/* * 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. */ // --------------------------------------------------------------------------- // Includes // --------------------------------------------------------------------------- #include #include #include #include XERCES_CPP_NAMESPACE_BEGIN // --------------------------------------------------------------------------- // XMLUTF16Transcoder: Constructors and Destructor // --------------------------------------------------------------------------- XMLUTF16Transcoder::XMLUTF16Transcoder( const XMLCh* const encodingName , const XMLSize_t blockSize , const bool swapped , MemoryManager* const manager) : XMLTranscoder(encodingName, blockSize, manager) , fSwapped(swapped) { } XMLUTF16Transcoder::~XMLUTF16Transcoder() { } // --------------------------------------------------------------------------- // XMLUTF16Transcoder: Implementation of the transcoder API // --------------------------------------------------------------------------- XMLSize_t XMLUTF16Transcoder::transcodeFrom( const XMLByte* const srcData , const XMLSize_t srcCount , XMLCh* const toFill , const XMLSize_t maxChars , XMLSize_t& bytesEaten , unsigned char* const charSizes) { // // Calculate the max chars we can do here. Its the lesser of the // max output chars and the number of chars in the source. // const XMLSize_t srcChars = srcCount / sizeof(UTF16Ch); const XMLSize_t countToDo = srcChars < maxChars ? srcChars : maxChars; // Look at the source data as UTF16 chars const UTF16Ch* asUTF16 = (const UTF16Ch*)srcData; // And get a mutable pointer to the output XMLCh* outPtr = toFill; // // If its swapped, we have to do a char by char swap and cast. Else // we have to check whether our XMLCh and UTF16Ch types are the same // size or not. If so, we can optimize by just doing a buffer copy. // if (fSwapped) { // // And then do the swapping loop for the count we precalculated. Note // that this also handles size conversion as well if XMLCh is not the // same size as UTF16Ch. // for (XMLSize_t index = 0; index < countToDo; index++) *outPtr++ = BitOps::swapBytes(*asUTF16++); } else { // // If the XMLCh type is the same size as a UTF16 value on this // platform, then we can do just a buffer copy straight to the target // buffer since our source chars are UTF-16 chars. If its not, then // we still have to do a loop and assign each one, in order to // implicitly convert. // if (sizeof(XMLCh) == sizeof(UTF16Ch)) { // Notice we convert char count to byte count here!!! memcpy(toFill, srcData, countToDo * sizeof(UTF16Ch)); } else { for (XMLSize_t index = 0; index < countToDo; index++) *outPtr++ = XMLCh(*asUTF16++); } } // Set the bytes eaten bytesEaten = countToDo * sizeof(UTF16Ch); // Set the character sizes to the fixed size memset(charSizes, sizeof(UTF16Ch), countToDo); // Return the chars we transcoded return countToDo; } XMLSize_t XMLUTF16Transcoder::transcodeTo(const XMLCh* const srcData , const XMLSize_t srcCount , XMLByte* const toFill , const XMLSize_t maxBytes , XMLSize_t& charsEaten , const UnRepOpts) { // // Calculate the max chars we can do here. Its the lesser of the // chars that we can fit into the output buffer, and the source // chars available. // const XMLSize_t maxOutChars = maxBytes / sizeof(UTF16Ch); const XMLSize_t countToDo = srcCount < maxOutChars ? srcCount : maxOutChars; // // Get a pointer tot he output buffer in the UTF-16 character format // that we need to work with. And get a mutable pointer to the source // character buffer. // UTF16Ch* outPtr = (UTF16Ch*)toFill; const XMLCh* srcPtr = srcData; // // If the target format is swapped from our native format, then handle // it one way, else handle it another. // if (fSwapped) { // // And then do the swapping loop for the count we precalculated. Note // that this also handles size conversion as well if XMLCh is not the // same size as UTF16Ch. // for (XMLSize_t index = 0; index < countToDo; index++) { // To avoid flakey compilers, use a temp const UTF16Ch tmpCh = UTF16Ch(*srcPtr++); *outPtr++ = BitOps::swapBytes(tmpCh); } } else { // // If XMLCh and UTF16Ch are the same size, we can just do a fast // memory copy. Otherwise, we have to do a loop and downcast each // character into its new 16 bit storage. // if (sizeof(XMLCh) == sizeof(UTF16Ch)) { // Notice we convert char count to byte count here!!! memcpy(toFill, srcData, countToDo * sizeof(UTF16Ch)); } else { for (XMLSize_t index = 0; index < countToDo; index++) *outPtr++ = UTF16Ch(*srcPtr++); } } // Set the chars eaten to the calculated number we ate charsEaten = countToDo; //Return the bytes we ate. Note we convert to a byte count here! return countToDo * sizeof(UTF16Ch); } bool XMLUTF16Transcoder::canTranscodeTo(const unsigned int) { // We can handle anything return true; } XERCES_CPP_NAMESPACE_END