)
TEST_F(AppendVectorTest, Vec2i32_i32) {
auto* scalar_1 = Expr(1_i);
auto* scalar_2 = Expr(2_i);
auto* scalar_3 = Expr(3_i);
auto* vec_12 = vec2<i32>(scalar_1, scalar_2);
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 3u);
EXPECT_EQ(vec_123->args[0], scalar_1);
EXPECT_EQ(vec_123->args[1], scalar_2);
EXPECT_EQ(vec_123->args[2], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 3u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(scalar_1));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_2));
EXPECT_EQ(call->Arguments()[2], Sem().Get(scalar_3));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 3u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[2]->Type()->Is<sem::I32>());
}
// AppendVector(vec2<i32>(1, 2), 3u) -> vec3<i32>(1, 2, i32(3u))
TEST_F(AppendVectorTest, Vec2i32_u32) {
auto* scalar_1 = Expr(1_i);
auto* scalar_2 = Expr(2_i);
auto* scalar_3 = Expr(3_u);
auto* vec_12 = vec2<i32>(scalar_1, scalar_2);
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 3u);
EXPECT_EQ(vec_123->args[0], scalar_1);
EXPECT_EQ(vec_123->args[1], scalar_2);
auto* u32_to_i32 = vec_123->args[2]->As<ast::CallExpression>();
ASSERT_NE(u32_to_i32, nullptr);
EXPECT_TRUE(u32_to_i32->target.type->Is<ast::I32>());
ASSERT_EQ(u32_to_i32->args.size(), 1u);
EXPECT_EQ(u32_to_i32->args[0], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 3u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(scalar_1));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_2));
EXPECT_EQ(call->Arguments()[2], Sem().Get(u32_to_i32));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 3u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[2]->Type()->Is<sem::I32>());
}
// AppendVector(vec2<i32>(vec2<u32>(1u, 2u)), 3u) ->
// vec3<i32>(vec2<i32>(vec2<u32>(1u, 2u)), i32(3u))
TEST_F(AppendVectorTest, Vec2i32FromVec2u32_u32) {
auto* scalar_1 = Expr(1_u);
auto* scalar_2 = Expr(2_u);
auto* scalar_3 = Expr(3_u);
auto* uvec_12 = vec2<u32>(scalar_1, scalar_2);
auto* vec_12 = vec2<i32>(uvec_12);
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 2u);
auto* v2u32_to_v2i32 = vec_123->args[0]->As<ast::CallExpression>();
ASSERT_NE(v2u32_to_v2i32, nullptr);
ASSERT_TRUE(v2u32_to_v2i32->target.type->Is<ast::Vector>());
EXPECT_EQ(v2u32_to_v2i32->target.type->As<ast::Vector>()->width, 2u);
EXPECT_TRUE(v2u32_to_v2i32->target.type->As<ast::Vector>()->type->Is<ast::I32>());
EXPECT_EQ(v2u32_to_v2i32->args.size(), 1u);
EXPECT_EQ(v2u32_to_v2i32->args[0], uvec_12);
auto* u32_to_i32 = vec_123->args[1]->As<ast::CallExpression>();
ASSERT_NE(u32_to_i32, nullptr);
EXPECT_TRUE(u32_to_i32->target.type->Is<ast::I32>());
ASSERT_EQ(u32_to_i32->args.size(), 1u);
EXPECT_EQ(u32_to_i32->args[0], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 2u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(vec_12));
EXPECT_EQ(call->Arguments()[1], Sem().Get(u32_to_i32));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 2u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::Vector>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
}
// AppendVector(vec2<i32>(1, 2), 3.0f) -> vec3<i32>(1, 2, i32(3.0f))
TEST_F(AppendVectorTest, Vec2i32_f32) {
auto* scalar_1 = Expr(1_i);
auto* scalar_2 = Expr(2_i);
auto* scalar_3 = Expr(3_f);
auto* vec_12 = vec2<i32>(scalar_1, scalar_2);
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 3u);
EXPECT_EQ(vec_123->args[0], scalar_1);
EXPECT_EQ(vec_123->args[1], scalar_2);
auto* f32_to_i32 = vec_123->args[2]->As<ast::CallExpression>();
ASSERT_NE(f32_to_i32, nullptr);
EXPECT_TRUE(f32_to_i32->target.type->Is<ast::I32>());
ASSERT_EQ(f32_to_i32->args.size(), 1u);
EXPECT_EQ(f32_to_i32->args[0], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 3u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(scalar_1));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_2));
EXPECT_EQ(call->Arguments()[2], Sem().Get(f32_to_i32));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 3u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[2]->Type()->Is<sem::I32>());
}
// AppendVector(vec3<i32>(1, 2, 3), 4) -> vec4<i32>(1, 2, 3, 4)
TEST_F(AppendVectorTest, Vec3i32_i32) {
auto* scalar_1 = Expr(1_i);
auto* scalar_2 = Expr(2_i);
auto* scalar_3 = Expr(3_i);
auto* scalar_4 = Expr(4_i);
auto* vec_123 = vec3<i32>(scalar_1, scalar_2, scalar_3);
WrapInFunction(vec_123, scalar_4);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_123, scalar_4);
auto* vec_1234 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_1234, nullptr);
ASSERT_EQ(vec_1234->args.size(), 4u);
EXPECT_EQ(vec_1234->args[0], scalar_1);
EXPECT_EQ(vec_1234->args[1], scalar_2);
EXPECT_EQ(vec_1234->args[2], scalar_3);
EXPECT_EQ(vec_1234->args[3], scalar_4);
auto* call = Sem().Get<sem::Call>(vec_1234);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 4u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(scalar_1));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_2));
EXPECT_EQ(call->Arguments()[2], Sem().Get(scalar_3));
EXPECT_EQ(call->Arguments()[3], Sem().Get(scalar_4));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 4u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 4u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[2]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[3]->Type()->Is<sem::I32>());
}
// AppendVector(vec_12, 3) -> vec3<i32>(vec_12, 3)
TEST_F(AppendVectorTest, Vec2i32Var_i32) {
GlobalVar("vec_12", ty.vec2<i32>(), ast::StorageClass::kPrivate);
auto* vec_12 = Expr("vec_12");
auto* scalar_3 = Expr(3_i);
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 2u);
EXPECT_EQ(vec_123->args[0], vec_12);
EXPECT_EQ(vec_123->args[1], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 2u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(vec_12));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_3));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 2u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::Vector>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
}
// AppendVector(1, 2, scalar_3) -> vec3<i32>(1, 2, scalar_3)
TEST_F(AppendVectorTest, Vec2i32_i32Var) {
GlobalVar("scalar_3", ty.i32(), ast::StorageClass::kPrivate);
auto* scalar_1 = Expr(1_i);
auto* scalar_2 = Expr(2_i);
auto* scalar_3 = Expr("scalar_3");
auto* vec_12 = vec2<i32>(scalar_1, scalar_2);
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 3u);
EXPECT_EQ(vec_123->args[0], scalar_1);
EXPECT_EQ(vec_123->args[1], scalar_2);
EXPECT_EQ(vec_123->args[2], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 3u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(scalar_1));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_2));
EXPECT_EQ(call->Arguments()[2], Sem().Get(scalar_3));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 3u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[2]->Type()->Is<sem::I32>());
}
// AppendVector(vec_12, scalar_3) -> vec3<i32>(vec_12, scalar_3)
TEST_F(AppendVectorTest, Vec2i32Var_i32Var) {
GlobalVar("vec_12", ty.vec2<i32>(), ast::StorageClass::kPrivate);
GlobalVar("scalar_3", ty.i32(), ast::StorageClass::kPrivate);
auto* vec_12 = Expr("vec_12");
auto* scalar_3 = Expr("scalar_3");
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 2u);
EXPECT_EQ(vec_123->args[0], vec_12);
EXPECT_EQ(vec_123->args[1], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 2u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(vec_12));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_3));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 2u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::Vector>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
}
// AppendVector(vec_12, scalar_3) -> vec3<i32>(vec_12, i32(scalar_3))
TEST_F(AppendVectorTest, Vec2i32Var_f32Var) {
GlobalVar("vec_12", ty.vec2<i32>(), ast::StorageClass::kPrivate);
GlobalVar("scalar_3", ty.f32(), ast::StorageClass::kPrivate);
auto* vec_12 = Expr("vec_12");
auto* scalar_3 = Expr("scalar_3");
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 2u);
EXPECT_EQ(vec_123->args[0], vec_12);
auto* f32_to_i32 = vec_123->args[1]->As<ast::CallExpression>();
ASSERT_NE(f32_to_i32, nullptr);
EXPECT_TRUE(f32_to_i32->target.type->Is<ast::I32>());
ASSERT_EQ(f32_to_i32->args.size(), 1u);
EXPECT_EQ(f32_to_i32->args[0], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 2u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(vec_12));
EXPECT_EQ(call->Arguments()[1], Sem().Get(f32_to_i32));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 2u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::Vector>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
}
// AppendVector(vec_12, scalar_3) -> vec3<bool>(vec_12, scalar_3)
TEST_F(AppendVectorTest, Vec2boolVar_boolVar) {
GlobalVar("vec_12", ty.vec2<bool>(), ast::StorageClass::kPrivate);
GlobalVar("scalar_3", ty.bool_(), ast::StorageClass::kPrivate);
auto* vec_12 = Expr("vec_12");
auto* scalar_3 = Expr("scalar_3");
WrapInFunction(vec_12, scalar_3);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec_12, scalar_3);
auto* vec_123 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_123, nullptr);
ASSERT_EQ(vec_123->args.size(), 2u);
EXPECT_EQ(vec_123->args[0], vec_12);
EXPECT_EQ(vec_123->args[1], scalar_3);
auto* call = Sem().Get<sem::Call>(vec_123);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 2u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(vec_12));
EXPECT_EQ(call->Arguments()[1], Sem().Get(scalar_3));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 3u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::Bool>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 2u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::Vector>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::Bool>());
}
// AppendVector(vec3<i32>(), 4) -> vec3<bool>(0, 0, 0, 4)
TEST_F(AppendVectorTest, ZeroVec3i32_i32) {
auto* scalar = Expr(4_i);
auto* vec000 = vec3<i32>();
WrapInFunction(vec000, scalar);
resolver::Resolver resolver(this);
ASSERT_TRUE(resolver.Resolve()) << resolver.error();
auto* append = AppendVector(this, vec000, scalar);
auto* vec_0004 = As<ast::CallExpression>(append->Declaration());
ASSERT_NE(vec_0004, nullptr);
ASSERT_EQ(vec_0004->args.size(), 4u);
for (size_t i = 0; i < 3; i++) {
auto* literal = As<ast::IntLiteralExpression>(vec_0004->args[i]);
ASSERT_NE(literal, nullptr);
EXPECT_EQ(literal->value, 0);
}
EXPECT_EQ(vec_0004->args[3], scalar);
auto* call = Sem().Get<sem::Call>(vec_0004);
ASSERT_NE(call, nullptr);
ASSERT_EQ(call->Arguments().size(), 4u);
EXPECT_EQ(call->Arguments()[0], Sem().Get(vec_0004->args[0]));
EXPECT_EQ(call->Arguments()[1], Sem().Get(vec_0004->args[1]));
EXPECT_EQ(call->Arguments()[2], Sem().Get(vec_0004->args[2]));
EXPECT_EQ(call->Arguments()[3], Sem().Get(scalar));
auto* ctor = call->Target()->As<sem::TypeConstructor>();
ASSERT_NE(ctor, nullptr);
ASSERT_TRUE(ctor->ReturnType()->Is<sem::Vector>());
EXPECT_EQ(ctor->ReturnType()->As<sem::Vector>()->Width(), 4u);
EXPECT_TRUE(ctor->ReturnType()->As<sem::Vector>()->type()->Is<sem::I32>());
EXPECT_EQ(ctor->ReturnType(), call->Type());
ASSERT_EQ(ctor->Parameters().size(), 4u);
EXPECT_TRUE(ctor->Parameters()[0]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[1]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[2]->Type()->Is<sem::I32>());
EXPECT_TRUE(ctor->Parameters()[3]->Type()->Is<sem::I32>());
}
} // namespace
} // namespace tint::writer
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