/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef nsStringIterator_h___ #define nsStringIterator_h___ #include "nsCharTraits.h" #include "nsAlgorithm.h" #include "nsDebug.h" /** * @see nsTAString */ template class nsReadingIterator { public: typedef nsReadingIterator self_type; typedef ptrdiff_t difference_type; typedef CharT value_type; typedef const CharT* pointer; typedef const CharT& reference; private: friend class nsAString; friend class nsACString; // unfortunately, the API for nsReadingIterator requires that the // iterator know its start and end positions. this was needed when // we supported multi-fragment strings, but now it is really just // extra baggage. we should remove mStart and mEnd at some point. const CharT* mStart; const CharT* mEnd; const CharT* mPosition; public: nsReadingIterator() { } // nsReadingIterator( const nsReadingIterator& ); // auto-generated copy-constructor OK // nsReadingIterator& operator=( const nsReadingIterator& ); // auto-generated copy-assignment operator OK inline void normalize_forward() { } inline void normalize_backward() { } pointer start() const { return mStart; } pointer end() const { return mEnd; } pointer get() const { return mPosition; } CharT operator*() const { return *get(); } #if 0 // An iterator really deserves this, but some compilers (notably IBM VisualAge for OS/2) // don't like this when |CharT| is a type without members. pointer operator->() const { return get(); } #endif self_type& operator++() { ++mPosition; return *this; } self_type operator++(int) { self_type result(*this); ++mPosition; return result; } self_type& operator--() { --mPosition; return *this; } self_type operator--(int) { self_type result(*this); --mPosition; return result; } difference_type size_forward() const { return mEnd - mPosition; } difference_type size_backward() const { return mPosition - mStart; } self_type& advance(difference_type aN) { if (aN > 0) { difference_type step = XPCOM_MIN(aN, size_forward()); NS_ASSERTION(step > 0, "can't advance a reading iterator beyond the end of a string"); mPosition += step; } else if (aN < 0) { difference_type step = XPCOM_MAX(aN, -size_backward()); NS_ASSERTION(step < 0, "can't advance (backward) a reading iterator beyond the end of a string"); mPosition += step; } return *this; } }; /** * @see nsTAString */ template class nsWritingIterator { public: typedef nsWritingIterator self_type; typedef ptrdiff_t difference_type; typedef CharT value_type; typedef CharT* pointer; typedef CharT& reference; private: friend class nsAString; friend class nsACString; // unfortunately, the API for nsWritingIterator requires that the // iterator know its start and end positions. this was needed when // we supported multi-fragment strings, but now it is really just // extra baggage. we should remove mStart and mEnd at some point. CharT* mStart; CharT* mEnd; CharT* mPosition; public: nsWritingIterator() { } // nsWritingIterator( const nsWritingIterator& ); // auto-generated copy-constructor OK // nsWritingIterator& operator=( const nsWritingIterator& ); // auto-generated copy-assignment operator OK inline void normalize_forward() { } inline void normalize_backward() { } pointer start() const { return mStart; } pointer end() const { return mEnd; } pointer get() const { return mPosition; } reference operator*() const { return *get(); } #if 0 // An iterator really deserves this, but some compilers (notably IBM VisualAge for OS/2) // don't like this when |CharT| is a type without members. pointer operator->() const { return get(); } #endif self_type& operator++() { ++mPosition; return *this; } self_type operator++(int) { self_type result(*this); ++mPosition; return result; } self_type& operator--() { --mPosition; return *this; } self_type operator--(int) { self_type result(*this); --mPosition; return result; } difference_type size_forward() const { return mEnd - mPosition; } difference_type size_backward() const { return mPosition - mStart; } self_type& advance(difference_type aN) { if (aN > 0) { difference_type step = XPCOM_MIN(aN, size_forward()); NS_ASSERTION(step > 0, "can't advance a writing iterator beyond the end of a string"); mPosition += step; } else if (aN < 0) { difference_type step = XPCOM_MAX(aN, -size_backward()); NS_ASSERTION(step < 0, "can't advance (backward) a writing iterator beyond the end of a string"); mPosition += step; } return *this; } void write(const value_type* aS, uint32_t aN) { NS_ASSERTION(size_forward() > 0, "You can't |write| into an |nsWritingIterator| with no space!"); nsCharTraits::move(mPosition, aS, aN); advance(difference_type(aN)); } }; template inline bool operator==(const nsReadingIterator& aLhs, const nsReadingIterator& aRhs) { return aLhs.get() == aRhs.get(); } template inline bool operator!=(const nsReadingIterator& aLhs, const nsReadingIterator& aRhs) { return aLhs.get() != aRhs.get(); } // // |nsWritingIterator|s // template inline bool operator==(const nsWritingIterator& aLhs, const nsWritingIterator& aRhs) { return aLhs.get() == aRhs.get(); } template inline bool operator!=(const nsWritingIterator& aLhs, const nsWritingIterator& aRhs) { return aLhs.get() != aRhs.get(); } #endif /* !defined(nsStringIterator_h___) */