include/swift/Syntax/SyntaxCollection.h - third_party/swift - Git at Google

 //===--- SyntaxCollection.h -------------------------------------*- C++ -*-===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_SYNTAX_SYNTAXCOLLECTION_H
 #define SWIFT_SYNTAX_SYNTAXCOLLECTION_H

 #include "swift/Syntax/Syntax.h"

 #include <iterator>

 namespace swift {
 namespace syntax {

 template <SyntaxKind CollectionKind, typename Element>
 class SyntaxCollection;

 template <SyntaxKind CollectionKind, typename Element>
 struct SyntaxCollectionIterator {
   const SyntaxCollection<CollectionKind, Element> &Collection;
   size_t Index;

   Element operator*() {
     return Collection[Index];
   }

   SyntaxCollectionIterator<CollectionKind, Element> &operator++() {
     ++Index;
     return *this;
   }

   bool
   operator==(const SyntaxCollectionIterator<CollectionKind, Element> &Other) {
     return Collection.hasSameIdentityAs(Other.Collection) &&
     Index == Other.Index;
   }

   bool
   operator!=(const SyntaxCollectionIterator<CollectionKind, Element> &Other) {
     return !operator==(Other);

   }
 };

 /// A generic unbounded collection of syntax nodes
 template <SyntaxKind CollectionKind, typename Element>
 class SyntaxCollection : public Syntax {
   friend struct SyntaxFactory;
   friend class Syntax;

 private:
   static RC<SyntaxData>
   makeData(std::initializer_list<Element> &Elements) {
     std::vector<RC<RawSyntax>> List;
     List.reserve(Elements.size());
     for (auto &Elt : Elements)
       List.push_back(Elt.getRaw());
     auto Raw = RawSyntax::make(CollectionKind, List,
                                SourcePresence::Present);
     return SyntaxData::make(Raw);
   }
   SyntaxCollection(const RC<SyntaxData> Root): Syntax(Root, Root.get()) {}

 public:

   SyntaxCollection(const RC<SyntaxData> Root, const SyntaxData *Data)
   : Syntax(Root, Data) {}

   SyntaxCollection(std::initializer_list<Element> list):
     SyntaxCollection(SyntaxCollection::makeData(list)) {}

   /// Returns true if the collection is empty.
   bool empty() const {
     return size() == 0;
   }

   /// Returns the number of elements in the collection.
   size_t size() const {
     return getRaw()->getLayout().size();
   }

   SyntaxCollectionIterator<CollectionKind, Element> begin() const {
     return SyntaxCollectionIterator<CollectionKind, Element> {
       *this,
       0,
     };
   }

   SyntaxCollectionIterator<CollectionKind, Element> end() const {
     return SyntaxCollectionIterator<CollectionKind, Element> {
       *this,
       getRaw()->getLayout().size(),
     };
   }

   /// Return the element at the given Index.
   ///
   /// Precondition: Index < size()
   /// Precondition: !empty()
   Element operator[](const size_t Index) const {
     assert(Index < size());
     assert(!empty());
     return { Root, Data->getChild(Index).get() };
   }

   /// Return a new collection with the given element added to the end.
   SyntaxCollection<CollectionKind, Element>
   appending(Element E) const {
     auto OldLayout = getRaw()->getLayout();
     std::vector<RC<RawSyntax>> NewLayout;
     NewLayout.reserve(OldLayout.size() + 1);
     std::copy(OldLayout.begin(), OldLayout.end(), back_inserter(NewLayout));
     NewLayout.push_back(E.getRaw());
     auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
     return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
   }

   /// Return a new collection with an element removed from the end.
   ///
   /// Precondition: !empty()
   SyntaxCollection<CollectionKind, Element> removingLast() const {
     assert(!empty());
     auto NewLayout = getRaw()->getLayout().drop_back();
     auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
     return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
   }

   /// Return a new collection with the given element appended to the front.
   SyntaxCollection<CollectionKind, Element>
   prepending(Element E) const {
     auto OldLayout = getRaw()->getLayout();
     std::vector<RC<RawSyntax>> NewLayout = { E.getRaw() };
     std::copy(OldLayout.begin(), OldLayout.end(),
               std::back_inserter(NewLayout));
     auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
     return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
   }

   /// Return a new collection with an element removed from the end.
   ///
   /// Precondition: !empty()
   SyntaxCollection<CollectionKind, Element> removingFirst() const {
     assert(!empty());
     auto NewLayout = getRaw()->getLayout().drop_front();
     auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
     return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
   }

   /// Return a new collection with the Element inserted at index i.
   ///
   /// Precondition: i <= size()
   SyntaxCollection<CollectionKind, Element>
   inserting(size_t i, Element E) const {
     assert(i <= size());
     auto OldLayout = getRaw()->getLayout();
     std::vector<RC<RawSyntax>> NewLayout;
     NewLayout.reserve(OldLayout.size() + 1);

     std::copy(OldLayout.begin(), OldLayout.begin() + i,
               std::back_inserter(NewLayout));
     NewLayout.push_back(E.getRaw());
     std::copy(OldLayout.begin() + i, OldLayout.end(),
               std::back_inserter(NewLayout));
     auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
     return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
   }

   /// Return a new collection with the element removed at index i.
   SyntaxCollection<CollectionKind, Element> removing(size_t i) const {
     assert(i <= size());
     std::vector<RC<RawSyntax>> NewLayout = getRaw()->getLayout();
     auto iterator = NewLayout.begin();
     std::advance(iterator, i);
     NewLayout.erase(iterator);
     auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
     return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
   }

   /// Return an empty syntax collection of this type.
   SyntaxCollection<CollectionKind, Element> cleared() const {
     auto Raw = RawSyntax::make(CollectionKind, {}, getRaw()->getPresence());
     return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
   }

   static bool kindof(SyntaxKind Kind) {
     return Kind == CollectionKind;
   }

   static bool classof(const Syntax *S) {
     return kindof(S->getKind());
   }
 };

 } // end namespace syntax
 } // end namespace swift

 #endif // SWIFT_SYNTAX_SYNTAXCOLLECTION_H
	//===--- SyntaxCollection.h -------------------------------------- C++ --===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_SYNTAX_SYNTAXCOLLECTION_H
	#define SWIFT_SYNTAX_SYNTAXCOLLECTION_H

	#include "swift/Syntax/Syntax.h"

	#include <iterator>

	namespace swift {
	namespace syntax {

	template <SyntaxKind CollectionKind, typename Element>
	class SyntaxCollection;

	template <SyntaxKind CollectionKind, typename Element>
	struct SyntaxCollectionIterator {
	const SyntaxCollection<CollectionKind, Element> &Collection;
	size_t Index;

	Element operator*() {
	return Collection[Index];
	}

	SyntaxCollectionIterator<CollectionKind, Element> &operator++() {
	++Index;
	return *this;
	}

	bool
	operator==(const SyntaxCollectionIterator<CollectionKind, Element> &Other) {
	return Collection.hasSameIdentityAs(Other.Collection) &&
	Index == Other.Index;
	}

	bool
	operator!=(const SyntaxCollectionIterator<CollectionKind, Element> &Other) {
	return !operator==(Other);

	}
	};

	/// A generic unbounded collection of syntax nodes
	template <SyntaxKind CollectionKind, typename Element>
	class SyntaxCollection : public Syntax {
	friend struct SyntaxFactory;
	friend class Syntax;

	private:
	static RC<SyntaxData>
	makeData(std::initializer_list<Element> &Elements) {
	std::vector<RC<RawSyntax>> List;
	List.reserve(Elements.size());
	for (auto &Elt : Elements)
	List.push_back(Elt.getRaw());
	auto Raw = RawSyntax::make(CollectionKind, List,
	SourcePresence::Present);
	return SyntaxData::make(Raw);
	}
	SyntaxCollection(const RC<SyntaxData> Root): Syntax(Root, Root.get()) {}

	public:

	SyntaxCollection(const RC<SyntaxData> Root, const SyntaxData *Data)
	: Syntax(Root, Data) {}

	SyntaxCollection(std::initializer_list<Element> list):
	SyntaxCollection(SyntaxCollection::makeData(list)) {}

	/// Returns true if the collection is empty.
	bool empty() const {
	return size() == 0;
	}

	/// Returns the number of elements in the collection.
	size_t size() const {
	return getRaw()->getLayout().size();
	}

	SyntaxCollectionIterator<CollectionKind, Element> begin() const {
	return SyntaxCollectionIterator<CollectionKind, Element> {
	*this,
	0,
	};
	}

	SyntaxCollectionIterator<CollectionKind, Element> end() const {
	return SyntaxCollectionIterator<CollectionKind, Element> {
	*this,
	getRaw()->getLayout().size(),
	};
	}

	/// Return the element at the given Index.
	///
	/// Precondition: Index < size()
	/// Precondition: !empty()
	Element operator[](const size_t Index) const {
	assert(Index < size());
	assert(!empty());
	return { Root, Data->getChild(Index).get() };
	}

	/// Return a new collection with the given element added to the end.
	SyntaxCollection<CollectionKind, Element>
	appending(Element E) const {
	auto OldLayout = getRaw()->getLayout();
	std::vector<RC<RawSyntax>> NewLayout;
	NewLayout.reserve(OldLayout.size() + 1);
	std::copy(OldLayout.begin(), OldLayout.end(), back_inserter(NewLayout));
	NewLayout.push_back(E.getRaw());
	auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
	return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
	}

	/// Return a new collection with an element removed from the end.
	///
	/// Precondition: !empty()
	SyntaxCollection<CollectionKind, Element> removingLast() const {
	assert(!empty());
	auto NewLayout = getRaw()->getLayout().drop_back();
	auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
	return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
	}

	/// Return a new collection with the given element appended to the front.
	SyntaxCollection<CollectionKind, Element>
	prepending(Element E) const {
	auto OldLayout = getRaw()->getLayout();
	std::vector<RC<RawSyntax>> NewLayout = { E.getRaw() };
	std::copy(OldLayout.begin(), OldLayout.end(),
	std::back_inserter(NewLayout));
	auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
	return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
	}

	/// Return a new collection with an element removed from the end.
	///
	/// Precondition: !empty()
	SyntaxCollection<CollectionKind, Element> removingFirst() const {
	assert(!empty());
	auto NewLayout = getRaw()->getLayout().drop_front();
	auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
	return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
	}

	/// Return a new collection with the Element inserted at index i.
	///
	/// Precondition: i <= size()
	SyntaxCollection<CollectionKind, Element>
	inserting(size_t i, Element E) const {
	assert(i <= size());
	auto OldLayout = getRaw()->getLayout();
	std::vector<RC<RawSyntax>> NewLayout;
	NewLayout.reserve(OldLayout.size() + 1);

	std::copy(OldLayout.begin(), OldLayout.begin() + i,
	std::back_inserter(NewLayout));
	NewLayout.push_back(E.getRaw());
	std::copy(OldLayout.begin() + i, OldLayout.end(),
	std::back_inserter(NewLayout));
	auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
	return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
	}

	/// Return a new collection with the element removed at index i.
	SyntaxCollection<CollectionKind, Element> removing(size_t i) const {
	assert(i <= size());
	std::vector<RC<RawSyntax>> NewLayout = getRaw()->getLayout();
	auto iterator = NewLayout.begin();
	std::advance(iterator, i);
	NewLayout.erase(iterator);
	auto Raw = RawSyntax::make(CollectionKind, NewLayout, getRaw()->getPresence());
	return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
	}

	/// Return an empty syntax collection of this type.
	SyntaxCollection<CollectionKind, Element> cleared() const {
	auto Raw = RawSyntax::make(CollectionKind, {}, getRaw()->getPresence());
	return Data->replaceSelf<SyntaxCollection<CollectionKind, Element>>(Raw);
	}

	static bool kindof(SyntaxKind Kind) {
	return Kind == CollectionKind;
	}

	static bool classof(const Syntax *S) {
	return kindof(S->getKind());
	}
	};

	} // end namespace syntax
	} // end namespace swift

	#endif // SWIFT_SYNTAX_SYNTAXCOLLECTION_H