[spirv-writer] Fixes to constant constructor determination.
The change from `cast` to type constructor casts causes our current determination if a constructor is constant to no longer be correct. This Cl updates the determination to match the current spec and adds a bunch of unit tests to verify the behaviour.. Bug: tint:270 Change-Id: I8ce74eb7c3f849ce62815868313449d8ca2de6be Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/30020 Reviewed-by: Ryan Harrison <rharrison@chromium.org> Reviewed-by: Sarah Mashayekhi <sarahmashay@google.com> Commit-Queue: dan sinclair <dsinclair@chromium.org>
This commit is contained in:
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4311dd05c8
commit
435916e544
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@ -1128,6 +1128,64 @@ uint32_t Builder::GenerateConstructorExpression(
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return 0;
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}
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bool Builder::is_constructor_const(ast::Expression* expr, bool is_global_init) {
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if (!expr->IsConstructor()) {
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return false;
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}
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if (expr->AsConstructor()->IsScalarConstructor()) {
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return true;
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}
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auto* tc = expr->AsConstructor()->AsTypeConstructor();
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auto* result_type = tc->type()->UnwrapAliasPtrAlias();
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for (size_t i = 0; i < tc->values().size(); ++i) {
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auto* e = tc->values()[i].get();
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if (!e->IsConstructor()) {
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if (is_global_init) {
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error_ = "constructor must be a constant expression";
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return false;
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}
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return false;
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}
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if (!is_constructor_const(e, is_global_init)) {
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return false;
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}
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if (has_error()) {
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return false;
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}
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if (result_type->IsVector() && !e->AsConstructor()->IsScalarConstructor()) {
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return false;
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}
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// This should all be handled by |is_constructor_const| call above
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if (!e->AsConstructor()->IsScalarConstructor()) {
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continue;
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}
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auto* sc = e->AsConstructor()->AsScalarConstructor();
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ast::type::Type* subtype = result_type->UnwrapAliasPtrAlias();
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if (subtype->IsVector()) {
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subtype = subtype->AsVector()->type()->UnwrapAliasPtrAlias();
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} else if (subtype->IsMatrix()) {
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subtype = subtype->AsMatrix()->type()->UnwrapAliasPtrAlias();
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} else if (subtype->IsArray()) {
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subtype = subtype->AsArray()->type()->UnwrapAliasPtrAlias();
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} else if (subtype->IsStruct()) {
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subtype = subtype->AsStruct()
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->impl()
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->members()[i]
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->type()
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->UnwrapAliasPtrAlias();
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}
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if (subtype != sc->result_type()->UnwrapAliasPtrAlias()) {
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return false;
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}
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}
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return true;
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}
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uint32_t Builder::GenerateTypeConstructorExpression(
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ast::TypeConstructorExpression* init,
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bool is_global_init) {
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@ -1143,30 +1201,13 @@ uint32_t Builder::GenerateTypeConstructorExpression(
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out << "__const";
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auto* result_type = init->type()->UnwrapAliasPtrAlias();
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OperandList ops;
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bool constructor_is_const = true;
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for (const auto& e : values) {
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if (!e->IsConstructor()) {
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if (is_global_init) {
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error_ = "constructor must be a constant expression";
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bool constructor_is_const = is_constructor_const(init, is_global_init);
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if (has_error()) {
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return 0;
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}
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constructor_is_const = false;
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break;
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} else if (result_type->IsVector()) {
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// Even if we have constructor parameters if the types are different then
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// the constructor is not const as we'll generate OpBitcast or
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// OpCopyObject instructions.
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auto* subtype = result_type->AsVector()->type()->UnwrapAliasPtrAlias();
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if (subtype != e->result_type()->UnwrapAliasPtrAlias()) {
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constructor_is_const = false;
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break;
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}
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}
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}
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bool can_cast_or_copy = result_type->is_scalar();
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if (result_type->IsVector() && result_type->AsVector()->type()->is_scalar()) {
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auto* value_type = values[0]->result_type()->UnwrapAliasPtrAlias();
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can_cast_or_copy =
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@ -1190,6 +1231,7 @@ uint32_t Builder::GenerateTypeConstructorExpression(
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result_type = result_type->AsVector()->type();
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}
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OperandList ops;
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for (const auto& e : values) {
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uint32_t id = 0;
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if (constructor_is_const) {
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@ -437,6 +437,12 @@ class Builder {
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SpvImageFormat convert_image_format_to_spv(
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const ast::type::ImageFormat format);
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/// Determines if the given type constructor is created from constant values
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/// @param expr the expression to check
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/// @param is_global_init if this is a global initializer
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/// @returns true if the constructor is constant
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bool is_constructor_const(ast::Expression* expr, bool is_global_init);
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private:
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/// @returns an Operand with a new result ID in it. Increments the next_id_
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/// automatically.
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@ -178,7 +178,6 @@ OpStore %1 %13
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TEST_F(BuilderTest, Assign_Var_Complex_Constructor) {
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ast::type::F32Type f32;
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ast::type::VectorType vec3(&f32, 3);
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ast::type::VectorType vec(&vec3, 3);
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ast::ExpressionList vals;
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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@ -187,35 +186,11 @@ TEST_F(BuilderTest, Assign_Var_Complex_Constructor) {
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std::make_unique<ast::FloatLiteral>(&f32, 2.0f)));
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 3.0f)));
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auto first =
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std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 3.0f)));
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 2.0f)));
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 1.0f)));
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auto second =
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std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 2.0f)));
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 1.0f)));
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vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 3.0f)));
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auto third =
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std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
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vals.push_back(std::move(first));
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vals.push_back(std::move(second));
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vals.push_back(std::move(third));
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auto init =
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std::make_unique<ast::TypeConstructorExpression>(&vec, std::move(vals));
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std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
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ast::Variable v("var", ast::StorageClass::kOutput, &vec);
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ast::Variable v("var", ast::StorageClass::kOutput, &vec3);
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ast::AssignmentStatement assign(
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std::make_unique<ast::IdentifierExpression>("var"), std::move(init));
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@ -234,21 +209,17 @@ TEST_F(BuilderTest, Assign_Var_Complex_Constructor) {
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EXPECT_TRUE(b.GenerateAssignStatement(&assign)) << b.error();
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EXPECT_FALSE(b.has_error());
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EXPECT_EQ(DumpInstructions(b.types()), R"(%5 = OpTypeFloat 32
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%4 = OpTypeVector %5 3
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EXPECT_EQ(DumpInstructions(b.types()), R"(%4 = OpTypeFloat 32
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%3 = OpTypeVector %4 3
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%2 = OpTypePointer Output %3
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%6 = OpConstantNull %3
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%1 = OpVariable %2 Output %6
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%7 = OpConstant %5 1
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%8 = OpConstant %5 2
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%9 = OpConstant %5 3
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%10 = OpConstantComposite %4 %7 %8 %9
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%11 = OpConstantComposite %4 %9 %8 %7
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%12 = OpConstantComposite %4 %8 %7 %9
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%13 = OpConstantComposite %3 %10 %11 %12
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%5 = OpConstantNull %3
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%1 = OpVariable %2 Output %5
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%6 = OpConstant %4 1
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%7 = OpConstant %4 2
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%8 = OpConstant %4 3
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%9 = OpConstantComposite %3 %6 %7 %8
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)");
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EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), R"(OpStore %1 %13
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EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()), R"(OpStore %1 %9
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)");
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}
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@ -95,6 +95,49 @@ TEST_F(BuilderTest, Constructor_Type) {
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)");
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}
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TEST_F(BuilderTest, Constructor_Type_WithCasts) {
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ast::type::F32Type f32;
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ast::type::I32Type i32;
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ast::type::VectorType vec(&f32, 2);
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ast::ExpressionList type_vals;
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type_vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::SintLiteral>(&i32, 1)));
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ast::ExpressionList vals;
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vals.push_back(std::make_unique<ast::TypeConstructorExpression>(
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&f32, std::move(type_vals)));
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type_vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::SintLiteral>(&i32, 1)));
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vals.push_back(std::make_unique<ast::TypeConstructorExpression>(
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&f32, std::move(type_vals)));
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ast::TypeConstructorExpression t(&vec, std::move(vals));
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Context ctx;
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ast::Module mod;
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TypeDeterminer td(&ctx, &mod);
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EXPECT_TRUE(td.DetermineResultType(&t)) << td.error();
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Builder b(&mod);
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b.push_function(Function{});
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EXPECT_EQ(b.GenerateExpression(&t), 7u);
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ASSERT_FALSE(b.has_error()) << b.error();
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EXPECT_EQ(DumpInstructions(b.types()), R"(%2 = OpTypeFloat 32
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%1 = OpTypeVector %2 2
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%4 = OpTypeInt 32 1
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%5 = OpConstant %4 1
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)");
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EXPECT_EQ(DumpInstructions(b.functions()[0].instructions()),
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R"(%3 = OpConvertSToF %2 %5
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%6 = OpConvertSToF %2 %5
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%7 = OpCompositeConstruct %1 %3 %6
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)");
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}
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TEST_F(BuilderTest, Constructor_Type_WithAlias) {
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ast::type::I32Type i32;
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ast::type::F32Type f32;
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@ -2384,6 +2427,407 @@ TEST_F(BuilderTest, Constructor_Type_Convert_Vectors_U32_to_F32) {
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)");
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}
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TEST_F(BuilderTest, IsConstructorConst_GlobalVectorWithAllConstConstructors) {
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// vec3<f32>(1.0, 2.0, 3.0) -> true
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ast::type::F32Type f32;
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ast::type::VectorType vec(&f32, 3);
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ast::ExpressionList params;
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 2.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 3.f)));
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ast::TypeConstructorExpression t(&vec, std::move(params));
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Context ctx;
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ast::Module mod;
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TypeDeterminer td(&ctx, &mod);
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ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
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Builder b(&mod);
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EXPECT_TRUE(b.is_constructor_const(&t, true));
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EXPECT_FALSE(b.has_error());
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}
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TEST_F(BuilderTest, IsConstructorConst_GlobalVector_WithIdent) {
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// vec3<f32>(a, b, c) -> false -- ERROR
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ast::type::F32Type f32;
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ast::type::VectorType vec(&f32, 3);
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ast::ExpressionList params;
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params.push_back(std::make_unique<ast::IdentifierExpression>("a"));
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params.push_back(std::make_unique<ast::IdentifierExpression>("b"));
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params.push_back(std::make_unique<ast::IdentifierExpression>("c"));
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ast::TypeConstructorExpression t(&vec, std::move(params));
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Context ctx;
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ast::Module mod;
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TypeDeterminer td(&ctx, &mod);
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ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
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Builder b(&mod);
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EXPECT_FALSE(b.is_constructor_const(&t, true));
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EXPECT_TRUE(b.has_error());
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EXPECT_EQ(b.error(), "constructor must be a constant expression");
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}
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TEST_F(BuilderTest, IsConstructorConst_GlobalArrayWithAllConstConstructors) {
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// array<vec3<f32>, 2>(vec3<f32>(1.0, 2.0, 3.0), vec3<f32>(1.0, 2.0, 3.0))
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// -> true
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ast::type::F32Type f32;
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ast::type::VectorType vec(&f32, 3);
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ast::type::ArrayType ary(&vec, 2);
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ast::ExpressionList params;
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 2.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 3.f)));
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auto first =
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std::make_unique<ast::TypeConstructorExpression>(&vec, std::move(params));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 2.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 3.f)));
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auto second =
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std::make_unique<ast::TypeConstructorExpression>(&vec, std::move(params));
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ast::ExpressionList ary_params;
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ary_params.push_back(std::move(first));
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ary_params.push_back(std::move(second));
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ast::TypeConstructorExpression t(&ary, std::move(ary_params));
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Context ctx;
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ast::Module mod;
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TypeDeterminer td(&ctx, &mod);
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ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
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Builder b(&mod);
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EXPECT_TRUE(b.is_constructor_const(&t, true));
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EXPECT_FALSE(b.has_error());
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}
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TEST_F(BuilderTest,
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IsConstructorConst_GlobalVectorWithMatchingTypeConstructors) {
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// vec3<f32>(f32(1.0), f32(2.0)) -> false
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ast::type::F32Type f32;
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ast::type::VectorType vec(&f32, 2);
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ast::ExpressionList vec_params;
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ast::ExpressionList params;
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 1.0)));
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vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
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&f32, std::move(params)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 2.0)));
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vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
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&f32, std::move(params)));
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ast::TypeConstructorExpression t(&vec, std::move(vec_params));
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Context ctx;
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ast::Module mod;
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TypeDeterminer td(&ctx, &mod);
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ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
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Builder b(&mod);
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EXPECT_FALSE(b.is_constructor_const(&t, true));
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EXPECT_FALSE(b.has_error());
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}
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TEST_F(BuilderTest, IsConstructorConst_GlobalWithTypeCastConstructor) {
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// vec3<f32>(f32(1), f32(2)) -> false
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ast::type::F32Type f32;
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ast::type::I32Type i32;
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ast::type::VectorType vec(&f32, 3);
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ast::ExpressionList vec_params;
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ast::ExpressionList params;
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::SintLiteral>(&i32, 1)));
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vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
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&f32, std::move(params)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::SintLiteral>(&i32, 2)));
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vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
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&f32, std::move(params)));
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ast::TypeConstructorExpression t(&vec, std::move(vec_params));
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Context ctx;
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ast::Module mod;
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TypeDeterminer td(&ctx, &mod);
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ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
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Builder b(&mod);
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EXPECT_FALSE(b.is_constructor_const(&t, true));
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EXPECT_FALSE(b.has_error());
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}
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TEST_F(BuilderTest, IsConstructorConst_VectorWithAllConstConstructors) {
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// vec3<f32>(1.0, 2.0, 3.0) -> true
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ast::type::F32Type f32;
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ast::type::VectorType vec(&f32, 3);
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ast::ExpressionList params;
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 2.f)));
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params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
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std::make_unique<ast::FloatLiteral>(&f32, 3.f)));
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ast::TypeConstructorExpression t(&vec, std::move(params));
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Context ctx;
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ast::Module mod;
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TypeDeterminer td(&ctx, &mod);
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ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
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Builder b(&mod);
|
||||
EXPECT_TRUE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
TEST_F(BuilderTest, IsConstructorConst_Vector_WithIdent) {
|
||||
// vec3<f32>(a, b, c) -> false
|
||||
ast::type::F32Type f32;
|
||||
ast::type::VectorType vec(&f32, 3);
|
||||
|
||||
ast::ExpressionList params;
|
||||
params.push_back(std::make_unique<ast::IdentifierExpression>("a"));
|
||||
params.push_back(std::make_unique<ast::IdentifierExpression>("b"));
|
||||
params.push_back(std::make_unique<ast::IdentifierExpression>("c"));
|
||||
ast::TypeConstructorExpression t(&vec, std::move(params));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
TypeDeterminer td(&ctx, &mod);
|
||||
ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
|
||||
|
||||
Builder b(&mod);
|
||||
EXPECT_FALSE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
TEST_F(BuilderTest, IsConstructorConst_ArrayWithAllConstConstructors) {
|
||||
// array<vec3<f32>, 2>(vec3<f32>(1.0, 2.0, 3.0), vec3<f32>(1.0, 2.0, 3.0))
|
||||
// -> true
|
||||
ast::type::F32Type f32;
|
||||
ast::type::VectorType vec(&f32, 3);
|
||||
ast::type::ArrayType ary(&vec, 2);
|
||||
|
||||
ast::ExpressionList params;
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2.f)));
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 3.f)));
|
||||
auto first =
|
||||
std::make_unique<ast::TypeConstructorExpression>(&vec, std::move(params));
|
||||
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 1.f)));
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2.f)));
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 3.f)));
|
||||
auto second =
|
||||
std::make_unique<ast::TypeConstructorExpression>(&vec, std::move(params));
|
||||
|
||||
ast::ExpressionList ary_params;
|
||||
ary_params.push_back(std::move(first));
|
||||
ary_params.push_back(std::move(second));
|
||||
ast::TypeConstructorExpression t(&ary, std::move(ary_params));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
TypeDeterminer td(&ctx, &mod);
|
||||
ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
|
||||
|
||||
Builder b(&mod);
|
||||
EXPECT_TRUE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
TEST_F(BuilderTest, IsConstructorConst_VectorWith_TypeCastConstConstructors) {
|
||||
// vec2<f32>(f32(1.0), f32(2.0)) -> false
|
||||
ast::type::F32Type f32;
|
||||
ast::type::I32Type i32;
|
||||
ast::type::VectorType vec(&f32, 2);
|
||||
|
||||
ast::ExpressionList vec_params;
|
||||
|
||||
ast::ExpressionList params;
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::SintLiteral>(&i32, 1)));
|
||||
vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
|
||||
&f32, std::move(params)));
|
||||
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::SintLiteral>(&i32, 2)));
|
||||
vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
|
||||
&f32, std::move(params)));
|
||||
|
||||
ast::TypeConstructorExpression t(&vec, std::move(vec_params));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
TypeDeterminer td(&ctx, &mod);
|
||||
ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
|
||||
|
||||
Builder b(&mod);
|
||||
EXPECT_FALSE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
TEST_F(BuilderTest, IsConstructorConst_WithTypeCastConstructor) {
|
||||
// vec3<f32>(f32(1), f32(2)) -> false
|
||||
ast::type::F32Type f32;
|
||||
ast::type::I32Type i32;
|
||||
ast::type::VectorType vec(&f32, 3);
|
||||
|
||||
ast::ExpressionList vec_params;
|
||||
|
||||
ast::ExpressionList params;
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::SintLiteral>(&i32, 1)));
|
||||
vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
|
||||
&f32, std::move(params)));
|
||||
|
||||
params.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::SintLiteral>(&i32, 2)));
|
||||
vec_params.push_back(std::make_unique<ast::TypeConstructorExpression>(
|
||||
&f32, std::move(params)));
|
||||
|
||||
ast::TypeConstructorExpression t(&vec, std::move(vec_params));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
TypeDeterminer td(&ctx, &mod);
|
||||
ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
|
||||
|
||||
Builder b(&mod);
|
||||
EXPECT_FALSE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
TEST_F(BuilderTest, IsConstructorConst_BitCastScalars) {
|
||||
ast::type::I32Type i32;
|
||||
ast::type::U32Type u32;
|
||||
ast::type::VectorType vec(&u32, 2);
|
||||
|
||||
ast::ExpressionList vals;
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::SintLiteral>(&i32, 1)));
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::SintLiteral>(&i32, 1)));
|
||||
|
||||
ast::TypeConstructorExpression t(&vec, std::move(vals));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
TypeDeterminer td(&ctx, &mod);
|
||||
ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
|
||||
|
||||
Builder b(&mod);
|
||||
EXPECT_FALSE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
TEST_F(BuilderTest, IsConstructorConst_Struct) {
|
||||
ast::type::F32Type f32;
|
||||
ast::type::VectorType vec(&f32, 3);
|
||||
|
||||
ast::StructMemberDecorationList decos;
|
||||
ast::StructMemberList members;
|
||||
members.push_back(
|
||||
std::make_unique<ast::StructMember>("a", &f32, std::move(decos)));
|
||||
members.push_back(
|
||||
std::make_unique<ast::StructMember>("b", &vec, std::move(decos)));
|
||||
|
||||
auto s = std::make_unique<ast::Struct>(std::move(members));
|
||||
ast::type::StructType s_type(std::move(s));
|
||||
s_type.set_name("my_struct");
|
||||
|
||||
ast::ExpressionList vec_vals;
|
||||
vec_vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2)));
|
||||
vec_vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2)));
|
||||
vec_vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2)));
|
||||
|
||||
ast::ExpressionList vals;
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2)));
|
||||
vals.push_back(std::make_unique<ast::TypeConstructorExpression>(
|
||||
&vec, std::move(vec_vals)));
|
||||
|
||||
ast::TypeConstructorExpression t(&s_type, std::move(vals));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
TypeDeterminer td(&ctx, &mod);
|
||||
ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
|
||||
|
||||
Builder b(&mod);
|
||||
EXPECT_TRUE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
TEST_F(BuilderTest, IsConstructorConst_Struct_WithIdentSubExpression) {
|
||||
ast::type::F32Type f32;
|
||||
ast::type::VectorType vec(&f32, 3);
|
||||
|
||||
ast::StructMemberDecorationList decos;
|
||||
ast::StructMemberList members;
|
||||
members.push_back(
|
||||
std::make_unique<ast::StructMember>("a", &f32, std::move(decos)));
|
||||
members.push_back(
|
||||
std::make_unique<ast::StructMember>("b", &vec, std::move(decos)));
|
||||
|
||||
auto s = std::make_unique<ast::Struct>(std::move(members));
|
||||
ast::type::StructType s_type(std::move(s));
|
||||
s_type.set_name("my_struct");
|
||||
|
||||
ast::ExpressionList vec_vals;
|
||||
vec_vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2)));
|
||||
vec_vals.push_back(std::make_unique<ast::IdentifierExpression>("a"));
|
||||
vec_vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2)));
|
||||
|
||||
ast::ExpressionList vals;
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2)));
|
||||
vals.push_back(std::make_unique<ast::TypeConstructorExpression>(
|
||||
&vec, std::move(vec_vals)));
|
||||
|
||||
ast::TypeConstructorExpression t(&s_type, std::move(vals));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
TypeDeterminer td(&ctx, &mod);
|
||||
ASSERT_TRUE(td.DetermineResultType(&t)) << td.error();
|
||||
|
||||
Builder b(&mod);
|
||||
EXPECT_FALSE(b.is_constructor_const(&t, false));
|
||||
EXPECT_FALSE(b.has_error());
|
||||
}
|
||||
|
||||
} // namespace
|
||||
} // namespace spirv
|
||||
} // namespace writer
|
||||
|
|
|
@ -176,7 +176,6 @@ TEST_F(BuilderTest, GlobalVar_Const) {
|
|||
TEST_F(BuilderTest, GlobalVar_Complex_Constructor) {
|
||||
ast::type::F32Type f32;
|
||||
ast::type::VectorType vec3(&f32, 3);
|
||||
ast::type::VectorType vec(&vec3, 3);
|
||||
|
||||
ast::ExpressionList vals;
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
|
@ -185,33 +184,8 @@ TEST_F(BuilderTest, GlobalVar_Complex_Constructor) {
|
|||
std::make_unique<ast::FloatLiteral>(&f32, 2.0f)));
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 3.0f)));
|
||||
auto first =
|
||||
std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
|
||||
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 3.0f)));
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2.0f)));
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 1.0f)));
|
||||
auto second =
|
||||
std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
|
||||
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 2.0f)));
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 1.0f)));
|
||||
vals.push_back(std::make_unique<ast::ScalarConstructorExpression>(
|
||||
std::make_unique<ast::FloatLiteral>(&f32, 3.0f)));
|
||||
auto third =
|
||||
std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
|
||||
|
||||
vals.push_back(std::move(first));
|
||||
vals.push_back(std::move(second));
|
||||
vals.push_back(std::move(third));
|
||||
|
||||
auto init =
|
||||
std::make_unique<ast::TypeConstructorExpression>(&vec, std::move(vals));
|
||||
std::make_unique<ast::TypeConstructorExpression>(&vec3, std::move(vals));
|
||||
|
||||
Context ctx;
|
||||
ast::Module mod;
|
||||
|
@ -227,16 +201,12 @@ TEST_F(BuilderTest, GlobalVar_Complex_Constructor) {
|
|||
EXPECT_TRUE(b.GenerateGlobalVariable(&v)) << b.error();
|
||||
ASSERT_FALSE(b.has_error()) << b.error();
|
||||
|
||||
EXPECT_EQ(DumpInstructions(b.types()), R"(%3 = OpTypeFloat 32
|
||||
%2 = OpTypeVector %3 3
|
||||
EXPECT_EQ(DumpInstructions(b.types()), R"(%2 = OpTypeFloat 32
|
||||
%1 = OpTypeVector %2 3
|
||||
%4 = OpConstant %3 1
|
||||
%5 = OpConstant %3 2
|
||||
%6 = OpConstant %3 3
|
||||
%7 = OpConstantComposite %2 %4 %5 %6
|
||||
%8 = OpConstantComposite %2 %6 %5 %4
|
||||
%9 = OpConstantComposite %2 %5 %4 %6
|
||||
%10 = OpConstantComposite %1 %7 %8 %9
|
||||
%3 = OpConstant %2 1
|
||||
%4 = OpConstant %2 2
|
||||
%5 = OpConstant %2 3
|
||||
%6 = OpConstantComposite %1 %3 %4 %5
|
||||
)");
|
||||
}
|
||||
|
||||
|
|
Loading…
Reference in New Issue