/* * 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 #include XERCES_CPP_NAMESPACE_BEGIN // --------------------------------------------------------------------------- // XML256TableTranscoder: Public Destructor // --------------------------------------------------------------------------- XML256TableTranscoder::~XML256TableTranscoder() { // We don't own the tables, we just reference them } // --------------------------------------------------------------------------- // XML256TableTranscoder: Implementation of the transcoder API // --------------------------------------------------------------------------- XMLSize_t XML256TableTranscoder::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 countToDo = srcCount < maxChars ? srcCount : maxChars; // // Loop through the count we have to do and map each char via the // lookup table. // const XMLByte* srcPtr = srcData; const XMLByte* endPtr = (srcPtr + countToDo); XMLCh* outPtr = toFill; while (srcPtr < endPtr) { const XMLCh uniCh = fFromTable[*srcPtr++]; if (uniCh != 0xFFFF) { *outPtr++ = uniCh; continue; } } // Set the bytes eaten bytesEaten = countToDo; // Set the character sizes to the fixed size memset(charSizes, 1, countToDo); // Return the chars we transcoded return countToDo; } XMLSize_t XML256TableTranscoder::transcodeTo( const XMLCh* const srcData , const XMLSize_t srcCount , XMLByte* const toFill , const XMLSize_t maxBytes , XMLSize_t& charsEaten , const UnRepOpts options) { // // 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 countToDo = srcCount < maxBytes ? srcCount : maxBytes; // // Loop through the count we have to do and map each char via the // lookup table. // const XMLCh* srcPtr = srcData; const XMLCh* endPtr = (srcPtr + countToDo); XMLByte* outPtr = toFill; XMLByte nextOut; while (srcPtr < endPtr) { // // Get the next src char out to a temp, then do a binary search // of the 'to' table for this entry. // if ((nextOut = xlatOneTo(*srcPtr))!=0) { *outPtr++ = nextOut; srcPtr++; continue; } // // Its not representable so, according to the options, either // throw or use the replacement. // if (options == UnRep_Throw) { XMLCh tmpBuf[17]; XMLString::binToText((unsigned int)*srcPtr, tmpBuf, 16, 16, getMemoryManager()); ThrowXMLwithMemMgr2 ( TranscodingException , XMLExcepts::Trans_Unrepresentable , tmpBuf , getEncodingName() , getMemoryManager() ); } // Eat the source char and use the replacement char srcPtr++; *outPtr++ = 0x3F; } // Set the chars eaten charsEaten = countToDo; // Return the bytes we transcoded return countToDo; } bool XML256TableTranscoder::canTranscodeTo(const unsigned int toCheck) { return (xlatOneTo(toCheck) != 0); } // --------------------------------------------------------------------------- // XML256TableTranscoder: Hidden constructor // --------------------------------------------------------------------------- XML256TableTranscoder:: XML256TableTranscoder( const XMLCh* const encodingName , const XMLSize_t blockSize , const XMLCh* const fromTable , const XMLTransService::TransRec* const toTable , const XMLSize_t toTableSize , MemoryManager* const manager) : XMLTranscoder(encodingName, blockSize, manager) , fFromTable(fromTable) , fToSize(toTableSize) , fToTable(toTable) { } // --------------------------------------------------------------------------- // XML256TableTranscoder: Private helper methods // --------------------------------------------------------------------------- XMLByte XML256TableTranscoder::xlatOneTo(const XMLCh toXlat) const { XMLSize_t lowOfs = 0; XMLSize_t hiOfs = fToSize - 1; do { // Calc the mid point of the low and high offset. const XMLSize_t midOfs = ((hiOfs - lowOfs) / 2) + lowOfs; // // If our test char is greater than the mid point char, then // we move up to the upper half. Else we move to the lower // half. If its equal, then its our guy. // if (toXlat > fToTable[midOfs].intCh) { lowOfs = midOfs; } else if (toXlat < fToTable[midOfs].intCh) { hiOfs = midOfs; } else { return fToTable[midOfs].extCh; } } while (lowOfs + 1 < hiOfs); // Check the high end of the range otherwise the // last item in the table may never be found. if (toXlat == fToTable[hiOfs].intCh) { return fToTable[hiOfs].extCh; } return 0; } XERCES_CPP_NAMESPACE_END