#if defined(ENABLE_TORCH_IMPORTER) && ENABLE_TORCH_IMPORTER #include "THGeneral.h" #include "THDiskFile.h" #include "THFilePrivate.h" extern "C" { typedef struct THDiskFile__ { THFile file; FILE *handle; char *name; int isNativeEncoding; int longSize; } THDiskFile; static int THDiskFile_isOpened(THFile *self) { THDiskFile *dfself = (THDiskFile*)self; return (dfself->handle != NULL); } const char *THDiskFile_name(THFile *self) { THDiskFile *dfself = (THDiskFile*)self; return dfself->name; } /* workaround mac osx lion ***insane*** fread bug */ #ifdef __APPLE__ static size_t fread__(void *ptr, size_t size, size_t nitems, FILE *stream) { size_t nread = 0; while(!feof(stream) && !ferror(stream) && (nread < nitems)) nread += fread((char*)ptr+nread*size, size, THMin(2147483648UL/size, nitems-nread), stream); return nread; } #else #define fread__ fread #endif #define READ_WRITE_METHODS(TYPE, TYPEC, ASCII_READ_ELEM, ASCII_WRITE_ELEM) \ static long THDiskFile_read##TYPEC(THFile *self, TYPE *data, long n) \ { \ THDiskFile *dfself = (THDiskFile*)(self); \ long nread = 0L; \ \ THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); \ THArgCheck(dfself->file.isReadable, 1, "attempt to read in a write-only file"); \ \ if(dfself->file.isBinary) \ { \ nread = fread__(data, sizeof(TYPE), n, dfself->handle); \ if(!dfself->isNativeEncoding && (sizeof(TYPE) > 1) && (nread > 0)) \ THDiskFile_reverseMemory(data, data, sizeof(TYPE), nread); \ } \ else \ { \ long i; \ for(i = 0; i < n; i++) \ { \ ASCII_READ_ELEM; /* increment here result and break if wrong */ \ } \ if(dfself->file.isAutoSpacing && (n > 0)) \ { \ int c = fgetc(dfself->handle); \ if( (c != '\n') && (c != EOF) ) \ ungetc(c, dfself->handle); \ } \ } \ \ if(nread != n) \ { \ dfself->file.hasError = 1; /* shouldn't we put hasError to 0 all the time ? */ \ if(!dfself->file.isQuiet) \ THError("read error: read %d blocks instead of %d", nread, n); \ } \ \ return nread; \ } \ \ static long THDiskFile_write##TYPEC(THFile *self, TYPE *data, long n) \ { \ THDiskFile *dfself = (THDiskFile*)(self); \ long nwrite = 0L; \ \ THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); \ THArgCheck(dfself->file.isWritable, 1, "attempt to write in a read-only file"); \ \ if(dfself->file.isBinary) \ { \ if(dfself->isNativeEncoding) \ { \ nwrite = fwrite(data, sizeof(TYPE), n, dfself->handle); \ } \ else \ { \ if(sizeof(TYPE) > 1) \ { \ char *buffer = (char*)THAlloc(sizeof(TYPE)*n); \ THDiskFile_reverseMemory(buffer, data, sizeof(TYPE), n); \ nwrite = fwrite(buffer, sizeof(TYPE), n, dfself->handle); \ THFree(buffer); \ } \ else \ nwrite = fwrite(data, sizeof(TYPE), n, dfself->handle); \ } \ } \ else \ { \ long i; \ for(i = 0; i < n; i++) \ { \ ASCII_WRITE_ELEM; \ if( dfself->file.isAutoSpacing && (i < n-1) ) \ fprintf(dfself->handle, " "); \ } \ if(dfself->file.isAutoSpacing && (n > 0)) \ fprintf(dfself->handle, "\n"); \ } \ \ if(nwrite != n) \ { \ dfself->file.hasError = 1; \ if(!dfself->file.isQuiet) \ THError("write error: wrote %d blocks instead of %d", nwrite, n); \ } \ \ return nwrite; \ } static int THDiskFile_mode(const char *mode, int *isReadable, int *isWritable) { *isReadable = 0; *isWritable = 0; if(strlen(mode) == 1) { if(*mode == 'r') { *isReadable = 1; return 1; } else if(*mode == 'w') { *isWritable = 1; return 1; } } else if(strlen(mode) == 2) { if(mode[0] == 'r' && mode[1] == 'w') { *isReadable = 1; *isWritable = 1; return 1; } } return 0; } static void THDiskFile_synchronize(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); fflush(dfself->handle); } static void THDiskFile_seek(THFile *self, long position) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); #if defined(_WIN64) if(_fseeki64(dfself->handle, (__int64)position, SEEK_SET) < 0) #elif defined(_WIN32) if(fseek(dfself->handle, (long)position, SEEK_SET) < 0) #else if(fseeko(dfself->handle, (off_t)position, SEEK_SET) < 0) #endif { dfself->file.hasError = 1; if(!dfself->file.isQuiet) THError("unable to seek at position %d", position); } } static void THDiskFile_seekEnd(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); #if defined(_WIN64) if(_fseeki64(dfself->handle, 0L, SEEK_END) < 0) #elif defined(_WIN32) if(fseek(dfself->handle, 0L, SEEK_END) < 0) #else if(fseeko(dfself->handle, 0L, SEEK_END) < 0) #endif { dfself->file.hasError = 1; if(!dfself->file.isQuiet) THError("unable to seek at end of file"); } } static long THDiskFile_position(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); #if defined(_WIN64) __int64 offset = _ftelli64(dfself->handle); #elif defined(_WIN32) long offset = ftell(dfself->handle); #else off_t offset = ftello(dfself->handle); #endif if (offset > -1) return (long)offset; else if(!dfself->file.isQuiet) THError("unable to obtain disk file offset (maybe a long overflow occurred)"); return 0; } static void THDiskFile_close(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); fclose(dfself->handle); dfself->handle = NULL; } /* Little and Big Endian */ static void THDiskFile_reverseMemory(void *dst, const void *src, long blockSize, long numBlocks) { if(blockSize != 1) { long halfBlockSize = blockSize/2; char *charSrc = (char*)src; char *charDst = (char*)dst; long b, i; for(b = 0; b < numBlocks; b++) { for(i = 0; i < halfBlockSize; i++) { char z = charSrc[i]; charDst[i] = charSrc[blockSize-1-i]; charDst[blockSize-1-i] = z; } charSrc += blockSize; charDst += blockSize; } } } int THDiskFile_isLittleEndianCPU(void) { int x = 7; char *ptr = (char *)&x; if(ptr[0] == 0) return 0; else return 1; } int THDiskFile_isBigEndianCPU(void) { return(!THDiskFile_isLittleEndianCPU()); } void THDiskFile_nativeEndianEncoding(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); dfself->isNativeEncoding = 1; } void THDiskFile_littleEndianEncoding(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); dfself->isNativeEncoding = THDiskFile_isLittleEndianCPU(); } void THDiskFile_bigEndianEncoding(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); dfself->isNativeEncoding = !THDiskFile_isLittleEndianCPU(); } /* End of Little and Big Endian Stuff */ void THDiskFile_longSize(THFile *self, int size) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); THArgCheck(size == 0 || size == 4 || size == 8, 1, "Invalid long size specified"); dfself->longSize = size; } void THDiskFile_noBuffer(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); if (setvbuf(dfself->handle, NULL, _IONBF, 0)) { THError("error: cannot disable buffer"); } } static void THDiskFile_free(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); if(dfself->handle) fclose(dfself->handle); THFree(dfself->name); THFree(dfself); } /* READ_WRITE_METHODS(int, Bool, */ /* int value = 0; int ret = fscanf(file->handle, "%d", &value); array[i] = (value ? 1 : 0); if(ret <= 0) break; else result++, */ /* int value = (array[i] ? 1 : 0); nElemWritten = fprintf(file->handle, "%d", value), */ /* true) */ /* Note that we do a trick */ READ_WRITE_METHODS(unsigned char, Byte, nread = fread(data, 1, n, dfself->handle); break, nwrite = fwrite(data, 1, n, dfself->handle); break) READ_WRITE_METHODS(char, Char, nread = fread(data, 1, n, dfself->handle); break, nwrite = fwrite(data, 1, n, dfself->handle); break) READ_WRITE_METHODS(short, Short, int ret = fscanf(dfself->handle, "%hd", &data[i]); if(ret <= 0) break; else nread++, int ret = fprintf(dfself->handle, "%hd", data[i]); if(ret <= 0) break; else nwrite++) READ_WRITE_METHODS(int, Int, int ret = fscanf(dfself->handle, "%d\n\r", &data[i]); if(ret <= 0) break; else nread++, int ret = fprintf(dfself->handle, "%d", data[i]); if(ret <= 0) break; else nwrite++) /*READ_WRITE_METHODS(long, Long, int ret = fscanf(dfself->handle, "%ld", &data[i]); if(ret <= 0) break; else nread++, int ret = fprintf(dfself->handle, "%ld", data[i]); if(ret <= 0) break; else nwrite++)*/ READ_WRITE_METHODS(float, Float, int ret = fscanf(dfself->handle, "%g", &data[i]); if(ret <= 0) break; else nread++, int ret = fprintf(dfself->handle, "%.9g", data[i]); if(ret <= 0) break; else nwrite++) READ_WRITE_METHODS(double, Double, int ret = fscanf(dfself->handle, "%lg", &data[i]); if(ret <= 0) break; else nread++, int ret = fprintf(dfself->handle, "%.17g", data[i]); if(ret <= 0) break; else nwrite++) /* For Long we need to rewrite everything, because of the special management of longSize */ static long THDiskFile_readLong(THFile *self, int64 *data, long n) { THDiskFile *dfself = (THDiskFile*)(self); long nread = 0L; THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); THArgCheck(dfself->file.isReadable, 1, "attempt to read in a write-only file"); if(dfself->file.isBinary) { if(dfself->longSize == 0 || dfself->longSize == sizeof(int64)) { nread = fread__(data, sizeof(int64), n, dfself->handle); if(!dfself->isNativeEncoding && (sizeof(int64) > 1) && (nread > 0)) THDiskFile_reverseMemory(data, data, sizeof(int64), nread); } else if(dfself->longSize == 4) { nread = fread__(data, 4, n, dfself->handle); if(!dfself->isNativeEncoding && (nread > 0)) THDiskFile_reverseMemory(data, data, 4, nread); long i; for(i = nread; i > 0; i--) data[i-1] = ((int *)data)[i-1]; } else /* if(dfself->longSize == 8) */ { int big_endian = !THDiskFile_isLittleEndianCPU(); int32_t *buffer = (int32_t*)THAlloc(8*n); nread = fread__(buffer, 8, n, dfself->handle); long i; for(i = nread; i > 0; i--) data[i-1] = buffer[2*(i-1) + big_endian]; THFree(buffer); if(!dfself->isNativeEncoding && (nread > 0)) THDiskFile_reverseMemory(data, data, 4, nread); } } else { long i; for(i = 0; i < n; i++) { long d; int ret = fscanf(dfself->handle, "%ld", &d); if(ret <= 0) break; else nread++; data[i] = d; } if(dfself->file.isAutoSpacing && (n > 0)) { int c = fgetc(dfself->handle); if( (c != '\n') && (c != EOF) ) ungetc(c, dfself->handle); } } if(nread != n) { dfself->file.hasError = 1; /* shouldn't we put hasError to 0 all the time ? */ if(!dfself->file.isQuiet) THError("read error: read %d blocks instead of %d", nread, n); } return nread; } static long THDiskFile_writeLong(THFile *self, int64 *data, long n) { THDiskFile *dfself = (THDiskFile*)(self); long nwrite = 0L; THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); THArgCheck(dfself->file.isWritable, 1, "attempt to write in a read-only file"); if(dfself->file.isBinary) { if(dfself->longSize == 0 || dfself->longSize == sizeof(long)) { if(dfself->isNativeEncoding) { nwrite = fwrite(data, sizeof(long), n, dfself->handle); } else { char *buffer = (char*)THAlloc(sizeof(long)*n); THDiskFile_reverseMemory(buffer, data, sizeof(long), n); nwrite = fwrite(buffer, sizeof(long), n, dfself->handle); THFree(buffer); } } else if(dfself->longSize == 4) { int32_t *buffer = (int32_t *)THAlloc(4*n); long i; for(i = 0; i < n; i++) buffer[i] = data[i]; if(!dfself->isNativeEncoding) THDiskFile_reverseMemory(buffer, buffer, 4, n); nwrite = fwrite(buffer, 4, n, dfself->handle); THFree(buffer); } else /* if(dfself->longSize == 8) */ { int big_endian = !THDiskFile_isLittleEndianCPU(); int32_t *buffer = (int32_t*)THAlloc(8*n); long i; for(i = 0; i < n; i++) { buffer[2*i + !big_endian] = 0; buffer[2*i + big_endian] = data[i]; } if(!dfself->isNativeEncoding) THDiskFile_reverseMemory(buffer, buffer, 8, n); nwrite = fwrite(buffer, 8, n, dfself->handle); THFree(buffer); } } else { long i; for(i = 0; i < n; i++) { long res = 0; int ret = fprintf(dfself->handle, "%ld", res); data[i] = res; if(ret <= 0) break; else nwrite++; if( dfself->file.isAutoSpacing && (i < n-1) ) fprintf(dfself->handle, " "); } if(dfself->file.isAutoSpacing && (n > 0)) fprintf(dfself->handle, "\n"); } if(nwrite != n) { dfself->file.hasError = 1; if(!dfself->file.isQuiet) THError("write error: wrote %d blocks instead of %d", nwrite, n); } return nwrite; } static long THDiskFile_readString(THFile *self, const char *format, char **str_) { THDiskFile *dfself = (THDiskFile*)(self); THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); THArgCheck(dfself->file.isReadable, 1, "attempt to read in a write-only file"); THArgCheck((strlen(format) >= 2 ? (format[0] == '*') && (format[1] == 'a' || format[1] == 'l') : 0), 2, "format must be '*a' or '*l'"); /* note: the string won't survive long, as it is copied into lua */ /* so 1024 is not that big... */ #define TBRS_BSZ 1024L if(format[1] == 'a') { char *p = (char*)THAlloc(TBRS_BSZ); long total = TBRS_BSZ; long pos = 0L; for (;;) { if(total-pos == 0) /* we need more space! */ { total += TBRS_BSZ; p = (char*)THRealloc(p, total); } pos += fread(p+pos, 1, total-pos, dfself->handle); if (pos < total) /* eof? */ { if(pos == 0L) { THFree(p); dfself->file.hasError = 1; if(!dfself->file.isQuiet) THError("read error: read 0 blocks instead of 1"); *str_ = NULL; return 0; } *str_ = p; return pos; } } } else { char *p = (char*)THAlloc(TBRS_BSZ); long total = TBRS_BSZ; long pos = 0L; long size; for (;;) { if(total-pos <= 1) /* we can only write '\0' in there! */ { total += TBRS_BSZ; p = (char*)THRealloc(p, total); } if (fgets(p+pos, total-pos, dfself->handle) == NULL) /* eof? */ { if(pos == 0L) { THFree(p); dfself->file.hasError = 1; if(!dfself->file.isQuiet) THError("read error: read 0 blocks instead of 1"); *str_ = NULL; return 0; } *str_ = p; return pos; } size = strlen(p+pos); if (size == 0L || (p+pos)[size-1] != '\n') { pos += size; } else { pos += size-1L; /* do not include `eol' */ *str_ = p; return pos; } } } *str_ = NULL; return 0; } static long THDiskFile_writeString(THFile *self, const char *str, long size) { THDiskFile *dfself = (THDiskFile*)(self); long nwrite; THArgCheck(dfself->handle != NULL, 1, "attempt to use a closed file"); THArgCheck(dfself->file.isWritable, 1, "attempt to write in a read-only file"); nwrite = fwrite(str, 1, size, dfself->handle); if(nwrite != size) { dfself->file.hasError = 1; if(!dfself->file.isQuiet) THError("write error: wrote %ld blocks instead of %ld", nwrite, size); } return nwrite; } THFile *THDiskFile_new(const char *name, const char *mode, int isQuiet) { static struct THFileVTable vtable = { THDiskFile_isOpened, THDiskFile_readByte, THDiskFile_readChar, THDiskFile_readShort, THDiskFile_readInt, THDiskFile_readLong, THDiskFile_readFloat, THDiskFile_readDouble, THDiskFile_readString, THDiskFile_writeByte, THDiskFile_writeChar, THDiskFile_writeShort, THDiskFile_writeInt, THDiskFile_writeLong, THDiskFile_writeFloat, THDiskFile_writeDouble, THDiskFile_writeString, THDiskFile_synchronize, THDiskFile_seek, THDiskFile_seekEnd, THDiskFile_position, THDiskFile_close, THDiskFile_free }; int isReadable; int isWritable; FILE *handle; THDiskFile *self; THArgCheck(THDiskFile_mode(mode, &isReadable, &isWritable), 2, "file mode should be 'r','w' or 'rw'"); if( isReadable && isWritable ) { handle = fopen(name, "r+b"); if(!handle) { handle = fopen(name, "wb"); if(handle) { fclose(handle); handle = fopen(name, "r+b"); } } } else handle = fopen(name, (isReadable ? "rb" : "wb")); if(!handle) { if(isQuiet) return 0; else THError("cannot open <%s> in mode %c%c", name, (isReadable ? 'r' : ' '), (isWritable ? 'w' : ' ')); } self = (THDiskFile*)THAlloc(sizeof(THDiskFile)); self->handle = handle; self->name = (char*)THAlloc(strlen(name)+1); strcpy(self->name, name); self->isNativeEncoding = 1; self->longSize = 0; self->file.vtable = &vtable; self->file.isQuiet = isQuiet; self->file.isReadable = isReadable; self->file.isWritable = isWritable; self->file.isBinary = 0; self->file.isAutoSpacing = 1; self->file.hasError = 0; return (THFile*)self; } /* PipeFile */ static int THPipeFile_mode(const char *mode, int *isReadable, int *isWritable) { *isReadable = 0; *isWritable = 0; if(strlen(mode) == 1) { if(*mode == 'r') { *isReadable = 1; return 1; } else if(*mode == 'w') { *isWritable = 1; return 1; } } return 0; } static void THPipeFile_free(THFile *self) { THDiskFile *dfself = (THDiskFile*)(self); if(dfself->handle) pclose(dfself->handle); THFree(dfself->name); THFree(dfself); } THFile *THPipeFile_new(const char *name, const char *mode, int isQuiet) { static struct THFileVTable vtable = { THDiskFile_isOpened, THDiskFile_readByte, THDiskFile_readChar, THDiskFile_readShort, THDiskFile_readInt, THDiskFile_readLong, THDiskFile_readFloat, THDiskFile_readDouble, THDiskFile_readString, THDiskFile_writeByte, THDiskFile_writeChar, THDiskFile_writeShort, THDiskFile_writeInt, THDiskFile_writeLong, THDiskFile_writeFloat, THDiskFile_writeDouble, THDiskFile_writeString, THDiskFile_synchronize, THDiskFile_seek, THDiskFile_seekEnd, THDiskFile_position, THDiskFile_close, THPipeFile_free }; int isReadable; int isWritable; FILE *handle; THDiskFile *self; THArgCheck(THPipeFile_mode(mode, &isReadable, &isWritable), 2, "file mode should be 'r','w'"); #ifdef _WIN32 handle = popen(name, (isReadable ? "rb" : "wb")); #else handle = popen(name, (isReadable ? "r" : "w")); #endif if(!handle) { if(isQuiet) return 0; else THError("cannot open <%s> in mode %c%c", name, (isReadable ? 'r' : ' '), (isWritable ? 'w' : ' ')); } self = (THDiskFile*)THAlloc(sizeof(THDiskFile)); self->handle = handle; self->name = (char*)THAlloc(strlen(name)+1); strcpy(self->name, name); self->isNativeEncoding = 1; self->longSize = 0; self->file.vtable = &vtable; self->file.isQuiet = isQuiet; self->file.isReadable = isReadable; self->file.isWritable = isWritable; self->file.isBinary = 0; self->file.isAutoSpacing = 1; self->file.hasError = 0; return (THFile*)self; } } #endif