/* ****************************************************************************** * Copyright (C) 1998-2003, International Business Machines Corporation and * * others. All Rights Reserved. * ****************************************************************************** */ #include #include #include #include "unicode/utypes.h" #include "unicode/unistr.h" #include "layout/LETypes.h" #include "GUISupport.h" #include "UnicodeReader.h" #define BYTE(b) (((int) b) & 0xFF) /* * Read the text from a file. The text must start with a Unicode Byte * Order Mark (BOM) so that we know what order to read the bytes in. */ const UChar *UnicodeReader::readFile(const char *fileName, GUISupport *guiSupport, int32_t &charCount) { FILE *f; int32_t fileSize; UChar *charBuffer; char *byteBuffer; char startBytes[4] = {'\xA5', '\xA5', '\xA5', '\xA5'}; char errorMessage[128]; char *cp = ""; int32_t signatureLength = 0; f = fopen(fileName, "rb"); if( f == NULL ) { sprintf(errorMessage,"Couldn't open %s: %s \n", fileName, strerror(errno)); guiSupport->postErrorMessage(errorMessage, "Text File Error"); return 0; } fseek(f, 0, SEEK_END); fileSize = ftell(f); fseek(f, 0, SEEK_SET); fread(startBytes, sizeof(char), 4, f); if (startBytes[0] == '\xFE' && startBytes[1] == '\xFF') { cp = "UTF-16BE"; signatureLength = 2; } else if (startBytes[0] == '\xFF' && startBytes[1] == '\xFE') { if (startBytes[2] == '\x00' && startBytes[3] == '\x00') { cp = "UTF-32LE"; signatureLength = 4; } else { cp = "UTF-16LE"; signatureLength = 2; } } else if (startBytes[0] == '\xEF' && startBytes[1] == '\xBB' && startBytes[2] == '\xBF') { cp = "UTF-8"; signatureLength = 3; } else if (startBytes[0] == '\x0E' && startBytes[1] == '\xFE' && startBytes[2] == '\xFF') { cp = "SCSU"; signatureLength = 3; } else if (startBytes[0] == '\x00' && startBytes[1] == '\x00' && startBytes[2] == '\xFE' && startBytes[3] == '\xFF') { cp = "UTF-32BE"; signatureLength = 4; } else { sprintf(errorMessage, "Couldn't detect the encoding of %s: (%2.2X, %2.2X, %2.2X, %2.2X)\n", fileName, BYTE(startBytes[0]), BYTE(startBytes[1]), BYTE(startBytes[2]), BYTE(startBytes[3])); guiSupport->postErrorMessage(errorMessage, "Text File Error"); fclose(f); return 0; } fileSize -= signatureLength; fseek(f, signatureLength, SEEK_SET); byteBuffer = new char[fileSize]; if(byteBuffer == 0) { sprintf(errorMessage,"Couldn't get memory for reading %s: %s \n", fileName, strerror(errno)); guiSupport->postErrorMessage(errorMessage, "Text File Error"); fclose(f); return 0; } fread(byteBuffer, sizeof(char), fileSize, f); if( ferror(f) ) { sprintf(errorMessage,"Couldn't read %s: %s \n", fileName, strerror(errno)); guiSupport->postErrorMessage(errorMessage, "Text File Error"); fclose(f); delete[] byteBuffer; return 0; } fclose(f); UnicodeString myText(byteBuffer, fileSize, cp); delete[] byteBuffer; charCount = myText.length(); charBuffer = LE_NEW_ARRAY(UChar, charCount + 1); if(charBuffer == 0) { sprintf(errorMessage,"Couldn't get memory for reading %s: %s \n", fileName, strerror(errno)); guiSupport->postErrorMessage(errorMessage, "Text File Error"); return 0; } myText.extract(0, myText.length(), charBuffer); charBuffer[charCount] = 0; // NULL terminate for easier reading in the debugger return charBuffer; }