mirror of
https://github.com/encounter/dawn-cmake.git
synced 2025-07-18 02:56:12 +00:00
7164b97272
Drop the vector typename from the initializer lists. These don't really provide any significant help in understanding the arguments types, as the list of element types can be easily inferred. This is done to simplify the refactor ast::VariableList -> ast::ParameterList. Bug: tint:1580 Change-Id: Ibf8564ca9b2bafd2eaa2e4aa54c29be6bbe7a682 Reviewed-on: https://dawn-review.googlesource.com/c/dawn/+/93600 Reviewed-by: Antonio Maiorano <amaiorano@google.com> Commit-Queue: Ben Clayton <bclayton@chromium.org>
318 lines
11 KiB
C++
318 lines
11 KiB
C++
// Copyright 2021 The Tint Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "src/tint/resolver/resolver.h"
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#include "gmock/gmock.h"
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#include "src/tint/resolver/resolver_test_helper.h"
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#include "src/tint/sem/reference.h"
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using namespace tint::number_suffixes; // NOLINT
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namespace tint::resolver {
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namespace {
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using ResolverIndexAccessorTest = ResolverTest;
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TEST_F(ResolverIndexAccessorTest, Matrix_Dynamic_F32) {
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Global("my_var", ty.mat2x3<f32>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", Expr(Source{{12, 34}}, 1_f));
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WrapInFunction(acc);
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EXPECT_FALSE(r()->Resolve());
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EXPECT_EQ(r()->error(), "12:34 error: index must be of type 'i32' or 'u32', found: 'f32'");
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}
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TEST_F(ResolverIndexAccessorTest, Matrix_Dynamic_Ref) {
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Global("my_var", ty.mat2x3<f32>(), ast::StorageClass::kPrivate);
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auto* idx = Var("idx", ty.i32(), Construct(ty.i32()));
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auto* acc = IndexAccessor("my_var", idx);
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WrapInFunction(Decl(idx), acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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}
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TEST_F(ResolverIndexAccessorTest, Matrix_BothDimensions_Dynamic_Ref) {
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Global("my_var", ty.mat4x4<f32>(), ast::StorageClass::kPrivate);
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auto* idx = Var("idx", ty.u32(), Expr(3_u));
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auto* idy = Var("idy", ty.u32(), Expr(2_u));
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auto* acc = IndexAccessor(IndexAccessor("my_var", idx), idy);
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WrapInFunction(Decl(idx), Decl(idy), acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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}
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TEST_F(ResolverIndexAccessorTest, Matrix_Dynamic) {
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GlobalConst("my_const", ty.mat2x3<f32>(), Construct(ty.mat2x3<f32>()));
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auto* idx = Var("idx", ty.i32(), Construct(ty.i32()));
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auto* acc = IndexAccessor("my_const", Expr(Source{{12, 34}}, idx));
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WrapInFunction(Decl(idx), acc);
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EXPECT_TRUE(r()->Resolve());
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EXPECT_EQ(r()->error(), "");
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}
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TEST_F(ResolverIndexAccessorTest, Matrix_XDimension_Dynamic) {
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GlobalConst("my_var", ty.mat4x4<f32>(), Construct(ty.mat4x4<f32>()));
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auto* idx = Var("idx", ty.u32(), Expr(3_u));
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auto* acc = IndexAccessor("my_var", Expr(Source{{12, 34}}, idx));
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WrapInFunction(Decl(idx), acc);
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EXPECT_TRUE(r()->Resolve());
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EXPECT_EQ(r()->error(), "");
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}
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TEST_F(ResolverIndexAccessorTest, Matrix_BothDimension_Dynamic) {
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GlobalConst("my_var", ty.mat4x4<f32>(), Construct(ty.mat4x4<f32>()));
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auto* idx = Var("idy", ty.u32(), Expr(2_u));
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auto* acc = IndexAccessor(IndexAccessor("my_var", Expr(Source{{12, 34}}, idx)), 1_i);
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WrapInFunction(Decl(idx), acc);
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EXPECT_TRUE(r()->Resolve());
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EXPECT_EQ(r()->error(), "");
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}
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TEST_F(ResolverIndexAccessorTest, Matrix) {
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Global("my_var", ty.mat2x3<f32>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", 2_i);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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ASSERT_TRUE(TypeOf(acc)->Is<sem::Reference>());
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auto* ref = TypeOf(acc)->As<sem::Reference>();
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ASSERT_TRUE(ref->StoreType()->Is<sem::Vector>());
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EXPECT_EQ(ref->StoreType()->As<sem::Vector>()->Width(), 3u);
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}
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TEST_F(ResolverIndexAccessorTest, Matrix_BothDimensions) {
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Global("my_var", ty.mat2x3<f32>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor(IndexAccessor("my_var", 2_i), 1_i);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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ASSERT_TRUE(TypeOf(acc)->Is<sem::Reference>());
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auto* ref = TypeOf(acc)->As<sem::Reference>();
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EXPECT_TRUE(ref->StoreType()->Is<sem::F32>());
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}
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TEST_F(ResolverIndexAccessorTest, Vector_F32) {
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Global("my_var", ty.vec3<f32>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", Expr(Source{{12, 34}}, 2_f));
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WrapInFunction(acc);
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EXPECT_FALSE(r()->Resolve());
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EXPECT_EQ(r()->error(), "12:34 error: index must be of type 'i32' or 'u32', found: 'f32'");
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}
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TEST_F(ResolverIndexAccessorTest, Vector_Dynamic_Ref) {
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Global("my_var", ty.vec3<f32>(), ast::StorageClass::kPrivate);
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auto* idx = Var("idx", ty.i32(), Expr(2_i));
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auto* acc = IndexAccessor("my_var", idx);
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WrapInFunction(Decl(idx), acc);
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EXPECT_TRUE(r()->Resolve());
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}
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TEST_F(ResolverIndexAccessorTest, Vector_Dynamic) {
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GlobalConst("my_var", ty.vec3<f32>(), Construct(ty.vec3<f32>()));
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auto* idx = Var("idx", ty.i32(), Expr(2_i));
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auto* acc = IndexAccessor("my_var", Expr(Source{{12, 34}}, idx));
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WrapInFunction(Decl(idx), acc);
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EXPECT_TRUE(r()->Resolve());
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}
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TEST_F(ResolverIndexAccessorTest, Vector) {
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Global("my_var", ty.vec3<f32>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", 2_i);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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ASSERT_TRUE(TypeOf(acc)->Is<sem::Reference>());
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auto* ref = TypeOf(acc)->As<sem::Reference>();
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EXPECT_TRUE(ref->StoreType()->Is<sem::F32>());
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}
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TEST_F(ResolverIndexAccessorTest, Array_Literal_i32) {
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Global("my_var", ty.array<f32, 3>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", 2_i);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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auto* ref = TypeOf(acc)->As<sem::Reference>();
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ASSERT_NE(ref, nullptr);
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EXPECT_TRUE(ref->StoreType()->Is<sem::F32>());
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}
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TEST_F(ResolverIndexAccessorTest, Array_Literal_u32) {
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Global("my_var", ty.array<f32, 3>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", 2_u);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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auto* ref = TypeOf(acc)->As<sem::Reference>();
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ASSERT_NE(ref, nullptr);
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EXPECT_TRUE(ref->StoreType()->Is<sem::F32>());
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}
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TEST_F(ResolverIndexAccessorTest, Array_Literal_AInt) {
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Global("my_var", ty.array<f32, 3>(), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", 2_a);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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auto* ref = TypeOf(acc)->As<sem::Reference>();
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ASSERT_NE(ref, nullptr);
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EXPECT_TRUE(ref->StoreType()->Is<sem::F32>());
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}
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TEST_F(ResolverIndexAccessorTest, Alias_Array) {
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auto* aary = Alias("myarrty", ty.array<f32, 3>());
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Global("my_var", ty.Of(aary), ast::StorageClass::kPrivate);
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auto* acc = IndexAccessor("my_var", 2_i);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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ASSERT_TRUE(TypeOf(acc)->Is<sem::Reference>());
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auto* ref = TypeOf(acc)->As<sem::Reference>();
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EXPECT_TRUE(ref->StoreType()->Is<sem::F32>());
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}
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TEST_F(ResolverIndexAccessorTest, Array_Constant) {
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GlobalConst("my_var", ty.array<f32, 3>(), array<f32, 3>());
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auto* acc = IndexAccessor("my_var", 2_i);
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WrapInFunction(acc);
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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ASSERT_NE(TypeOf(acc), nullptr);
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EXPECT_TRUE(TypeOf(acc)->Is<sem::F32>());
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}
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TEST_F(ResolverIndexAccessorTest, Array_Dynamic_I32) {
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// let a : array<f32, 3> = 0;
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// var idx : i32 = 0;
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// var f : f32 = a[idx];
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auto* a = Let("a", ty.array<f32, 3>(), array<f32, 3>());
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auto* idx = Var("idx", ty.i32(), Construct(ty.i32()));
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auto* f = Var("f", ty.f32(), IndexAccessor("a", Expr(Source{{12, 34}}, idx)));
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Func("my_func", {}, ty.void_(),
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{
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Decl(a),
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Decl(idx),
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Decl(f),
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});
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EXPECT_TRUE(r()->Resolve());
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EXPECT_EQ(r()->error(), "");
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}
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TEST_F(ResolverIndexAccessorTest, Array_Literal_F32) {
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// let a : array<f32, 3>;
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// var f : f32 = a[2.0f];
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auto* a = Let("a", ty.array<f32, 3>(), array<f32, 3>());
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auto* f = Var("a_2", ty.f32(), IndexAccessor("a", Expr(Source{{12, 34}}, 2_f)));
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Func("my_func", {}, ty.void_(),
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{
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Decl(a),
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Decl(f),
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});
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EXPECT_FALSE(r()->Resolve());
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EXPECT_EQ(r()->error(), "12:34 error: index must be of type 'i32' or 'u32', found: 'f32'");
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}
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TEST_F(ResolverIndexAccessorTest, Array_Literal_I32) {
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// let a : array<f32, 3>;
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// var f : f32 = a[2i];
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auto* a = Let("a", ty.array<f32, 3>(), array<f32, 3>());
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auto* f = Var("a_2", ty.f32(), IndexAccessor("a", 2_i));
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Func("my_func", {}, ty.void_(),
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{
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Decl(a),
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Decl(f),
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});
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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}
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TEST_F(ResolverIndexAccessorTest, Expr_Deref_FuncGoodParent) {
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// fn func(p: ptr<function, vec4<f32>>) -> f32 {
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// let idx: u32 = u32();
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// let x: f32 = (*p)[idx];
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// return x;
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// }
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auto* p = Param("p", ty.pointer(ty.vec4<f32>(), ast::StorageClass::kFunction));
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auto* idx = Let("idx", ty.u32(), Construct(ty.u32()));
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auto* star_p = Deref(p);
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auto* accessor_expr = IndexAccessor(Source{{12, 34}}, star_p, idx);
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auto* x = Var("x", ty.f32(), accessor_expr);
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Func("func", {p}, ty.f32(), {Decl(idx), Decl(x), Return(x)});
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EXPECT_TRUE(r()->Resolve()) << r()->error();
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}
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TEST_F(ResolverIndexAccessorTest, Expr_Deref_FuncBadParent) {
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// fn func(p: ptr<function, vec4<f32>>) -> f32 {
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// let idx: u32 = u32();
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// let x: f32 = *p[idx];
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// return x;
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// }
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auto* p = Param("p", ty.pointer(ty.vec4<f32>(), ast::StorageClass::kFunction));
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auto* idx = Let("idx", ty.u32(), Construct(ty.u32()));
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auto* accessor_expr = IndexAccessor(Source{{12, 34}}, p, idx);
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auto* star_p = Deref(accessor_expr);
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auto* x = Var("x", ty.f32(), star_p);
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Func("func", {p}, ty.f32(), {Decl(idx), Decl(x), Return(x)});
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EXPECT_FALSE(r()->Resolve());
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EXPECT_EQ(r()->error(),
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"12:34 error: cannot index type 'ptr<function, vec4<f32>, read_write>'");
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}
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TEST_F(ResolverIndexAccessorTest, Exr_Deref_BadParent) {
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// var param: vec4<f32>
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// let x: f32 = *(¶m)[0];
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auto* param = Var("param", ty.vec4<f32>());
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auto* idx = Var("idx", ty.u32(), Construct(ty.u32()));
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auto* addressOf_expr = AddressOf(param);
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auto* accessor_expr = IndexAccessor(Source{{12, 34}}, addressOf_expr, idx);
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auto* star_p = Deref(accessor_expr);
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auto* x = Var("x", ty.f32(), star_p);
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WrapInFunction(param, idx, x);
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EXPECT_FALSE(r()->Resolve());
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EXPECT_EQ(r()->error(),
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"12:34 error: cannot index type 'ptr<function, vec4<f32>, read_write>'");
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}
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} // namespace
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} // namespace tint::resolver
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