| // Copyright 2020 The Tint Authors. |
| // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // http://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| |
| #ifndef SRC_READER_WGSL_PARSER_IMPL_H_ |
| #define SRC_READER_WGSL_PARSER_IMPL_H_ |
| |
| #include <deque> |
| #include <memory> |
| #include <string> |
| #include <unordered_map> |
| #include <utility> |
| #include <vector> |
| |
| #include "src/ast/access.h" |
| #include "src/program_builder.h" |
| #include "src/reader/wgsl/parser_impl_detail.h" |
| #include "src/reader/wgsl/token.h" |
| #include "src/sem/storage_texture_type.h" |
| |
| namespace tint { |
| namespace ast { |
| class AssignmentStatement; |
| class BreakStatement; |
| class CallStatement; |
| class ContinueStatement; |
| class IfStatement; |
| class LoopStatement; |
| class ReturnStatement; |
| class SwitchStatement; |
| class VariableDeclStatement; |
| } // namespace ast |
| |
| namespace reader { |
| namespace wgsl { |
| |
| class Lexer; |
| |
| /// Struct holding information for a for loop |
| struct ForHeader { |
| /// Constructor |
| /// @param init the initializer statement |
| /// @param cond the condition statement |
| /// @param cont the continuing statement |
| ForHeader(ast::Statement* init, ast::Expression* cond, ast::Statement* cont); |
| |
| ~ForHeader(); |
| |
| /// The for loop initializer |
| ast::Statement* initializer = nullptr; |
| /// The for loop condition |
| ast::Expression* condition = nullptr; |
| /// The for loop continuing statement |
| ast::Statement* continuing = nullptr; |
| }; |
| |
| /// ParserImpl for WGSL source data |
| class ParserImpl { |
| /// Failure holds enumerator values used for the constructing an Expect and |
| /// Match in an errored state. |
| struct Failure { |
| enum Errored { kErrored }; |
| enum NoMatch { kNoMatch }; |
| }; |
| |
| public: |
| /// Expect is the return type of the parser methods that are expected to |
| /// return a parsed value of type T, unless there was an parse error. |
| /// In the case of a parse error the called method will have called |
| /// add_error() and #errored will be set to true. |
| template <typename T> |
| struct Expect { |
| /// An alias to the templated type T. |
| using type = T; |
| |
| /// Don't allow an Expect to take a nullptr. |
| inline Expect(std::nullptr_t) = delete; // NOLINT |
| |
| /// Constructor for a successful parse. |
| /// @param val the result value of the parse |
| /// @param s the optional source of the value |
| template <typename U> |
| inline Expect(U&& val, const Source& s = {}) // NOLINT |
| : value(std::forward<U>(val)), source(s) {} |
| |
| /// Constructor for parse error. |
| inline Expect(Failure::Errored) : errored(true) {} // NOLINT |
| |
| /// Copy constructor |
| inline Expect(const Expect&) = default; |
| /// Move constructor |
| inline Expect(Expect&&) = default; |
| /// Assignment operator |
| /// @return this Expect |
| inline Expect& operator=(const Expect&) = default; |
| /// Assignment move operator |
| /// @return this Expect |
| inline Expect& operator=(Expect&&) = default; |
| |
| /// @return a pointer to the returned value. If T is a pointer or |
| /// std::unique_ptr, operator->() automatically dereferences so that the |
| /// return type will always be a pointer to a non-pointer type. #errored |
| /// must be false to call. |
| inline typename detail::OperatorArrow<T>::type operator->() { |
| TINT_ASSERT(Reader, !errored); |
| return detail::OperatorArrow<T>::ptr(value); |
| } |
| |
| /// The expected value of a successful parse. |
| /// Zero-initialized when there was a parse error. |
| T value{}; |
| /// Optional source of the value. |
| Source source; |
| /// True if there was a error parsing. |
| bool errored = false; |
| }; |
| |
| /// Maybe is the return type of the parser methods that attempts to match a |
| /// grammar and return a parsed value of type T, or may parse part of the |
| /// grammar and then hit a parse error. |
| /// In the case of a successful grammar match, the Maybe will have #matched |
| /// set to true. |
| /// In the case of a parse error the called method will have called |
| /// add_error() and the Maybe will have #errored set to true. |
| template <typename T> |
| struct Maybe { |
| inline Maybe(std::nullptr_t) = delete; // NOLINT |
| |
| /// Constructor for a successful parse. |
| /// @param val the result value of the parse |
| /// @param s the optional source of the value |
| template <typename U> |
| inline Maybe(U&& val, const Source& s = {}) // NOLINT |
| : value(std::forward<U>(val)), source(s), matched(true) {} |
| |
| /// Constructor for parse error state. |
| inline Maybe(Failure::Errored) : errored(true) {} // NOLINT |
| |
| /// Constructor for the no-match state. |
| inline Maybe(Failure::NoMatch) {} // NOLINT |
| |
| /// Constructor from an Expect. |
| /// @param e the Expect to copy this Maybe from |
| template <typename U> |
| inline Maybe(const Expect<U>& e) // NOLINT |
| : value(e.value), |
| source(e.value), |
| errored(e.errored), |
| matched(!e.errored) {} |
| |
| /// Move from an Expect. |
| /// @param e the Expect to move this Maybe from |
| template <typename U> |
| inline Maybe(Expect<U>&& e) // NOLINT |
| : value(std::move(e.value)), |
| source(std::move(e.source)), |
| errored(e.errored), |
| matched(!e.errored) {} |
| |
| /// Copy constructor |
| inline Maybe(const Maybe&) = default; |
| /// Move constructor |
| inline Maybe(Maybe&&) = default; |
| /// Assignment operator |
| /// @return this Maybe |
| inline Maybe& operator=(const Maybe&) = default; |
| /// Assignment move operator |
| /// @return this Maybe |
| inline Maybe& operator=(Maybe&&) = default; |
| |
| /// @return a pointer to the returned value. If T is a pointer or |
| /// std::unique_ptr, operator->() automatically dereferences so that the |
| /// return type will always be a pointer to a non-pointer type. #errored |
| /// must be false to call. |
| inline typename detail::OperatorArrow<T>::type operator->() { |
| TINT_ASSERT(Reader, !errored); |
| return detail::OperatorArrow<T>::ptr(value); |
| } |
| |
| /// The value of a successful parse. |
| /// Zero-initialized when there was a parse error. |
| T value{}; |
| /// Optional source of the value. |
| Source source; |
| /// True if there was a error parsing. |
| bool errored = false; |
| /// True if there was a error parsing. |
| bool matched = false; |
| }; |
| |
| /// TypedIdentifier holds a parsed identifier and type. Returned by |
| /// variable_ident_decl(). |
| struct TypedIdentifier { |
| /// Constructor |
| TypedIdentifier(); |
| /// Copy constructor |
| /// @param other the FunctionHeader to copy |
| TypedIdentifier(const TypedIdentifier& other); |
| /// Constructor |
| /// @param type_in parsed type |
| /// @param name_in parsed identifier |
| /// @param source_in source to the identifier |
| TypedIdentifier(ast::Type* type_in, std::string name_in, Source source_in); |
| /// Destructor |
| ~TypedIdentifier(); |
| |
| /// Parsed type. May be nullptr for inferred types. |
| ast::Type* type = nullptr; |
| /// Parsed identifier. |
| std::string name; |
| /// Source to the identifier. |
| Source source; |
| }; |
| |
| /// FunctionHeader contains the parsed information for a function header. |
| struct FunctionHeader { |
| /// Constructor |
| FunctionHeader(); |
| /// Copy constructor |
| /// @param other the FunctionHeader to copy |
| FunctionHeader(const FunctionHeader& other); |
| /// Constructor |
| /// @param src parsed header source |
| /// @param n function name |
| /// @param p function parameters |
| /// @param ret_ty function return type |
| /// @param ret_decos return type decorations |
| FunctionHeader(Source src, |
| std::string n, |
| ast::VariableList p, |
| ast::Type* ret_ty, |
| ast::DecorationList ret_decos); |
| /// Destructor |
| ~FunctionHeader(); |
| /// Assignment operator |
| /// @param other the FunctionHeader to copy |
| /// @returns this FunctionHeader |
| FunctionHeader& operator=(const FunctionHeader& other); |
| |
| /// Parsed header source |
| Source source; |
| /// Function name |
| std::string name; |
| /// Function parameters |
| ast::VariableList params; |
| /// Function return type |
| ast::Type* return_type; |
| /// Function return type decorations |
| ast::DecorationList return_type_decorations; |
| }; |
| |
| /// VarDeclInfo contains the parsed information for variable declaration. |
| struct VarDeclInfo { |
| /// Constructor |
| VarDeclInfo(); |
| /// Copy constructor |
| /// @param other the VarDeclInfo to copy |
| VarDeclInfo(const VarDeclInfo& other); |
| /// Constructor |
| /// @param source_in variable declaration source |
| /// @param name_in variable name |
| /// @param storage_class_in variable storage class |
| /// @param access_in variable access control |
| /// @param type_in variable type |
| VarDeclInfo(Source source_in, |
| std::string name_in, |
| ast::StorageClass storage_class_in, |
| ast::Access access_in, |
| ast::Type* type_in); |
| /// Destructor |
| ~VarDeclInfo(); |
| |
| /// Variable declaration source |
| Source source; |
| /// Variable name |
| std::string name; |
| /// Variable storage class |
| ast::StorageClass storage_class = ast::StorageClass::kNone; |
| /// Variable access control |
| ast::Access access = ast::Access::kUndefined; |
| /// Variable type |
| ast::Type* type = nullptr; |
| }; |
| |
| /// VariableQualifier contains the parsed information for a variable qualifier |
| struct VariableQualifier { |
| /// The variable's storage class |
| ast::StorageClass storage_class = ast::StorageClass::kNone; |
| /// The variable's access control |
| ast::Access access = ast::Access::kUndefined; |
| }; |
| |
| /// Creates a new parser using the given file |
| /// @param file the input source file to parse |
| explicit ParserImpl(Source::File const* file); |
| ~ParserImpl(); |
| |
| /// Run the parser |
| /// @returns true if the parse was successful, false otherwise. |
| bool Parse(); |
| |
| /// set_max_diagnostics sets the maximum number of reported errors before |
| /// aborting parsing. |
| /// @param limit the new maximum number of errors |
| void set_max_errors(size_t limit) { max_errors_ = limit; } |
| |
| /// @return the number of maximum number of reported errors before aborting |
| /// parsing. |
| size_t get_max_errors() const { return max_errors_; } |
| |
| /// @returns true if an error was encountered. |
| bool has_error() const { return builder_.Diagnostics().contains_errors(); } |
| |
| /// @returns the parser error string |
| std::string error() const { |
| diag::Formatter formatter{{false, false, false, false}}; |
| return formatter.format(builder_.Diagnostics()); |
| } |
| |
| /// @returns the Program. The program builder in the parser will be reset |
| /// after this. |
| Program program() { return Program(std::move(builder_)); } |
| |
| /// @returns the program builder. |
| ProgramBuilder& builder() { return builder_; } |
| |
| /// @returns the next token |
| Token next(); |
| /// Peeks ahead and returns the token at `idx` ahead of the current position |
| /// @param idx the index of the token to return |
| /// @returns the token `idx` positions ahead without advancing |
| Token peek(size_t idx = 0); |
| /// Peeks ahead and returns true if the token at `idx` ahead of the current |
| /// position is |tok| |
| /// @param idx the index of the token to return |
| /// @param tok the token to look for |
| /// @returns true if the token `idx` positions ahead is |tok| |
| bool peek_is(Token::Type tok, size_t idx = 0); |
| /// @returns the last token that was returned by `next()` |
| Token last_token() const; |
| /// Appends an error at `t` with the message `msg` |
| /// @param t the token to associate the error with |
| /// @param msg the error message |
| /// @return `Failure::Errored::kError` so that you can combine an add_error() |
| /// call and return on the same line. |
| Failure::Errored add_error(const Token& t, const std::string& msg); |
| /// Appends an error raised when parsing `use` at `t` with the message |
| /// `msg` |
| /// @param source the source to associate the error with |
| /// @param msg the error message |
| /// @param use a description of what was being parsed when the error was |
| /// raised. |
| /// @return `Failure::Errored::kError` so that you can combine an add_error() |
| /// call and return on the same line. |
| Failure::Errored add_error(const Source& source, |
| const std::string& msg, |
| const std::string& use); |
| /// Appends an error at `source` with the message `msg` |
| /// @param source the source to associate the error with |
| /// @param msg the error message |
| /// @return `Failure::Errored::kError` so that you can combine an add_error() |
| /// call and return on the same line. |
| Failure::Errored add_error(const Source& source, const std::string& msg); |
| /// Appends a deprecated-language-feature warning at `source` with the message |
| /// `msg` |
| /// @param source the source to associate the error with |
| /// @param msg the warning message |
| void deprecated(const Source& source, const std::string& msg); |
| /// Registers a declared type into the parser |
| /// TODO(crbug.com/tint/724): Remove |
| /// @param name the type name |
| /// @param type_decl the type declaration |
| void register_type(const std::string& name, const ast::TypeDecl* type_decl); |
| /// Retrieves a declared type |
| /// TODO(crbug.com/tint/724): Remove |
| /// @param name The name to lookup |
| /// @returns the declared type for `name` or `nullptr` if not found |
| const ast::TypeDecl* get_type(const std::string& name); |
| |
| /// Parses the `translation_unit` grammar element |
| void translation_unit(); |
| /// Parses the `global_decl` grammar element, erroring on parse failure. |
| /// @return true on parse success, otherwise an error. |
| Expect<bool> expect_global_decl(); |
| /// Parses a `global_variable_decl` grammar element with the initial |
| /// `variable_decoration_list*` provided as `decos` |
| /// @returns the variable parsed or nullptr |
| /// @param decos the list of decorations for the variable declaration. |
| Maybe<ast::Variable*> global_variable_decl(ast::DecorationList& decos); |
| /// Parses a `global_constant_decl` grammar element with the initial |
| /// `variable_decoration_list*` provided as `decos` |
| /// @returns the const object or nullptr |
| /// @param decos the list of decorations for the constant declaration. |
| Maybe<ast::Variable*> global_constant_decl(ast::DecorationList& decos); |
| /// Parses a `variable_decl` grammar element |
| /// @param allow_inferred if true, do not fail if variable decl does not |
| /// specify type |
| /// @returns the parsed variable declaration info |
| Maybe<VarDeclInfo> variable_decl(bool allow_inferred = false); |
| /// Parses a `variable_ident_decl` grammar element, erroring on parse |
| /// failure. |
| /// @param use a description of what was being parsed if an error was raised. |
| /// @param allow_inferred if true, do not fail if variable decl does not |
| /// specify type |
| /// @returns the identifier and type parsed or empty otherwise |
| Expect<TypedIdentifier> expect_variable_ident_decl( |
| const std::string& use, |
| bool allow_inferred = false); |
| /// Parses a `variable_qualifier` grammar element |
| /// @returns the variable qualifier information |
| Maybe<VariableQualifier> variable_qualifier(); |
| /// Parses a `type_alias` grammar element |
| /// @returns the type alias or nullptr on error |
| Maybe<ast::Alias*> type_alias(); |
| /// Parses a `type_decl` grammar element |
| /// @returns the parsed Type or nullptr if none matched. |
| Maybe<ast::Type*> type_decl(); |
| /// Parses a `type_decl` grammar element with the given pre-parsed |
| /// decorations. |
| /// @param decos the list of decorations for the type. |
| /// @returns the parsed Type or nullptr if none matched. |
| Maybe<ast::Type*> type_decl(ast::DecorationList& decos); |
| /// Parses a `storage_class` grammar element, erroring on parse failure. |
| /// @param use a description of what was being parsed if an error was raised. |
| /// @returns the storage class or StorageClass::kNone if none matched |
| Expect<ast::StorageClass> expect_storage_class(const std::string& use); |
| /// Parses a `struct_decl` grammar element with the initial |
| /// `struct_decoration_decl*` provided as `decos`. |
| /// @returns the struct type or nullptr on error |
| /// @param decos the list of decorations for the struct declaration. |
| Maybe<ast::Struct*> struct_decl(ast::DecorationList& decos); |
| /// Parses a `struct_body_decl` grammar element, erroring on parse failure. |
| /// @returns the struct members |
| Expect<ast::StructMemberList> expect_struct_body_decl(); |
| /// Parses a `struct_member` grammar element with the initial |
| /// `struct_member_decoration_decl+` provided as `decos`, erroring on parse |
| /// failure. |
| /// @param decos the list of decorations for the struct member. |
| /// @returns the struct member or nullptr |
| Expect<ast::StructMember*> expect_struct_member(ast::DecorationList& decos); |
| /// Parses a `function_decl` grammar element with the initial |
| /// `function_decoration_decl*` provided as `decos`. |
| /// @param decos the list of decorations for the function declaration. |
| /// @returns the parsed function, nullptr otherwise |
| Maybe<ast::Function*> function_decl(ast::DecorationList& decos); |
| /// Parses a `texture_sampler_types` grammar element |
| /// @returns the parsed Type or nullptr if none matched. |
| Maybe<ast::Type*> texture_sampler_types(); |
| /// Parses a `sampler_type` grammar element |
| /// @returns the parsed Type or nullptr if none matched. |
| Maybe<ast::Type*> sampler_type(); |
| /// Parses a `multisampled_texture_type` grammar element |
| /// @returns returns the multisample texture dimension or kNone if none |
| /// matched. |
| Maybe<ast::TextureDimension> multisampled_texture_type(); |
| /// Parses a `sampled_texture_type` grammar element |
| /// @returns returns the sample texture dimension or kNone if none matched. |
| Maybe<ast::TextureDimension> sampled_texture_type(); |
| /// Parses a `storage_texture_type` grammar element |
| /// @returns returns the storage texture dimension. |
| /// Returns kNone if none matched. |
| Maybe<ast::TextureDimension> storage_texture_type(); |
| /// Parses a `depth_texture_type` grammar element |
| /// @returns the parsed Type or nullptr if none matched. |
| Maybe<ast::Type*> depth_texture_type(); |
| /// Parses a 'texture_external_type' grammar element |
| /// @returns the parsed Type or nullptr if none matched |
| Maybe<ast::Type*> external_texture_type(); |
| /// Parses a `image_storage_type` grammar element |
| /// @param use a description of what was being parsed if an error was raised |
| /// @returns returns the image format or kNone if none matched. |
| Expect<ast::ImageFormat> expect_image_storage_type(const std::string& use); |
| /// Parses a `function_header` grammar element |
| /// @returns the parsed function header |
| Maybe<FunctionHeader> function_header(); |
| /// Parses a `param_list` grammar element, erroring on parse failure. |
| /// @returns the parsed variables |
| Expect<ast::VariableList> expect_param_list(); |
| /// Parses a `param` grammar element, erroring on parse failure. |
| /// @returns the parsed variable |
| Expect<ast::Variable*> expect_param(); |
| /// Parses a `pipeline_stage` grammar element, erroring if the next token does |
| /// not match a stage name. |
| /// @returns the pipeline stage. |
| Expect<ast::PipelineStage> expect_pipeline_stage(); |
| /// Parses an access control identifier, erroring if the next token does not |
| /// match a valid access control. |
| /// @param use a description of what was being parsed if an error was raised |
| /// @returns the parsed access control. |
| Expect<ast::Access> expect_access(const std::string& use); |
| /// Parses a builtin identifier, erroring if the next token does not match a |
| /// valid builtin name. |
| /// @returns the parsed builtin. |
| Expect<ast::Builtin> expect_builtin(); |
| /// Parses a `body_stmt` grammar element, erroring on parse failure. |
| /// @returns the parsed statements |
| Expect<ast::BlockStatement*> expect_body_stmt(); |
| /// Parses a `paren_rhs_stmt` grammar element, erroring on parse failure. |
| /// @returns the parsed element or nullptr |
| Expect<ast::Expression*> expect_paren_rhs_stmt(); |
| /// Parses a `statements` grammar element |
| /// @returns the statements parsed |
| Expect<ast::StatementList> expect_statements(); |
| /// Parses a `statement` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::Statement*> statement(); |
| /// Parses a `break_stmt` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::BreakStatement*> break_stmt(); |
| /// Parses a `return_stmt` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::ReturnStatement*> return_stmt(); |
| /// Parses a `continue_stmt` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::ContinueStatement*> continue_stmt(); |
| /// Parses a `variable_stmt` grammar element |
| /// @returns the parsed variable or nullptr |
| Maybe<ast::VariableDeclStatement*> variable_stmt(); |
| /// Parses a `if_stmt` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::IfStatement*> if_stmt(); |
| /// Parses a `elseif_stmt` grammar element |
| /// @returns the parsed elements |
| Maybe<ast::ElseStatementList> elseif_stmt(); |
| /// Parses a `else_stmt` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::ElseStatement*> else_stmt(); |
| /// Parses a `switch_stmt` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::SwitchStatement*> switch_stmt(); |
| /// Parses a `switch_body` grammar element |
| /// @returns the parsed statement or nullptr |
| Maybe<ast::CaseStatement*> switch_body(); |
| /// Parses a `case_selectors` grammar element |
| /// @returns the list of literals |
| Expect<ast::CaseSelectorList> expect_case_selectors(); |
| /// Parses a `case_body` grammar element |
| /// @returns the parsed statements |
| Maybe<ast::BlockStatement*> case_body(); |
| /// Parses a `func_call_stmt` grammar element |
| /// @returns the parsed function call or nullptr |
| Maybe<ast::CallStatement*> func_call_stmt(); |
| /// Parses a `loop_stmt` grammar element |
| /// @returns the parsed loop or nullptr |
| Maybe<ast::LoopStatement*> loop_stmt(); |
| /// Parses a `for_header` grammar element, erroring on parse failure. |
| /// @returns the parsed for header or nullptr |
| Expect<std::unique_ptr<ForHeader>> expect_for_header(); |
| /// Parses a `for_stmt` grammar element |
| /// @returns the parsed for loop or nullptr |
| Maybe<ast::ForLoopStatement*> for_stmt(); |
| /// Parses a `continuing_stmt` grammar element |
| /// @returns the parsed statements |
| Maybe<ast::BlockStatement*> continuing_stmt(); |
| /// Parses a `const_literal` grammar element |
| /// @returns the const literal parsed or nullptr if none found |
| Maybe<ast::Literal*> const_literal(); |
| /// Parses a `const_expr` grammar element, erroring on parse failure. |
| /// @returns the parsed constructor expression or nullptr on error |
| Expect<ast::ConstructorExpression*> expect_const_expr(); |
| /// Parses a `primary_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> primary_expression(); |
| /// Parses a `argument_expression_list` grammar element, erroring on parse |
| /// failure. |
| /// @param use a description of what was being parsed if an error was raised |
| /// @returns the list of arguments |
| Expect<ast::ExpressionList> expect_argument_expression_list( |
| const std::string& use); |
| /// Parses the recursive portion of the postfix_expression |
| /// @param prefix the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> postfix_expression(ast::Expression* prefix); |
| /// Parses a `singular_expression` grammar elment |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> singular_expression(); |
| /// Parses a `unary_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> unary_expression(); |
| /// Parses the recursive part of the `multiplicative_expression`, erroring on |
| /// parse failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_multiplicative_expr(ast::Expression* lhs); |
| /// Parses the `multiplicative_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> multiplicative_expression(); |
| /// Parses the recursive part of the `additive_expression`, erroring on parse |
| /// failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_additive_expr(ast::Expression* lhs); |
| /// Parses the `additive_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> additive_expression(); |
| /// Parses the recursive part of the `shift_expression`, erroring on parse |
| /// failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_shift_expr(ast::Expression* lhs); |
| /// Parses the `shift_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> shift_expression(); |
| /// Parses the recursive part of the `relational_expression`, erroring on |
| /// parse failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_relational_expr(ast::Expression* lhs); |
| /// Parses the `relational_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> relational_expression(); |
| /// Parses the recursive part of the `equality_expression`, erroring on parse |
| /// failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_equality_expr(ast::Expression* lhs); |
| /// Parses the `equality_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> equality_expression(); |
| /// Parses the recursive part of the `and_expression`, erroring on parse |
| /// failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_and_expr(ast::Expression* lhs); |
| /// Parses the `and_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> and_expression(); |
| /// Parses the recursive part of the `exclusive_or_expression`, erroring on |
| /// parse failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_exclusive_or_expr(ast::Expression* lhs); |
| /// Parses the `exclusive_or_expression` grammar elememnt |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> exclusive_or_expression(); |
| /// Parses the recursive part of the `inclusive_or_expression`, erroring on |
| /// parse failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_inclusive_or_expr(ast::Expression* lhs); |
| /// Parses the `inclusive_or_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> inclusive_or_expression(); |
| /// Parses the recursive part of the `logical_and_expression`, erroring on |
| /// parse failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_logical_and_expr(ast::Expression* lhs); |
| /// Parses a `logical_and_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> logical_and_expression(); |
| /// Parses the recursive part of the `logical_or_expression`, erroring on |
| /// parse failure. |
| /// @param lhs the left side of the expression |
| /// @returns the parsed expression or nullptr |
| Expect<ast::Expression*> expect_logical_or_expr(ast::Expression* lhs); |
| /// Parses a `logical_or_expression` grammar element |
| /// @returns the parsed expression or nullptr |
| Maybe<ast::Expression*> logical_or_expression(); |
| /// Parses a `assignment_stmt` grammar element |
| /// @returns the parsed assignment or nullptr |
| Maybe<ast::AssignmentStatement*> assignment_stmt(); |
| /// Parses one or more bracketed decoration lists. |
| /// @return the parsed decoration list, or an empty list on error. |
| Maybe<ast::DecorationList> decoration_list(); |
| /// Parses a list of decorations between `ATTR_LEFT` and `ATTR_RIGHT` |
| /// brackets. |
| /// @param decos the list to append newly parsed decorations to. |
| /// @return true if any decorations were be parsed, otherwise false. |
| Maybe<bool> decoration_bracketed_list(ast::DecorationList& decos); |
| /// Parses a single decoration of the following types: |
| /// * `struct_decoration` |
| /// * `struct_member_decoration` |
| /// * `array_decoration` |
| /// * `variable_decoration` |
| /// * `global_const_decoration` |
| /// * `function_decoration` |
| /// @return the parsed decoration, or nullptr. |
| Maybe<ast::Decoration*> decoration(); |
| /// Parses a single decoration, reporting an error if the next token does not |
| /// represent a decoration. |
| /// @see #decoration for the full list of decorations this method parses. |
| /// @return the parsed decoration, or nullptr on error. |
| Expect<ast::Decoration*> expect_decoration(); |
| |
| private: |
| /// ReturnType resolves to the return type for the function or lambda F. |
| template <typename F> |
| using ReturnType = typename std::result_of<F()>::type; |
| |
| /// ResultType resolves to `T` for a `RESULT` of type Expect<T>. |
| template <typename RESULT> |
| using ResultType = typename RESULT::type; |
| |
| /// @returns true and consumes the next token if it equals `tok` |
| /// @param source if not nullptr, the next token's source is written to this |
| /// pointer, regardless of success or error |
| bool match(Token::Type tok, Source* source = nullptr); |
| /// Errors if the next token is not equal to `tok` |
| /// Consumes the next token on match. |
| /// expect() also updates #synchronized_, setting it to `true` if the next |
| /// token is equal to `tok`, otherwise `false`. |
| /// @param use a description of what was being parsed if an error was raised. |
| /// @param tok the token to test against |
| /// @returns true if the next token equals `tok` |
| bool expect(const std::string& use, Token::Type tok); |
| /// Parses a signed integer from the next token in the stream, erroring if the |
| /// next token is not a signed integer. |
| /// Consumes the next token on match. |
| /// @param use a description of what was being parsed if an error was raised |
| /// @returns the parsed integer. |
| Expect<int32_t> expect_sint(const std::string& use); |
| /// Parses a signed integer from the next token in the stream, erroring if |
| /// the next token is not a signed integer or is negative. |
| /// Consumes the next token if it is a signed integer (not necessarily |
| /// negative). |
| /// @param use a description of what was being parsed if an error was raised |
| /// @returns the parsed integer. |
| Expect<uint32_t> expect_positive_sint(const std::string& use); |
| /// Parses a non-zero signed integer from the next token in the stream, |
| /// erroring if the next token is not a signed integer or is less than 1. |
| /// Consumes the next token if it is a signed integer (not necessarily |
| /// >= 1). |
| /// @param use a description of what was being parsed if an error was raised |
| /// @returns the parsed integer. |
| Expect<uint32_t> expect_nonzero_positive_sint(const std::string& use); |
| /// Errors if the next token is not an identifier. |
| /// Consumes the next token on match. |
| /// @param use a description of what was being parsed if an error was raised |
| /// @returns the parsed identifier. |
| Expect<std::string> expect_ident(const std::string& use); |
| /// Parses a lexical block starting with the token `start` and ending with |
| /// the token `end`. `body` is called to parse the lexical block body |
| /// between the `start` and `end` tokens. If the `start` or `end` tokens |
| /// are not matched then an error is generated and a zero-initialized `T` is |
| /// returned. If `body` raises an error while parsing then a zero-initialized |
| /// `T` is returned. |
| /// @param start the token that begins the lexical block |
| /// @param end the token that ends the lexical block |
| /// @param use a description of what was being parsed if an error was raised |
| /// @param body a function or lambda that is called to parse the lexical block |
| /// body, with the signature: `Expect<Result>()` or `Maybe<Result>()`. |
| /// @return the value returned by `body` if no errors are raised, otherwise |
| /// an Expect with error state. |
| template <typename F, typename T = ReturnType<F>> |
| T expect_block(Token::Type start, |
| Token::Type end, |
| const std::string& use, |
| F&& body); |
| /// A convenience function that calls expect_block() passing |
| /// `Token::Type::kParenLeft` and `Token::Type::kParenRight` for the `start` |
| /// and `end` arguments, respectively. |
| /// @param use a description of what was being parsed if an error was raised |
| /// @param body a function or lambda that is called to parse the lexical block |
| /// body, with the signature: `Expect<Result>()` or `Maybe<Result>()`. |
| /// @return the value returned by `body` if no errors are raised, otherwise |
| /// an Expect with error state. |
| template <typename F, typename T = ReturnType<F>> |
| T expect_paren_block(const std::string& use, F&& body); |
| /// A convenience function that calls `expect_block` passing |
| /// `Token::Type::kBraceLeft` and `Token::Type::kBraceRight` for the `start` |
| /// and `end` arguments, respectively. |
| /// @param use a description of what was being parsed if an error was raised |
| /// @param body a function or lambda that is called to parse the lexical block |
| /// body, with the signature: `Expect<Result>()` or `Maybe<Result>()`. |
| /// @return the value returned by `body` if no errors are raised, otherwise |
| /// an Expect with error state. |
| template <typename F, typename T = ReturnType<F>> |
| T expect_brace_block(const std::string& use, F&& body); |
| /// A convenience function that calls `expect_block` passing |
| /// `Token::Type::kLessThan` and `Token::Type::kGreaterThan` for the `start` |
| /// and `end` arguments, respectively. |
| /// @param use a description of what was being parsed if an error was raised |
| /// @param body a function or lambda that is called to parse the lexical block |
| /// body, with the signature: `Expect<Result>()` or `Maybe<Result>()`. |
| /// @return the value returned by `body` if no errors are raised, otherwise |
| /// an Expect with error state. |
| template <typename F, typename T = ReturnType<F>> |
| T expect_lt_gt_block(const std::string& use, F&& body); |
| |
| /// sync() calls the function `func`, and attempts to resynchronize the |
| /// parser to the next found resynchronization token if `func` fails. If the |
| /// next found resynchronization token is `tok`, then sync will also consume |
| /// `tok`. |
| /// |
| /// sync() will transiently add `tok` to the parser's stack of |
| /// synchronization tokens for the duration of the call to `func`. Once @p |
| /// func returns, |
| /// `tok` is removed from the stack of resynchronization tokens. sync calls |
| /// may be nested, and so the number of resynchronization tokens is equal to |
| /// the number of sync() calls in the current stack frame. |
| /// |
| /// sync() updates #synchronized_, setting it to `true` if the next |
| /// resynchronization token found was `tok`, otherwise `false`. |
| /// |
| /// @param tok the token to attempt to synchronize the parser to if `func` |
| /// fails. |
| /// @param func a function or lambda with the signature: `Expect<Result>()` or |
| /// `Maybe<Result>()`. |
| /// @return the value returned by `func` |
| template <typename F, typename T = ReturnType<F>> |
| T sync(Token::Type tok, F&& func); |
| /// sync_to() attempts to resynchronize the parser to the next found |
| /// resynchronization token or `tok` (whichever comes first). |
| /// |
| /// Synchronization tokens are transiently defined by calls to sync(). |
| /// |
| /// sync_to() updates #synchronized_, setting it to `true` if a |
| /// resynchronization token was found and it was `tok`, otherwise `false`. |
| /// |
| /// @param tok the token to attempt to synchronize the parser to. |
| /// @param consume if true and the next found resynchronization token is |
| /// `tok` then sync_to() will also consume `tok`. |
| /// @return the state of #synchronized_. |
| /// @see sync(). |
| bool sync_to(Token::Type tok, bool consume); |
| /// @return true if `t` is in the stack of resynchronization tokens. |
| /// @see sync(). |
| bool is_sync_token(const Token& t) const; |
| |
| /// @returns true if #synchronized_ is true and the number of reported errors |
| /// is less than #max_errors_. |
| bool continue_parsing() { |
| return synchronized_ && builder_.Diagnostics().error_count() < max_errors_; |
| } |
| |
| /// without_error() calls the function `func` muting any grammatical errors |
| /// found while executing the function. This can be used as a best-effort to |
| /// produce a meaningful error message when the parser is out of sync. |
| /// @param func a function or lambda with the signature: `Expect<Result>()` or |
| /// `Maybe<Result>()`. |
| /// @return the value returned by `func` |
| template <typename F, typename T = ReturnType<F>> |
| T without_error(F&& func); |
| |
| /// Reports an error if the decoration list `list` is not empty. |
| /// Used to ensure that all decorations are consumed. |
| bool expect_decorations_consumed(const ast::DecorationList& list); |
| |
| Expect<ast::Type*> expect_type_decl_pointer(Token t); |
| Expect<ast::Type*> expect_type_decl_atomic(Token t); |
| Expect<ast::Type*> expect_type_decl_vector(Token t); |
| Expect<ast::Type*> expect_type_decl_array(Token t, ast::DecorationList decos); |
| Expect<ast::Type*> expect_type_decl_matrix(Token t); |
| |
| Expect<ast::Type*> expect_type(const std::string& use); |
| |
| Maybe<ast::Statement*> non_block_statement(); |
| Maybe<ast::Statement*> for_header_initializer(); |
| Maybe<ast::Statement*> for_header_continuing(); |
| |
| class MultiTokenSource; |
| MultiTokenSource make_source_range(); |
| MultiTokenSource make_source_range_from(const Source& start); |
| |
| /// Creates a new `ast::Node` owned by the Module. When the Module is |
| /// destructed, the `ast::Node` will also be destructed. |
| /// @param args the arguments to pass to the type constructor |
| /// @returns the node pointer |
| template <typename T, typename... ARGS> |
| T* create(ARGS&&... args) { |
| return builder_.create<T>(std::forward<ARGS>(args)...); |
| } |
| |
| std::unique_ptr<Lexer> lexer_; |
| std::deque<Token> token_queue_; |
| Token last_token_; |
| bool synchronized_ = true; |
| uint32_t parse_depth_ = 0; |
| std::vector<Token::Type> sync_tokens_; |
| int silence_errors_ = 0; |
| std::unordered_map<std::string, const ast::TypeDecl*> registered_types_; |
| ProgramBuilder builder_; |
| size_t max_errors_ = 25; |
| }; |
| |
| } // namespace wgsl |
| } // namespace reader |
| } // namespace tint |
| |
| #endif // SRC_READER_WGSL_PARSER_IMPL_H_ |