Add semantic::VariableUser
Derives from semantic::Expression. Maps to ast::IdentifierExpressions that resolve to a variable. Breaks pure-immutability of semantic::Variable, as we have discussed in the past. Change-Id: I362d4d1ed61291282a60626b84fb15566655fb14 Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/46627 Commit-Queue: Ben Clayton <bclayton@google.com> Reviewed-by: James Price <jrprice@google.com>
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@ -1631,20 +1631,30 @@ void Resolver::CreateSemanticNodes() const {
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for (auto it : variable_to_info_) {
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for (auto it : variable_to_info_) {
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auto* var = it.first;
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auto* var = it.first;
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auto* info = it.second;
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auto* info = it.second;
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std::vector<const semantic::Expression*> users;
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auto* sem_var = builder_->create<semantic::Variable>(var, info->type,
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info->storage_class);
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std::vector<const semantic::VariableUser*> users;
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for (auto* user : info->users) {
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for (auto* user : info->users) {
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// Create semantic node for the identifier expression if necessary
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// Create semantic node for the identifier expression if necessary
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auto* sem_expr = sem.Get(user);
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auto* sem_expr = sem.Get(user);
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if (sem_expr == nullptr) {
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if (sem_expr == nullptr) {
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auto* type = expr_info_.at(user).type;
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auto* type = expr_info_.at(user).type;
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auto* stmt = expr_info_.at(user).statement;
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auto* stmt = expr_info_.at(user).statement;
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sem_expr = builder_->create<semantic::Expression>(user, type, stmt);
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auto* sem_user =
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sem.Add(user, sem_expr);
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builder_->create<semantic::VariableUser>(user, type, stmt, sem_var);
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sem_var->AddUser(sem_user);
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sem.Add(user, sem_user);
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} else {
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auto* sem_user = sem_expr->As<semantic::VariableUser>();
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if (!sem_user) {
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TINT_ICE(builder_->Diagnostics())
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<< "expected semantic::VariableUser, got "
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<< sem_expr->TypeInfo().name;
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}
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}
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users.push_back(sem_expr);
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sem_var->AddUser(sem_user);
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}
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}
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sem.Add(var, builder_->create<semantic::Variable>(
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}
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var, info->type, info->storage_class, std::move(users)));
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sem.Add(var, sem_var);
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}
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}
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auto remap_vars = [&sem](const std::vector<VariableInfo*>& in) {
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auto remap_vars = [&sem](const std::vector<VariableInfo*>& in) {
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@ -135,7 +135,7 @@ class Resolver {
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StructInfo();
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StructInfo();
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~StructInfo();
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~StructInfo();
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std::vector<semantic::StructMember*> members;
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std::vector<const semantic::StructMember*> members;
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uint32_t align = 0;
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uint32_t align = 0;
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uint32_t size = 0;
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uint32_t size = 0;
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uint32_t size_no_padding = 0;
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uint32_t size_no_padding = 0;
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@ -338,6 +338,10 @@ TEST_F(ResolverTest, Stmt_VariableDecl_OuterScopeAfterInnerScope) {
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EXPECT_EQ(StmtOf(bar_f32_init), bar_f32_decl);
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EXPECT_EQ(StmtOf(bar_f32_init), bar_f32_decl);
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EXPECT_TRUE(CheckVarUsers(foo_i32, {bar_i32->constructor()}));
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EXPECT_TRUE(CheckVarUsers(foo_i32, {bar_i32->constructor()}));
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EXPECT_TRUE(CheckVarUsers(foo_f32, {bar_f32->constructor()}));
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EXPECT_TRUE(CheckVarUsers(foo_f32, {bar_f32->constructor()}));
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ASSERT_NE(VarOf(bar_i32->constructor()), nullptr);
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EXPECT_EQ(VarOf(bar_i32->constructor())->Declaration(), foo_i32);
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ASSERT_NE(VarOf(bar_f32->constructor()), nullptr);
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EXPECT_EQ(VarOf(bar_f32->constructor())->Declaration(), foo_f32);
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}
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}
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TEST_F(ResolverTest, Stmt_VariableDecl_ModuleScopeAfterFunctionScope) {
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TEST_F(ResolverTest, Stmt_VariableDecl_ModuleScopeAfterFunctionScope) {
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@ -383,6 +387,8 @@ TEST_F(ResolverTest, Stmt_VariableDecl_ModuleScopeAfterFunctionScope) {
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EXPECT_EQ(StmtOf(fn_f32_init), fn_f32_decl);
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EXPECT_EQ(StmtOf(fn_f32_init), fn_f32_decl);
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EXPECT_TRUE(CheckVarUsers(fn_i32, {}));
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EXPECT_TRUE(CheckVarUsers(fn_i32, {}));
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EXPECT_TRUE(CheckVarUsers(mod_f32, {fn_f32->constructor()}));
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EXPECT_TRUE(CheckVarUsers(mod_f32, {fn_f32->constructor()}));
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ASSERT_NE(VarOf(fn_f32->constructor()), nullptr);
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EXPECT_EQ(VarOf(fn_f32->constructor())->Declaration(), mod_f32);
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}
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}
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TEST_F(ResolverTest, Expr_ArrayAccessor_Array) {
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TEST_F(ResolverTest, Expr_ArrayAccessor_Array) {
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@ -612,6 +618,8 @@ TEST_F(ResolverTest, Expr_Identifier_GlobalVariable) {
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EXPECT_TRUE(TypeOf(ident)->Is<type::Pointer>());
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EXPECT_TRUE(TypeOf(ident)->Is<type::Pointer>());
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EXPECT_TRUE(TypeOf(ident)->As<type::Pointer>()->type()->Is<type::F32>());
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EXPECT_TRUE(TypeOf(ident)->As<type::Pointer>()->type()->Is<type::F32>());
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EXPECT_TRUE(CheckVarUsers(my_var, {ident}));
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EXPECT_TRUE(CheckVarUsers(my_var, {ident}));
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ASSERT_NE(VarOf(ident), nullptr);
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EXPECT_EQ(VarOf(ident)->Declaration(), my_var);
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}
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}
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TEST_F(ResolverTest, Expr_Identifier_GlobalConstant) {
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TEST_F(ResolverTest, Expr_Identifier_GlobalConstant) {
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@ -625,6 +633,8 @@ TEST_F(ResolverTest, Expr_Identifier_GlobalConstant) {
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ASSERT_NE(TypeOf(ident), nullptr);
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ASSERT_NE(TypeOf(ident), nullptr);
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EXPECT_TRUE(TypeOf(ident)->Is<type::F32>());
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EXPECT_TRUE(TypeOf(ident)->Is<type::F32>());
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EXPECT_TRUE(CheckVarUsers(my_var, {ident}));
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EXPECT_TRUE(CheckVarUsers(my_var, {ident}));
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ASSERT_NE(VarOf(ident), nullptr);
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EXPECT_EQ(VarOf(ident)->Declaration(), my_var);
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}
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}
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TEST_F(ResolverTest, Expr_Identifier_FunctionVariable_Const) {
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TEST_F(ResolverTest, Expr_Identifier_FunctionVariable_Const) {
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@ -645,6 +655,8 @@ TEST_F(ResolverTest, Expr_Identifier_FunctionVariable_Const) {
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EXPECT_TRUE(TypeOf(my_var_a)->Is<type::F32>());
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EXPECT_TRUE(TypeOf(my_var_a)->Is<type::F32>());
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EXPECT_EQ(StmtOf(my_var_a), decl);
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EXPECT_EQ(StmtOf(my_var_a), decl);
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EXPECT_TRUE(CheckVarUsers(var, {my_var_a}));
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EXPECT_TRUE(CheckVarUsers(var, {my_var_a}));
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ASSERT_NE(VarOf(my_var_a), nullptr);
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EXPECT_EQ(VarOf(my_var_a)->Declaration(), var);
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}
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}
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TEST_F(ResolverTest, Expr_Identifier_FunctionVariable) {
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TEST_F(ResolverTest, Expr_Identifier_FunctionVariable) {
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@ -672,6 +684,10 @@ TEST_F(ResolverTest, Expr_Identifier_FunctionVariable) {
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EXPECT_TRUE(TypeOf(my_var_b)->As<type::Pointer>()->type()->Is<type::F32>());
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EXPECT_TRUE(TypeOf(my_var_b)->As<type::Pointer>()->type()->Is<type::F32>());
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EXPECT_EQ(StmtOf(my_var_b), assign);
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EXPECT_EQ(StmtOf(my_var_b), assign);
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EXPECT_TRUE(CheckVarUsers(var, {my_var_a, my_var_b}));
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EXPECT_TRUE(CheckVarUsers(var, {my_var_a, my_var_b}));
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ASSERT_NE(VarOf(my_var_a), nullptr);
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EXPECT_EQ(VarOf(my_var_a)->Declaration(), var);
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ASSERT_NE(VarOf(my_var_b), nullptr);
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EXPECT_EQ(VarOf(my_var_b)->Declaration(), var);
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}
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}
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TEST_F(ResolverTest, Expr_Identifier_Function_Ptr) {
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TEST_F(ResolverTest, Expr_Identifier_Function_Ptr) {
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@ -67,6 +67,17 @@ class TestHelper : public ProgramBuilder {
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return sem_stmt ? sem_stmt->Block() : nullptr;
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return sem_stmt ? sem_stmt->Block() : nullptr;
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}
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}
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/// Returns the semantic variable for the given identifier expression.
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/// @param expr the identifier expression
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/// @return the resolved semantic::Variable of the identifier, or nullptr if
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/// the expression did not resolve to a variable.
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const semantic::Variable* VarOf(ast::Expression* expr) {
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auto* sem_ident = Sem().Get(expr);
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auto* var_user =
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sem_ident ? sem_ident->As<semantic::VariableUser>() : nullptr;
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return var_user ? var_user->Variable() : nullptr;
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}
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/// Checks that all the users of the given variable are as expected
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/// Checks that all the users of the given variable are as expected
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/// @param var the variable to check
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/// @param var the variable to check
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/// @param expected_users the expected users of the variable
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/// @param expected_users the expected users of the variable
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@ -37,7 +37,7 @@ class Expression : public Castable<Expression, Node> {
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/// @param declaration the AST node
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/// @param declaration the AST node
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/// @param type the resolved type of the expression
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/// @param type the resolved type of the expression
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/// @param statement the statement that owns this expression
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/// @param statement the statement that owns this expression
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explicit Expression(ast::Expression* declaration,
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Expression(ast::Expression* declaration,
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type::Type* type,
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type::Type* type,
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Statement* statement);
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Statement* statement);
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@ -14,21 +14,26 @@
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#include "src/semantic/variable.h"
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#include "src/semantic/variable.h"
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#include "src/ast/identifier_expression.h"
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TINT_INSTANTIATE_TYPEINFO(tint::semantic::Variable);
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TINT_INSTANTIATE_TYPEINFO(tint::semantic::Variable);
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TINT_INSTANTIATE_TYPEINFO(tint::semantic::VariableUser);
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namespace tint {
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namespace tint {
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namespace semantic {
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namespace semantic {
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Variable::Variable(const ast::Variable* declaration,
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Variable::Variable(const ast::Variable* declaration,
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type::Type* type,
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type::Type* type,
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ast::StorageClass storage_class,
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ast::StorageClass storage_class)
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std::vector<const Expression*> users)
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: declaration_(declaration), type_(type), storage_class_(storage_class) {}
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: declaration_(declaration),
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type_(type),
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storage_class_(storage_class),
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users_(std::move(users)) {}
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Variable::~Variable() = default;
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Variable::~Variable() = default;
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VariableUser::VariableUser(ast::IdentifierExpression* declaration,
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type::Type* type,
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Statement* statement,
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semantic::Variable* variable)
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: Base(declaration, type, statement), variable_(variable) {}
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} // namespace semantic
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} // namespace semantic
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} // namespace tint
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} // namespace tint
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@ -38,7 +38,7 @@ namespace semantic {
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class StructMember;
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class StructMember;
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/// A vector of StructMember pointers.
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/// A vector of StructMember pointers.
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using StructMemberList = std::vector<StructMember*>;
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using StructMemberList = std::vector<const StructMember*>;
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/// Metadata to capture how a structure is used in a shader module.
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/// Metadata to capture how a structure is used in a shader module.
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enum class PipelineStageUsage {
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enum class PipelineStageUsage {
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@ -24,6 +24,7 @@ namespace tint {
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// Forward declarations
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// Forward declarations
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namespace ast {
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namespace ast {
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class IdentifierExpression;
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class Variable;
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class Variable;
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} // namespace ast
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} // namespace ast
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namespace type {
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namespace type {
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@ -32,6 +33,8 @@ class Type;
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namespace semantic {
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namespace semantic {
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class VariableUser;
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/// Variable holds the semantic information for variables.
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/// Variable holds the semantic information for variables.
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class Variable : public Castable<Variable, Node> {
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class Variable : public Castable<Variable, Node> {
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public:
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public:
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@ -39,11 +42,9 @@ class Variable : public Castable<Variable, Node> {
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/// @param declaration the AST declaration node
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/// @param declaration the AST declaration node
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/// @param type the variable type
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/// @param type the variable type
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/// @param storage_class the variable storage class
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/// @param storage_class the variable storage class
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/// @param users the expressions that use the variable
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Variable(const ast::Variable* declaration,
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explicit Variable(const ast::Variable* declaration,
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type::Type* type,
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type::Type* type,
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ast::StorageClass storage_class,
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ast::StorageClass storage_class);
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std::vector<const Expression*> users);
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/// Destructor
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/// Destructor
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~Variable() override;
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~Variable() override;
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@ -58,13 +59,37 @@ class Variable : public Castable<Variable, Node> {
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ast::StorageClass StorageClass() const { return storage_class_; }
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ast::StorageClass StorageClass() const { return storage_class_; }
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/// @returns the expressions that use the variable
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/// @returns the expressions that use the variable
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const std::vector<const Expression*>& Users() const { return users_; }
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const std::vector<const VariableUser*>& Users() const { return users_; }
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/// @param user the user to add
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void AddUser(const VariableUser* user) { users_.emplace_back(user); }
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private:
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private:
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const ast::Variable* const declaration_;
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const ast::Variable* const declaration_;
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type::Type* const type_;
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type::Type* const type_;
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ast::StorageClass const storage_class_;
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ast::StorageClass const storage_class_;
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std::vector<const Expression*> const users_;
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std::vector<const VariableUser*> users_;
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};
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/// VariableUser holds the semantic information for an identifier expression
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/// node that resolves to a variable.
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class VariableUser : public Castable<VariableUser, Expression> {
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public:
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/// Constructor
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/// @param declaration the AST identifier node
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/// @param type the resolved type of the expression
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/// @param statement the statement that owns this expression
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/// @param variable the semantic variable
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VariableUser(ast::IdentifierExpression* declaration,
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type::Type* type,
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Statement* statement,
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semantic::Variable* variable);
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/// @returns the variable that this expression refers to
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const semantic::Variable* Variable() const { return variable_; }
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private:
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semantic::Variable const* const variable_;
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};
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};
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} // namespace semantic
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} // namespace semantic
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