/* * Copyright (c) 2008, 2009, 2010, 2011, 2012 * Jonathan Schleifer * * All rights reserved. * * This file is part of ObjFW. It may be distributed under the terms of the * Q Public License 1.0, which can be found in the file LICENSE.QPL included in * the packaging of this file. * * Alternatively, it may be distributed under the terms of the GNU General * Public License, either version 2 or 3, which can be found in the file * LICENSE.GPLv2 or LICENSE.GPLv3 respectively included in the packaging of this * file. */ #include "config.h" #define __NO_EXT_QNX #include #include #include #include #include #include #ifndef _WIN32 # include #endif #import "OFStream.h" #import "OFString.h" #import "OFDataArray.h" #import "OFInvalidArgumentException.h" #import "OFInvalidFormatException.h" #import "OFNotImplementedException.h" #import "OFSetOptionFailedException.h" #import "macros.h" #import "of_asprintf.h" @implementation OFStream #ifndef _WIN32 + (void)initialize { if (self == [OFStream class]) signal(SIGPIPE, SIG_IGN); } #endif - init { if (object_getClass(self) == [OFStream class]) { Class c = [self class]; [self release]; @throw [OFNotImplementedException exceptionWithClass: c selector: _cmd]; } self = [super init]; cache = NULL; writeBuffer = NULL; blocking = YES; return self; } - (BOOL)_isAtEndOfStream { @throw [OFNotImplementedException exceptionWithClass: [self class] selector: _cmd]; } - (size_t)_readIntoBuffer: (void*)buffer length: (size_t)length { @throw [OFNotImplementedException exceptionWithClass: [self class] selector: _cmd]; } - (void)_writeBuffer: (const void*)buffer length: (size_t)length { @throw [OFNotImplementedException exceptionWithClass: [self class] selector: _cmd]; } - copy { return [self retain]; } - (BOOL)isAtEndOfStream { if (cache != NULL) return NO; return [self _isAtEndOfStream]; } - (size_t)readIntoBuffer: (void*)buffer length: (size_t)length { if (cache == NULL) return [self _readIntoBuffer: buffer length: length]; if (length >= cacheLength) { size_t ret = cacheLength; memcpy(buffer, cache, cacheLength); [self freeMemory: cache]; cache = NULL; cacheLength = 0; return ret; } else { char *tmp = [self allocMemoryWithSize: cacheLength - length]; memcpy(tmp, cache + length, cacheLength - length); memcpy(buffer, cache, length); [self freeMemory: cache]; cache = tmp; cacheLength -= length; return length; } } - (void)readIntoBuffer: (void*)buffer exactLength: (size_t)length { size_t readLength = 0; while (readLength < length) readLength += [self readIntoBuffer: (char*)buffer + readLength length: length - readLength]; } - (uint8_t)readInt8 { uint8_t ret; [self readIntoBuffer: (char*)&ret exactLength: 1]; return ret; } - (uint16_t)readBigEndianInt16 { uint16_t ret; [self readIntoBuffer: (char*)&ret exactLength: 2]; return of_bswap16_if_le(ret); } - (uint32_t)readBigEndianInt32 { uint32_t ret; [self readIntoBuffer: (char*)&ret exactLength: 4]; return of_bswap32_if_le(ret); } - (uint64_t)readBigEndianInt64 { uint64_t ret; [self readIntoBuffer: (char*)&ret exactLength: 8]; return of_bswap64_if_le(ret); } - (float)readBigEndianFloat { float ret; [self readIntoBuffer: (char*)&ret exactLength: 4]; return of_bswap_float_if_le(ret); } - (double)readBigEndianDouble { double ret; [self readIntoBuffer: (char*)&ret exactLength: 8]; return of_bswap_double_if_le(ret); } - (size_t)readBigEndianInt16sIntoBuffer: (uint16_t*)buffer count: (size_t)nInt16s { size_t size = nInt16s * sizeof(uint16_t); [self readIntoBuffer: buffer exactLength: size]; #ifndef OF_BIG_ENDIAN size_t i; for (i = 0; i < nInt16s; i++) buffer[i] = of_bswap16(buffer[i]); #endif return size; } - (size_t)readBigEndianInt32sIntoBuffer: (uint32_t*)buffer count: (size_t)nInt32s { size_t size = nInt32s * sizeof(uint32_t); [self readIntoBuffer: buffer exactLength: size]; #ifndef OF_BIG_ENDIAN size_t i; for (i = 0; i < nInt32s; i++) buffer[i] = of_bswap32(buffer[i]); #endif return size; } - (size_t)readBigEndianInt64sIntoBuffer: (uint64_t*)buffer count: (size_t)nInt64s { size_t size = nInt64s * sizeof(uint64_t); [self readIntoBuffer: buffer exactLength: size]; #ifndef OF_BIG_ENDIAN size_t i; for (i = 0; i < nInt64s; i++) buffer[i] = of_bswap64(buffer[i]); #endif return size; } - (size_t)readBigEndianFloatsIntoBuffer: (float*)buffer count: (size_t)nFloats { size_t size = nFloats * sizeof(float); [self readIntoBuffer: buffer exactLength: size]; #ifndef OF_FLOAT_BIG_ENDIAN size_t i; for (i = 0; i < nFloats; i++) buffer[i] = of_bswap_float(buffer[i]); #endif return size; } - (size_t)readBigEndianDoublesIntoBuffer: (double*)buffer count: (size_t)nDoubles { size_t size = nDoubles * sizeof(double); [self readIntoBuffer: buffer exactLength: size]; #ifndef OF_FLOAT_BIG_ENDIAN size_t i; for (i = 0; i < nDoubles; i++) buffer[i] = of_bswap_double(buffer[i]); #endif return size; } - (uint16_t)readLittleEndianInt16 { uint16_t ret; [self readIntoBuffer: (char*)&ret exactLength: 2]; return of_bswap16_if_be(ret); } - (uint32_t)readLittleEndianInt32 { uint32_t ret; [self readIntoBuffer: (char*)&ret exactLength: 4]; return of_bswap32_if_be(ret); } - (uint64_t)readLittleEndianInt64 { uint64_t ret; [self readIntoBuffer: (char*)&ret exactLength: 8]; return of_bswap64_if_be(ret); } - (float)readLittleEndianFloat { float ret; [self readIntoBuffer: (char*)&ret exactLength: 4]; return of_bswap_float_if_be(ret); } - (double)readLittleEndianDouble { double ret; [self readIntoBuffer: (char*)&ret exactLength: 8]; return of_bswap_double_if_be(ret); } - (size_t)readLittleEndianInt16sIntoBuffer: (uint16_t*)buffer count: (size_t)nInt16s { size_t size = nInt16s * sizeof(uint16_t); [self readIntoBuffer: buffer exactLength: size]; #ifdef OF_BIG_ENDIAN size_t i; for (i = 0; i < nInt16s; i++) buffer[i] = of_bswap16(buffer[i]); #endif return size; } - (size_t)readLittleEndianInt32sIntoBuffer: (uint32_t*)buffer count: (size_t)nInt32s { size_t size = nInt32s * sizeof(uint32_t); [self readIntoBuffer: buffer exactLength: size]; #ifdef OF_BIG_ENDIAN size_t i; for (i = 0; i < nInt32s; i++) buffer[i] = of_bswap32(buffer[i]); #endif return size; } - (size_t)readLittleEndianInt64sIntoBuffer: (uint64_t*)buffer count: (size_t)nInt64s { size_t size = nInt64s * sizeof(uint64_t); [self readIntoBuffer: buffer exactLength: size]; #ifdef OF_BIG_ENDIAN size_t i; for (i = 0; i < nInt64s; i++) buffer[i] = of_bswap64(buffer[i]); #endif return size; } - (size_t)readLittleEndianFloatsIntoBuffer: (float*)buffer count: (size_t)nFloats { size_t size = nFloats * sizeof(float); [self readIntoBuffer: buffer exactLength: size]; #ifdef OF_FLOAT_BIG_ENDIAN size_t i; for (i = 0; i < nFloats; i++) buffer[i] = of_bswap_float(buffer[i]); #endif return size; } - (size_t)readLittleEndianDoublesIntoBuffer: (double*)buffer count: (size_t)nDoubles { size_t size = nDoubles * sizeof(double); [self readIntoBuffer: buffer exactLength: size]; #ifdef OF_FLOAT_BIG_ENDIAN size_t i; for (i = 0; i < nDoubles; i++) buffer[i] = of_bswap_double(buffer[i]); #endif return size; } - (OFDataArray*)readDataArrayWithSize: (size_t)nItems { return [self readDataArrayWithItemSize: 1 count: nItems]; } - (OFDataArray*)readDataArrayWithItemSize: (size_t)itemSize count: (size_t)nItems { OFDataArray *dataArray; char *tmp; dataArray = [OFDataArray dataArrayWithItemSize: itemSize]; tmp = [self allocMemoryWithSize: itemSize count: nItems]; @try { [self readIntoBuffer: tmp exactLength: nItems * itemSize]; [dataArray addItemsFromCArray: tmp count: nItems]; } @finally { [self freeMemory: tmp]; } return dataArray; } - (OFDataArray*)readDataArrayTillEndOfStream { OFDataArray *dataArray; char *buffer; dataArray = [OFDataArray dataArray]; buffer = [self allocMemoryWithSize: of_pagesize]; @try { while (![self isAtEndOfStream]) { size_t length; length = [self readIntoBuffer: buffer length: of_pagesize]; [dataArray addItemsFromCArray: buffer count: length]; } } @finally { [self freeMemory: buffer]; } return dataArray; } - (OFString*)readStringWithLength: (size_t)length { return [self readStringWithLength: length encoding: OF_STRING_ENCODING_UTF_8]; } - (OFString*)readStringWithLength: (size_t)length encoding: (of_string_encoding_t)encoding { OFString *ret; char *buffer = [self allocMemoryWithSize: length + 1]; buffer[length] = 0; @try { [self readIntoBuffer: buffer exactLength: length]; ret = [OFString stringWithCString: buffer encoding: encoding]; } @finally { [self freeMemory: buffer]; } return ret; } - (OFString*)tryReadLineWithEncoding: (of_string_encoding_t)encoding { size_t i, bufferLength, retLength; char *retCString, *buffer, *newCache; OFString *ret; /* Look if there's a line or \0 in our cache */ if (!waitingForDelimiter && cache != NULL) { for (i = 0; i < cacheLength; i++) { if OF_UNLIKELY (cache[i] == '\n' || cache[i] == '\0') { retLength = i; if (i > 0 && cache[i - 1] == '\r') retLength--; ret = [OFString stringWithCString: cache encoding: encoding length: retLength]; newCache = [self allocMemoryWithSize: cacheLength - i - 1]; if (newCache != NULL) memcpy(newCache, cache + i + 1, cacheLength - i - 1); [self freeMemory: cache]; cache = newCache; cacheLength -= i + 1; waitingForDelimiter = NO; return ret; } } } /* Read and see if we get a newline or \0 */ buffer = [self allocMemoryWithSize: of_pagesize]; @try { if ([self _isAtEndOfStream]) { if (cache == NULL) { waitingForDelimiter = NO; return nil; } retLength = cacheLength; if (retLength > 0 && cache[retLength - 1] == '\r') retLength--; ret = [OFString stringWithCString: cache encoding: encoding length: retLength]; [self freeMemory: cache]; cache = NULL; cacheLength = 0; waitingForDelimiter = NO; return ret; } bufferLength = [self _readIntoBuffer: buffer length: of_pagesize]; /* Look if there's a newline or \0 */ for (i = 0; i < bufferLength; i++) { if OF_UNLIKELY (buffer[i] == '\n' || buffer[i] == '\0') { retLength = cacheLength + i; retCString = [self allocMemoryWithSize: retLength]; if (cache != NULL) memcpy(retCString, cache, cacheLength); memcpy(retCString + cacheLength, buffer, i); if (retLength > 0 && retCString[retLength - 1] == '\r') retLength--; @try { char *rcs = retCString; size_t rl = retLength; ret = [OFString stringWithCString: rcs encoding: encoding length: rl]; } @catch (id e) { /* * Append data to cache to prevent loss * of data due to wrong encoding. */ cache = [self resizeMemory: cache size: cacheLength + bufferLength]; if (cache != NULL) memcpy(cache + cacheLength, buffer, bufferLength); cacheLength += bufferLength; @throw e; } @finally { [self freeMemory: retCString]; } newCache = [self allocMemoryWithSize: bufferLength - i - 1]; if (newCache != NULL) memcpy(newCache, buffer + i + 1, bufferLength - i - 1); [self freeMemory: cache]; cache = newCache; cacheLength = bufferLength - i - 1; waitingForDelimiter = NO; return ret; } } /* There was no newline or \0 */ cache = [self resizeMemory: cache size: cacheLength + bufferLength]; /* * It's possible that cacheLen + len is 0 and thus cache was * set to NULL by resizeMemory:size:. */ if (cache != NULL) memcpy(cache + cacheLength, buffer, bufferLength); cacheLength += bufferLength; } @finally { [self freeMemory: buffer]; } waitingForDelimiter = YES; return nil; } - (OFString*)readLine { return [self readLineWithEncoding: OF_STRING_ENCODING_UTF_8]; } - (OFString*)readLineWithEncoding: (of_string_encoding_t)encoding { OFString *line = nil; while ((line = [self tryReadLineWithEncoding: encoding]) == nil) if ([self isAtEndOfStream]) return nil; return line; } - (OFString*)tryReadLine { return [self tryReadLineWithEncoding: OF_STRING_ENCODING_UTF_8]; } - (OFString*)tryReadTillDelimiter: (OFString*)delimiter encoding: (of_string_encoding_t)encoding { const char *delimiterUTF8String; size_t i, j, delimiterLength, bufferLength, retLength; char *retCString, *buffer, *newCache; OFString *ret; /* FIXME: Convert delimiter to specified charset */ delimiterUTF8String = [delimiter UTF8String]; delimiterLength = [delimiter UTF8StringLength]; j = 0; if (delimiterLength == 0) @throw [OFInvalidArgumentException exceptionWithClass: [self class] selector: _cmd]; /* Look if there's something in our cache */ if (!waitingForDelimiter && cache != NULL) { for (i = 0; i < cacheLength; i++) { if (cache[i] != delimiterUTF8String[j++]) j = 0; if (j == delimiterLength || cache[i] == '\0') { if (cache[i] == '\0') delimiterLength = 1; ret = [OFString stringWithCString: cache encoding: encoding length: i + 1 - delimiterLength]; newCache = [self allocMemoryWithSize: cacheLength - i - 1]; if (newCache != NULL) memcpy(newCache, cache + i + 1, cacheLength - i - 1); [self freeMemory: cache]; cache = newCache; cacheLength -= i + 1; waitingForDelimiter = NO; return ret; } } } /* Read and see if we get a delimiter or \0 */ buffer = [self allocMemoryWithSize: of_pagesize]; @try { if ([self _isAtEndOfStream]) { if (cache == NULL) { waitingForDelimiter = NO; return nil; } ret = [OFString stringWithCString: cache encoding: encoding length: cacheLength]; [self freeMemory: cache]; cache = NULL; cacheLength = 0; waitingForDelimiter = NO; return ret; } bufferLength = [self _readIntoBuffer: buffer length: of_pagesize]; /* Look if there's a delimiter or \0 */ for (i = 0; i < bufferLength; i++) { if (buffer[i] != delimiterUTF8String[j++]) j = 0; if (j == delimiterLength || buffer[i] == '\0') { if (buffer[i] == '\0') delimiterLength = 1; retLength = cacheLength + i + 1 - delimiterLength; retCString = [self allocMemoryWithSize: retLength]; if (cache != NULL && cacheLength <= retLength) memcpy(retCString, cache, cacheLength); else if (cache != NULL) memcpy(retCString, cache, retLength); if (i >= delimiterLength) memcpy(retCString + cacheLength, buffer, i + 1 - delimiterLength); @try { char *rcs = retCString; size_t rl = retLength; ret = [OFString stringWithCString: rcs encoding: encoding length: rl]; } @finally { [self freeMemory: retCString]; } newCache = [self allocMemoryWithSize: bufferLength - i - 1]; if (newCache != NULL) memcpy(newCache, buffer + i + 1, bufferLength - i - 1); [self freeMemory: cache]; cache = newCache; cacheLength = bufferLength - i - 1; waitingForDelimiter = NO; return ret; } } /* Neither the delimiter nor \0 was found */ cache = [self resizeMemory: cache size: cacheLength + bufferLength]; /* * It's possible that cacheLen + len is 0 and thus cache was * set to NULL by resizeMemory:size:. */ if (cache != NULL) memcpy(cache + cacheLength, buffer, bufferLength); cacheLength += bufferLength; } @finally { [self freeMemory: buffer]; } waitingForDelimiter = YES; return nil; } - (OFString*)readTillDelimiter: (OFString*)delimiter { return [self readTillDelimiter: delimiter encoding: OF_STRING_ENCODING_UTF_8]; } - (OFString*)readTillDelimiter: (OFString*)delimiter encoding: (of_string_encoding_t)encoding { OFString *ret = nil; while ((ret = [self tryReadTillDelimiter: delimiter encoding: encoding]) == nil) if ([self isAtEndOfStream]) return nil; return ret; } - (OFString*)tryReadTillDelimiter: (OFString*)delimiter { return [self tryReadTillDelimiter: delimiter encoding: OF_STRING_ENCODING_UTF_8]; } - (BOOL)writeBufferEnabled { return writeBufferEnabled; } - (void)setWriteBufferEnabled: (BOOL)enable { writeBufferEnabled = enable; } - (void)flushWriteBuffer { if (writeBuffer == NULL) return; [self _writeBuffer: writeBuffer length: writeBufferLength]; [self freeMemory: writeBuffer]; writeBuffer = NULL; writeBufferLength = 0; } - (void)writeBuffer: (const void*)buffer length: (size_t)length { if (!writeBufferEnabled) [self _writeBuffer: buffer length: length]; else { writeBuffer = [self resizeMemory: writeBuffer size: writeBufferLength + length]; memcpy(writeBuffer + writeBufferLength, buffer, length); writeBufferLength += length; } } - (void)writeInt8: (uint8_t)int8 { [self writeBuffer: (char*)&int8 length: 1]; } - (void)writeBigEndianInt16: (uint16_t)int16 { int16 = of_bswap16_if_le(int16); [self writeBuffer: (char*)&int16 length: 2]; } - (void)writeBigEndianInt32: (uint32_t)int32 { int32 = of_bswap32_if_le(int32); [self writeBuffer: (char*)&int32 length: 4]; } - (void)writeBigEndianInt64: (uint64_t)int64 { int64 = of_bswap64_if_le(int64); [self writeBuffer: (char*)&int64 length: 8]; } - (void)writeBigEndianFloat: (float)float_ { float_ = of_bswap_float_if_le(float_); [self writeBuffer: (char*)&float_ length: 4]; } - (void)writeBigEndianDouble: (double)double_ { double_ = of_bswap_double_if_le(double_); [self writeBuffer: (char*)&double_ length: 8]; } - (size_t)writeBigEndianInt16s: (const uint16_t*)buffer count: (size_t)nInt16s { size_t size = nInt16s * sizeof(uint16_t); #ifdef OF_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else uint16_t *tmp; tmp = [self allocMemoryWithSize: sizeof(uint16_t) count: nInt16s]; @try { size_t i; for (i = 0; i < nInt16s; i++) tmp[i] = of_bswap16(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeBigEndianInt32s: (const uint32_t*)buffer count: (size_t)nInt32s { size_t size = nInt32s * sizeof(uint32_t); #ifdef OF_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else uint32_t *tmp; tmp = [self allocMemoryWithSize: sizeof(uint32_t) count: nInt32s]; @try { size_t i; for (i = 0; i < nInt32s; i++) tmp[i] = of_bswap32(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeBigEndianInt64s: (const uint64_t*)buffer count: (size_t)nInt64s { size_t size = nInt64s * sizeof(uint64_t); #ifdef OF_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else uint64_t *tmp; tmp = [self allocMemoryWithSize: sizeof(uint64_t) count: nInt64s]; @try { size_t i; for (i = 0; i < nInt64s; i++) tmp[i] = of_bswap64(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeBigEndianFloats: (const float*)buffer count: (size_t)nFloats { size_t size = nFloats * sizeof(float); #ifdef OF_FLOAT_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else float *tmp; tmp = [self allocMemoryWithSize: sizeof(float) count: nFloats]; @try { size_t i; for (i = 0; i < nFloats; i++) tmp[i] = of_bswap_float(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeBigEndianDoubles: (const double*)buffer count: (size_t)nDoubles { size_t size = nDoubles * sizeof(double); #ifdef OF_FLOAT_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else double *tmp; tmp = [self allocMemoryWithSize: sizeof(double) count: nDoubles]; @try { size_t i; for (i = 0; i < nDoubles; i++) tmp[i] = of_bswap_double(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (void)writeLittleEndianInt16: (uint16_t)int16 { int16 = of_bswap16_if_be(int16); [self writeBuffer: (char*)&int16 length: 2]; } - (void)writeLittleEndianInt32: (uint32_t)int32 { int32 = of_bswap32_if_be(int32); [self writeBuffer: (char*)&int32 length: 4]; } - (void)writeLittleEndianInt64: (uint64_t)int64 { int64 = of_bswap64_if_be(int64); [self writeBuffer: (char*)&int64 length: 8]; } - (void)writeLittleEndianFloat: (float)float_ { float_ = of_bswap_float_if_be(float_); [self writeBuffer: (char*)&float_ length: 4]; } - (void)writeLittleEndianDouble: (double)double_ { double_ = of_bswap_double_if_be(double_); [self writeBuffer: (char*)&double_ length: 8]; } - (size_t)writeLittleEndianInt16s: (const uint16_t*)buffer count: (size_t)nInt16s { size_t size = nInt16s * sizeof(uint16_t); #ifndef OF_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else uint16_t *tmp; tmp = [self allocMemoryWithSize: sizeof(uint16_t) count: nInt16s]; @try { size_t i; for (i = 0; i < nInt16s; i++) tmp[i] = of_bswap16(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeLittleEndianInt32s: (const uint32_t*)buffer count: (size_t)nInt32s { size_t size = nInt32s * sizeof(uint32_t); #ifndef OF_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else uint32_t *tmp; tmp = [self allocMemoryWithSize: sizeof(uint32_t) count: nInt32s]; @try { size_t i; for (i = 0; i < nInt32s; i++) tmp[i] = of_bswap32(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeLittleEndianInt64s: (const uint64_t*)buffer count: (size_t)nInt64s { size_t size = nInt64s * sizeof(uint64_t); #ifndef OF_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else uint64_t *tmp; tmp = [self allocMemoryWithSize: sizeof(uint64_t) count: nInt64s]; @try { size_t i; for (i = 0; i < nInt64s; i++) tmp[i] = of_bswap64(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeLittleEndianFloats: (const float*)buffer count: (size_t)nFloats { size_t size = nFloats * sizeof(float); #ifndef OF_FLOAT_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else float *tmp; tmp = [self allocMemoryWithSize: sizeof(float) count: nFloats]; @try { size_t i; for (i = 0; i < nFloats; i++) tmp[i] = of_bswap_float(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeLittleEndianDoubles: (const double*)buffer count: (size_t)nDoubles { size_t size = nDoubles * sizeof(double); #ifndef OF_FLOAT_BIG_ENDIAN [self writeBuffer: buffer length: size]; #else double *tmp; tmp = [self allocMemoryWithSize: sizeof(double) count: nDoubles]; @try { size_t i; for (i = 0; i < nDoubles; i++) tmp[i] = of_bswap_double(buffer[i]); [self writeBuffer: tmp length: size]; } @finally { [self freeMemory: tmp]; } #endif return size; } - (size_t)writeDataArray: (OFDataArray*)dataArray { size_t length = [dataArray count] * [dataArray itemSize]; [self writeBuffer: [dataArray cArray] length: length]; return [dataArray count] * [dataArray itemSize]; } - (size_t)writeString: (OFString*)string { size_t length = [string UTF8StringLength]; [self writeBuffer: [string UTF8String] length: length]; return length; } - (size_t)writeLine: (OFString*)string { size_t stringLength = [string UTF8StringLength]; char *buffer; buffer = [self allocMemoryWithSize: stringLength + 1]; @try { memcpy(buffer, [string UTF8String], stringLength); buffer[stringLength] = '\n'; [self writeBuffer: buffer length: stringLength + 1]; } @finally { [self freeMemory: buffer]; } return stringLength + 1; } - (size_t)writeFormat: (OFConstantString*)format, ... { va_list arguments; size_t ret; va_start(arguments, format); ret = [self writeFormat: format arguments: arguments]; va_end(arguments); return ret; } - (size_t)writeFormat: (OFConstantString*)format arguments: (va_list)arguments { char *UTF8String; int length; if (format == nil) @throw [OFInvalidArgumentException exceptionWithClass: [self class] selector: _cmd]; if ((length = of_vasprintf(&UTF8String, [format UTF8String], arguments)) == -1) @throw [OFInvalidFormatException exceptionWithClass: [self class]]; @try { [self writeBuffer: UTF8String length: length]; } @finally { free(UTF8String); } return length; } - (size_t)pendingBytes { return cacheLength; } - (BOOL)isBlocking { return blocking; } - (void)setBlocking: (BOOL)enable { #ifndef _WIN32 int flags; blocking = enable; if ((flags = fcntl([self fileDescriptor], F_GETFL)) == -1) @throw [OFSetOptionFailedException exceptionWithClass: [self class] stream: self]; if (enable) flags &= ~O_NONBLOCK; else flags |= O_NONBLOCK; if (fcntl([self fileDescriptor], F_SETFL, flags) == -1) @throw [OFSetOptionFailedException exceptionWithClass: [self class] stream: self]; #else @throw [OFNotImplementedException exceptionWithClass: [self class] selector: _cmd]; #endif } - (int)fileDescriptor { @throw [OFNotImplementedException exceptionWithClass: [self class] selector: _cmd]; } - (void)close { @throw [OFNotImplementedException exceptionWithClass: [self class] selector: _cmd]; } - (BOOL)_isWaitingForDelimiter { return waitingForDelimiter; } @end