include/swift/Syntax/SyntaxFactory.h.gyb - third_party/swift - Git at Google

 %{
   from gyb_syntax_support import *
   # -*- mode: C++ -*-
   # Ignore the following admonition; it applies to the resulting .h file only
 }%
 //// Automatically Generated From SyntaxFactory.h.gyb.
 //// Do Not Edit Directly!
 //===------------- SyntaxFactory.h - Syntax Factory definition ------------===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
 // Licensed under Apache License v2.0 with Runtime Library Exception
 //
 // See https://swift.org/LICENSE.txt for license information
 // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines the SyntaxFactory, one of the most important client-facing
 // types in lib/Syntax and likely to be very commonly used.
 //
 // Effectively a namespace, SyntaxFactory is never instantiated, but is *the*
 // one-stop shop for making new Syntax nodes. Putting all of these into a
 // collection of static methods provides a single point of API lookup for
 // clients' convenience and also allows the library to hide all of the
 // constructors for all Syntax nodes, as the SyntaxFactory is friend to all.
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_SYNTAX_FACTORY_H
 #define SWIFT_SYNTAX_FACTORY_H

 #include "swift/Syntax/SyntaxNodes.h"
 #include "swift/Syntax/Trivia.h"
 #include "llvm/ADT/ArrayRef.h"

 #include <vector>

 namespace swift {
 namespace syntax {

 class SyntaxArena;

 /// The Syntax factory - the one-stop shop for making new Syntax nodes.
 struct SyntaxFactory {
   /// Make any kind of token.
   static TokenSyntax makeToken(tok Kind,
                                OwnedString Text, const Trivia &LeadingTrivia,
                                const Trivia &TrailingTrivia,
                                SourcePresence Presence,
                                RC<SyntaxArena> Arena = nullptr);

   /// Collect a list of tokens into a piece of "unknown" syntax.
   static UnknownSyntax makeUnknownSyntax(llvm::ArrayRef<TokenSyntax> Tokens,
                                          RC<SyntaxArena> Arena = nullptr);

   static Optional<Syntax> createSyntax(SyntaxKind Kind,
                                        llvm::ArrayRef<Syntax> Elements,
                                        RC<SyntaxArena> Arena = nullptr);

   static RC<RawSyntax> createRaw(SyntaxKind Kind,
                                  llvm::ArrayRef<RC<RawSyntax>> Elements,
                                  RC<SyntaxArena> Arena = nullptr);

   /// Count the number of children for a given syntax node kind,
   /// returning a pair of mininum and maximum count of children. The gap
   /// between these two numbers is the number of optional children.
   static std::pair<unsigned, unsigned> countChildren(SyntaxKind Kind);

   static Syntax
   makeBlankCollectionSyntax(SyntaxKind Kind);

 % for node in SYNTAX_NODES:
 %   if node.children:
 %     child_params = []
 %     for child in node.children:
 %         param_type = child.type_name
 %         if child.is_optional:
 %            param_type = "llvm::Optional<%s>" % param_type
 %         end
 %         child_params.append("%s %s" % (param_type, child.name))
 %     end
 %     child_params = ', '.join(child_params)
   static ${node.name} make${node.syntax_kind}(${child_params},
                                               RC<SyntaxArena> Arena = nullptr);
 %   elif node.is_syntax_collection():
   static ${node.name} make${node.syntax_kind}(
       const std::vector<${node.collection_element_type}> &elts,
       RC<SyntaxArena> Arena = nullptr);
 %   end

   static ${node.name} makeBlank${node.syntax_kind}(RC<SyntaxArena> Arena = nullptr);
 % end

 % for token in SYNTAX_TOKENS:
 %   if token.is_keyword:
   static TokenSyntax make${token.name}Keyword(const Trivia &LeadingTrivia,
                                               const Trivia &TrailingTrivia,
                                               RC<SyntaxArena> Arena = nullptr);
 %   elif token.text:
   static TokenSyntax make${token.name}Token(const Trivia &LeadingTrivia,
                                             const Trivia &TrailingTrivia,
                                             RC<SyntaxArena> Arena = nullptr);
 %   else:
   static TokenSyntax make${token.name}(OwnedString Text,
                                        const Trivia &LeadingTrivia,
                                        const Trivia &TrailingTrivia,
                                        RC<SyntaxArena> Arena = nullptr);
 %   end
 % end

 #pragma mark - Convenience APIs

   static TupleTypeSyntax makeVoidTupleType(RC<SyntaxArena> Arena = nullptr);

   /// Creates an labelled TupleTypeElementSyntax with the provided label,
   /// colon, type and optional trailing comma.
   static TupleTypeElementSyntax makeTupleTypeElement(
       llvm::Optional<TokenSyntax> Label,
       llvm::Optional<TokenSyntax> Colon, TypeSyntax Type,
       llvm::Optional<TokenSyntax> TrailingComma = llvm::None,
       RC<SyntaxArena> Arena = nullptr);

   /// Creates an unlabelled TupleTypeElementSyntax with the provided type and
   /// optional trailing comma.
   static TupleTypeElementSyntax
   makeTupleTypeElement(TypeSyntax Type,
                        llvm::Optional<TokenSyntax> TrailingComma = llvm::None,
                        RC<SyntaxArena> Arena = nullptr);

   /// Creates a TypeIdentifierSyntax with the provided name and leading/trailing
   /// trivia.
   static TypeSyntax makeTypeIdentifier(OwnedString TypeName,
                                        const Trivia &LeadingTrivia = {},
                                        const Trivia &TrailingTrivia = {},
                                        RC<SyntaxArena> Arena = nullptr);

   /// Creates a GenericParameterSyntax with no inheritance clause and an
   /// optional trailing comma.
   static GenericParameterSyntax
   makeGenericParameter(TokenSyntax Name,
                        llvm::Optional<TokenSyntax> TrailingComma,
                        RC<SyntaxArena> Arena = nullptr);

   /// Creates a TypeIdentifierSyntax for the `Any` type.
   static TypeSyntax makeAnyTypeIdentifier(const Trivia &LeadingTrivia = {},
                                           const Trivia &TrailingTrivia = {},
                                           RC<SyntaxArena> Arena = nullptr);

   /// Creates a TypeIdentifierSyntax for the `Self` type.
   static TypeSyntax makeSelfTypeIdentifier(const Trivia &LeadingTrivia = {},
                                            const Trivia &TrailingTrivia = {},
                                            RC<SyntaxArena> Arena = nullptr);

   /// Creates a TokenSyntax for the `Type` identifier.
   static TokenSyntax makeTypeToken(const Trivia &LeadingTrivia = {},
                                    const Trivia &TrailingTrivia = {},
                                    RC<SyntaxArena> Arena = nullptr);

   /// Creates a TokenSyntax for the `Protocol` identifier.
   static TokenSyntax makeProtocolToken(const Trivia &LeadingTrivia = {},
                                        const Trivia &TrailingTrivia = {},
                                        RC<SyntaxArena> Arena = nullptr);

   /// Creates an `==` operator token.
   static TokenSyntax makeEqualityOperator(const Trivia &LeadingTrivia = {},
                                           const Trivia &TrailingTrivia = {},
                                           RC<SyntaxArena> Arena = nullptr);

   /// Whether a raw node kind `MemberKind` can serve as a member in a syntax
   /// collection of the given syntax collection kind.
   static bool canServeAsCollectionMemberRaw(SyntaxKind CollectionKind,
                                             SyntaxKind MemberKind);

   /// Whether a raw node `Member` can serve as a member in a syntax collection
   /// of the given syntax collection kind.
   static bool canServeAsCollectionMemberRaw(SyntaxKind CollectionKind,
                                             const RC<RawSyntax> &Member);

   /// Whether a node `Member` can serve as a member in a syntax collection of
   /// the given syntax collection kind.
   static bool canServeAsCollectionMember(SyntaxKind CollectionKind, Syntax Member);
 };
 }
 }

 #endif // SWIFT_SYNTAX_FACTORY_H
	%{
	from gyb_syntax_support import *
	# -- mode: C++ --
	# Ignore the following admonition; it applies to the resulting .h file only
	}%
	//// Automatically Generated From SyntaxFactory.h.gyb.
	//// Do Not Edit Directly!
	//===------------- SyntaxFactory.h - Syntax Factory definition ------------===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
	// Licensed under Apache License v2.0 with Runtime Library Exception
	//
	// See https://swift.org/LICENSE.txt for license information
	// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines the SyntaxFactory, one of the most important client-facing
	// types in lib/Syntax and likely to be very commonly used.
	//
	// Effectively a namespace, SyntaxFactory is never instantiated, but is the
	// one-stop shop for making new Syntax nodes. Putting all of these into a
	// collection of static methods provides a single point of API lookup for
	// clients' convenience and also allows the library to hide all of the
	// constructors for all Syntax nodes, as the SyntaxFactory is friend to all.
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_SYNTAX_FACTORY_H
	#define SWIFT_SYNTAX_FACTORY_H

	#include "swift/Syntax/SyntaxNodes.h"
	#include "swift/Syntax/Trivia.h"
	#include "llvm/ADT/ArrayRef.h"

	#include <vector>

	namespace swift {
	namespace syntax {

	class SyntaxArena;

	/// The Syntax factory - the one-stop shop for making new Syntax nodes.
	struct SyntaxFactory {
	/// Make any kind of token.
	static TokenSyntax makeToken(tok Kind,
	OwnedString Text, const Trivia &LeadingTrivia,
	const Trivia &TrailingTrivia,
	SourcePresence Presence,
	RC<SyntaxArena> Arena = nullptr);

	/// Collect a list of tokens into a piece of "unknown" syntax.
	static UnknownSyntax makeUnknownSyntax(llvm::ArrayRef<TokenSyntax> Tokens,
	RC<SyntaxArena> Arena = nullptr);

	static Optional<Syntax> createSyntax(SyntaxKind Kind,
	llvm::ArrayRef<Syntax> Elements,
	RC<SyntaxArena> Arena = nullptr);

	static RC<RawSyntax> createRaw(SyntaxKind Kind,
	llvm::ArrayRef<RC<RawSyntax>> Elements,
	RC<SyntaxArena> Arena = nullptr);

	/// Count the number of children for a given syntax node kind,
	/// returning a pair of mininum and maximum count of children. The gap
	/// between these two numbers is the number of optional children.
	static std::pair<unsigned, unsigned> countChildren(SyntaxKind Kind);

	static Syntax
	makeBlankCollectionSyntax(SyntaxKind Kind);

	% for node in SYNTAX_NODES:
	% if node.children:
	% child_params = []
	% for child in node.children:
	% param_type = child.type_name
	% if child.is_optional:
	% param_type = "llvm::Optional<%s>" % param_type
	% end
	% child_params.append("%s %s" % (param_type, child.name))
	% end
	% child_params = ', '.join(child_params)
	static ${node.name} make${node.syntax_kind}(${child_params},
	RC<SyntaxArena> Arena = nullptr);
	% elif node.is_syntax_collection():
	static ${node.name} make${node.syntax_kind}(
	const std::vector<${node.collection_element_type}> &elts,
	RC<SyntaxArena> Arena = nullptr);
	% end

	static ${node.name} makeBlank${node.syntax_kind}(RC<SyntaxArena> Arena = nullptr);
	% end

	% for token in SYNTAX_TOKENS:
	% if token.is_keyword:
	static TokenSyntax make${token.name}Keyword(const Trivia &LeadingTrivia,
	const Trivia &TrailingTrivia,
	RC<SyntaxArena> Arena = nullptr);
	% elif token.text:
	static TokenSyntax make${token.name}Token(const Trivia &LeadingTrivia,
	const Trivia &TrailingTrivia,
	RC<SyntaxArena> Arena = nullptr);
	% else:
	static TokenSyntax make${token.name}(OwnedString Text,
	const Trivia &LeadingTrivia,
	const Trivia &TrailingTrivia,
	RC<SyntaxArena> Arena = nullptr);
	% end
	% end

	#pragma mark - Convenience APIs

	static TupleTypeSyntax makeVoidTupleType(RC<SyntaxArena> Arena = nullptr);

	/// Creates an labelled TupleTypeElementSyntax with the provided label,
	/// colon, type and optional trailing comma.
	static TupleTypeElementSyntax makeTupleTypeElement(
	llvm::Optional<TokenSyntax> Label,
	llvm::Optional<TokenSyntax> Colon, TypeSyntax Type,
	llvm::Optional<TokenSyntax> TrailingComma = llvm::None,
	RC<SyntaxArena> Arena = nullptr);

	/// Creates an unlabelled TupleTypeElementSyntax with the provided type and
	/// optional trailing comma.
	static TupleTypeElementSyntax
	makeTupleTypeElement(TypeSyntax Type,
	llvm::Optional<TokenSyntax> TrailingComma = llvm::None,
	RC<SyntaxArena> Arena = nullptr);

	/// Creates a TypeIdentifierSyntax with the provided name and leading/trailing
	/// trivia.
	static TypeSyntax makeTypeIdentifier(OwnedString TypeName,
	const Trivia &LeadingTrivia = {},
	const Trivia &TrailingTrivia = {},
	RC<SyntaxArena> Arena = nullptr);

	/// Creates a GenericParameterSyntax with no inheritance clause and an
	/// optional trailing comma.
	static GenericParameterSyntax
	makeGenericParameter(TokenSyntax Name,
	llvm::Optional<TokenSyntax> TrailingComma,
	RC<SyntaxArena> Arena = nullptr);

	/// Creates a TypeIdentifierSyntax for the `Any` type.
	static TypeSyntax makeAnyTypeIdentifier(const Trivia &LeadingTrivia = {},
	const Trivia &TrailingTrivia = {},
	RC<SyntaxArena> Arena = nullptr);

	/// Creates a TypeIdentifierSyntax for the `Self` type.
	static TypeSyntax makeSelfTypeIdentifier(const Trivia &LeadingTrivia = {},
	const Trivia &TrailingTrivia = {},
	RC<SyntaxArena> Arena = nullptr);

	/// Creates a TokenSyntax for the `Type` identifier.
	static TokenSyntax makeTypeToken(const Trivia &LeadingTrivia = {},
	const Trivia &TrailingTrivia = {},
	RC<SyntaxArena> Arena = nullptr);

	/// Creates a TokenSyntax for the `Protocol` identifier.
	static TokenSyntax makeProtocolToken(const Trivia &LeadingTrivia = {},
	const Trivia &TrailingTrivia = {},
	RC<SyntaxArena> Arena = nullptr);

	/// Creates an `==` operator token.
	static TokenSyntax makeEqualityOperator(const Trivia &LeadingTrivia = {},
	const Trivia &TrailingTrivia = {},
	RC<SyntaxArena> Arena = nullptr);

	/// Whether a raw node kind `MemberKind` can serve as a member in a syntax
	/// collection of the given syntax collection kind.
	static bool canServeAsCollectionMemberRaw(SyntaxKind CollectionKind,
	SyntaxKind MemberKind);

	/// Whether a raw node `Member` can serve as a member in a syntax collection
	/// of the given syntax collection kind.
	static bool canServeAsCollectionMemberRaw(SyntaxKind CollectionKind,
	const RC<RawSyntax> &Member);

	/// Whether a node `Member` can serve as a member in a syntax collection of
	/// the given syntax collection kind.
	static bool canServeAsCollectionMember(SyntaxKind CollectionKind, Syntax Member);
	};
	}
	}

	#endif // SWIFT_SYNTAX_FACTORY_H