// 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/intrinsic_table.h"

#include "gmock/gmock.h"
#include "src/program_builder.h"
#include "src/sem/depth_texture_type.h"
#include "src/sem/external_texture_type.h"
#include "src/sem/multisampled_texture_type.h"
#include "src/sem/reference_type.h"
#include "src/sem/sampled_texture_type.h"
#include "src/sem/storage_texture_type.h"

namespace tint {
namespace {

using ::testing::ElementsAre;
using ::testing::HasSubstr;

using IntrinsicType = sem::IntrinsicType;
using Parameter = sem::Parameter;
using ParameterUsage = sem::ParameterUsage;

class IntrinsicTableTest : public testing::Test, public ProgramBuilder {
 public:
  std::unique_ptr<IntrinsicTable> table = IntrinsicTable::Create(*this);
};

TEST_F(IntrinsicTableTest, MatchF32) {
  auto* f32 = create<sem::F32>();
  auto* result = table->Lookup(IntrinsicType::kCos, {f32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kCos);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(), ElementsAre(Parameter{f32}));
}

TEST_F(IntrinsicTableTest, MismatchF32) {
  auto* i32 = create<sem::I32>();
  auto* result = table->Lookup(IntrinsicType::kCos, {i32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchU32) {
  auto* f32 = create<sem::F32>();
  auto* u32 = create<sem::U32>();
  auto* vec2_f32 = create<sem::Vector>(f32, 2);
  auto* result =
      table->Lookup(IntrinsicType::kUnpack2x16float, {u32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kUnpack2x16float);
  EXPECT_THAT(result->ReturnType(), vec2_f32);
  EXPECT_THAT(result->Parameters(), ElementsAre(Parameter{u32}));
}

TEST_F(IntrinsicTableTest, MismatchU32) {
  auto* f32 = create<sem::F32>();
  auto* result =
      table->Lookup(IntrinsicType::kUnpack2x16float, {f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchI32) {
  auto* f32 = create<sem::F32>();
  auto* i32 = create<sem::I32>();
  auto* vec4_f32 = create<sem::Vector>(f32, 4);
  auto* tex = create<sem::SampledTexture>(ast::TextureDimension::k1d, f32);
  auto* result =
      table->Lookup(IntrinsicType::kTextureLoad, {tex, i32, i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureLoad);
  EXPECT_THAT(result->ReturnType(), vec4_f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{i32, ParameterUsage::kCoords},
                          Parameter{i32, ParameterUsage::kLevel}));
}

TEST_F(IntrinsicTableTest, MismatchI32) {
  auto* f32 = create<sem::F32>();
  auto* tex = create<sem::SampledTexture>(ast::TextureDimension::k1d, f32);
  auto* result =
      table->Lookup(IntrinsicType::kTextureLoad, {tex, f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchIU32AsI32) {
  auto* i32 = create<sem::I32>();
  auto* result = table->Lookup(IntrinsicType::kCountOneBits, {i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kCountOneBits);
  EXPECT_THAT(result->ReturnType(), i32);
  EXPECT_THAT(result->Parameters(), ElementsAre(Parameter{i32}));
}

TEST_F(IntrinsicTableTest, MatchIU32AsU32) {
  auto* u32 = create<sem::U32>();
  auto* result = table->Lookup(IntrinsicType::kCountOneBits, {u32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kCountOneBits);
  EXPECT_THAT(result->ReturnType(), u32);
  EXPECT_THAT(result->Parameters(), ElementsAre(Parameter{u32}));
}

TEST_F(IntrinsicTableTest, MismatchIU32) {
  auto* f32 = create<sem::F32>();
  auto* result = table->Lookup(IntrinsicType::kCountOneBits, {f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchFIU32AsI32) {
  auto* i32 = create<sem::I32>();
  auto* result =
      table->Lookup(IntrinsicType::kClamp, {i32, i32, i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kClamp);
  EXPECT_THAT(result->ReturnType(), i32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{i32}, Parameter{i32}, Parameter{i32}));
}

TEST_F(IntrinsicTableTest, MatchFIU32AsU32) {
  auto* u32 = create<sem::U32>();
  auto* result =
      table->Lookup(IntrinsicType::kClamp, {u32, u32, u32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kClamp);
  EXPECT_THAT(result->ReturnType(), u32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{u32}, Parameter{u32}, Parameter{u32}));
}

TEST_F(IntrinsicTableTest, MatchFIU32AsF32) {
  auto* f32 = create<sem::F32>();
  auto* result =
      table->Lookup(IntrinsicType::kClamp, {f32, f32, f32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kClamp);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{f32}, Parameter{f32}, Parameter{f32}));
}

TEST_F(IntrinsicTableTest, MismatchFIU32) {
  auto* bool_ = create<sem::Bool>();
  auto* result =
      table->Lookup(IntrinsicType::kClamp, {bool_, bool_, bool_}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchBool) {
  auto* f32 = create<sem::F32>();
  auto* bool_ = create<sem::Bool>();
  auto* result =
      table->Lookup(IntrinsicType::kSelect, {f32, f32, bool_}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kSelect);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{f32}, Parameter{f32}, Parameter{bool_}));
}

TEST_F(IntrinsicTableTest, MismatchBool) {
  auto* f32 = create<sem::F32>();
  auto* result =
      table->Lookup(IntrinsicType::kSelect, {f32, f32, f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchPointer) {
  auto* f32 = create<sem::F32>();
  auto* ptr = create<sem::Pointer>(f32, ast::StorageClass::kFunction,
                                   ast::Access::kReadWrite);
  auto* result = table->Lookup(IntrinsicType::kModf, {f32, ptr}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kModf);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{f32}, Parameter{ptr}));
}

TEST_F(IntrinsicTableTest, MismatchPointer) {
  auto* f32 = create<sem::F32>();
  auto* result = table->Lookup(IntrinsicType::kModf, {f32, f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchArray) {
  auto* arr = create<sem::Array>(create<sem::U32>(), 0, 4, 4, 4, true);
  auto* arr_ptr = create<sem::Pointer>(arr, ast::StorageClass::kStorage,
                                       ast::Access::kReadWrite);
  auto* result =
      table->Lookup(IntrinsicType::kArrayLength, {arr_ptr}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kArrayLength);
  EXPECT_TRUE(result->ReturnType()->Is<sem::U32>());
  ASSERT_EQ(result->Parameters().size(), 1u);
  auto* param_type = result->Parameters()[0].type;
  ASSERT_TRUE(param_type->Is<sem::Pointer>());
  EXPECT_TRUE(param_type->As<sem::Pointer>()->StoreType()->Is<sem::Array>());
}

TEST_F(IntrinsicTableTest, MismatchArray) {
  auto* f32 = create<sem::F32>();
  auto* result = table->Lookup(IntrinsicType::kArrayLength, {f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchSampler) {
  auto* f32 = create<sem::F32>();
  auto* vec2_f32 = create<sem::Vector>(f32, 2);
  auto* vec4_f32 = create<sem::Vector>(f32, 4);
  auto* tex = create<sem::SampledTexture>(ast::TextureDimension::k2d, f32);
  auto* sampler = create<sem::Sampler>(ast::SamplerKind::kSampler);
  auto* result = table->Lookup(IntrinsicType::kTextureSample,
                               {tex, sampler, vec2_f32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureSample);
  EXPECT_THAT(result->ReturnType(), vec4_f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{sampler, ParameterUsage::kSampler},
                          Parameter{vec2_f32, ParameterUsage::kCoords}));
}

TEST_F(IntrinsicTableTest, MismatchSampler) {
  auto* f32 = create<sem::F32>();
  auto* vec2_f32 = create<sem::Vector>(f32, 2);
  auto* tex = create<sem::SampledTexture>(ast::TextureDimension::k2d, f32);
  auto* result = table->Lookup(IntrinsicType::kTextureSample,
                               {tex, f32, vec2_f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchSampledTexture) {
  auto* i32 = create<sem::I32>();
  auto* f32 = create<sem::F32>();
  auto* vec2_i32 = create<sem::Vector>(i32, 2);
  auto* vec4_f32 = create<sem::Vector>(f32, 4);
  auto* tex = create<sem::SampledTexture>(ast::TextureDimension::k2d, f32);
  auto* result = table->Lookup(IntrinsicType::kTextureLoad,
                               {tex, vec2_i32, i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureLoad);
  EXPECT_THAT(result->ReturnType(), vec4_f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{vec2_i32, ParameterUsage::kCoords},
                          Parameter{i32, ParameterUsage::kLevel}));
}

TEST_F(IntrinsicTableTest, MatchMultisampledTexture) {
  auto* i32 = create<sem::I32>();
  auto* f32 = create<sem::F32>();
  auto* vec2_i32 = create<sem::Vector>(i32, 2);
  auto* vec4_f32 = create<sem::Vector>(f32, 4);
  auto* tex = create<sem::MultisampledTexture>(ast::TextureDimension::k2d, f32);
  auto* result = table->Lookup(IntrinsicType::kTextureLoad,
                               {tex, vec2_i32, i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureLoad);
  EXPECT_THAT(result->ReturnType(), vec4_f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{vec2_i32, ParameterUsage::kCoords},
                          Parameter{i32, ParameterUsage::kSampleIndex}));
}

TEST_F(IntrinsicTableTest, MatchDepthTexture) {
  auto* f32 = create<sem::F32>();
  auto* i32 = create<sem::I32>();
  auto* vec2_i32 = create<sem::Vector>(i32, 2);
  auto* tex = create<sem::DepthTexture>(ast::TextureDimension::k2d);
  auto* result = table->Lookup(IntrinsicType::kTextureLoad,
                               {tex, vec2_i32, i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureLoad);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{vec2_i32, ParameterUsage::kCoords},
                          Parameter{i32, ParameterUsage::kLevel}));
}

TEST_F(IntrinsicTableTest, MatchExternalTexture) {
  auto* f32 = create<sem::F32>();
  auto* i32 = create<sem::I32>();
  auto* vec2_i32 = create<sem::Vector>(i32, 2);
  auto* vec4_f32 = create<sem::Vector>(f32, 4);
  auto* tex = create<sem::ExternalTexture>();
  auto* result =
      table->Lookup(IntrinsicType::kTextureLoad, {tex, vec2_i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureLoad);
  EXPECT_THAT(result->ReturnType(), vec4_f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{vec2_i32, ParameterUsage::kCoords}));
}

TEST_F(IntrinsicTableTest, MatchROStorageTexture) {
  auto* f32 = create<sem::F32>();
  auto* i32 = create<sem::I32>();
  auto* vec2_i32 = create<sem::Vector>(i32, 2);
  auto* vec4_f32 = create<sem::Vector>(f32, 4);
  auto* subtype =
      sem::StorageTexture::SubtypeFor(ast::ImageFormat::kR32Float, Types());
  auto* tex = create<sem::StorageTexture>(ast::TextureDimension::k2d,
                                          ast::ImageFormat::kR32Float,
                                          ast::Access::kRead, subtype);

  auto* result =
      table->Lookup(IntrinsicType::kTextureLoad, {tex, vec2_i32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureLoad);
  EXPECT_THAT(result->ReturnType(), vec4_f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{vec2_i32, ParameterUsage::kCoords}));
}

TEST_F(IntrinsicTableTest, MatchWOStorageTexture) {
  auto* f32 = create<sem::F32>();
  auto* i32 = create<sem::I32>();
  auto* vec2_i32 = create<sem::Vector>(i32, 2);
  auto* vec4_f32 = create<sem::Vector>(f32, 4);
  auto* subtype =
      sem::StorageTexture::SubtypeFor(ast::ImageFormat::kR32Float, Types());
  auto* tex = create<sem::StorageTexture>(ast::TextureDimension::k2d,
                                          ast::ImageFormat::kR32Float,
                                          ast::Access::kWrite, subtype);

  auto* result = table->Lookup(IntrinsicType::kTextureStore,
                               {tex, vec2_i32, vec4_f32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kTextureStore);
  EXPECT_TRUE(result->ReturnType()->Is<sem::Void>());
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{tex, ParameterUsage::kTexture},
                          Parameter{vec2_i32, ParameterUsage::kCoords},
                          Parameter{vec4_f32, ParameterUsage::kValue}));
}

TEST_F(IntrinsicTableTest, MismatchTexture) {
  auto* f32 = create<sem::F32>();
  auto* i32 = create<sem::I32>();
  auto* vec2_i32 = create<sem::Vector>(i32, 2);
  auto* result =
      table->Lookup(IntrinsicType::kTextureLoad, {f32, vec2_i32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, ImplicitLoadOnReference) {
  auto* f32 = create<sem::F32>();
  auto* result =
      table->Lookup(IntrinsicType::kCos,
                    {create<sem::Reference>(f32, ast::StorageClass::kFunction,
                                            ast::Access::kReadWrite)},
                    Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kCos);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(), ElementsAre(Parameter{f32}));
}

TEST_F(IntrinsicTableTest, MatchOpenType) {
  auto* f32 = create<sem::F32>();
  auto* result =
      table->Lookup(IntrinsicType::kClamp, {f32, f32, f32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kClamp);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{f32}, Parameter{f32}, Parameter{f32}));
}

TEST_F(IntrinsicTableTest, MismatchOpenType) {
  auto* f32 = create<sem::F32>();
  auto* u32 = create<sem::U32>();
  auto* result =
      table->Lookup(IntrinsicType::kClamp, {f32, u32, f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchOpenSizeVector) {
  auto* f32 = create<sem::F32>();
  auto* vec2_f32 = create<sem::Vector>(f32, 2);
  auto* result = table->Lookup(IntrinsicType::kClamp,
                               {vec2_f32, vec2_f32, vec2_f32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kClamp);
  EXPECT_THAT(result->ReturnType(), vec2_f32);
  EXPECT_THAT(result->Parameters(),
              ElementsAre(Parameter{vec2_f32}, Parameter{vec2_f32},
                          Parameter{vec2_f32}));
}

TEST_F(IntrinsicTableTest, MismatchOpenSizeVector) {
  auto* f32 = create<sem::F32>();
  auto* u32 = create<sem::U32>();
  auto* vec2_f32 = create<sem::Vector>(f32, 2);
  auto* result =
      table->Lookup(IntrinsicType::kClamp, {vec2_f32, u32, vec2_f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, MatchOpenSizeMatrix) {
  auto* f32 = create<sem::F32>();
  auto* vec3_f32 = create<sem::Vector>(f32, 3);
  auto* mat3_f32 = create<sem::Matrix>(vec3_f32, 3);
  auto* result =
      table->Lookup(IntrinsicType::kDeterminant, {mat3_f32}, Source{});
  ASSERT_NE(result, nullptr) << Diagnostics().str();
  ASSERT_EQ(Diagnostics().str(), "");
  EXPECT_THAT(result->Type(), IntrinsicType::kDeterminant);
  EXPECT_THAT(result->ReturnType(), f32);
  EXPECT_THAT(result->Parameters(), ElementsAre(Parameter{mat3_f32}));
}

TEST_F(IntrinsicTableTest, MismatchOpenSizeMatrix) {
  auto* f32 = create<sem::F32>();
  auto* vec2_f32 = create<sem::Vector>(f32, 2);
  auto* mat3x2_f32 = create<sem::Matrix>(vec2_f32, 3);
  auto* result =
      table->Lookup(IntrinsicType::kDeterminant, {mat3x2_f32}, Source{});
  ASSERT_EQ(result, nullptr);
  ASSERT_THAT(Diagnostics().str(), HasSubstr("no matching call"));
}

TEST_F(IntrinsicTableTest, OverloadOrderByNumberOfParameters) {
  // None of the arguments match, so expect the overloads with 2 parameters to
  // come first
  auto* bool_ = create<sem::Bool>();
  table->Lookup(IntrinsicType::kTextureDimensions, {bool_, bool_}, Source{});
  ASSERT_EQ(Diagnostics().str(),
            R"(error: no matching call to textureDimensions(bool, bool)

25 candidate functions:
  textureDimensions(texture: texture_2d<T>, level: i32) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_2d_array<T>, level: i32) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_3d<T>, level: i32) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube<T>, level: i32) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube_array<T>, level: i32) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_depth_2d, level: i32) -> vec2<i32>
  textureDimensions(texture: texture_depth_2d_array, level: i32) -> vec2<i32>
  textureDimensions(texture: texture_depth_cube, level: i32) -> vec3<i32>
  textureDimensions(texture: texture_depth_cube_array, level: i32) -> vec3<i32>
  textureDimensions(texture: texture_1d<T>) -> i32  where: T is f32, i32 or u32
  textureDimensions(texture: texture_2d<T>) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_2d_array<T>) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_3d<T>) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube<T>) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube_array<T>) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_multisampled_2d<T>) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_depth_2d) -> vec2<i32>
  textureDimensions(texture: texture_depth_2d_array) -> vec2<i32>
  textureDimensions(texture: texture_depth_cube) -> vec3<i32>
  textureDimensions(texture: texture_depth_cube_array) -> vec3<i32>
  textureDimensions(texture: texture_storage_1d<F, A>) -> i32  where: A is read or write
  textureDimensions(texture: texture_storage_2d<F, A>) -> vec2<i32>  where: A is read or write
  textureDimensions(texture: texture_storage_2d_array<F, A>) -> vec2<i32>  where: A is read or write
  textureDimensions(texture: texture_storage_3d<F, A>) -> vec3<i32>  where: A is read or write
  textureDimensions(texture: texture_external) -> vec2<i32>
)");
}

TEST_F(IntrinsicTableTest, OverloadOrderByMatchingParameter) {
  auto* tex = create<sem::DepthTexture>(ast::TextureDimension::k2d);
  auto* bool_ = create<sem::Bool>();
  table->Lookup(IntrinsicType::kTextureDimensions, {tex, bool_}, Source{});
  ASSERT_EQ(
      Diagnostics().str(),
      R"(error: no matching call to textureDimensions(texture_depth_2d, bool)

25 candidate functions:
  textureDimensions(texture: texture_depth_2d, level: i32) -> vec2<i32>
  textureDimensions(texture: texture_depth_2d) -> vec2<i32>
  textureDimensions(texture: texture_2d<T>, level: i32) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_2d_array<T>, level: i32) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_3d<T>, level: i32) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube<T>, level: i32) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube_array<T>, level: i32) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_depth_2d_array, level: i32) -> vec2<i32>
  textureDimensions(texture: texture_depth_cube, level: i32) -> vec3<i32>
  textureDimensions(texture: texture_depth_cube_array, level: i32) -> vec3<i32>
  textureDimensions(texture: texture_1d<T>) -> i32  where: T is f32, i32 or u32
  textureDimensions(texture: texture_2d<T>) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_2d_array<T>) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_3d<T>) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube<T>) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_cube_array<T>) -> vec3<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_multisampled_2d<T>) -> vec2<i32>  where: T is f32, i32 or u32
  textureDimensions(texture: texture_depth_2d_array) -> vec2<i32>
  textureDimensions(texture: texture_depth_cube) -> vec3<i32>
  textureDimensions(texture: texture_depth_cube_array) -> vec3<i32>
  textureDimensions(texture: texture_storage_1d<F, A>) -> i32  where: A is read or write
  textureDimensions(texture: texture_storage_2d<F, A>) -> vec2<i32>  where: A is read or write
  textureDimensions(texture: texture_storage_2d_array<F, A>) -> vec2<i32>  where: A is read or write
  textureDimensions(texture: texture_storage_3d<F, A>) -> vec3<i32>  where: A is read or write
  textureDimensions(texture: texture_external) -> vec2<i32>
)");
}

}  // namespace
}  // namespace tint