src/gpu/GrOrderedSet.h - skia - Git at Google

 /*
  * Copyright 2014 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrOrderedSet_DEFINED
 #define GrOrderedSet_DEFINED

 #include "GrRedBlackTree.h"

 template <typename T, typename C = GrLess<T> >
 class GrOrderedSet : SkNoncopyable {
 public:
     /**
      * Creates an empty set
      */
     GrOrderedSet() : fComp() {}
     ~GrOrderedSet() {}

     class Iter;

     /**
      * @return true if there are no items in the set, false otherwise.
      */
     bool empty() const { return fRBTree.empty(); }

     /**
      * @return the number of items in the set.
      */
     int count() const { return fRBTree.count(); }

     /**
      * Removes all items in the set
      */
     void reset() { fRBTree.reset(); }

     /**
      * Adds an element to set if it does not already exists in the set.
      * @param t  the item to add
      * @return an iterator to added element or matching element already in set
      */
     Iter insert(const T& t);

     /**
      * Removes the item indicated by an iterator. The iterator will not be valid
      * afterwards.
      * @param iter      iterator of item to remove. Must be valid (not end()).
      */
     void remove(const Iter& iter);

     /**
      * @return  an iterator to the first item in sorted order, or end() if empty
      */
     Iter begin();

     /**
      * Gets the last valid iterator. This is always valid, even on an empty.
      * However, it can never be dereferenced. Useful as a loop terminator.
      * @return  an iterator that is just beyond the last item in sorted order.
      */
     Iter end();

     /**
      * @return  an iterator that to the last item in sorted order, or end() if
      * empty.
      */
     Iter last();

     /**
      * Finds an occurrence of an item.
      * @param t     the item to find.
      * @return an iterator to a set element equal to t or end() if none exists.
      */
     Iter find(const T& t);

 private:
     GrRedBlackTree<T, C> fRBTree;

     const C fComp;
 };

 template <typename T, typename C>
 class GrOrderedSet<T,C>::Iter {
 public:
     Iter() {}
     Iter(const Iter& i) { fTreeIter = i.fTreeIter; }
     Iter& operator =(const Iter& i) {
         fTreeIter = i.fTreeIter;
         return *this;
     }
     const T& operator *() const { return *fTreeIter; }
     bool operator ==(const Iter& i) const {
         return fTreeIter == i.fTreeIter;
     }
     bool operator !=(const Iter& i) const { return !(*this == i); }
     Iter& operator ++() {
         ++fTreeIter;
         return *this;
     }
     Iter& operator --() {
         --fTreeIter;
         return *this;
     }
     const typename GrRedBlackTree<T,C>::Iter& getTreeIter() const {
         return fTreeIter;
     }

 private:
     friend class GrOrderedSet;
     explicit Iter(typename GrRedBlackTree<T, C>::Iter iter) {
         fTreeIter = iter;
     }
     typename GrRedBlackTree<T,C>::Iter fTreeIter;
 };

 template <typename T, typename C>
 typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::begin() {
     return Iter(fRBTree.begin());
 }

 template <typename T, typename C>
 typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::end() {
     return Iter(fRBTree.end());
 }

 template <typename T, typename C>
 typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::last() {
     return Iter(fRBTree.last());
 }

 template <typename T, typename C>
 typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::find(const T& t) {
     return Iter(fRBTree.find(t));
 }

 template <typename T, typename C>
 typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::insert(const T& t) {
     if (fRBTree.find(t) == fRBTree.end()) {
         return Iter(fRBTree.insert(t));
     } else {
         return Iter(fRBTree.find(t));
     }
 }

 template <typename T, typename C>
 void GrOrderedSet<T,C>::remove(const typename GrOrderedSet<T,C>::Iter& iter) {
     if (this->end() != iter) {
         fRBTree.remove(iter.getTreeIter());
     }
 }

 #endif
	/*
	* Copyright 2014 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrOrderedSet_DEFINED
	#define GrOrderedSet_DEFINED

	#include "GrRedBlackTree.h"

	template <typename T, typename C = GrLess<T> >
	class GrOrderedSet : SkNoncopyable {
	public:
	/**
	* Creates an empty set
	*/
	GrOrderedSet() : fComp() {}
	~GrOrderedSet() {}

	class Iter;

	/**
	* @return true if there are no items in the set, false otherwise.
	*/
	bool empty() const { return fRBTree.empty(); }

	/**
	* @return the number of items in the set.
	*/
	int count() const { return fRBTree.count(); }

	/**
	* Removes all items in the set
	*/
	void reset() { fRBTree.reset(); }

	/**
	* Adds an element to set if it does not already exists in the set.
	* @param t the item to add
	* @return an iterator to added element or matching element already in set
	*/
	Iter insert(const T& t);

	/**
	* Removes the item indicated by an iterator. The iterator will not be valid
	* afterwards.
	* @param iter iterator of item to remove. Must be valid (not end()).
	*/
	void remove(const Iter& iter);

	/**
	* @return an iterator to the first item in sorted order, or end() if empty
	*/
	Iter begin();

	/**
	* Gets the last valid iterator. This is always valid, even on an empty.
	* However, it can never be dereferenced. Useful as a loop terminator.
	* @return an iterator that is just beyond the last item in sorted order.
	*/
	Iter end();

	/**
	* @return an iterator that to the last item in sorted order, or end() if
	* empty.
	*/
	Iter last();

	/**
	* Finds an occurrence of an item.
	* @param t the item to find.
	* @return an iterator to a set element equal to t or end() if none exists.
	*/
	Iter find(const T& t);

	private:
	GrRedBlackTree<T, C> fRBTree;

	const C fComp;
	};

	template <typename T, typename C>
	class GrOrderedSet<T,C>::Iter {
	public:
	Iter() {}
	Iter(const Iter& i) { fTreeIter = i.fTreeIter; }
	Iter& operator =(const Iter& i) {
	fTreeIter = i.fTreeIter;
	return *this;
	}
	const T& operator () const { return fTreeIter; }
	bool operator ==(const Iter& i) const {
	return fTreeIter == i.fTreeIter;
	}
	bool operator !=(const Iter& i) const { return !(*this == i); }
	Iter& operator ++() {
	++fTreeIter;
	return *this;
	}
	Iter& operator --() {
	--fTreeIter;
	return *this;
	}
	const typename GrRedBlackTree<T,C>::Iter& getTreeIter() const {
	return fTreeIter;
	}

	private:
	friend class GrOrderedSet;
	explicit Iter(typename GrRedBlackTree<T, C>::Iter iter) {
	fTreeIter = iter;
	}
	typename GrRedBlackTree<T,C>::Iter fTreeIter;
	};

	template <typename T, typename C>
	typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::begin() {
	return Iter(fRBTree.begin());
	}

	template <typename T, typename C>
	typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::end() {
	return Iter(fRBTree.end());
	}

	template <typename T, typename C>
	typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::last() {
	return Iter(fRBTree.last());
	}

	template <typename T, typename C>
	typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::find(const T& t) {
	return Iter(fRBTree.find(t));
	}

	template <typename T, typename C>
	typename GrOrderedSet<T,C>::Iter GrOrderedSet<T,C>::insert(const T& t) {
	if (fRBTree.find(t) == fRBTree.end()) {
	return Iter(fRBTree.insert(t));
	} else {
	return Iter(fRBTree.find(t));
	}
	}

	template <typename T, typename C>
	void GrOrderedSet<T,C>::remove(const typename GrOrderedSet<T,C>::Iter& iter) {
	if (this->end() != iter) {
	fRBTree.remove(iter.getTreeIter());
	}
	}

	#endif