Provided by: libfuntools-dev_1.4.7-4_amd64 bug

NAME

       FunImageGet - get an image or image section

SYNOPSIS

         #include <funtools.h>

         void *FunImageGet(Fun fun, void *buf, char *plist)

DESCRIPTION

       The FunImageGet() routine returns an binned image array of the specified section of a
       Funtools data file.  If the input data are already of type image, the array is generated
       by extracting the specified image section and then binning it according to the specified
       bin factor.  If the input data are contained in a binary table or raw event file, the rows
       are binned on the columns specified by the bincols= keyword (using appropriate default
       columns as necessary), after which the image section and bin factors are applied. In both
       cases, the data is automatically converted from FITS to native format, if necessary.

       The first argument is the Funtools handle returned by FunOpen().  The second buf argument
       is a pointer to a data buffer to fill. If NULL is specified, FunImageGet will allocate a
       buffer of the appropriate size. Generally speaking, you always want Funtools to allocate
       the buffer because the image dimensions will be determined by Funtools image sectioning on
       the command line.

       The third plist (i.e., parameter list) argument is a string containing one or more comma-
       delimited keyword=value parameters.  It can be used to specify the return data type using
       the bitpix= keyword.  If no such keyword is specified in the plist string, the data type
       of the returned image is the same as the data type of the original input file, or is of
       type int for FITS binary tables.

       If the bitpix= keyword is supplied in the plist string, the data type of the returned
       image will be one of the supported FITS image data types:

       ·   8 unsigned char

       ·   16 short

       ·   32 int

       ·   -32 float

       ·   -64 double

       For example:

         void *buf;
         /* extract data section into an image buffer */
         if( !(buf = FunImageGet(fun, NULL, NULL)) )
           gerror(stderr, "could not FunImageGet: %s\n", iname);

       will allocate buf and retrieve the image in the file data format. In this case, you will
       have to determine the data type (using the FUN_SECT_BITPIX value in the FunInfoGet()
       routine) and then use a switch statement to process each data type:

         int bitpix;
         void *buf;
         unsigned char *cbuf;
         short *sbuf;
         int *ibuf;
         ...
         buf = FunImageGet(fun, NULL, NULL);
         FunInfoGet(fun, FUN_SECT_BITPIX,  &bitpix, 0);
         /* set appropriate data type buffer to point to image buffer */
         switch(bitpix){
         case 8:
           cbuf = (unsigned char *)buf; break;
         case 16:
           sbuf = (short *)buf; break;
         case 32:
           ibuf = (int *)buf; break;
        ...

       See the imblank example code for more details on how to process an image when the data
       type is not specified beforehand.

       It often is easier to specify the data type directly:

         double *buf;
         /* extract data section into a double image buffer */
         if( !(buf = FunImageGet(fun, NULL, "bitpix=-64")) )
           gerror(stderr, "could not FunImageGet: %s\n", iname);

       will extract the image while converting to type double.

       On success, a pointer to the image buffer is returned. (This will be the same as the
       second argument, if NULL is not passed to the latter.)  On error, NULL is returned.

       In summary, to retrieve image or row data into a binned image, you simply call FunOpen()
       followed by FunImageGet().  Generally, you then will want to call FunInfoGet() to retrieve
       the axis dimensions (and data type) of the section you are processing (so as to take
       account of sectioning and blocking of the original data):

         double *buf;
         int i, j;
         int dim1, dim2;
         ... other declarations, etc.

         /* open the input FITS file */
         if( !(fun = FunOpen(argv[1], "rc", NULL)) )
           gerror(stderr, "could not FunOpen input file: %s\n", argv[1]);

         /* extract and bin the data section into a double float image buffer */
         if( !(buf = FunImageGet(fun, NULL, "bitpix=-64")) )
           gerror(stderr, "could not FunImageGet: %s\n", argv[1]);

         /* get dimension information from funtools structure */
         FunInfoGet(fun, FUN_SECT_DIM1, &dim1, FUN_SECT_DIM2, &dim2, 0);

         /* loop through pixels and reset values below limit to value */
         for(i=0; i<dim1*dim2; i++){
           if( buf[i] <= blimit ) buf[i] = bvalue;
         }

       Another useful plist string value is "mask=all", which returns an image populated with
       regions id values. Image pixels within a region will contain the associated region id
       (region values start at 1), and otherwise will contain a 0 value. Thus, the returned image
       is a region mask which can be used to process the image data (which presumably is
       retrieved by a separate call to FunImageGet) pixel by pixel.

       If a FITS binary table or a non-FITS raw event file is being binned into an image, it is
       necessary to specify the two columns that will be used in the 2D binning.  This usually is
       done on the command line using the bincols=(x,y) keyword:

         funcnts "foo.ev[EVENTS,bincols=(detx,dety)]"

       The full form of the bincols= specifier is:

         bincols=([xname[:tlmin[:tlmax:[binsiz]]]],[yname[:tlmin[:tlmax[:binsiz]]]])

       where the tlmin, tlmax, and binsiz specifiers determine the image binning dimensions:

         dim = (tlmax - tlmin)/binsiz     (floating point data)
         dim = (tlmax - tlmin)/binsiz + 1 (integer data)

       These tlmin, tlmax, and binsiz specifiers can be omitted if TLMIN, TLMAX, and TDBIN header
       parameters (respectively) are present in the FITS binary table header for the column in
       question.  Note that if only one parameter is specified, it is assumed to be tlmax, and
       tlmin defaults to 1. If two parameters are specified, they are assumed to be tlmin and
       tlmax.

       If bincols is not specified on the command line, Funtools tries to use appropriate
       defaults: it looks for the environment variable FITS_BINCOLS (or FITS_BINKEY). Then it
       looks for the Chandra parameters CPREF (or PREFX) in the FITS binary table header. Failing
       this, it looks for columns named "X" and "Y" and if these are not found, it looks for
       columns containing the characters "X" and "Y".

       See Binning FITS Binary Tables and Non-FITS Event Files for more information.

SEE ALSO

       See funtools(7) for a list of Funtools help pages