/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * $Id: XMLBuffer.hpp 568078 2007-08-21 11:43:25Z amassari $ */ #if !defined(XMLBUFFER_HPP) #define XMLBUFFER_HPP #include #include #include #include XERCES_CPP_NAMESPACE_BEGIN class XMLBufferFullHandler; /** * XMLBuffer is a lightweight, expandable Unicode text buffer. Since XML is * inherently theoretically unbounded in terms of the sizes of things, we * very often need to have expandable buffers. The primary concern here is * that appends of characters and other buffers or strings be very fast, so * it always maintains the current buffer size. * * The buffer is not null terminated until some asks to see the raw buffer * contents. This also avoids overhead during append operations. */ class XMLPARSER_EXPORT XMLBuffer : public XMemory { public : // ----------------------------------------------------------------------- // Constructors and Destructor // ----------------------------------------------------------------------- /** @name Constructor */ //@{ XMLBuffer(const unsigned int capacity = 1023 , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager) : fIndex(0) , fCapacity(capacity) , fFullSize(0) , fUsed(false) , fMemoryManager(manager) , fFullHandler(0) , fBuffer(0) { // Buffer is one larger than capacity, to allow for zero term fBuffer = (XMLCh*) manager->allocate((capacity+1) * sizeof(XMLCh)); //new XMLCh[fCapacity+1]; // Keep it null terminated fBuffer[0] = XMLCh(0); } //@} /** @name Destructor */ //@{ ~XMLBuffer() { fMemoryManager->deallocate(fBuffer); //delete [] fBuffer; } //@} // ----------------------------------------------------------------------- // Buffer Full Handler Management // ----------------------------------------------------------------------- void setFullHandler(XMLBufferFullHandler* handler, const unsigned int fullSize) { if (handler && fullSize) { fFullHandler = handler; fFullSize = fullSize; // Need to consider the case that the fullsize is less than the current capacity. // For example, say fullSize = 100 and fCapacity is 1023 (the default). // If the fIndex is less than the fullSize, then no problem. We can just carry // on by resetting fCapacity to fullsize and proceed business as usual. // If the fIndex is already bigger than the fullSize then we call insureCapacity // to see if it can handle emptying the current buffer (it will throw an // exception if it can't). if (fullSize < fCapacity) { fCapacity = fullSize; if (fIndex >= fullSize) { insureCapacity(0); } } } else { // reset fFullHandler to zero because setFullHandler had bad input fFullHandler = 0; } } // ----------------------------------------------------------------------- // Buffer Management // ----------------------------------------------------------------------- void append(const XMLCh toAppend) { // Put in char and bump the index if (fIndex == fCapacity) insureCapacity(1); fBuffer[fIndex++] = toAppend; } void append (const XMLCh* const chars, const unsigned int count) { if (count) { if (fIndex + count >= fCapacity) { insureCapacity(count); } memcpy(&fBuffer[fIndex], chars, count * sizeof(XMLCh)); fIndex += count; } else { append(chars); } } void append (const XMLCh* const chars) { if (chars != 0 && *chars != 0) { // get length of chars unsigned int count = 0; for (; *(chars+count); count++ ); if (fIndex + count >= fCapacity) { insureCapacity(count); } memcpy(&fBuffer[fIndex], chars, count * sizeof(XMLCh)); fIndex += count; } } void set (const XMLCh* const chars, const unsigned int count) { fIndex = 0; append(chars, count); } void set (const XMLCh* const chars) { fIndex = 0; append(chars); } const XMLCh* getRawBuffer() const { fBuffer[fIndex] = 0; return fBuffer; } XMLCh* getRawBuffer() { fBuffer[fIndex] = 0; return fBuffer; } void reset() { fIndex = 0; fBuffer[0] = 0; } // ----------------------------------------------------------------------- // Getters // ----------------------------------------------------------------------- bool getInUse() const { return fUsed; } unsigned int getLen() const { return fIndex; } bool isEmpty() const { return (fIndex == 0); } // ----------------------------------------------------------------------- // Setters // ----------------------------------------------------------------------- void setInUse(const bool newValue) { fUsed = newValue; } private : // ----------------------------------------------------------------------- // Unimplemented constructors and operators // ----------------------------------------------------------------------- XMLBuffer(const XMLBuffer&); XMLBuffer& operator=(const XMLBuffer&); // ----------------------------------------------------------------------- // Declare our friends // ----------------------------------------------------------------------- friend class XMLBufBid; // ----------------------------------------------------------------------- // Private helpers // ----------------------------------------------------------------------- void insureCapacity(const unsigned int extraNeeded); // ----------------------------------------------------------------------- // Private data members // // fBuffer // The pointer to the buffer data. Its grown as needed. Its always // one larger than fCapacity, to leave room for the null terminator. // // fIndex // The current index into the buffer, as characters are appended // to it. If its zero, then the buffer is empty. // // fCapacity // The current capacity of the buffer. Its actually always one // larger, to leave room for the null terminator. // // fUsed // Indicates whether this buffer is in use or not. // // fFullHandler, fFullSize // If fFullHandler is non-null, the buffer has a maximum size // indicated by fFullSize. If writing to the buffer would exceed the // buffer's maximum size, fFullHandler's bufferFull callback is // invoked, to empty the buffer. // ----------------------------------------------------------------------- unsigned int fIndex; unsigned int fCapacity; unsigned int fFullSize; bool fUsed; MemoryManager* const fMemoryManager; XMLBufferFullHandler* fFullHandler; XMLCh* fBuffer; }; /** * XMLBufferFullHandler is a callback interface for clients of * XMLBuffers that impose a size restriction (e.g. XMLScanner). * Note that this is intended solely as a mix-in for internal * use, and therefore does not derive from XMemory (to avoid * the ambiguous base class problem). */ class XMLPARSER_EXPORT XMLBufferFullHandler { public : virtual ~XMLBufferFullHandler() {} /** * Callback method, intended to allow clients of an XMLBuffer which has * become full to empty it appropriately. * @return true if the handler was able to empty the buffer (either * partially or completely), otherwise false to indicate an error. */ virtual bool bufferFull(XMLBuffer&) = 0; }; XERCES_CPP_NAMESPACE_END #endif