зеркало из https://github.com/mozilla/gecko-dev.git
737 строки
27 KiB
C++
737 строки
27 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim:set ts=2 sw=2 sts=2 et cindent: */
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/* ***** BEGIN LICENSE BLOCK *****
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* Version: MPL 1.1/GPL 2.0/LGPL 2.1
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*
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* The contents of this file are subject to the Mozilla Public License Version
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* 1.1 (the "License"); you may not use this file except in compliance with
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* the License. You may obtain a copy of the License at
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* http://www.mozilla.org/MPL/
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*
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* Software distributed under the License is distributed on an "AS IS" basis,
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* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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* for the specific language governing rights and limitations under the
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* License.
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*
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* The Original Code is Mozilla.
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*
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* The Initial Developer of the Original Code is IBM Corporation.
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* Portions created by IBM Corporation are Copyright (C) 2003
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* IBM Corporation. All Rights Reserved.
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*
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* Contributor(s):
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* Darin Fisher <darin@meer.net>
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*
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* Alternatively, the contents of this file may be used under the terms of
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* either the GNU General Public License Version 2 or later (the "GPL"), or
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* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
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* in which case the provisions of the GPL or the LGPL are applicable instead
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* of those above. If you wish to allow use of your version of this file only
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* under the terms of either the GPL or the LGPL, and not to allow others to
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* use your version of this file under the terms of the MPL, indicate your
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* decision by deleting the provisions above and replace them with the notice
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* and other provisions required by the GPL or the LGPL. If you do not delete
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* the provisions above, a recipient may use your version of this file under
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* the terms of any one of the MPL, the GPL or the LGPL.
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*
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* ***** END LICENSE BLOCK ***** */
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/**
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* nsTSubstring
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*
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* The base string type. This type is not instantiated directly. A sub-
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* class is instantiated instead. For example, see nsTString.
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*
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* This type works like nsTAString except that it does not have the ABI
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* requirements of that interface. Like nsTAString, nsTSubstring
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* represents a single contiguous array of characters that may or may not
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* be null-terminated.
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*
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* Many of the accessors on nsTSubstring are inlined as an optimization.
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*
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* This class is also known as "nsASingleFragmentC?String".
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*/
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class nsTSubstring_CharT : public nsTAString_CharT
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{
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public:
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typedef nsTSubstring_CharT self_type;
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typedef nsTString_CharT string_type;
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typedef char_type* char_iterator;
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typedef const char_type* const_char_iterator;
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#ifdef MOZ_V1_STRING_ABI
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typedef nsTAString_CharT base_string_type;
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#else
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typedef nsTSubstring_CharT base_string_type;
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#endif
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public:
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#ifndef MOZ_V1_STRING_ABI
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// this acts like a virtual destructor
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NS_COM NS_CONSTRUCTOR_FASTCALL ~nsTSubstring_CharT();
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#endif
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/**
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* reading iterators
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*/
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const_char_iterator BeginReading() const { return mData; }
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const_char_iterator EndReading() const { return mData + mLength; }
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/**
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* deprecated reading iterators
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*/
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const_iterator& BeginReading( const_iterator& iter ) const
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{
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iter.mStart = mData;
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iter.mEnd = mData + mLength;
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iter.mPosition = iter.mStart;
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return iter;
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}
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const_iterator& EndReading( const_iterator& iter ) const
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{
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iter.mStart = mData;
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iter.mEnd = mData + mLength;
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iter.mPosition = iter.mEnd;
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return iter;
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}
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const_char_iterator& BeginReading( const_char_iterator& iter ) const
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{
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return iter = mData;
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}
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const_char_iterator& EndReading( const_char_iterator& iter ) const
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{
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return iter = mData + mLength;
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}
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/**
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* writing iterators
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*/
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char_iterator BeginWriting()
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{
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return EnsureMutable() ? mData : char_iterator(0);
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}
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char_iterator EndWriting()
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{
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return EnsureMutable() ? (mData + mLength) : char_iterator(0);
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}
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/**
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* deprecated writing iterators
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*/
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iterator& BeginWriting( iterator& iter )
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{
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char_type *data = EnsureMutable() ? mData : nsnull;
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iter.mStart = data;
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iter.mEnd = data + mLength;
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iter.mPosition = iter.mStart;
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return iter;
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}
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iterator& EndWriting( iterator& iter )
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{
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char_type *data = EnsureMutable() ? mData : nsnull;
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iter.mStart = data;
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iter.mEnd = data + mLength;
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iter.mPosition = iter.mEnd;
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return iter;
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}
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char_iterator& BeginWriting( char_iterator& iter )
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{
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return iter = EnsureMutable() ? mData : char_iterator(0);
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}
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char_iterator& EndWriting( char_iterator& iter )
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{
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return iter = EnsureMutable() ? (mData + mLength) : char_iterator(0);
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}
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/**
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* accessors
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*/
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// returns pointer to string data (not necessarily null-terminated)
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const char_type *Data() const
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{
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return mData;
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}
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size_type Length() const
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{
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return mLength;
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}
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PRBool IsEmpty() const
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{
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return mLength == 0;
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}
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PRBool IsVoid() const
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{
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return (mFlags & F_VOIDED) != 0;
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}
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PRBool IsTerminated() const
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{
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return (mFlags & F_TERMINATED) != 0;
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}
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char_type CharAt( index_type i ) const
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{
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NS_ASSERTION(i < mLength, "index exceeds allowable range");
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return mData[i];
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}
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char_type operator[]( index_type i ) const
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{
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return CharAt(i);
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}
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char_type First() const
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{
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NS_ASSERTION(mLength > 0, "|First()| called on an empty string");
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return mData[0];
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}
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inline
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char_type Last() const
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{
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NS_ASSERTION(mLength > 0, "|Last()| called on an empty string");
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return mData[mLength - 1];
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}
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NS_COM size_type NS_FASTCALL CountChar( char_type ) const;
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NS_COM PRInt32 NS_FASTCALL FindChar( char_type, index_type offset = 0 ) const;
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/**
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* equality
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*/
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NS_COM PRBool NS_FASTCALL Equals( const self_type& ) const;
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NS_COM PRBool NS_FASTCALL Equals( const self_type&, const comparator_type& ) const;
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#ifdef MOZ_V1_STRING_ABI
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NS_COM PRBool NS_FASTCALL Equals( const abstract_string_type& readable ) const;
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NS_COM PRBool NS_FASTCALL Equals( const abstract_string_type& readable, const comparator_type& comp ) const;
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#endif
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NS_COM PRBool NS_FASTCALL Equals( const char_type* data ) const;
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NS_COM PRBool NS_FASTCALL Equals( const char_type* data, const comparator_type& comp ) const;
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/**
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* An efficient comparison with ASCII that can be used even
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* for wide strings. Call this version when you know the
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* length of 'data'.
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*/
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NS_COM PRBool NS_FASTCALL EqualsASCII( const char* data, size_type len ) const;
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/**
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* An efficient comparison with ASCII that can be used even
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* for wide strings. Call this version when 'data' is
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* null-terminated.
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*/
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NS_COM PRBool NS_FASTCALL EqualsASCII( const char* data ) const;
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// EqualsLiteral must ONLY be applied to an actual literal string.
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// Do not attempt to use it with a regular char* pointer, or with a char
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// array variable.
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// The template trick to acquire the array length at compile time without
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// using a macro is due to Corey Kosak, with much thanks.
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#ifdef NS_DISABLE_LITERAL_TEMPLATE
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inline PRBool EqualsLiteral( const char* str ) const
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{
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return EqualsASCII(str);
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}
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#else
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template<int N>
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inline PRBool EqualsLiteral( const char (&str)[N] ) const
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{
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return EqualsASCII(str, N-1);
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}
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template<int N>
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inline PRBool EqualsLiteral( char (&str)[N] ) const
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{
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const char* s = str;
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return EqualsASCII(s, N-1);
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}
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#endif
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// The LowerCaseEquals methods compare the lower case version of
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// this string to some ASCII/Literal string. The ASCII string is
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// *not* lowercased for you. If you compare to an ASCII or literal
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// string that contains an uppercase character, it is guaranteed to
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// return false. We will throw assertions too.
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NS_COM PRBool NS_FASTCALL LowerCaseEqualsASCII( const char* data, size_type len ) const;
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NS_COM PRBool NS_FASTCALL LowerCaseEqualsASCII( const char* data ) const;
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// LowerCaseEqualsLiteral must ONLY be applied to an actual
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// literal string. Do not attempt to use it with a regular char*
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// pointer, or with a char array variable. Use
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// LowerCaseEqualsASCII for them.
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#ifdef NS_DISABLE_LITERAL_TEMPLATE
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inline PRBool LowerCaseEqualsLiteral( const char* str ) const
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{
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return LowerCaseEqualsASCII(str);
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}
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#else
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template<int N>
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inline PRBool LowerCaseEqualsLiteral( const char (&str)[N] ) const
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{
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return LowerCaseEqualsASCII(str, N-1);
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}
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template<int N>
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inline PRBool LowerCaseEqualsLiteral( char (&str)[N] ) const
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{
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const char* s = str;
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return LowerCaseEqualsASCII(s, N-1);
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}
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#endif
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/**
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* assignment
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*/
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NS_COM void NS_FASTCALL Assign( char_type c );
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NS_COM void NS_FASTCALL Assign( const char_type* data, size_type length = size_type(-1) );
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NS_COM void NS_FASTCALL Assign( const self_type& );
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NS_COM void NS_FASTCALL Assign( const substring_tuple_type& );
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#ifdef MOZ_V1_STRING_ABI
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NS_COM void NS_FASTCALL Assign( const abstract_string_type& );
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#endif
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NS_COM void NS_FASTCALL AssignASCII( const char* data, size_type length );
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NS_COM void NS_FASTCALL AssignASCII( const char* data );
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// AssignLiteral must ONLY be applied to an actual literal string.
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// Do not attempt to use it with a regular char* pointer, or with a char
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// array variable. Use AssignASCII for those.
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#ifdef NS_DISABLE_LITERAL_TEMPLATE
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void AssignLiteral( const char* str )
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{ AssignASCII(str); }
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#else
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template<int N>
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void AssignLiteral( const char (&str)[N] )
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{ AssignASCII(str, N-1); }
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template<int N>
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void AssignLiteral( char (&str)[N] )
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{ AssignASCII(str, N-1); }
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#endif
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self_type& operator=( char_type c ) { Assign(c); return *this; }
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self_type& operator=( const char_type* data ) { Assign(data); return *this; }
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self_type& operator=( const self_type& str ) { Assign(str); return *this; }
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self_type& operator=( const substring_tuple_type& tuple ) { Assign(tuple); return *this; }
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#ifdef MOZ_V1_STRING_ABI
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self_type& operator=( const abstract_string_type& readable ) { Assign(readable); return *this; }
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#endif
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NS_COM void NS_FASTCALL Adopt( char_type* data, size_type length = size_type(-1) );
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/**
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* buffer manipulation
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*/
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NS_COM void NS_FASTCALL Replace( index_type cutStart, size_type cutLength, char_type c );
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NS_COM void NS_FASTCALL Replace( index_type cutStart, size_type cutLength, const char_type* data, size_type length = size_type(-1) );
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void Replace( index_type cutStart, size_type cutLength, const self_type& str ) { Replace(cutStart, cutLength, str.Data(), str.Length()); }
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NS_COM void NS_FASTCALL Replace( index_type cutStart, size_type cutLength, const substring_tuple_type& tuple );
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#ifdef MOZ_V1_STRING_ABI
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NS_COM void NS_FASTCALL Replace( index_type cutStart, size_type cutLength, const abstract_string_type& readable );
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#endif
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NS_COM void NS_FASTCALL ReplaceASCII( index_type cutStart, size_type cutLength, const char* data, size_type length = size_type(-1) );
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void Append( char_type c ) { Replace(mLength, 0, c); }
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void Append( const char_type* data, size_type length = size_type(-1) ) { Replace(mLength, 0, data, length); }
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void Append( const self_type& str ) { Replace(mLength, 0, str); }
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void Append( const substring_tuple_type& tuple ) { Replace(mLength, 0, tuple); }
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#ifdef MOZ_V1_STRING_ABI
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void Append( const abstract_string_type& readable ) { Replace(mLength, 0, readable); }
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#endif
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void AppendASCII( const char* data, size_type length = size_type(-1) ) { ReplaceASCII(mLength, 0, data, length); }
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// AppendLiteral must ONLY be applied to an actual literal string.
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// Do not attempt to use it with a regular char* pointer, or with a char
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// array variable. Use AppendASCII for those.
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#ifdef NS_DISABLE_LITERAL_TEMPLATE
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void AppendLiteral( const char* str )
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{ AppendASCII(str); }
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#else
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template<int N>
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void AppendLiteral( const char (&str)[N] )
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{ AppendASCII(str, N-1); }
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template<int N>
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void AppendLiteral( char (&str)[N] )
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{ AppendASCII(str, N-1); }
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#endif
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self_type& operator+=( char_type c ) { Append(c); return *this; }
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self_type& operator+=( const char_type* data ) { Append(data); return *this; }
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self_type& operator+=( const self_type& str ) { Append(str); return *this; }
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self_type& operator+=( const substring_tuple_type& tuple ) { Append(tuple); return *this; }
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#ifdef MOZ_V1_STRING_ABI
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self_type& operator+=( const abstract_string_type& readable ) { Append(readable); return *this; }
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#endif
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void Insert( char_type c, index_type pos ) { Replace(pos, 0, c); }
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void Insert( const char_type* data, index_type pos, size_type length = size_type(-1) ) { Replace(pos, 0, data, length); }
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void Insert( const self_type& str, index_type pos ) { Replace(pos, 0, str); }
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void Insert( const substring_tuple_type& tuple, index_type pos ) { Replace(pos, 0, tuple); }
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#ifdef MOZ_V1_STRING_ABI
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void Insert( const abstract_string_type& readable, index_type pos ) { Replace(pos, 0, readable); }
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#endif
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void Cut( index_type cutStart, size_type cutLength ) { Replace(cutStart, cutLength, char_traits::sEmptyBuffer, 0); }
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/**
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* buffer sizing
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*/
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NS_COM void NS_FASTCALL SetCapacity( size_type newCapacity );
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NS_COM void NS_FASTCALL SetLength( size_type newLength );
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void Truncate( size_type newLength = 0 )
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{
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NS_ASSERTION(newLength <= mLength, "Truncate cannot make string longer");
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SetLength(newLength);
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}
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/**
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* buffer access
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*/
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/**
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* Get a const pointer to the string's internal buffer. The caller
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* MUST NOT modify the characters at the returned address.
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*
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* @returns The length of the buffer in characters.
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*/
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inline size_type GetData( const char_type** data ) const
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{
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*data = mData;
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return mLength;
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}
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/**
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* Get a pointer to the string's internal buffer, optionally resizing
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* the buffer first. If size_type(-1) is passed for newLen, then the
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* current length of the string is used. The caller MAY modify the
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* characters at the returned address (up to but not exceeding the
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* length of the string).
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*
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* @returns The length of the buffer in characters or 0 if unable to
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* satisfy the request due to low-memory conditions.
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*/
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inline size_type GetMutableData( char_type** data, size_type newLen = size_type(-1) )
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{
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if (!EnsureMutable(newLen))
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{
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*data = nsnull;
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return 0;
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}
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*data = mData;
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return mLength;
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}
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/**
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* string data is never null, but can be marked void. if true, the
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* string will be truncated. @see nsTSubstring::IsVoid
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*/
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NS_COM void NS_FASTCALL SetIsVoid( PRBool );
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/**
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* This method is used to remove all occurrences of aChar from this
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* string.
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*
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* @param aChar -- char to be stripped
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* @param aOffset -- where in this string to start stripping chars
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*/
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NS_COM void StripChar( char_type aChar, PRInt32 aOffset=0 );
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public:
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/**
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* this is public to support automatic conversion of tuple to string
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* base type, which helps avoid converting to nsTAString.
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*/
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nsTSubstring_CharT(const substring_tuple_type& tuple)
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#ifdef MOZ_V1_STRING_ABI
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: abstract_string_type(nsnull, 0, F_NONE)
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#else
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: mData(nsnull),
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mLength(0),
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mFlags(F_NONE)
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#endif
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{
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Assign(tuple);
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}
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/**
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* allows for direct initialization of a nsTSubstring object.
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*
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* NOTE: this constructor is declared public _only_ for convenience
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* inside the string implementation.
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*/
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#ifdef XP_OS2 /* Workaround for GCC 3.3.x bug. */
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nsTSubstring_CharT( char_type *data, size_type length, PRUint32 flags ) NS_COM;
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#else
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NS_COM nsTSubstring_CharT( char_type *data, size_type length, PRUint32 flags );
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#endif
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protected:
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friend class nsTObsoleteAStringThunk_CharT;
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friend class nsTAString_CharT;
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friend class nsTSubstringTuple_CharT;
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// XXX GCC 3.4 needs this :-(
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friend class nsTPromiseFlatString_CharT;
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#ifndef MOZ_V1_STRING_ABI
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char_type* mData;
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size_type mLength;
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PRUint32 mFlags;
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#endif
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// default initialization
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nsTSubstring_CharT()
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#ifdef MOZ_V1_STRING_ABI
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: abstract_string_type(
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const_cast<char_type*>(char_traits::sEmptyBuffer), 0, F_TERMINATED) {}
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#else
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: mData(const_cast<char_type*>(char_traits::sEmptyBuffer)),
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mLength(0),
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mFlags(F_TERMINATED) {}
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#endif
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// version of constructor that leaves mData and mLength uninitialized
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explicit
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nsTSubstring_CharT( PRUint32 flags )
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#ifdef MOZ_V1_STRING_ABI
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: abstract_string_type(flags) {}
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#else
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: mFlags(flags) {}
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#endif
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// copy-constructor, constructs as dependent on given object
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// (NOTE: this is for internal use only)
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nsTSubstring_CharT( const self_type& str )
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#ifdef MOZ_V1_STRING_ABI
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: abstract_string_type(str.mData, str.mLength, str.mFlags & (F_TERMINATED | F_VOIDED)) {}
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#else
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: mData(str.mData),
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mLength(str.mLength),
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mFlags(str.mFlags & (F_TERMINATED | F_VOIDED)) {}
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#endif
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/**
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* this function releases mData and does not change the value of
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* any of it's member variables. in other words, this function acts
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* like a destructor.
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*/
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void NS_FASTCALL Finalize();
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/**
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* this function prepares mData to be mutated.
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*
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* @param capacity specifies the required capacity of mData
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* @param old_data returns null or the old value of mData
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* @param old_flags returns 0 or the old value of mFlags
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*
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* if mData is already mutable and of sufficient capacity, then this
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* function will return immediately. otherwise, it will either resize
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* mData or allocate a new shared buffer. if it needs to allocate a
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* new buffer, then it will return the old buffer and the corresponding
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* flags. this allows the caller to decide when to free the old data.
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*
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* this function returns false if is unable to allocate sufficient
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* memory.
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*
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* XXX we should expose a way for subclasses to free old_data.
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*/
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PRBool NS_FASTCALL MutatePrep( size_type capacity, char_type** old_data, PRUint32* old_flags );
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/**
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* this function prepares a section of mData to be modified. if
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* necessary, this function will reallocate mData and possibly move
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* existing data to open up the specified section.
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*
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* @param cutStart specifies the starting offset of the section
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* @param cutLength specifies the length of the section to be replaced
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* @param newLength specifies the length of the new section
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*
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* for example, suppose mData contains the string "abcdef" then
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*
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* ReplacePrep(2, 3, 4);
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*
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* would cause mData to look like "ab____f" where the characters
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* indicated by '_' have an unspecified value and can be freely
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* modified. this function will null-terminate mData upon return.
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*
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* this function returns false if is unable to allocate sufficient
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* memory.
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*/
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PRBool NS_FASTCALL ReplacePrep( index_type cutStart, size_type cutLength, size_type newLength );
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/**
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* returns the number of writable storage units starting at mData.
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* the value does not include space for the null-terminator character.
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*
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* NOTE: this function returns size_type(-1) if mData is immutable.
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*/
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size_type NS_FASTCALL Capacity() const;
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/**
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* this helper function can be called prior to directly manipulating
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* the contents of mData. see, for example, BeginWriting.
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*/
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NS_COM PRBool NS_FASTCALL EnsureMutable( size_type newLen = size_type(-1) );
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/**
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* returns true if this string overlaps with the given string fragment.
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*/
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PRBool IsDependentOn( const char_type *start, const char_type *end ) const
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{
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/**
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* if it _isn't_ the case that one fragment starts after the other ends,
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* or ends before the other starts, then, they conflict:
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*
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* !(f2.begin >= f1.end || f2.end <= f1.begin)
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*
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* Simplified, that gives us:
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*/
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return ( start < (mData + mLength) && end > mData );
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}
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/**
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* this helper function stores the specified dataFlags in mFlags
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*/
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void SetDataFlags(PRUint32 dataFlags)
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{
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NS_ASSERTION((dataFlags & 0xFFFF0000) == 0, "bad flags");
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mFlags = dataFlags | (mFlags & 0xFFFF0000);
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}
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public:
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// mFlags is a bitwise combination of the following flags. the meaning
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// and interpretation of these flags is an implementation detail.
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//
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// NOTE: these flags are declared public _only_ for convenience inside
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// the string implementation.
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enum
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{
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F_NONE = 0, // no flags
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// data flags are in the lower 16-bits
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F_TERMINATED = 1 << 0, // IsTerminated returns true
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F_VOIDED = 1 << 1, // IsVoid returns true
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F_SHARED = 1 << 2, // mData points to a heap-allocated, shared buffer
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F_OWNED = 1 << 3, // mData points to a heap-allocated, raw buffer
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F_FIXED = 1 << 4, // mData points to a fixed-size writable, dependent buffer
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// class flags are in the upper 16-bits
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F_CLASS_FIXED = 1 << 16 // indicates that |this| is of type nsTFixedString
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};
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//
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// Some terminology:
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//
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// "dependent buffer" A dependent buffer is one that the string class
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// does not own. The string class relies on some
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// external code to ensure the lifetime of the
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// dependent buffer.
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//
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// "shared buffer" A shared buffer is one that the string class
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// allocates. When it allocates a shared string
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// buffer, it allocates some additional space at
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// the beginning of the buffer for additional
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// fields, including a reference count and a
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// buffer length. See nsStringHeader.
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//
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// "adopted buffer" An adopted buffer is a raw string buffer
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// allocated on the heap (using nsMemory::Alloc)
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// of which the string class subsumes ownership.
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//
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// Some comments about the string flags:
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//
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// F_SHARED, F_OWNED, and F_FIXED are all mutually exlusive. They
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// indicate the allocation type of mData. If none of these flags
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// are set, then the string buffer is dependent.
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//
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// F_SHARED, F_OWNED, or F_FIXED imply F_TERMINATED. This is because
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// the string classes always allocate null-terminated buffers, and
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// non-terminated substrings are always dependent.
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//
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// F_VOIDED implies F_TERMINATED, and moreover it implies that mData
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// points to char_traits::sEmptyBuffer. Therefore, F_VOIDED is
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// mutually exclusive with F_SHARED, F_OWNED, and F_FIXED.
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//
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};
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NS_COM
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int NS_FASTCALL Compare( const nsTSubstring_CharT::base_string_type& lhs, const nsTSubstring_CharT::base_string_type& rhs, const nsTStringComparator_CharT& = nsTDefaultStringComparator_CharT() );
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inline
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PRBool operator!=( const nsTSubstring_CharT::base_string_type& lhs, const nsTSubstring_CharT::base_string_type& rhs )
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{
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return !lhs.Equals(rhs);
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}
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inline
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PRBool operator< ( const nsTSubstring_CharT::base_string_type& lhs, const nsTSubstring_CharT::base_string_type& rhs )
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{
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return Compare(lhs, rhs)< 0;
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}
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inline
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PRBool operator<=( const nsTSubstring_CharT::base_string_type& lhs, const nsTSubstring_CharT::base_string_type& rhs )
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{
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return Compare(lhs, rhs)<=0;
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}
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inline
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PRBool operator==( const nsTSubstring_CharT::base_string_type& lhs, const nsTSubstring_CharT::base_string_type& rhs )
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{
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return lhs.Equals(rhs);
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}
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inline
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PRBool operator>=( const nsTSubstring_CharT::base_string_type& lhs, const nsTSubstring_CharT::base_string_type& rhs )
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{
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return Compare(lhs, rhs)>=0;
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}
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inline
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PRBool operator> ( const nsTSubstring_CharT::base_string_type& lhs, const nsTSubstring_CharT::base_string_type& rhs )
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{
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return Compare(lhs, rhs)> 0;
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}
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