#include "All.h" #ifdef IO_USE_STD_LIB_FILE_IO #include "StdLibFileIO.h" /////////////////////////////////////////////////////// // low level I/O, where are prototypes and constants? #if defined _WIN32 || defined __TURBOC__ || defined __ZTC__ || defined _MSC_VER # include # include # include # include # include #elif defined __unix__ || defined __linux__ # include # include # include # include # include # include #else // .... hier Includes für neues Betriebssystem einfügen (mit vorgestellten: #elif defined) # include # include # include # include #endif #ifndef O_BINARY # ifdef _O_BINARY # define O_BINARY _O_BINARY # else # define O_BINARY 0 # endif #endif //// Binary/Low-Level-IO /////////////////////////////////////////// // // All file I/O is basicly handled via an ANSI file pointer (type: FILE*) in // FILEIO-Mode 1 and via a POSIX file descriptor (type: int) in // FILEIO-Mode 2 and 3. // // Some operation are only available via the POSIX interface (fcntl, setmode, // ...) so we need a function to get the file descriptor from a file pointer. // In FILEIO-Mode 2 and 3 this is a dummy function because we always working // with this file descriptors. // #if defined __BORLANDC__ || defined _WIN32 # define FILENO(__fp) _fileno ((__fp)) #elif defined __CYGWIN__ || defined __TURBOC__ || defined __unix__ || defined __EMX__ || defined _MSC_VER # define FILENO(__fp) fileno ((__fp)) #else # define FILENO(__fp) fileno ((__fp)) #endif // // If we have access to a file via file name, we can open the file with an // additional "b" or a O_BINARY within the (f)open function to get a // transparent untranslated data stream which is necessary for audio bitstream // data and also for PCM data. If we are working with // stdin/stdout/FILENO_STDIN/FILENO_STDOUT we can't open the file with this // attributes, because the files are already open. So we need a non // standardized sequence to switch to this mode (not necessary for Unix). // Mostly the sequency is the same for incoming and outgoing streams, but only // mostly so we need one for IN and one for OUT. // Macros are called with the file pointer and you get back the untransalted file // pointer which can be equal or different from the original. // #if defined __EMX__ # define SETBINARY_IN(__fp) (_fsetmode ( (__fp), "b" ), (__fp)) # define SETBINARY_OUT(__fp) (_fsetmode ( (__fp), "b" ), (__fp)) #elif defined __TURBOC__ || defined __BORLANDC__ # define SETBINARY_IN(__fp) (setmode ( FILENO ((__fp)), O_BINARY ), (__fp)) # define SETBINARY_OUT(__fp) (setmode ( FILENO ((__fp)), O_BINARY ), (__fp)) #elif defined __CYGWIN__ # define SETBINARY_IN(__fp) (setmode ( FILENO ((__fp)), _O_BINARY ), (__fp)) # define SETBINARY_OUT(__fp) (setmode ( FILENO ((__fp)), _O_BINARY ), (__fp)) #elif defined _WIN32 # define SETBINARY_IN(__fp) (_setmode ( FILENO ((__fp)), _O_BINARY ), (__fp)) # define SETBINARY_OUT(__fp) (_setmode ( FILENO ((__fp)), _O_BINARY ), (__fp)) #elif defined _MSC_VER # define SETBINARY_IN(__fp) (setmode ( FILENO ((__fp)), O_BINARY ), (__fp)) # define SETBINARY_OUT(__fp) (setmode ( FILENO ((__fp)), O_BINARY ), (__fp)) #elif defined __unix__ # define SETBINARY_IN(__fp) (__fp) # define SETBINARY_OUT(__fp) (__fp) #elif 0 # define SETBINARY_IN(__fp) (freopen ( NULL, "rb", (__fp) ), (__fp)) # define SETBINARY_OUT(__fp) (freopen ( NULL, "wb", (__fp) ), (__fp)) #else # define SETBINARY_IN(__fp) (__fp) # define SETBINARY_OUT(__fp) (__fp) #endif /////////////////////////////////////////////////////// CStdLibFileIO::CStdLibFileIO() { memset(m_cFileName, 0, MAX_PATH); m_bReadOnly = FALSE; m_pFile = NULL; } CStdLibFileIO::~CStdLibFileIO() { Close(); } int CStdLibFileIO::GetHandle() { return FILENO (m_pFile); } int CStdLibFileIO::Open(const char * pName) { Close(); m_bReadOnly = FALSE; if ( 0 == strcmp (pName, "-") || 0 == strcmp (pName, "/dev/stdin") ) { m_pFile = SETBINARY_IN (stdin); m_bReadOnly = TRUE; // ReadOnly } else if ( 0 == strcmp (pName, "/dev/stdout") ) { m_pFile = SETBINARY_OUT (stdout); m_bReadOnly = FALSE; // WriteOnly } else { m_pFile = fopen (pName, "r+b"); m_bReadOnly = FALSE; // Read/Write } if (!m_pFile) return -1; strcpy(m_cFileName, pName); return 0; } int CStdLibFileIO::Close() { int ret = -1; if ( m_pFile != NULL ) { ret = fclose(m_pFile); m_pFile = NULL; } return ret; } int CStdLibFileIO::Read(void * pBuffer, unsigned int nBytesToRead, unsigned int * pBytesRead) { *pBytesRead = fread(pBuffer, 1, nBytesToRead, m_pFile); return ferror(m_pFile) ? ERROR_IO_READ : 0; } int CStdLibFileIO::Write(const void * pBuffer, unsigned int nBytesToWrite, unsigned int * pBytesWritten) { *pBytesWritten = fwrite(pBuffer, 1, nBytesToWrite, m_pFile); return (ferror(m_pFile) || (*pBytesWritten != nBytesToWrite)) ? ERROR_IO_WRITE : 0; } int CStdLibFileIO::Seek(int nDistance, unsigned int nMoveMode) { return fseek(m_pFile, nDistance, nMoveMode); } int CStdLibFileIO::SetEOF() { return ftruncate (GetHandle(), GetPosition() ); } int CStdLibFileIO::GetPosition() { fpos_t fPosition; memset(&fPosition, 0, sizeof(fPosition)); fgetpos(m_pFile, &fPosition); return _FPOSOFF(fPosition); } int CStdLibFileIO::GetSize() { int nCurrentPosition = GetPosition(); Seek(0, FILE_END); int nLength = GetPosition(); Seek(nCurrentPosition, FILE_BEGIN); return nLength; } int CStdLibFileIO::GetName(char * pBuffer) { strcpy(pBuffer, m_cFileName); return 0; } int CStdLibFileIO::Create(const char * pName) { Close(); if ( 0 == strcmp (pName, "-") || 0 == strcmp (pName, "/dev/stdout") ) { m_pFile = SETBINARY_OUT (stdout); m_bReadOnly = FALSE; // WriteOnly } else { m_pFile = fopen (pName, "w+b"); // Read/Write m_bReadOnly = FALSE; } if (!m_pFile) return -1; strcpy (m_cFileName, pName); return 0; } int CStdLibFileIO::Delete() { #if 0 Close(); return unlink (m_cFileName); // 0 success, -1 error #endif return -1; } #endif // #ifdef IO_USE_STD_LIB_FILE_IO