/* -*- mode: c; tab-width: 4; indent-tabs-mode: t; c-basic-offset: 4 -*- * * $Id$ * * Copyright (c) 2009-2014, Erik Lindahl & David van der Spoel * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /*! \file xdrfile.h * \brief Interface to read/write portabile binary files using XDR. * * This file provides an interface to read & write portably binary files, * using XDR - the external data representation standard defined in RFC 1014. * * There are several advantages to the XDR approach: * * -# It is portable. And not just portable between big/small integer endian, * but truly portable if you have system XDR routines. For example: * - It doesn't matter if the character representation is ASCII or EBCDIC. * - Some systems are small endian but use big endian order of the two * dword in a double precision floating-point variable. The system XDR * libraries will read/write this correctly. * - Some systems (VAX...) don't use IEEE floating point. Their system * XDR libraries will convert to/from this automatically. * -# XDR libraries are required for NFS and lots of other network functions. * This means there isn't a single Unix-like system that doesn't have them. * -# There is NO extra metadata whatsoever, and we write plain XDR files. * If you write a float, it will take exactly 4 bytes in the file. * (All basic datatypes are 4 bytes, double fp 8 bytes). * -# You can read/write the files by calling the system XDR routines directly * too - you don't have to use the routines defined in this file. * -# It is no problem if your system doesn't have XDR libraries (MS Windows). * We have written our own versions of the necessary routines that work if * your system uses ASCII for strings and IEEE floating-point. All types * of byte and dword endian for integer and floating-point are supported. * -# You can use these routines for any type of data, but since we designed * them for Gromacs we also provide a special routine to write coordinates * with (adjustable) lossy compression. The default precision will give you * three decimals guaranteed accuracy, and reduces the filesize to 1/10th * of normal binary data. * * We do not support getting or setting positions in XDR files, since it can * break in horrible ways for large (64-bit) files, resulting in silent data * corruption. Note that it works great to open/read/write 64-bit files if * your system supports it; it is just the random access we cannot trust! * * We also provide wrapper routines so this module can be used from FORTRAN - * see the file xdrfile_fortran.txt in the Gromacs distribution for * documentation on the FORTRAN interface! */ #ifndef _XDRFILE_H_ #define _XDRFILE_H_ #ifdef __cplusplus extern "C" { #endif /*! \brief Abstract datatype for an portable binary file handle * * This datatype essentially works just like the standard FILE type in C. * The actual contents is hidden in the implementation, so you can only * define pointers to it, for use with the xdrfile routines. * * If you \a really need to see the definition it is in xdrfile.c, but you * cannot access elements of the structure outside that file. * * \warning The implementation is completely different from the C standard * library FILE, so don't even think about using an XDRFILE pointer as an * argument to a routine that needs a standard FILE pointer. */ typedef struct XDRFILE XDRFILE; enum { exdrOK, exdrHEADER, exdrSTRING, exdrDOUBLE, exdrINT, exdrFLOAT, exdrUINT, exdr3DX, exdrCLOSE, exdrMAGIC, exdrNOMEM, exdrENDOFFILE, exdrFILENOTFOUND, exdrNR }; extern char *exdr_message[exdrNR]; #define DIM 3 typedef float matrix[DIM][DIM]; typedef float rvec[DIM]; typedef int mybool; /*! \brief Open a portable binary file, just like fopen() * * Use this routine much like calls to the standard library function * fopen(). The only difference is that the returned pointer should only * be used with routines defined in this header. * * \param path Full or relative path (including name) of the file * \param mode "r" for reading, "w" for writing, "a" for append. * * \return Pointer to abstract xdr file datatype, or NULL if an error occurs. * */ XDRFILE * xdrfile_open(const char *path, const char *mode); /*! \brief Close a previously opened portable binary file, just like fclose() * * Use this routine much like calls to the standard library function * fopen(). The only difference is that it is used for an XDRFILE handle * instead of a FILE handle. * * \param xfp Pointer to an abstract XDRFILE datatype * * \return 0 on success, non-zero on error. */ int xdrfile_close(XDRFILE *xfp); /*! \brief Read one or more \a char type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of characters to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of characters read */ int xdrfile_read_char(char *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a characters type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of characters to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of characters written */ int xdrfile_write_char(char *ptr, int ndata, XDRFILE *xfp); /*! \brief Read one or more \a unsigned \a char type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of unsigned characters to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of unsigned characters read */ int xdrfile_read_uchar(unsigned char *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a unsigned \a characters type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of unsigned characters to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of unsigned characters written */ int xdrfile_write_uchar(unsigned char *ptr, int ndata, XDRFILE *xfp); /*! \brief Read one or more \a short type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of shorts to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of shorts read */ int xdrfile_read_short(short *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a short type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of shorts to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of shorts written */ int xdrfile_write_short(short *ptr, int ndata, XDRFILE *xfp); /*! \brief Read one or more \a unsigned \a short type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of unsigned shorts to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of unsigned shorts read */ int xdrfile_read_ushort(unsigned short *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a unsigned \a short type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of unsigned shorts to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of unsigned shorts written */ int xdrfile_write_ushort(unsigned short *ptr, int ndata, XDRFILE *xfp); /*! \brief Read one or more \a integer type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of integers to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of integers read * * The integer data type is assumed to be less than or equal to 32 bits. * * We do not provide any routines for reading/writing 64-bit integers, since * - Not all XDR implementations support it * - Not all machines have 64-bit integers * * Split your 64-bit data into two 32-bit integers for portability! */ int xdrfile_read_int(int *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a integer type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of integers to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of integers written * * The integer data type is assumed to be less than or equal to 32 bits. * * We do not provide any routines for reading/writing 64-bit integers, since * - Not all XDR implementations support it * - Not all machines have 64-bit integers * * Split your 64-bit data into two 32-bit integers for portability! */ int xdrfile_write_int(int *ptr, int ndata, XDRFILE *xfp); /*! \brief Read one or more \a unsigned \a integers type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of unsigned integers to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of unsigned integers read * * The integer data type is assumed to be less than or equal to 32 bits. * * We do not provide any routines for reading/writing 64-bit integers, since * - Not all XDR implementations support it * - Not all machines have 64-bit integers * * Split your 64-bit data into two 32-bit integers for portability! */ int xdrfile_read_uint(unsigned int *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a unsigned \a integer type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of unsigned integers to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of unsigned integers written * * The integer data type is assumed to be less than or equal to 32 bits. * * We do not provide any routines for reading/writing 64-bit integers, since * - Not all XDR implementations support it * - Not all machines have 64-bit integers * * Split your 64-bit data into two 32-bit integers for portability! */ int xdrfile_write_uint(unsigned int *ptr, int ndata, XDRFILE *xfp); /*! \brief Read one or more \a float type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of floats to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of floats read */ int xdrfile_read_float(float *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a float type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of floats to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of floats written */ int xdrfile_write_float(float *ptr, int ndata, XDRFILE *xfp); /*! \brief Read one or more \a double type variable(s) * * \param ptr Pointer to memory where data should be written * \param ndata Number of doubles to read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of doubles read */ int xdrfile_read_double(double *ptr, int ndata, XDRFILE *xfp); /*! \brief Write one or more \a double type variable(s) * * \param ptr Pointer to memory where data should be read * \param ndata Number of double to write. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of doubles written */ int xdrfile_write_double(double *ptr, int ndata, XDRFILE *xfp); /*! \brief Read a string (array of characters) * * \param ptr Pointer to memory where data should be written * \param maxlen Maximum length of string. If no end-of-string is encountered, * one byte less than this is read and end-of-string appended. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of characters read, including end-of-string */ int xdrfile_read_string(char *ptr, int maxlen, XDRFILE *xfp); /*! \brief Write a string (array of characters) * * \param ptr Pointer to memory where data should be read * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of characters written, including end-of-string */ int xdrfile_write_string(char *ptr, XDRFILE *xfp); /*! \brief Read raw bytes from file (unknown datatype) * * \param ptr Pointer to memory where data should be written * \param nbytes Number of bytes to read. No conversion whatsoever is done. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of bytes read from file */ int xdrfile_read_opaque(char *ptr, int nbytes, XDRFILE *xfp); /*! \brief Write raw bytes to file (unknown datatype) * * \param ptr Pointer to memory where data should be read * \param nbytes Number of bytes to write. No conversion whatsoever is done. * \param xfp Handle to portable binary file, created with xdrfile_open() * * \return Number of bytes written to file */ int xdrfile_write_opaque(char *ptr, int nbytes, XDRFILE *xfp); /*! \brief Compress coordiates in a float array to XDR file * * This routine will perform \a lossy compression on the three-dimensional * coordinate data data specified and store it in the XDR file. * * The lossy part of the compression consists of multiplying each * coordinate with the precision argument and then rounding to integers. * We suggest a default value of 1000.0, which means you are guaranteed * three decimals of accuracy. The only limitation is that scaled coordinates * must still fit in an integer variable, so if the precision is 1000.0 the * coordinate magnitudes must be less than +-2e6. * * \param ptr Pointer to coordinates to compress (length 3*ncoord) * \param ncoord Number of coordinate triplets in data * \param precision Scaling factor for lossy compression. If it is <=0, * the default value of 1000.0 is used. * \param xfp Handle to portably binary file * * \return Number of coordinate triplets written. * IMPORTANT: Check that this is equal to ncoord - if it is * negative, an error occured. This should not happen with * normal data, but if your coordinates are NaN or very * large (>1e6) it is not possible to use the compression. * * \warning The compression algorithm is not part of the XDR standard, * and very complicated, so you will need this xdrfile module * to read it later. */ int xdrfile_compress_coord_float(float *ptr, int ncoord, float precision, XDRFILE *xfp); /*! \brief Decompress coordiates from XDR file to array of floats * * This routine will decompress three-dimensional coordinate data previously * stored in an XDR file and store it in the specified array of floats. * * The precision used during the earlier compression is read from the file * and returned - you cannot adjust the accuracy at this stage. * * \param ptr Pointer to coordinates to compress (length>= 3*ncoord) * \param ncoord Max number of coordinate triplets to read on input, actual * number of coordinate triplets read on return. If this * is smaller than the number of coordinates in the frame an * error will occur. * \param precision The precision used in the previous compression will be * written to this variable on return. * \param xfp Handle to portably binary file * * \return Number of coordinate triplets read. If this is negative, * an error occured. * * \warning Since we cannot count on being able to set/get the * position of large files (>2Gb), it is not possible to * recover from errors by re-reading the frame if the * storage area you provided was too small. To avoid this * from happening, we recommend that you store the number of * coordinates triplet as an integer either in a header or * just before the compressed coordinate data, so you can * read it first and allocated enough memory. */ int xdrfile_decompress_coord_float(float *ptr, int *ncoord, float *precision, XDRFILE *xfp); /*! \brief Compress coordiates in a double array to XDR file * * This routine will perform \a lossy compression on the three-dimensional * coordinate data data specified and store it in the XDR file. Double will * NOT give you any extra precision since the coordinates are compressed. This * routine just avoids allocating a temporary array of floats. * * The lossy part of the compression consists of multiplying each * coordinate with the precision argument and then rounding to integers. * We suggest a default value of 1000.0, which means you are guaranteed * three decimals of accuracy. The only limitation is that scaled coordinates * must still fit in an integer variable, so if the precision is 1000.0 the * coordinate magnitudes must be less than +-2e6. * * \param ptr Pointer to coordinates to compress (length 3*ncoord) * \param ncoord Number of coordinate triplets in data * \param precision Scaling factor for lossy compression. If it is <=0, the * default value of 1000.0 is used. * \param xfp Handle to portably binary file * * \return Number of coordinate triplets written. * IMPORTANT: Check that this is equal to ncoord - if it is * negative, an error occured. This should not happen with * normal data, but if your coordinates are NaN or very * large (>1e6) it is not possible to use the compression. * * \warning The compression algorithm is not part of the XDR standard, * and very complicated, so you will need this xdrfile module * to read it later. */ int xdrfile_compress_coord_double(double *ptr, int ncoord, double precision, XDRFILE *xfp); /*! \brief Decompress coordiates from XDR file to array of doubles * * This routine will decompress three-dimensional coordinate data previously * stored in an XDR file and store it in the specified array of doubles. * Double will NOT give you any extra precision since the coordinates are * compressed. This routine just avoids allocating a temporary array of floats. * * The precision used during the earlier compression is read from the file * and returned - you cannot adjust the accuracy at this stage. * * \param ptr Pointer to coordinates to compress (length>= 3*ncoord) * \param ncoord Max number of coordinate triplets to read on input, actual * number of coordinate triplets read on return. If this * is smaller than the number of coordinates in the frame an * error will occur. * \param precision The precision used in the previous compression will be * written to this variable on return. * \param xfp Handle to portably binary file * * \return Number of coordinate triplets read. If this is negative, * an error occured. * * \warning Since we cannot count on being able to set/get the * position of large files (>2Gb), it is not possible to * recover from errors by re-reading the frame if the * storage area you provided was too small. To avoid this * from happening, we recommend that you store the number of * coordinates triplet as an integer either in a header or * just before the compressed coordinate data, so you can * read it first and allocated enough memory. */ int xdrfile_decompress_coord_double(double *ptr, int *ncoord, double *precision, XDRFILE *xfp); int xtc_jump_to_start(XDRFILE *xdp, float target_time); /*! * \brief Moves the file position indicator by `offset` bytes from its current position. * * \param xdp pointer to the XDRFILE * \param offset number of bytes to move by * * \return 0 if successfully moved, 1 in case of an error * * \note This function was written for the `groan_rs` library. */ int xdr_jump(XDRFILE *xdp, long offset); #ifdef __cplusplus } #endif #endif /* _XDRFILE_H_ */