/* ********************************************************************** * Copyright (C) 2001, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** * FILE NAME : ustream.cpp * * Modification History: * * Date Name Description * 06/25/2001 grhoten Move iostream from unistr.h to here ****************************************************************************** */ #include "unicode/utypes.h" #include "unicode/uobject.h" #include "unicode/ustream.h" #include "unicode/ucnv.h" #include "unicode/uchar.h" #include "ustr_imp.h" #include // console IO #if U_IOSTREAM_SOURCE >= 198506 #if U_IOSTREAM_SOURCE >= 199711 #define STD_NAMESPACE std:: #else #define STD_NAMESPACE #endif #define STD_OSTREAM STD_NAMESPACE ostream #define STD_ISTREAM STD_NAMESPACE istream U_IO_API STD_OSTREAM & operator<<(STD_OSTREAM& stream, const UnicodeString& str) { if(str.length() > 0) { char buffer[200]; UConverter *converter; UErrorCode errorCode = U_ZERO_ERROR; // use the default converter to convert chunks of text converter = u_getDefaultConverter(&errorCode); if(U_SUCCESS(errorCode)) { const UChar *us = str.getBuffer(); const UChar *uLimit = us + str.length(); char *s, *sLimit = buffer + sizeof(buffer); do { errorCode = U_ZERO_ERROR; s = buffer; ucnv_fromUnicode(converter, &s, sLimit, &us, uLimit, 0, FALSE, &errorCode); // write this chunk if(s > buffer) { stream.write(buffer, s - buffer); } } while(errorCode == U_BUFFER_OVERFLOW_ERROR); u_releaseDefaultConverter(converter); } } /* stream.flush();*/ return stream; } U_IO_API STD_ISTREAM & operator>>(STD_ISTREAM& stream, UnicodeString& str) { /* ipfx should eat whitespace when ios::skipws is set */ UChar uBuffer[16]; char buffer[16]; int32_t idx = 0; UConverter *converter; UErrorCode errorCode = U_ZERO_ERROR; str.truncate(0); // use the default converter to convert chunks of text converter = u_getDefaultConverter(&errorCode); if(U_SUCCESS(errorCode)) { UChar *us = uBuffer; const UChar *uLimit = uBuffer + sizeof(uBuffer)/sizeof(*uBuffer); const char *s, *sLimit; char ch; UChar ch32; UBool intialWhitespace = TRUE; /* We need to consume one byte at a time to see what is considered whitespace. */ while (!stream.eof()) { ch = stream.get(); sLimit = &ch + 1; errorCode = U_ZERO_ERROR; us = uBuffer; s = &ch; ucnv_toUnicode(converter, &us, uLimit, &s, sLimit, 0, FALSE, &errorCode); if(U_FAILURE(errorCode)) { /* Something really bad happened */ return stream; } /* Was the character consumed? */ if (us != uBuffer) { U16_GET(uBuffer, 0, 0, us-uBuffer, ch32); if (u_isWhitespace(ch32)) { if (!intialWhitespace) { buffer[idx++] = ch; while (idx > 0) { stream.putback(buffer[--idx]); } break; } /* else skip intialWhitespace */ } else { str.append(ch32); intialWhitespace = FALSE; } idx = 0; } else { buffer[idx++] = ch; } } u_releaseDefaultConverter(converter); } /* stream.flush();*/ return stream; } #endif #if 0 /* UnicodeStringStreamer internal API may be useful for future reference */ #ifndef UNISTRM_H #define UNISTRM_H #include "filestrm.h" #include "umemstrm.h" #include "unicode/unistr.h" class U_COMMON_API UnicodeStringStreamer /* not : public UObject because all methods are static */ { public: static void streamIn(UnicodeString* string, FileStream* is); static void streamOut(const UnicodeString* string, FileStream* os); static void streamIn(UnicodeString* string, UMemoryStream* is); static void streamOut(const UnicodeString* string, UMemoryStream* os); }; #endif //======================================== // Streaming (to be removed) //======================================== #include "unistrm.h" #include "filestrm.h" inline uint8_t uprv_hibyte(uint16_t x) { return (uint8_t)(x >> 8); } inline uint8_t uprv_lobyte(uint16_t x) { return (uint8_t)(x & 0xff); } inline uint16_t uprv_hiword(uint32_t x) { return (uint16_t)(x >> 16); } inline uint16_t uprv_loword(uint32_t x) { return (uint16_t)(x & 0xffff); } inline void writeLong(FileStream *os, int32_t x) { uint16_t word = uprv_hiword((uint32_t)x); T_FileStream_putc(os, uprv_hibyte(word)); T_FileStream_putc(os, uprv_lobyte(word)); word = uprv_loword((uint32_t)x); T_FileStream_putc(os, uprv_hibyte(word)); T_FileStream_putc(os, uprv_lobyte(word)); } inline int32_t readLong(FileStream *is) { int32_t x = T_FileStream_getc(is); x = (x << 8) | T_FileStream_getc(is); x = (x << 8) | T_FileStream_getc(is); x = (x << 8) | T_FileStream_getc(is); return x; } inline void writeUChar(FileStream *os, UChar c) { T_FileStream_putc(os, uprv_hibyte(c)); T_FileStream_putc(os, uprv_lobyte(c)); } inline UChar readUChar(FileStream *is) { UChar c = (UChar)T_FileStream_getc(is); return (UChar)((c << 8) | T_FileStream_getc(is)); } void UnicodeStringStreamer::streamOut(const UnicodeString *s, FileStream *os) { if(!T_FileStream_error(os)) { writeLong(os, s->fLength); } const UChar *c = s->getArrayStart(); const UChar *end = c + s->fLength; while(c != end && ! T_FileStream_error(os)) { writeUChar(os, *c++); } } void UnicodeStringStreamer::streamIn(UnicodeString *s, FileStream *is) { int32_t newSize; // handle error conditions if(T_FileStream_error(is) || T_FileStream_eof(is)) { s->setToBogus(); return; } newSize = readLong(is); if((newSize < 0) || T_FileStream_error(is) || ((newSize > 0) && T_FileStream_eof(is))) { s->setToBogus(); //error condition return; } // clone s's array, if needed if(!s->cloneArrayIfNeeded(newSize, newSize, FALSE)) { return; } UChar *c = s->getArrayStart(); UChar *end = c + newSize; while(c < end && ! (T_FileStream_error(is) || T_FileStream_eof(is))) { *c++ = readUChar(is); } // couldn't read all chars if(c < end) { s->setToBogus(); return; } s->fLength = newSize; } void UnicodeStringStreamer::streamOut(const UnicodeString *s, UMemoryStream *os) { if(!uprv_mstrm_error(os)) { uprv_mstrm_write(os, (uint8_t*)&s->fLength, (int32_t)sizeof(s->fLength)); } const UChar *c = s->getArrayStart(); const UChar *end = c + s->fLength; while(c != end && ! uprv_mstrm_error(os)) { uprv_mstrm_write(os, (uint8_t*)c, (int32_t)sizeof(*c)); c++; } } void UnicodeStringStreamer::streamIn(UnicodeString *s, UMemoryStream *is) { int32_t newSize; // handle error conditions if(uprv_mstrm_error(is) || uprv_mstrm_eof(is)) { s->setToBogus(); return; } uprv_mstrm_read(is, (uint8_t *)&newSize, (int32_t)sizeof(int32_t)); if((newSize < 0) || uprv_mstrm_error(is) || ((newSize > 0) && uprv_mstrm_eof(is))) { s->setToBogus(); //error condition return; } // clone s's array, if needed if(!s->cloneArrayIfNeeded(newSize, newSize, FALSE)) { return; } UChar *c = s->getArrayStart(); UChar *end = c + newSize; while(c < end && ! (uprv_mstrm_error(is) || uprv_mstrm_eof(is))) { uprv_mstrm_read(is, (uint8_t *)c, (int32_t)sizeof(*c)); c++; } // couldn't read all chars if(c < end) { s->setToBogus(); return; } s->fLength = newSize; } #endif