/usr/include/wcstools/fitsfile.h is in libwcstools-dev 3.8.7-2.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 | /*** File fitsfile.h FITS and IRAF file access subroutines
*** September 25, 2009
*** By Jessica Mink, jmink@cfa.harvard.edu
*** Harvard-Smithsonian Center for Astrophysics
*** Copyright (C) 1996-2009
*** Smithsonian Astrophysical Observatory, Cambridge, MA, USA
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
Correspondence concerning WCSTools should be addressed as follows:
Internet email: jmink@cfa.harvard.edu
Postal address: Jessica Mink
Smithsonian Astrophysical Observatory
60 Garden St.
Cambridge, MA 02138 USA
*/
#ifndef fitsfile_h_
#define fitsfile_h_
#include "fitshead.h"
/* Declarations for subroutines in fitsfile.c, imhfile.c, imio.c,
* fileutil.c, and dateutil.c */
#define FITSBLOCK 2880
/* FITS table keyword structure */
struct Keyword {
char kname[10]; /* Keyword for table entry */
int lname; /* Length of keyword name */
int kn; /* Index of entry on line */
int kf; /* Index in line of first character of entry */
int kl; /* Length of entry value */
char kform[8]; /* Format for this value */
};
/* Structure for access to tokens within a string */
#define MAXTOKENS 1000 /* Maximum number of tokens to parse */
#define MAXWHITE 20 /* Maximum number of different whitespace characters */
struct Tokens {
char *line; /* Line which has been parsed */
int lline; /* Number of characters in line */
int ntok; /* Number of tokens on line */
int nwhite; /* Number of whitespace characters */
char white[MAXWHITE]; /* Whitespace (separator) characters */
char *tok1[MAXTOKENS]; /* Pointers to start of tokens */
int ltok[MAXTOKENS]; /* Lengths of tokens */
int itok; /* Current token number */
};
#ifdef __cplusplus /* C++ prototypes */
extern "C" {
#endif
#ifdef __STDC__ /* Full ANSI prototypes */
/* Declarations for subroutines in fitsfile.c, imhfile.c, imio.c,
* fileutil.c, and dateutil.c */
/* FITS file access subroutines in fitsfile.c */
int fitsropen( /* Open a FITS file for reading, returning a FILE pointer */
char *inpath); /* Pathname for FITS tables file to read */
char *fitsrhead( /* Read a FITS header */
char *filename, /* Name of FITS image file */
int *lhead, /* Allocated length of FITS header in bytes (returned) */
int *nbhead); /* Number of bytes before start of data (returned) */
char *fitsrtail( /* Read FITS header appended to graphics file */
char *filename, /* Name of FITS image file */
int *lhead, /* Allocated length of FITS header in bytes (returned) */
int *nbhead); /* Number of bytes before start of data (returned) */
char *fitsrimage( /* Read a FITS image */
char *filename, /* Name of FITS image file */
int nbhead, /* Actual length of image header(s) in bytes */
char *header); /* FITS header for image (previously read) */
char *fitsrfull( /* Read a FITS image of any dimension */
char *filename, /* Name of FITS image file */
int nbhead, /* Actual length of image header(s) in bytes */
char *header); /* FITS header for image (previously read) */
char *fitsrsect( /* Read a piece of a FITS image, header */
char *filename, /* Name of FITS image file */
char *header, /* FITS header for image (previously read) */
int nbhead, /* Actual length of image header(s) in bytes */
int x0, /* FITS image X coordinate of first pixel */
int y0, /* FITS image Y coordinate of first pixel */
int nx, /* Number of columns to read (less than NAXIS1) */
int ny, /* Number of rows to read (less than NAXIS2) */
int nlog); /* Note progress mod this rows */
int fitswhead( /* Write FITS header; keep file open for further writing */
char *filename, /* Name of FITS image file */
char *header); /* FITS header for image (previously read) */
int fitswexhead( /* Write FITS header in place */
char *filename, /* Name of FITS image file */
char *header); /* FITS header for image */
int fitswext( /* Write FITS header and image as extension to a file */
char *filename, /* Name of FITS image file */
char *header, /* FITS image header */
char *image); /* FITS image pixels */
int fitswhdu( /* Write FITS head and image as extension */
int fd, /* File descriptor */
char *filename, /* Name of FITS image file */
char *header, /* FITS image header */
char *image); /* FITS image pixels */
int fitswimage( /* Write FITS header and image */
char *filename, /* Name of FITS image file */
char *header, /* FITS image header */
char *image); /* FITS image pixels */
int fitscimage( /* Write FITS header and copy FITS image */
char *filename, /* Name of output FITS image file */
char *header, /* FITS image header */
char *filename0); /* Name of input FITS image file */
int isfits( /* Return 1 if file is a FITS file */
char *filename); /* Name of file to check */
void fitserr(); /* Print FITS error message to stderr */
void setfitsinherit( /* Set flag to append primary data header */
int inh); /* 1 to inherit primary data header, else 0 */
int fitsheadsize( /* Return size of fitsheader in bytes */
char *header); /* FITS image header */
/* FITS table file access subroutines in fitsfile.c */
int fitsrtopen( /* Open FITS table file and fill structure with
* pointers to selected keywords
* Return file descriptor (-1 if unsuccessful) */
char *inpath, /* Pathname for FITS tables file to read */
int *nk, /* Number of keywords to use */
struct Keyword **kw, /* Structure for desired entries */
int *nrows, /* Number of rows in table (returned) */
int *nchar, /* Number of characters in one table row (returned) */
int *nbhead); /* Number of characters before table starts */
int fitsrthead( /* Read pointers to selected keywords
* from FITS table header */
char *header, /* Header for FITS tables file */
int *nk, /* Number of keywords to use */
struct Keyword **kw, /* Structure for desired entries */
int *nrows, /* Number of rows in table (returned) */
int *nchar); /* Number of characters in one table row (returned) */
void fitsrtlset(void); /* Reset FITS Table buffer limits from start of data */
int fitsrtline( /* Return specified line of FITS table */
int fd, /* File descriptor for FITS file */
int nbhead, /* Number of bytes in FITS header */
int lbuff, /* Number of bytes in table buffer */
char *tbuff, /* FITS table buffer */
int irow, /* Number of table row to read */
int nbline, /* Number of bytes to read for this line */
char *line); /* One line of FITS table (returned) */
short ftgeti2( /* Extract column for keyword from FITS table line
* as short */
char *entry, /* Row or entry from table */
struct Keyword *kw); /* Table column information from FITS header */
int ftgeti4( /* Extract column for keyword from FITS table line
* as int */
char *entry, /* Row or entry from table */
struct Keyword *kw); /* Table column information from FITS header */
float ftgetr4( /* Extract column for keyword from FITS table line
* as float */
char *entry, /* Row or entry from table */
struct Keyword *kw); /* Table column information from FITS header */
double ftgetr8( /* Extract column for keyword from FITS table line
* as double */
char *entry, /* Row or entry from table */
struct Keyword *kw); /* Table column information from FITS header */
int ftgetc( /* Extract column for keyword from FITS table line
* as char string */
char *entry, /* Row or entry from table */
struct Keyword *kw, /* Table column information from FITS header */
char *string, /* Returned string */
int maxchar); /* Maximum number of characters in returned string */
void moveb ( /* Copy nbytes bytes from source+offs to dest+offd */
char *source, /* Pointer to source */
char *dest, /* Pointer to destination */
int nbytes, /* Number of bytes to move */
int offs, /* Offset in bytes in source from which to start copying */
int offd); /* Offset in bytes in destination to which to start copying */
/* IRAF file access subroutines in imhfile.c */
char *irafrhead( /* Read IRAF .imh header file and translate to FITS header */
char *filename, /* Name of IRAF header file */
int *lihead); /* Length of IRAF image header in bytes (returned) */
char *irafrimage( /* Read IRAF image pixels (call after irafrhead) */
char *fitsheader); /* FITS image header (filled) */
int irafwhead( /* Write IRAF .imh header file */
char *hdrname, /* Name of IRAF header file */
int lhead, /* Length of IRAF header */
char *irafheader, /* IRAF header */
char *fitsheader); /* FITS image header */
int irafwimage( /* Write IRAF .imh header file and .pix image file */
char *hdrname, /* Name of IRAF header file */
int lhead, /* Length of IRAF header */
char *irafheader, /* IRAF header */
char *fitsheader, /* FITS image header */
char *image); /* IRAF image */
int isiraf( /* return 1 if IRAF imh file, else 0 */
char *filename); /* Name of file to check */
char *iraf2fits( /* Convert IRAF image header to FITS image header,
* returning FITS header */
char *hdrname, /* IRAF header file name (may be path) */
char *irafheader, /* IRAF image header */
int nbiraf, /* Number of bytes in IRAF header */
int *nbfits); /* Number of bytes in FITS header (returned) */
char *fits2iraf( /* Convert FITS image header to IRAF image header,
* returning IRAF header */
char *fitsheader, /* FITS image header */
char *irafheader, /* IRAF image header (returned updated) */
int nbhead, /* Length of IRAF header */
int *nbiraf); /* Length of returned IRAF header */
/* Image pixel access subroutines in imio.c */
double getpix( /* Read one pixel from any data type 2-D array (0,0)*/
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel
* 16 = short, -16 = unsigned short, 32 = int
* -32 = float, -64 = double */
int w, /* Image width in pixels */
int h, /* Image height in pixels */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int x, /* Zero-based horizontal pixel number */
int y); /* Zero-based vertical pixel number */
double getpix1( /* Read one pixel from any data type 2-D array (1,1)*/
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
int w, /* Image width in pixels */
int h, /* Image height in pixels */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int x, /* One-based horizontal pixel number */
int y); /* One-based vertical pixel number */
double maxvec( /* Get maximum value in vector from a image */
char *image, /* Image array from which to extract vector */
int bitpix, /* Number of bits per pixel in image */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* Offset of first pixel to extract */
int npix); /* Number of pixels to extract */
double minvec( /* Get minimum value in vector from a image */
char *image, /* Image array from which to extract vector */
int bitpix, /* Number of bits per pixel in image */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* Offset of first pixel to extract */
int npix); /* Number of pixels to extract */
void putpix( /* Write one pixel to any data type 2-D array (0,0)*/
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
int w, /* Image width in pixels */
int h, /* Image height in pixels */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int x, /* Zero-based horizontal pixel number */
int y, /* Zero-based vertical pixel number */
double dpix); /* Value to put into image pixel */
void putpix1( /* Write one pixel to any data type 2-D array (1,1) */
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
int w, /* Image width in pixels */
int h, /* Image height in pixels */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int x, /* One-based horizontal pixel number */
int y, /* One-based vertical pixel number */
double dpix); /* Value to put into image pixel */
void addpix( /* Add to one pixel in any data type 2-D array (0,0)*/
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
int w, /* Image width in pixels */
int h, /* Image height in pixels */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int x, /* Zero-based horizontal pixel number */
int y, /* Zero-based vertical pixel number */
double dpix); /* Value to add to image pixel */
void addpix1( /* Add to one pixel in any data type 2-D array (1,1)*/
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
int w, /* Image width in pixels */
int h, /* Image height in pixels */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int x, /* One-based horizontal pixel number */
int y, /* One-based vertical pixel number */
double dpix); /* Value to add to image pixel */
void movepix( /* Move one pixel value between two 2-D arrays (0,0) */
char *image1, /* Pointer to first pixel in input image */
int bitpix1, /* Bits per input pixel (FITS codes) */
int w1, /* Number of horizontal pixels in input image */
int x1, /* Zero-based row for input pixel */
int y1, /* Zero-based column for input pixel */
char *image2, /* Pointer to first pixel in output image */
int bitpix2, /* Bits per output pixel (FITS codes) */
int w2, /* Number of horizontal pixels in output image */
int x2, /* Zero-based row for output pixel */
int y2); /* Zero-based column for output pixel */
void movepix1( /* Move one pixel value between two 2-D arrays (1,1) */
char *image1, /* Pointer to first pixel in input image */
int bitpix1, /* Bits per input pixel (FITS codes) */
int w1, /* Number of horizontal pixels in input image */
int x1, /* One-based row for input pixel */
int y1, /* One-based column for input pixel */
char *image2, /* Pointer to first pixel in output image */
int bitpix2, /* Bits per output pixel (FITS codes) */
int w2, /* Number of horizontal pixels in output image */
int x2, /* One-based row for output pixel */
int y2); /* One-based column for output pixel */
/* Image vector processing subroutines in imio.c */
void addvec( /* Add constant to vector from 2-D array */
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* Offset of first pixel to which to add */
int npix, /* Number of pixels to which to add */
double dpix); /* Value to add to pixels */
void multvec( /* Multiply vector from 2-D array by a constant */
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* Offset of first pixel to multiply */
int npix, /* Number of pixels to multiply */
double dpix); /* Value to add to pixels */
void getvec( /* Read vector from 2-D array */
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* Offset of first pixel to extract */
int npix, /* Number of pixels to extract */
double *dvec0); /* Vector of pixels (returned) */
void putvec( /* Write vector into 2-D array */
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* Offset of first pixel to insert */
int npix, /* Number of pixels to insert */
double *dvec0); /* Vector of pixels to insert */
void fillvec( /* Write constant into a vector */
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* Zero-based offset of first pixel to multiply */
int npix, /* Number of pixels to multiply */
double dpix); /* Value to which to set pixels */
void fillvec1( /* Write constant into a vector */
char *image, /* Image array as 1-D vector */
int bitpix, /* FITS bits per pixel */
double bzero, /* Zero point for pixel scaling */
double bscale, /* Scale factor for pixel scaling */
int pix1, /* One-based offset of first pixel to multiply */
int npix, /* Number of pixels to multiply */
double dpix); /* Value to which to set pixels */
/* Image pixel byte-swapping subroutines in imio.c */
void imswap( /* Swap alternating bytes in a vector */
int bitpix, /* Number of bits per pixel */
char *string, /* Address of starting point of bytes to swap */
int nbytes); /* Number of bytes to swap */
void imswap2( /* Swap bytes in a vector of 2-byte (short) integers */
char *string, /* Address of starting point of bytes to swap */
int nbytes); /* Number of bytes to swap */
void imswap4( /* Reverse bytes in a vector of 4-byte numbers */
char *string, /* Address of starting point of bytes to swap */
int nbytes); /* Number of bytes to swap */
void imswap8( /* Reverse bytes in a vector of 8-byte numbers */
char *string, /* Address of starting point of bytes to swap */
int nbytes); /* Number of bytes to swap */
int imswapped(void); /* Return 1 if machine byte order is not FITS order */
/* File utilities from fileutil.c */
int getfilelines( /* Return number of lines in an ASCII file */
char *filename); /* Name of file to check */
char *getfilebuff( /* Return entire file contents in a character string */
char *filename); /* Name of file to read */
int getfilesize( /* Return size of a binary or ASCII file */
char *filename); /* Name of file to check */
int isimlist( /* Return 1 if file is list of FITS or IRAF image files, else 0 */
char *filename); /* Name of file to check */
int isimlistd( /* Return 1 if file is list of FITS or IRAF image files, else 0 */
char *filename, /* Name of file to check */
char *rootdir); /* Name of root directory for files in list */
int isfilelist( /* Return 1 if list of readable files, else 0 */
char *filename, /* Name of file to check */
char *rootdir); /* Name of root directory for files in list */
int isfile( /* Return 1 if file is a readable file, else 0 */
char *filename); /* Name of file to check */
int istiff( /* Return 1 if TIFF image file, else 0 */
char *filename); /* Name of file to check */
int isjpeg( /* Return 1 if JPEG image file, else 0 */
char *filename); /* Name of file to check */
int isgif( /* Return 1 if GIF image file, else 0 */
char *filename); /* Name of file to check */
int first_token( /* Return first token from the next line of an ASCII file */
FILE *diskfile, /* File descriptor for ASCII file */
int ncmax, /* Maximum number of characters returned */
char *token); /* First token on next line (returned) */
int stc2s ( /* Replace character in string with space */
char *spchar, /* Character to replace with spaces */
char *string); /* Character string to process */
int sts2c ( /* Replace spaces in string with character */
char *spchar, /* Character with which to replace spaces */
char *string); /* Character string to process */
/* Subroutines for access to tokens within a string from fileutil.c */
int setoken( /* Tokenize a string for easy decoding */
struct Tokens *tokens, /* Token structure returned */
char *string, /* character string to tokenize */
char *cwhite); /* additional whitespace characters
* if = tab, disallow spaces and commas */
int nextoken( /* Get next token from tokenized string */
struct Tokens *tokens, /* Token structure returned */
char *token, /* token (returned) */
int maxchars); /* Maximum length of token */
int getoken( /* Get specified token from tokenized string */
struct Tokens *tokens, /* Token structure returned */
int itok, /* token sequence number of token
* if <0, get whole string after token -itok
* if =0, get whole string */
char *token, /* token (returned) */
int maxchars); /* Maximum length of token */
/* Subroutines for translating dates and times in dateutil.c */
/* Subroutines to convert between floating point and vigesimal angles */
void ang2hr ( /* Fractional degrees to hours as hh:mm:ss.ss */
double angle, /* Angle in fractional degrees */
int lstr, /* Maximum number of characters in string */
char *string); /* Character string (hh:mm:ss.ss returned) */
void ang2deg ( /* Fractional degrees to degrees as dd:mm:ss.ss */
double angle, /* Angle in fractional degrees */
int lstr, /* Maximum number of characters in string */
char *string); /* Character string (dd:mm:ss.ss returned) */
double deg2ang ( /* Degrees as dd:mm:ss.ss to fractional degrees */
char *angle); /* Angle as dd:mm:ss.ss */
double hr2ang ( /* Hours as hh:mm:ss.ss to fractional degrees */
char *angle); /* Angle in sexigesimal hours (hh:mm:ss.sss) */
/* Subroutines to convert from year and day of year */
void doy2dt( /* Year and day of year to yyyy.mmdd hh.mmss */
int year, /* Year */
double doy, /* Day of year with fraction */
double *date, /* Date as yyyy.mmdd (returned) */
double *time); /* Time as hh.mmssxxxx (returned) */
double doy2ep( /* Year and day of year to fractional year (epoch) */
int year, /* Year */
double doy); /* Day of year with fraction */
double doy2epb( /* year and day of year to Besselian epoch */
int year, /* Year */
double doy); /* Day of year with fraction */
double doy2epj( /* year and day of year to Julian epoch */
int year, /* Year */
double doy); /* Day of year with fraction */
char *doy2fd( /* year and day of year to FITS date */
int year, /* Year */
double doy); /* Day of year with fraction */
double doy2jd( /* year and day of year to Julian Day */
int year, /* Year */
double doy); /* Day of year with fraction */
double doy2mjd( /* year and day of year to Modified Julian Day */
int year, /* Year */
double doy); /* Day of year with fraction */
double doy2ts( /* year and day of year to seconds since 1950.0 */
int year, /* Year */
double doy); /* Day of year with fraction */
int doy2tsi( /* year and day of year to IRAF seconds since 1980-01-01 */
int year, /* Year */
double doy); /* Day of year with fraction */
time_t doy2tsu( /* year and day of year to Unix seconds since 1970-01-01 */
int year, /* Year */
double doy); /* Day of year with fraction */
/* Subroutines to convert from date and time */
void dt2doy( /* yyyy.mmdd hh.mmss to year and day of year */
double date, /* Date as yyyy.mmdd
* yyyy = calendar year (e.g. 1973)
* mm = calendar month (e.g. 04 = april)
* dd = calendar day (e.g. 15) */
double time, /* Time as hh.mmssxxxx
* if time<0, it is time as -(fraction of a day)
* hh = hour of day (0 .le. hh .le. 23)
* nn = minutes (0 .le. nn .le. 59)
* ss = seconds (0 .le. ss .le. 59)
* xxxx = tenths of milliseconds (0 .le. xxxx .le. 9999) */
int *year, /* Year (returned) */
double *doy); /* Day of year with fraction (returned) */
double dt2ep( /* yyyy.ddmm and hh.mmsss to fractional year (epoch) */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
double dt2epb( /* yyyy.ddmm and hh.mmsss to Besselian epoch */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
double dt2epj( /* yyyy.ddmm and hh.mmsss to Julian epoch */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
char *dt2fd( /* yyyy.ddmm and hh.mmsss to FITS date string */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
void dt2i( /* yyyy.ddmm and hh.mmsss to year, month, day, hrs, min, sec */
double date, /* Date as yyyy.mmdd */
double time, /* Time as hh.mmssxxxx */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
double dt2jd( /* yyyy.ddmm and hh.mmsss to Julian Day */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
double dt2mjd( /* yyyy.ddmm and hh.mmsss to Modified Julian Day */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
double dt2ts( /* yyyy.ddmm and hh.mmsss to seconds since 1950.0 */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
int dt2tsi( /* yyyy.ddmm and hh.mmsss to IRAF seconds since 1980-01-01 */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
time_t dt2tsu( /* yyyy.ddmm and hh.mmsss to Unix seconds since 1970-01-01 */
double date, /* Date as yyyy.mmdd */
double time); /* Time as hh.mmssxxxx */
/* Subroutines to convert from epoch (various types of fractional year) */
void ep2dt( /* Fractional year to yyyy.mmdd hh.mmssss */
double epoch, /* Date as fractional year */
double *date, /* Date as yyyy.mmdd (returned) */
double *time); /* Time as hh.mmssxxxx (returned) */
void epb2dt( /* Besselian epoch to yyyy.mmdd hh.mmssss */
double epoch, /* Besselian epoch (fractional 365.242198781-day years) */
double *date, /* Date as yyyy.mmdd (returned) */
double *time); /* Time as hh.mmssxxxx (returned) */
void epj2dt( /* Julian epoch to yyyy.mmdd hh.mmssss */
double epoch, /* Julian epoch (fractional 365.25-day years) */
double *date, /* Date as yyyy.mmdd (returned)*/
double *time); /* Time as hh.mmssxxxx (returned) */
char *ep2fd( /* Fractional year to FITS date string yyyy-mm-ddThh:mm:ss.ss */
double epoch); /* Date as fractional year */
char *epb2fd( /* Besselian epoch to FITS date string yyyy-mm-ddThh:mm:ss.ss */
double epoch); /* Besselian epoch (fractional 365.242198781-day years) */
char *epj2fd( /* Julian epoch to FITS date string yyyy-mm-ddThh:mm:ss.ss */
double epoch); /* Julian epoch (fractional 365.25-day years) */
void ep2i( /* Fractional year to year, month, day, hours, min., sec. */
double epoch, /* Date as fractional year */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
void epb2i( /* Besselian epoch to year, month, day, hours, min., sec. */
double epoch, /* Besselian epoch (fractional 365.242198781-day years) */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
void epj2i( /* Julian epoch to year, month, day, hours, min., sec. */
double epoch, /* Julian epoch (fractional 365.25-day years) */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
double ep2jd( /* Fractional year to Julian Date */
double epoch); /* Date as fractional year */
double epb2jd( /* Besselian epoch to Julian Date */
double epoch); /* Besselian epoch (fractional 365.242198781-day years) */
double epj2jd( /* Julian epoch to Julian Date */
double epoch); /* Julian epoch (fractional 365.25-day years) */
double ep2mjd( /* Fractional year to Modified Julian Date */
double epoch); /* Date as fractional year */
double epb2mjd( /* Besselian epoch to Modified Julian Date */
double epoch); /* Besselian epoch (fractional 365.242198781-day years) */
double epj2mjd( /* Julian epoch to Modified Julian Date */
double epoch); /* Julian epoch (fractional 365.25-day years) */
double ep2epb( /* Fractional year to Besselian epoch */
double epoch); /* Date as fractional year */
double ep2epj( /* Fractional year to Julian epoch */
double epoch); /* Date as fractional year */
double epb2epj( /* Besselian epoch to Julian epoch */
double epoch); /* Besselian epoch (fractional 365.242198781-day years) */
double epj2epb( /* Julian epoch to Besselian epoch */
double epoch); /* Julian epoch (fractional 365.25-day years) */
double epb2ep( /* Besselian epoch to fractional year */
double epoch); /* Besselian epoch (fractional 365.242198781-day years) */
double epj2ep( /* Julian epoch to fractional year */
double epoch); /* Julian epoch (fractional 365.25-day years) */
double ep2ts( /* Fractional year to seconds since 1950.0 */
double epoch); /* Date as fractional year */
double epb2ts( /* Besselian epoch to seconds since 1950.0 */
double epoch); /* Besselian epoch (fractional 365.242198781-day years) */
double epj2ts( /* Julian epoch to seconds since 1950.0 */
double epoch); /* Julian epoch (fractional 365.25-day years) */
/* Convert from FITS standard date string */
void fd2dt( /* FITS standard date string to date and time */
char *string, /* FITS date string, which may be:
* fractional year
* dd/mm/yy (FITS standard before 2000)
* dd-mm-yy (nonstandard use before 2000)
* yyyy-mm-dd (FITS standard after 1999)
* yyyy-mm-ddThh:mm:ss.ss (FITS standard after 1999) */
double *date, /* Date as yyyy.mmdd (returned)*/
double *time); /* Time as hh.mmssxxxx (returned) */
void fd2doy( /* FITS standard date string to year, day of year */
char *string, /* FITS date string */
int *year, /* Year (returned) */
double *doy); /* Day of year with fraction (returned) */
double fd2ep( /* FITS standard date string to fractional year (epoch) */
char *string); /* FITS date string */
double fd2epb( /* FITS standard date string to Besselian epoch */
char *string); /* FITS date string */
double fd2epj( /* FITS standard date string to Julian epoch */
char *string); /* FITS date string */
char *fd2fd( /* Any FITS standard date string to ISO FITS date string */
char *string); /* FITS date string */
char *fd2of( /* Any FITS standard date string to old FITS date and time */
char *string); /* FITS date string */
char *fd2ofd( /* Any FITS standard date string to old FITS date string */
char *string); /* FITS date string */
char *fd2oft( /* Any FITS standard date string to old FITS time string */
char *string); /* FITS date string */
void fd2i( /* FITS standard date string to year, mon, day, hrs, min, sec */
char *string, /* FITS date string */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
double fd2jd( /* FITS standard date string to Julian Day */
char *string); /* FITS date string */
double fd2mjd( /* FITS standard date string to Modified Julian Day */
char *string); /* FITS date string */
double fd2ts( /* FITS standard date to seconds since 1950-01-01 */
char *string); /* FITS date string */
int fd2tsi( /* FITS standard date to IRAF seconds since 1980-01-01 */
char *string); /* FITS date string */
time_t fd2tsu( /* FITS standard date to Unix seconds since 1970-01-01 */
char *string); /* FITS date string */
/* Convert from Julian Day */
void jd2doy( /* Julian Day to year and day of year */
double dj, /* Julian Day */
int *year, /* Year (returned) */
double *doy); /* Day of year with fraction (returned) */
void jd2dt( /* Julian Day to yyyy.mmdd hh.mmssss */
double dj, /* Julian Day */
double *date, /* Date as yyyy.mmdd (returned)*/
double *time); /* Time as hh.mmssxxxx (returned) */
double jd2ep( /* Julian Day to fractional year */
double dj); /* Julian Day */
double jd2epb( /* Julian Day to Besselian epoch */
double dj); /* Julian Day */
double jd2epj( /* Julian Day to Julian epoch */
double dj); /* Julian Day */
char *jd2fd( /* Julian Day to FITS date string yyyy-mm-ddThh:mm:ss.ss */
double dj); /* Julian Day */
void jd2i( /* Julian Day to year, month, day, hours, min., sec. */
double dj, /* Julian Day */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
double jd2mjd( /* Julian Day to Modified Julian day */
double dj); /* Julian Day */
double jd2ts( /* Julian Day to seconds since 1950.0 */
double dj); /* Julian Day */
time_t jd2tsu( /* Julian Day to Unix seconds since 1970-01-01T00:00 */
double dj); /* Julian Day */
int jd2tsi( /* Julian Day to IRAF seconds since 1980-01-01T00:00 */
double dj); /* Julian Day */
/* Convert current local time to various formats */
void lt2dt( /* Current local time to date (yyyy.mmdd), time (hh.mmsss) */
double *date, /* Date as yyyy.mmdd (returned) */
double *time); /* Time as hh.mmssxxxx (returned) */
char *lt2fd(void); /* Current local time to FITS ISO date string */
int lt2tsi(void); /* Current local time to IRAF seconds since 1980-01-01T00:00 */
time_t lt2tsu(void); /* Current local time to Unix seconds since 1970-01-01T00:00 */
double lt2ts(void); /* Current local time to IRAF seconds since 1950-01-01T00:00 */
/* Convert from Modified Julian Day (JD - 2400000.5) */
void mjd2doy( /* Modified Julian Day to year and day of year */
double dj, /* Modified Julian Day */
int *year, /* Year (returned) */
double *doy); /* Day of year with fraction (returned) */
void mjd2dt( /* Modified Julian Day to yyyy.mmdd hh.mmssss */
double dj, /* Modified Julian Date */
double *date, /* Date as yyyy.mmdd (returned)*/
double *time); /* Time as hh.mmssxxxx (returned) */
double mjd2ep( /* Modified Julian Day to fractional year */
double dj); /* Modified Julian Date */
double mjd2epb( /* Modified Julian Day to Besselian epoch */
double dj); /* Modified Julian Date */
double mjd2epj( /* Modified Julian Day to Julian epoch */
double dj); /* Modified Julian Date */
char *mjd2fd( /* Modified Julian Day to FITS date yyyy-mm-ddThh:mm:ss.ss */
double dj); /* Modified Julian Date */
void mjd2i( /* Modified Julian Day to year, month, day, hours, min, sec */
double dj, /* Modified Julian Date */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
double mjd2jd( /* Modified Julian Day to Julian day */
double dj); /* Modified Julian Date */
double mjd2ts( /* Modified Julian Day to seconds since 1950.0 */
double dj); /* Modified Julian Date */
/* Convert from seconds since 1950-01-01 0:00 (JPL Ephemeris time) */
void ts2dt( /* Seconds since 1950.0 to yyyy.mmdd hh.mmssss */
double tsec, /* seconds since 1950.0 */
double *date, /* Date as yyyy.mmdd (returned)*/
double *time); /* Time as hh.mmssxxxx (returned) */
double ts2ep( /* Seconds since 1950.0 to fractional year */
double tsec); /* seconds since 1950.0 */
double ts2epb( /* Seconds since 1950.0 to Besselian epoch */
double tsec); /* seconds since 1950.0 */
double ts2epj( /* Seconds since 1950.0 to Julian epoch */
double tsec); /* seconds since 1950.0 */
char *ts2fd( /* Seconds since 1950.0 to FITS date, yyyy-mm-ddT00:00:00.000 */
double tsec); /* seconds since 1950.0 */
void ts2i( /* Seconds since 1950.0 to year, month, day, hours, min, sec */
double tsec, /* seconds since 1950.0 */
int *iyr, /* year (returned) */
int *imon, /* month (returned) */
int *iday, /* day (returned) */
int *ihr, /* hours (returned) */
int *imn, /* minutes (returned) */
double *sec, /* seconds (returned) */
int ndsec); /* Number of decimal places in seconds (0=int) */
double ts2jd( /* Seconds since 1950.0 to Julian Day */
double tsec); /* seconds since 1950.0 */
double ts2mjd( /* Seconds since 1950.0 to Modified Julian Day */
double tsec); /* seconds since 1950.0 */
/* Convert from IRAF time (seconds since 1980-01-01 0:00 UT) */
char *tsi2fd( /* Seconds since 1980-01-01 to FITS standard date string */
int isec); /* Seconds past 1980-01-01 */
double tsi2ts( /* Seconds since 1980-01-01 to seconds since 1950-01-01 */
int isec); /* Seconds past 1980-01-01 */
void tsi2dt( /* Seconds since 1980-01-01 to date yyyy.mmdd, time hh.mmssss */
int isec, /* Seconds past 1980-01-01 */
double *date, /* Date as yyyy.mmdd (returned) */
double *time); /* Time as hh.mmssxxxx (returned) */
/* Convert from Unix time (seconds since 1970-01-01 0:00 UT) */
void tsu2dt( /* Seconds since 1970-01-01 to date yyyy.ddmm, time hh.mmsss */
time_t isec, /* Seconds past 1970-01-01 */
double *date, /* Date as yyyy.mmdd (returned) */
double *time); /* Time as hh.mmssxxxx (returned) */
char *tsu2fd( /* Seconds since 1970-01-01 to FITS standard date string */
time_t isec); /* Seconds past 1970-01-01 */
double tsu2ts( /* Seconds since 1970-01-01 to seconds since 1950-01-01 */
time_t isec); /* Seconds past 1970-01-01 */
int tsu2tsi( /* Seconds since 1970-01-01 to local seconds since 1980-01-01 */
time_t isec); /* Seconds past 1970-01-01 */
/* Convert times within a day */
char *tsd2fd( /* Seconds since start of day to FITS standard time string */
double tsec); /* Seconds since start of day */
double tsd2dt( /* Seconds since start of day to hh.mmsssss */
double tsec); /* Seconds since start of day */
/* Convert from current Universal Time */
void ut2dt( /* Current Universal Time to date (yyyy.mmdd), time (hh.mmsss) */
double *date, /* Date as yyyy.mmdd (returned) */
double *time); /* Time as hh.mmssxxxx (returned) */
void ut2doy( /* Current Universal Time to year, day of year */
int *year, /* Year (returned) */
double *doy); /* Day of year (returned) */
double ut2ep(void); /* Current Universal Time to fractional year */
double ut2epb(void); /* Current Universal Time to Besselian Epoch */
double ut2epj(void); /* Current Universal Time to Julian Epoch */
char *ut2fd(void); /* Current Universal Time to FITS ISO date string */
double ut2jd(void); /* Current Universal Time to Julian Date */
double ut2mjd(void); /* Current Universal Time to Modified Julian Date */
int ut2tsi(void); /* Current UT to IRAF seconds since 1980-01-01T00:00 */
time_t ut2tsu(void); /* Current UT to Unix seconds since 1970-01-01T00:00 */
double ut2ts(void); /* Current UT to seconds since 1950-01-01T00:00 */
int isdate( /* Return 1 if string is FITS old or ISO date */
char *string); /* Possible FITS date string, which may be:
* dd/mm/yy (FITS standard before 2000)
* dd-mm-yy (nonstandard FITS use before 2000)
* yyyy-mm-dd (FITS standard after 1999)
* yyyy-mm-ddThh:mm:ss.ss (FITS standard after 1999) */
/* Ephemeris time conversions (ET, TT, and TDT) */
char *et2fd( /* ET (or TDT or TT) in FITS format to UT in FITS format */
char *string); /* Ephemeris Time as FITS date string (E not T) */
char *fd2et( /* UT in FITS format to ET (or TDT or TT) in FITS format */
char *string); /* FITS date string */
void dt2et( /* yyyy.ddmm and hh.mmsss to Ephemeris Time */
double *date, /* Date as yyyy.mmdd */
double *time); /* Time as hh.mmssxxxx
*if time<0, it is time as -(fraction of a day) */
double jd2jed( /* Convert from Julian Date to Julian Ephemeris Date */
double dj); /* Julian Date */
double jed2jd( /* Convert from Julian Ephemeris Date to Julian Date */
double dj); /* Julian Ephemeris Date */
double ets2ts( /* ET in seconds since 1950-01-01 to UT in same format */
double tsec); /* ET in seconds since 1950-01-01 */
double ts2ets( /* UT in seconds since 1950-01-01 to ET in same format */
double tsec); /* UT in seconds since 1950-01-01 */
void edt2dt( /* yyyy.ddmm and hh.mmsss Ephemeris Time to UT */
double *date, /* Date as yyyy.mmdd */
double *time); /* Time as hh.mmssxxxx
* If time<0, it is time as -(fraction of a day) */
double utdt( /* Compute difference between UT and dynamical time (ET-UT) */
double dj); /* Julian Date (UT) */
/* Sidereal Time conversions */
char *fd2gst( /* Convert from FITS UT date to Greenwich Sidereal Time */
char *string); /* FITS date string */
void dt2gst( /* Convert from UT as yyyy.mmdd hh.mmssss to Greenwich Sidereal Time */
double *date, /* Date as yyyy.mmdd */
double *time); /* Time as hh.mmssxxxx
* If time<0, it is time as -(fraction of a day) */
double jd2gst( /* Calculate Greenwich Sidereal Time given Julian Date */
double dj); /* Julian Date (UT) */
double ts2gst( /* Calculate Greenwich Sidereal Time given Universal Time */
double tsec); /* Time since 1950.0 in UT seconds */
char *fd2lst( /* Convert from FITS UT date to Local Sidereal Time */
char *string); /* FITS date string */
void dt2lst( /* Convert from UT as yyyy.mmdd hh.mmssss to Local Sidereal Time */
double *date, /* Date as yyyy.mmdd */
double *time); /* Time as hh.mmssxxxx
* If time<0, it is time as -(fraction of a day) */
double ts2lst( /* Calculate Local Sidereal Time given Universal Time */
double tsec); /* Time since 1950.0 in UT seconds */
double jd2lst( /* Calculate Local Sidereal Time given Julian Date */
double dj); /* Julian Date (UT) */
double eqeqnx( /* Compute equation of eqinoxes from Julian Date */
double dj); /* Julian Date (UT) */
char *fd2mst( /* Convert from FITS UT date to Mean Sidereal Time */
char *string); /* FITS date string */
double jd2mst( /* Convert from Julian Date to Mean Sidereal Time */
double dj); /* Julian Date (UT) */
double jd2mst2( /* Convert from Julian Date to Mean Sidereal Time */
double dj); /* Julian Date (UT) */
void dt2mst( /* Convert from UT as yyyy.mmdd hh.mmssss to Mean Sidereal Time */
double *date, /* Date as yyyy.mmdd */
double *time); /* Time as hh.mmssxxxx
* If time<0, it is time as -(fraction of a day) */
double lst2dt( /* Calculate UT as hh.mmsss given UT date and
* Local Sidereal Time */
double date0, /* UT date as yyyy.mmdd */
double time0); /* LST as hh.mmssss */
double lst2jd( /* Calculate UT as Julian Date given UT date and
* Local Sidereal Time */
double sdj); /* Julian Date of desired day at 0:00 UT + sidereal time */
char *lst2fd( /* Calculate FITS UT date and time given UT date and
* Local Sidereal Time */
char *string); /* UT Date, LST as yyyy-mm-ddShh:mm:ss.ss */
char *gst2fd( /* Calculate FITS UT date and time given Greenwich Sidereal Time */
char *string); /* UT Date, GST as yyyy-mm-ddShh:mm:ss.ss */
double gst2jd( /* Calculate FITS UT Julian Date given Greenwich Sidereal Time */
double sdj); /* UT Date, GST as Julian Date */
char *mst2fd( /* Calculate FITS UT date and time given Mean Sidereal Time */
char *string); /* UT Date, MST as yyyy-mm-ddShh:mm:ss.ss */
double mst2jd( /* Calculate FITS UT Julian Date given Mean Sidereal Time */
double sdj); /* UT Date, MST as Julian Date */
double ts2mst( /* Calculate Mean Sidereal Time given Universal Time */
double tsec); /* time since 1950.0 in UT seconds */
void setlongitude( /* Longitude for sidereal time in or out */
double longitude); /* longitude of observatory in degrees (+=west) */
void compnut( /* Compute nutation in longitude and obliquity and mean obliquity*/
double dj, /* TDB (loosely ET or TT) as Julian Date */
double *dpsi, /* Nutation in longitude in radians (returned) */
double *deps, /* Nutation in obliquity in radians (returned) */
double *eps0); /* Mean obliquity in radians (returned) */
/* Heliocentric Julian Date conversions */
double mjd2mhjd( /* Convert from Modified Julian Date to Heliocentric MJD */
double mjd, /* Julian date (geocentric) */
double ra, /* Right ascension (degrees) */
double dec, /* Declination (degrees) */
int sys); /* J2000, B1950, GALACTIC, ECLIPTIC */
double mjd2hjd( /* Convert from Modified Julian Date to Heliocentric JD */
double mjd, /* Julian date (geocentric) */
double ra, /* Right ascension (degrees) */
double dec, /* Declination (degrees) */
int sys); /* J2000, B1950, GALACTIC, ECLIPTIC */
double mhjd2mjd( /* Convert from Heliocentric Modified Julian Date to MJD */
double mhjd, /* Modified Heliocentric Julian date */
double ra, /* Right ascension (degrees) */
double dec, /* Declination (degrees) */
int sys); /* J2000, B1950, GALACTIC, ECLIPTIC */
double jd2hjd( /* Convert from Julian Date to Heliocentric Julian Date */
double dj, /* Julian date (geocentric) */
double ra, /* Right ascension (degrees) */
double dec, /* Declination (degrees) */
int sys); /* J2000, B1950, GALACTIC, ECLIPTIC */
double hjd2jd( /* Convert from Heliocentric Julian Date to Julian Date */
double dj, /* Heliocentric Julian date */
double ra, /* Right ascension (degrees) */
double dec, /* Declination (degrees) */
int sys); /* J2000, B1950, GALACTIC, ECLIPTIC */
void setdatedec( /* Set number of decimal places in FITS dates */
int nd); /* Number of decimal places in FITS dates */
#else /* K&R prototypes */
/* FITS file access subroutines in fitsfile.c */
extern int fitsropen();
extern char *fitsrhead();
extern char *fitsrtail();
extern char *fitsrimage();
extern char *fitsrfull();
extern char *fitsrsect();
extern int fitswhead();
extern int fitswexhead();
extern int fitswext();
extern int fitswhdu();
extern int fitswimage();
extern int fitscimage();
extern int isfits(); /* Return 1 if file is a FITS file */
extern void fitserr(); /* Print FITS error message to stderr */
extern void setfitsinherit(); /* Set flag to append primary data header */
extern int fitsheadsize(); /* Return size of fitsheader in bytes */
/* FITS table file access subroutines in fitsfile.c */
extern int fitsrtopen();
extern int fitsrthead();
extern void fitsrtlset();
extern int fitsrtline();
extern short ftgeti2();
extern int ftgeti4();
extern float ftgetr4();
extern double ftgetr8();
extern int ftgetc();
extern void moveb(); /* Copy nbytes bytes from source+offs to dest+offd */
/* IRAF file access subroutines in imhfile.c */
extern char *irafrhead();
extern char *irafrimage();
extern int irafwhead();
extern int irafwimage();
extern int isiraf();
extern char *iraf2fits();
extern char *fits2iraf();
/* Image pixel access subroutines in imio.c */
extern double getpix(); /* Read one pixel from any data type 2-D array (0,0)*/
extern double getpix1(); /* Read one pixel from any data type 2-D array (1,1)*/
extern double maxvec(); /* Get maximum value in vector from a image */
extern double minvec(); /* Get minimum value in vector from a image */
extern void putpix(); /* Write one pixel to any data type 2-D array (0,0)*/
extern void putpix1(); /* Write one pixel to any data type 2-D array (1,1) */
extern void addpix(); /* Add to one pixel in any data type 2-D array (0,0)*/
extern void addpix1(); /* Add to one pixel in any data type 2-D array (1,1)*/
extern void movepix(); /* Move one pixel value between two 2-D arrays (0,0) */
extern void movepix1(); /* Move one pixel value between two 2-D arrays (1,1) */
extern void addvec(); /* Add constant to vector from 2-D array */
extern void multvec(); /* Multiply vector from 2-D array by a constant */
extern void getvec(); /* Read vector from 2-D array */
extern void putvec(); /* Write vector into 2-D array */
extern void fillvec(); /* Write constant into a vector */
extern void fillvec1(); /* Write constant into a vector */
extern void imswap(); /* Swap alternating bytes in a vector */
extern void imswap2(); /* Swap bytes in a vector of 2-byte (short) integers */
extern void imswap4(); /* Reverse bytes in a vector of 4-byte numbers */
extern void imswap8(); /* Reverse bytes in a vector of 8-byte numbers */
extern int imswapped(); /* Return 1 if machine byte order is not FITS order */
/* File utilities from fileutil.c */
extern int getfilelines();
extern char *getfilebuff();
extern int getfilesize();
extern int isimlist();
extern int isimlistd();
extern int isfilelist();
extern int isfile();
extern int istiff();
extern int isjpeg();
extern int isgif();
extern int first_token();
/* Subroutines for access to tokens within a string from fileutil.c */
int setoken(); /* Tokenize a string for easy decoding */
int nextoken(); /* Get next token from tokenized string */
int getoken(); /* Get specified token from tokenized string */
/* Subroutines for translating dates and times in dateutil.c */
void ang2hr(); /* Fractional degrees to hours as hh:mm:ss.ss */
void ang2deg(); /* Fractional degrees to degrees as dd:mm:ss.ss */
double deg2ang(); /* Degrees as dd:mm:ss.ss to fractional degrees */
double hr2ang(); /* Hours as hh:mm:ss.ss to fractional degrees */
void doy2dt(); /* year and day of year to yyyy.mmdd hh.mmss */
double doy2ep(); /* year and day of year to fractional year (epoch) */
double doy2epb(); /* year and day of year to Besselian epoch */
double doy2epj(); /* year and day of year to Julian epoch */
char *doy2fd(); /* year and day of year to FITS date */
double doy2jd(); /* year and day of year to Julian date */
double doy2mjd(); /* year and day of year to modified Julian date */
double doy2ts(); /* year and day of year to seconds since 1950.0 */
int doy2tsi(); /* year and day of year to IRAF seconds since 1980-01-01 */
time_t doy2tsu(); /* year and day of year to Unix seconds since 1970-01-01 */
void dt2doy(); /* yyyy.mmdd hh.mmss to year and day of year */
double dt2ep(); /* yyyy.ddmm and hh.mmsss to fractional year (epoch) */
double dt2epb(); /* yyyy.ddmm and hh.mmsss to Besselian epoch */
double dt2epj(); /* yyyy.ddmm and hh.mmsss to Julian epoch */
char *dt2fd(); /* yyyy.ddmm and hh.mmsss to FITS date string */
void dt2i(); /* yyyy.ddmm and hh.mmsss to year, month, day, hrs, min, sec */
double dt2jd(); /* yyyy.ddmm and hh.mmsss to Julian date */
double dt2mjd(); /* yyyy.ddmm and hh.mmsss to modified Julian date */
double dt2ts(); /* yyyy.ddmm and hh.mmsss to seconds since 1950.0 */
int dt2tsi(); /* yyyy.ddmm and hh.mmsss to IRAF seconds since 1980-01-01 */
time_t dt2tsu(); /* yyyy.ddmm and hh.mmsss to Unix seconds since 1970-01-01 */
void ep2dt(); /* Fractional year to yyyy.mmdd hh.mmssss */
void epb2dt(); /* Besselian epoch to yyyy.mmdd hh.mmssss */
void epj2dt(); /* Julian epoch to yyyy.mmdd hh.mmssss */
char *ep2fd(); /* Fractional year to FITS date string yyyy-mm-ddThh:mm:ss.ss */
char *epb2fd(); /* Besselian epoch to FITS date string yyyy-mm-ddThh:mm:ss.ss */
char *epj2fd(); /* Julian epoch to FITS date string yyyy-mm-ddThh:mm:ss.ss */
void ep2i(); /* Fractional year to year, month, day, hours, min., sec. */
void epb2i(); /* Besselian epoch to year, month, day, hours, min., sec. */
void epj2i(); /* Julian epoch to year, month, day, hours, min., sec. */
double ep2jd(); /* Fractional year to Julian Date */
double epb2jd(); /* Besselian epoch to Julian Date */
double epj2jd(); /* Julian epoch to Julian Date */
double ep2mjd(); /* Fractional year to modified Julian Date */
double epb2mjd(); /* Besselian epoch to modified Julian Date */
double epj2mjd(); /* Julian epoch to modified Julian Date */
double ep2epb(); /* Fractional year to Besselian epoch */
double ep2epj(); /* Fractional year to Julian epoch */
double epb2epj(); /* Besselian epoch to Julian epoch */
double epj2epb(); /* Julian epoch to Besselian epoch */
double epb2ep(); /* Besselian epoch to fractional year */
double epj2ep(); /* Julian epoch to fractional year */
double ep2ts(); /* Fractional year to seconds since 1950.0 */
double epb2ts(); /* Besselian epoch to seconds since 1950.0 */
double epj2ts(); /* Julian epoch to seconds since 1950.0 */
void fd2dt(); /* FITS standard date string to Julian date */
void fd2doy(); /* FITS standard date string to year, day of year */
double fd2ep(); /* FITS standard date string to fractional year (epoch) */
double fd2epb(); /* FITS standard date string to Besselian epoch */
double fd2epj(); /* FITS standard date string to Julian epoch */
char *fd2fd(); /* Any FITS standard date string to ISO FITS date string */
char *fd2of(); /* Any FITS standard date string to old FITS date and time */
char *fd2ofd(); /* Any FITS standard date string to old FITS date string */
char *fd2oft(); /* Any FITS standard date string to old FITS time string */
void fd2i(); /* FITS standard date string to year, mon, day, hrs, min, sec */
double fd2jd(); /* FITS standard date string to Julian date */
double fd2mjd(); /* FITS standard date string to modified Julian date */
double fd2ts(); /* FITS standard date to seconds since 1950-01-01 */
int fd2tsi(); /* FITS standard date to IRAF seconds since 1980-01-01 */
time_t fd2tsu(); /* FITS standard date to Unix seconds since 1970-01-01 */
void jd2doy(); /* Julian date to year and day of year */
void jd2dt(); /* Julian date to yyyy.mmdd hh.mmssss */
double jd2ep(); /* Julian date to fractional year */
double jd2epb(); /* Julian date to Besselian epoch */
double jd2epj(); /* Julian date to Julian epoch */
char *jd2fd(); /* Julian date to FITS date string yyyy-mm-ddThh:mm:ss.ss */
void jd2i(); /* Julian date to year, month, day, hours, min., sec. */
double jd2mjd(); /* Julian date to modified Julian date */
double jd2ts(); /* Julian date to seconds since 1950.0 */
time_t jd2tsu(); /* Julian date to Unix seconds since 1970-01-01T00:00 */
int jd2tsi(); /* Julian date to IRAF seconds since 1980-01-01T00:00 */
void lt2dt(); /* Current local time to date (yyyy.mmdd), time (hh.mmsss) */
char *lt2fd(); /* Current local time to FITS ISO date string */
int lt2tsi(); /* Current local time to IRAF seconds since 1980-01-01T00:00 */
time_t lt2tsu(); /* Current local time to Unix seconds since 1970-01-01T00:00 */
double lt2ts(); /* Current local time to IRAF seconds since 1950-01-01T00:00 */
void mjd2doy(); /* Convert from Modified Julian Date to Day of Year */
void mjd2dt(); /* Modified Julian date to yyyy.mmdd hh.mmssss */
double mjd2ep(); /* Modified Julian date to fractional year */
double mjd2epb(); /* Modified Julian date to Besselian epoch */
double mjd2epj(); /* Modified Julian date to Julian epoch */
char *mjd2fd(); /* Modified Julian date to FITS date yyyy-mm-ddThh:mm:ss.ss */
void mjd2i(); /* Modified Julian date to year, month, day, hours, min, sec */
double mjd2jd(); /* Modified Julian date to Julian date */
double mjd2ts(); /* Modified Julian date to seconds since 1950.0 */
void ts2dt(); /* Seconds since 1950.0 to yyyy.mmdd hh.mmssss */
double ts2ep(); /* Seconds since 1950.0 to fractional year */
double ts2epb(); /* Seconds since 1950.0 to Besselian epoch */
double ts2epj(); /* Seconds since 1950.0 to Julian epoch */
char *ts2fd(); /* Seconds since 1950.0 to FITS date, yyyy-mm-ddT00:00:00.000 */
void ts2i(); /* Seconds since 1950.0 to year, month, day, hours, min, sec */
double ts2jd(); /* Seconds since 1950.0 to Julian date */
double ts2mjd(); /* Seconds since 1950.0 to modified Julian date */
char *tsi2fd(); /* Seconds since 1980-01-01 to FITS standard date string */
double tsi2ts(); /* Seconds since 1980-01-01 to seconds since 1950-01-01 */
double tsi2ts(); /* Seconds since 1980-01-01 to seconds since 1950-01-01 */
void tsi2dt(); /* Seconds since 1980-01-01 to date yyyy.mmdd, time hh.mmssss */
void tsu2dt(); /* Seconds since 1970-01-01 to date yyyy.ddmm, time hh.mmsss */
char *tsu2fd(); /* Seconds since 1970-01-01 to FITS standard date string */
char *tsd2fd(); /* Seconds since start of day to FITS standard time string */
double tsd2dt(); /* Seconds since start of day to hh.mmsssss */
double tsu2ts(); /* Seconds since 1970-01-01 to seconds since 1950-01-01 */
int tsu2tsi(); /* Seconds since 1970-01-01 to local seconds since 1980-01-01 */
int isdate(); /* Return 1 if string is FITS old or ISO date */
void ut2dt(); /* Current Universal Time to date (yyyy.mmdd), time (hh.mmsss) */
void ut2doy(); /* Current Universal Time to year, day of year */
double ut2ep(); /* Current Universal Time to fractional year */
double ut2epb(); /* Current Universal Time to Besselian Epoch */
double ut2epj(); /* Current Universal Time to Julian Epoch */
char *ut2fd(); /* Current Universal Time to FITS ISO date string */
double ut2jd(); /* Current Universal Time to Julian Date */
double ut2mjd(); /* Current Universal Time to Modified Julian Date */
int ut2tsi(); /* Current UT to IRAF seconds since 1980-01-01T00:00 */
time_t ut2tsu(); /* Current UT to Unix seconds since 1970-01-01T00:00 */
double ut2ts(); /* Current UT to IRAF seconds since 1950-01-01T00:00 */
int sts2c(); /* Replaces spaces in a string with a specified character */
int stc2s(); /* Replaces a specified character in a string with spaces */
char *et2fd(); /* ET (or TDT or TT) in FITS format to UT in FITS format */
char *fd2et(); /* UT in FITS format to ET (or TDT or TT) in FITS format */
double jd2jed(); /* Convert from Julian Date to Julian Ephemeris Date */
double jed2jd(); /* Convert from Julian Ephemeris Date to Julian Date */
double ets2ts(); /* ET in seconds since 1950-01-01 to UT in same format */
double ts2ets(); /* UT in seconds since 1950-01-01 to ET in same format */
void dt2et(); /* yyyy.ddmm and hh.mmsss to Ephemeris Time */
void edt2dt(); /* yyyy.ddmm and hh.mmsss Ephemeris Time to UT */
double utdt(); /* Compute difference between UT and dynamical time (ET-UT) */
char *fd2gst(); /* Convert from FITS UT date to Greenwich Sidereal Time */
void dt2gst(); /* Convert from UT as yyyy.mmdd hh.mmssss to Greenwich Sidereal Time */
double jd2gst(); /* Calculate Greenwich Sidereal Time given Julian Date */
double ts2gst(); /* Calculate Greenwich Sidereal Time given Universal Time */
char *fd2lst(); /* Convert from FITS UT date to Local Sidereal Time */
void dt2lst(); /* Convert from UT as yyyy.mmdd hh.mmssss to Local Sidereal Time */
double ts2lst(); /* Calculate Local Sidereal Time given Universal Time */
double jd2lst(); /* Calculate Local Sidereal Time given Julian Date */
double eqeqnx(); /* Compute equation of eqinoxes from Julian Date */
char *fd2mst(); /* Convert from FITS UT date to Mean Sidereal Time */
double jd2mst(); /* Convert from Julian Date to Mean Sidereal Time */
double jd2mst2(); /* Convert from Julian Date to Mean Sidereal Time */
void dt2mst(); /* Convert from UT as yyyy.mmdd hh.mmssss to Mean Sidereal Time */
double lst2ts(); /* Calculate Universal Time given Local Sidereal Time */
double lst2dt(); /* Calculate UT as yyyy.mmdd hh.mmsss given UT date and Local Sidereal Time */
double lst2jd(); /* Calculate UT as Julian Date given UT date and Local Sidereal Time */
char *lst2fd(); /* Calculate FITS UT date and time given UT date and Local Sidereal Time */
char *gst2fd(); /* Calculate FITS UT date and time given Greenwich Sidereal Time */
double gst2jd(); /* Calculate FITS UT Julian Date given Greenwich Sidereal Time */
char *mst2fd(); /* Calculate FITS UT date and time given Mean Sidereal Time */
double mst2jd(); /* Calculate FITS UT Julian Date given Mean Sidereal Time */
char *fd2mst(); /* Convert from FITS UT date to Mean Sidereal Time */
void dt2mst(); /* Convert from UT as yyyy.mmdd hh.mmssss to Mean Sidereal Time */
double ts2mst(); /* Calculate Mean Sidereal Time given Universal Time */
double mjd2mhjd(); /* Convert from Modified Julian Date to Heliocentric MJD */
double mjd2hjd(); /* Convert from Modified Julian Date to Heliocentric JD */
double mhjd2mjd(); /* Convert from Heliocentric Modified Julian Date to MJD */
double jd2hjd(); /* Convert from Julian Date to Heliocentric Julian Date */
double jd2mhjd(); /* Convert from Julian Date to Modified Heliocentric JD */
double hjd2jd(); /* Convert from Heliocentric Julian Date to Julian Date */
double hjd2mjd(); /* Convert from Heliocentric Julian Date to Modified JD */
double hjd2mhjd(); /* Convert from Heliocentric Julian Date to Modified HJD */
void setdatedec(); /* Set number of decimal places in FITS dates */
void setlongitude(); /* Longitude for sidereal time in or out */
void compnut(); /* Compute nutation in longitude and obliquity and mean obliquity*/
#endif /* __STDC__ */
#ifdef __cplusplus
}
#endif /* __cplusplus */
#endif /* fitsfile_h_ */
/* May 31 1996 Use stream I/O for reading as well as writing
* Jun 12 1996 Add byte-swapping subroutines
* Jul 10 1996 FITS header now allocated in subroutines
* Jul 17 1996 Add FITS table column extraction subroutines
* Aug 6 1996 Add MOVEPIX, HDEL and HCHANGE declarations
*
* Oct 10 1997 FITS file opening subroutines now return int instead of FILE *
*
* May 27 1998 Split off fitsio and imhio subroutines to fitsio.h
* Jun 4 1998 Change fits2iraf from int to int *
* Jul 24 1998 Make IRAF header char instead of int
* Aug 18 1998 Change name to fitsfile.h from fitsio.h
* Oct 5 1998 Add isiraf() and isfits()
* Oct 7 1998 Note separation of imhfile.c into two files
*
* Jul 15 1999 Add fileutil.c subroutines
* Sep 28 1999 Add (1,1)-based image access subroutines
* Oct 21 1999 Add fitswhead()
* Nov 2 1999 Add date utilities from wcscat.h
* Nov 23 1999 Add fitscimage()
* Dec 15 1999 Fix misdeclaration of *2fd() subroutines, add fd2i(), dt2i()
* Dec 20 1999 Add isdate()
*
* Jan 20 2000 Add conversions to and from Besselian and Julian epochs
* Jan 21 2000 Add conversions to old FITS date and time
* Jan 26 2000 Add conversion to modified Julian date (JD - 2400000.5
* Mar 22 2000 Add lt2* and ut2* to get current time as local and UT
* Mar 24 2000 Add tsi2* and tsu2* to convert IRAF and Unix seconds
* Sep 8 2000 Improve comments
*
* Apr 24 2001 Add length of column name to column data structure
* May 22 2001 Add day of year date conversion subroutines
* Sep 25 2001 Add isfilelist() and isfile()
*
* Jan 8 2002 Add sts2c() and stc2s()
* Apr 8 2002 Change all long declarations to time_t for compatibility
* Jun 18 2002 Add fitserr() to print error messages
* Aug 30 2002 Add Ephemeris Time date conversions
* Sep 10 2002 Add Sidereal Time conversions
* Oct 21 2002 Add fitsrsect() to read sections of FITS images
*
* Mar 5 2003 Add isimlistd() to check image lists with root directory
* Aug 20 2003 Add fitsrfull() to read n-dimensional simple FITS images
*
* Feb 27 2004 Add fillvec() and fillvec1()
* May 3 2004 Add setfitsinherit()
* May 6 2004 Add fitswexhead()
* Aug 27 2004 Add fitsheadsize()
*
* Oct 14 2005 Add tsd2fd(), tsd2dt(), epj2ep(), epb2ep(), tsi2dt()
*
* Feb 23 2006 Add fitsrtail() to read appended FITS header
* Feb 23 2006 Add istiff(), isjpeg(), isgif() to check TIFF, JPEG, GIF files
* Sep 6 2006 Add heliocentric time conversions
* Oct 5 2006 Add local sidereal time conversions
*
* Jan 9 2007 Add ANSI prototypes
* Jan 11 2007 Add token subroutines from catutil.c/wcscat.h to fileutil.c
* Jun 11 2007 Add minvec() subroutine in imio.c
* Nov 28 2007 Add kform format to FITS table keyword data structure
*
* Sep 8 2008 Add ag2hr(), ang2deg(), deg2ang(), and hr2ang()
*
* Sep 25 2009 Add moveb()
*/
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