#ifndef cwFile_H #define cwFile_H namespace cw { namespace file { typedef handle handle_t; // Flags for use with fileOpen(). enum openFlags_t { kReadFl = 0x01, //< Open a file for reading kWriteFl = 0x02, //< Create an empty file for writing kAppendFl = 0x04, //< Open a file for writing at the end of the file. kUpdateFl = 0x08, //< Open a file for reading and writing. kBinaryFl = 0x10, //< Open a file for binary (not text) input/output. kStdoutFl = 0x20, //< Ignore fn use 'stdout' kStderrFl = 0x40, //< Ignore fn use 'stderr' kStdinFl = 0x80, //< Ignore fn use 'stdin' }; // Open or create a file. // Equivalent to fopen(). // If *hp was not initalized by an earlier call to fileOpen() then it should // be set to fileNullHandle prior to calling this function. If *hp is a valid handle // then it is automatically finalized by an internal call to fileClose() prior to // being re-iniitalized. // // If kStdoutFl, kStderrFl or kStdinFl are set then // file name argument 'fn' is ignored. rc_t open( handle_t& hRef, // Pointer to a client supplied fileHandle_t to recieve the handle for the new object. const char* fn, // The name of the file to open or create. unsigned flags ); // See fileOpenFlags_t // Close a file opened with Equivalent to fclose(). rc_t close( handle_t& hRef ); // Return true if the file handle is associated with an open file. bool isValid( handle_t h ); // Read a block bytes from a file. Equivalent to fread(). rc_t read( handle_t h, void* buf, unsigned bufByteCnt ); // Write a block of bytes to a file. Equivalent to fwrite(). rc_t write( handle_t h, const void* buf, unsigned bufByteCnt ); enum seekFlags_t { kBeginFl = 0x01, kCurFl = 0x02, kEndFl = 0x04 }; // Set the file position indicator. Equivalent to fseek(). rc_t seek( handle_t h, enum seekFlags_t flags, int offsByteCnt ); // Return the file position indicator. Equivalent to ftell(). rc_t tell( handle_t h, long* offsPtr ); // Return true if the file position indicator is at the end of the file. // Equivalent to feof(). bool eof( handle_t h ); // Return the length of the file in bytes unsigned byteCount( handle_t h ); rc_t byteCountFn( const char* fn, unsigned* fileByteCntPtr ); // Set *isEqualPtr=true if the two files are identical. rc_t compare( const char* fn0, const char* fn1, bool& isEqualFlRef ); // Return the file name associated with a file handle. const char* name( handle_t h ); // Write a buffer to a file. rc_t fnWrite( const char* fn, const void* buf, unsigned bufByteCnt ); // Allocate and fill a buffer from the file. // Set *bufByteCntPtr to count of bytes read into the buffer. // 'bufByteCntPtr' is optional - set it to nullptr if it is not required by the caller. // It is the callers responsibility to delete the returned buffer with a // call to cmMemFree() char* toBuf( handle_t h, unsigned* bufByteCntPtr ); // Same as fileToBuf() but accepts a file name argument. char* fnToBuf( const char* fn, unsigned* bufByteCntPtr ); // Copy the file named in srcDir/srcFn/srcExt to a file named dstDir/dstFn/dstExt. // Note that srcExt/dstExt may be set to nullptr if the file extension is included // in srcFn/dstFn. Likewise srcFn/dstFn may be set to nullptr if the file name // is included in srcDir/dstDir. rc_t copy( const char* srcDir, const char* srcFn, const char* srcExt, const char* dstDir, const char* dstFn, const char* dstExt); // This function creates a backup copy of the file 'fn' by duplicating it into // a file named fn_#.ext where # is an integer which makes the file name unique. // The integers chosen with zero and are incremented until an // unused file name is found in the same directory as 'fn'. // If the file identified by 'fn' is not found then the function returns quietly. rc_t backup( const char* dir, const char* name, const char* ext ); // Allocate and fill a zero terminated string from a file. // Set *bufByteCntPtr to count of bytes read into the buffer.= // (the buffer memory size is one byte larger to account for the terminating zero) // 'bufByteCntPtr' is optional - set it to nullptr if it is not required by the caller. // It is the callers responsibility to delete the returned buffer with a // call to cmMemFree() char* toStr( handle_t h, unsigned* bufByteCntPtr ); // Same as fileToBuf() but accepts a file name argument. char* fnToStr( const char* fn, unsigned* bufByteCntPtr ); // Return the count of lines in a file. rc_t lineCount( handle_t h, unsigned* lineCntPtr ); // Read the next line into buf[bufByteCnt]. // Consider using fileGetLineAuto() as an alternative to this function // to avoid having to use a buffer with an explicit size. // // If buf is not long enough to hold the entire string then // // 1. The function returns kFileBufTooSmallRC // 2. *bufByteCntPtr is set to the size of the required buffer. // 3. The internal file position is left unchanged. // // If the buffer is long enough to hold the entire line then // *bufByteCntPtr is left unchanged. // See fileGetLineTest() in cmProcTest.c or fileGetLineAuto() // in file.c for examples of how to use this function to a // achieve proper buffer sizing. rc_t getLine( handle_t h, char* buf, unsigned* bufByteCntPtr ); // A version of fileGetLine() which eliminates the need to handle buffer // sizing. // // Example usage: // // char* buf = nullptr; // unsigned bufByteCnt = 0; // while(fileGetLineAuto(h,&buf,&bufByteCnt)==kOkFileRC) // proc(buf); // cmMemPtrFree(buf); // // On the first call to this function *bufPtrPtr must be set to nullptr and // *bufByteCntPtr must be set to 0. // Following the last call to this function call cmMemPtrFree(bufPtrptr) // to be sure the line buffer is fully released. Note this step is not // neccessary if the last call does not return kOkFileRC. rc_t getLineAuto( handle_t h, char** bufPtrPtr, unsigned* bufByteCntPtr ); // Binary Array Reading Functions // Each of these functions reads a block of binary data from a file. // The advantage to using these functions over fileRead() is only that they are type specific. rc_t readChar( handle_t h, char* buf, unsigned cnt=1 ); rc_t readUChar( handle_t h, unsigned char* buf, unsigned cnt=1 ); rc_t readShort( handle_t h, short* buf, unsigned cnt=1 ); rc_t readUShort( handle_t h, unsigned short* buf, unsigned cnt=1 ); rc_t readLong( handle_t h, long* buf, unsigned cnt=1 ); rc_t readULong( handle_t h, unsigned long* buf, unsigned cnt=1 ); rc_t readInt( handle_t h, int* buf, unsigned cnt=1 ); rc_t readUInt( handle_t h, unsigned int* buf, unsigned cnt=1 ); rc_t readFloat( handle_t h, float* buf, unsigned cnt=1 ); rc_t readDouble( handle_t h, double* buf, unsigned cnt=1 ); rc_t readBool( handle_t h, bool* buf, unsigned cnt=1 ); inline rc_t read( handle_t h, char& x ){ return readChar(h,&x); } inline rc_t read( handle_t h, unsigned char& x ){ return readUChar(h,&x); } inline rc_t read( handle_t h, short& x ){ return readShort(h,&x); } inline rc_t read( handle_t h, unsigned short& x ){ return readUShort(h,&x); } inline rc_t read( handle_t h, long& x ){ return readLong(h,&x); } inline rc_t read( handle_t h, unsigned long& x ){ return readULong(h,&x); } inline rc_t read( handle_t h, int& x ){ return readInt(h,&x); } inline rc_t read( handle_t h, unsigned int& x ){ return readUInt(h,&x); } inline rc_t read( handle_t h, float& x ){ return readFloat(h,&x); } inline rc_t read( handle_t h, double& x ){ return readDouble(h,&x); } inline rc_t read( handle_t h, bool& x ){ return readBool(h,&x); } // Binary Array Writing Functions // Each of these functions writes an array to a binary file. // The advantage to using functions rather than fileWrite() is only that they are type specific. rc_t writeChar( handle_t h, const char* buf, unsigned cnt=1 ); rc_t writeUChar( handle_t h, const unsigned char* buf, unsigned cnt=1 ); rc_t writeShort( handle_t h, const short* buf, unsigned cnt=1 ); rc_t writeUShort( handle_t h, const unsigned short* buf, unsigned cnt=1 ); rc_t writeLong( handle_t h, const long* buf, unsigned cnt=1 ); rc_t writeULong( handle_t h, const unsigned long* buf, unsigned cnt=1 ); rc_t writeInt( handle_t h, const int* buf, unsigned cnt=1 ); rc_t writeUInt( handle_t h, const unsigned int* buf, unsigned cnt=1 ); rc_t writeFloat( handle_t h, const float* buf, unsigned cnt=1 ); rc_t writeDouble( handle_t h, const double* buf, unsigned cnt=1 ); rc_t writeBool( handle_t h, const bool* buf, unsigned cnt=1 ); inline rc_t write( handle_t h, const char& x ) { return writeChar(h,&x); } inline rc_t write( handle_t h, const unsigned char& x ) { return writeUChar(h,&x); } inline rc_t write( handle_t h, const short& x ) { return writeShort(h,&x); } inline rc_t write( handle_t h, const unsigned short& x ) { return writeUShort(h,&x); } inline rc_t write( handle_t h, const long& x ) { return writeLong(h,&x); } inline rc_t write( handle_t h, const unsigned long& x ) { return writeULong(h,&x); } inline rc_t write( handle_t h, const int& x ) { return writeInt(h,&x); } inline rc_t write( handle_t h, const unsigned int& x ) { return writeUInt(h,&x); } inline rc_t write( handle_t h, const float& x ) { return writeFloat(h,&x); } inline rc_t write( handle_t h, const double& x ) { return writeDouble(h,&x); } inline rc_t write( handle_t h, const bool& x ) { return writeBool(h,&x); } // Write a string to a file as ... // where N is the count of characters in the string. rc_t writeStr( handle_t h, const char* s ); // Read a string back from a file as written by fileWriteStr(). // Note that the string will by string will be dynamically allocated // and threfore must eventually be released via cmMemFree(). // If maxCharN is set to zero then the default maximum string // length is 16384. Note that this limit is used to prevent // corrupt files from generating excessively long strings. rc_t readStr( handle_t h, char** sRef, unsigned maxCharN ); // Formatted Text Output Functions: // Print formatted text to a file. rc_t print( handle_t h, const char* text ); rc_t printf( handle_t h, const char* fmt, ... ); rc_t vPrintf( handle_t h, const char* fmt, va_list vl ); } } #endif