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getcoli.c
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getcoli.c
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/* This file, getcoli.c, contains routines that read data elements from */
/* a FITS image or table, with short datatype. */
/* The FITSIO software was written by William Pence at the High Energy */
/* Astrophysic Science Archive Research Center (HEASARC) at the NASA */
/* Goddard Space Flight Center. */
#include <math.h>
#include <stdlib.h>
#include <limits.h>
#include <string.h>
#include "fitsio2.h"
/*--------------------------------------------------------------------------*/
int ffgpvi( fitsfile *fptr, /* I - FITS file pointer */
long group, /* I - group to read (1 = 1st group) */
LONGLONG firstelem, /* I - first vector element to read (1 = 1st) */
LONGLONG nelem, /* I - number of values to read */
short nulval, /* I - value for undefined pixels */
short *array, /* O - array of values that are returned */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read an array of values from the primary array. Data conversion
and scaling will be performed if necessary (e.g, if the datatype of
the FITS array is not the same as the array being read).
Undefined elements will be set equal to NULVAL, unless NULVAL=0
in which case no checking for undefined values will be performed.
ANYNUL is returned with a value of .true. if any pixels are undefined.
*/
{
long row;
char cdummy;
int nullcheck = 1;
short nullvalue;
if (fits_is_compressed_image(fptr, status))
{
/* this is a compressed image in a binary table */
nullvalue = nulval; /* set local variable */
fits_read_compressed_pixels(fptr, TSHORT, firstelem, nelem,
nullcheck, &nullvalue, array, NULL, anynul, status);
return(*status);
}
/*
the primary array is represented as a binary table:
each group of the primary array is a row in the table,
where the first column contains the group parameters
and the second column contains the image itself.
*/
row=maxvalue(1,group);
ffgcli(fptr, 2, row, firstelem, nelem, 1, 1, nulval,
array, &cdummy, anynul, status);
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffgpfi( fitsfile *fptr, /* I - FITS file pointer */
long group, /* I - group to read (1 = 1st group) */
LONGLONG firstelem, /* I - first vector element to read (1 = 1st) */
LONGLONG nelem, /* I - number of values to read */
short *array, /* O - array of values that are returned */
char *nularray, /* O - array of null pixel flags */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read an array of values from the primary array. Data conversion
and scaling will be performed if necessary (e.g, if the datatype of
the FITS array is not the same as the array being read).
Any undefined pixels in the returned array will be set = 0 and the
corresponding nularray value will be set = 1.
ANYNUL is returned with a value of .true. if any pixels are undefined.
*/
{
long row;
int nullcheck = 2;
if (fits_is_compressed_image(fptr, status))
{
/* this is a compressed image in a binary table */
fits_read_compressed_pixels(fptr, TSHORT, firstelem, nelem,
nullcheck, NULL, array, nularray, anynul, status);
return(*status);
}
/*
the primary array is represented as a binary table:
each group of the primary array is a row in the table,
where the first column contains the group parameters
and the second column contains the image itself.
*/
row=maxvalue(1,group);
ffgcli(fptr, 2, row, firstelem, nelem, 1, 2, 0,
array, nularray, anynul, status);
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffg2di(fitsfile *fptr, /* I - FITS file pointer */
long group, /* I - group to read (1 = 1st group) */
short nulval, /* set undefined pixels equal to this */
LONGLONG ncols, /* I - number of pixels in each row of array */
LONGLONG naxis1, /* I - FITS image NAXIS1 value */
LONGLONG naxis2, /* I - FITS image NAXIS2 value */
short *array, /* O - array to be filled and returned */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read an entire 2-D array of values to the primary array. Data conversion
and scaling will be performed if necessary (e.g, if the datatype of the
FITS array is not the same as the array being read). Any null
values in the array will be set equal to the value of nulval, unless
nulval = 0 in which case no null checking will be performed.
*/
{
/* call the 3D reading routine, with the 3rd dimension = 1 */
ffg3di(fptr, group, nulval, ncols, naxis2, naxis1, naxis2, 1, array,
anynul, status);
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffg3di(fitsfile *fptr, /* I - FITS file pointer */
long group, /* I - group to read (1 = 1st group) */
short nulval, /* set undefined pixels equal to this */
LONGLONG ncols, /* I - number of pixels in each row of array */
LONGLONG nrows, /* I - number of rows in each plane of array */
LONGLONG naxis1, /* I - FITS image NAXIS1 value */
LONGLONG naxis2, /* I - FITS image NAXIS2 value */
LONGLONG naxis3, /* I - FITS image NAXIS3 value */
short *array, /* O - array to be filled and returned */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read an entire 3-D array of values to the primary array. Data conversion
and scaling will be performed if necessary (e.g, if the datatype of the
FITS array is not the same as the array being read). Any null
values in the array will be set equal to the value of nulval, unless
nulval = 0 in which case no null checking will be performed.
*/
{
long tablerow, ii, jj;
LONGLONG nfits, narray;
char cdummy;
int nullcheck = 1;
long inc[] = {1,1,1};
LONGLONG fpixel[] = {1,1,1};
LONGLONG lpixel[3];
short nullvalue;
if (fits_is_compressed_image(fptr, status))
{
/* this is a compressed image in a binary table */
lpixel[0] = ncols;
lpixel[1] = nrows;
lpixel[2] = naxis3;
nullvalue = nulval; /* set local variable */
fits_read_compressed_img(fptr, TSHORT, fpixel, lpixel, inc,
nullcheck, &nullvalue, array, NULL, anynul, status);
return(*status);
}
/*
the primary array is represented as a binary table:
each group of the primary array is a row in the table,
where the first column contains the group parameters
and the second column contains the image itself.
*/
tablerow=maxvalue(1,group);
if (ncols == naxis1 && nrows == naxis2) /* arrays have same size? */
{
/* all the image pixels are contiguous, so read all at once */
ffgcli(fptr, 2, tablerow, 1, naxis1 * naxis2 * naxis3, 1, 1, nulval,
array, &cdummy, anynul, status);
return(*status);
}
if (ncols < naxis1 || nrows < naxis2)
return(*status = BAD_DIMEN);
nfits = 1; /* next pixel in FITS image to read */
narray = 0; /* next pixel in output array to be filled */
/* loop over naxis3 planes in the data cube */
for (jj = 0; jj < naxis3; jj++)
{
/* loop over the naxis2 rows in the FITS image, */
/* reading naxis1 pixels to each row */
for (ii = 0; ii < naxis2; ii++)
{
if (ffgcli(fptr, 2, tablerow, nfits, naxis1, 1, 1, nulval,
&array[narray], &cdummy, anynul, status) > 0)
return(*status);
nfits += naxis1;
narray += ncols;
}
narray += (nrows - naxis2) * ncols;
}
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffgsvi(fitsfile *fptr, /* I - FITS file pointer */
int colnum, /* I - number of the column to read (1 = 1st) */
int naxis, /* I - number of dimensions in the FITS array */
long *naxes, /* I - size of each dimension */
long *blc, /* I - 'bottom left corner' of the subsection */
long *trc, /* I - 'top right corner' of the subsection */
long *inc, /* I - increment to be applied in each dimension */
short nulval, /* I - value to set undefined pixels */
short *array, /* O - array to be filled and returned */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read a subsection of data values from an image or a table column.
This routine is set up to handle a maximum of nine dimensions.
*/
{
long ii,i0, i1,i2,i3,i4,i5,i6,i7,i8,row,rstr,rstp,rinc;
long str[9],stp[9],incr[9],dir[9];
long nelem, nultyp, ninc, numcol;
LONGLONG felem, dsize[10], blcll[9], trcll[9];
int hdutype, anyf;
char ldummy, msg[FLEN_ERRMSG];
int nullcheck = 1;
short nullvalue;
if (naxis < 1 || naxis > 9)
{
sprintf(msg, "NAXIS = %d in call to ffgsvi is out of range", naxis);
ffpmsg(msg);
return(*status = BAD_DIMEN);
}
if (fits_is_compressed_image(fptr, status))
{
/* this is a compressed image in a binary table */
for (ii=0; ii < naxis; ii++) {
blcll[ii] = blc[ii];
trcll[ii] = trc[ii];
}
nullvalue = nulval; /* set local variable */
fits_read_compressed_img(fptr, TSHORT, blcll, trcll, inc,
nullcheck, &nullvalue, array, NULL, anynul, status);
return(*status);
}
/*
if this is a primary array, then the input COLNUM parameter should
be interpreted as the row number, and we will alway read the image
data from column 2 (any group parameters are in column 1).
*/
if (ffghdt(fptr, &hdutype, status) > 0)
return(*status);
if (hdutype == IMAGE_HDU)
{
/* this is a primary array, or image extension */
if (colnum == 0)
{
rstr = 1;
rstp = 1;
}
else
{
rstr = colnum;
rstp = colnum;
}
rinc = 1;
numcol = 2;
}
else
{
/* this is a table, so the row info is in the (naxis+1) elements */
rstr = blc[naxis];
rstp = trc[naxis];
rinc = inc[naxis];
numcol = colnum;
}
nultyp = 1;
if (anynul)
*anynul = FALSE;
i0 = 0;
for (ii = 0; ii < 9; ii++)
{
str[ii] = 1;
stp[ii] = 1;
incr[ii] = 1;
dsize[ii] = 1;
dir[ii] = 1;
}
for (ii = 0; ii < naxis; ii++)
{
if (trc[ii] < blc[ii])
{
if (hdutype == IMAGE_HDU)
{
dir[ii] = -1;
}
else
{
sprintf(msg, "ffgsvi: illegal range specified for axis %ld", ii + 1);
ffpmsg(msg);
return(*status = BAD_PIX_NUM);
}
}
str[ii] = blc[ii];
stp[ii] = trc[ii];
incr[ii] = inc[ii];
dsize[ii + 1] = dsize[ii] * naxes[ii];
dsize[ii] = dsize[ii] * dir[ii];
}
dsize[naxis] = dsize[naxis] * dir[naxis];
if (naxis == 1 && naxes[0] == 1)
{
/* This is not a vector column, so read all the rows at once */
nelem = (rstp - rstr) / rinc + 1;
ninc = rinc;
rstp = rstr;
}
else
{
/* have to read each row individually, in all dimensions */
nelem = (stp[0]*dir[0] - str[0]*dir[0]) / inc[0] + 1;
ninc = incr[0] * dir[0];
}
for (row = rstr; row <= rstp; row += rinc)
{
for (i8 = str[8]*dir[8]; i8 <= stp[8]*dir[8]; i8 += incr[8])
{
for (i7 = str[7]*dir[7]; i7 <= stp[7]*dir[7]; i7 += incr[7])
{
for (i6 = str[6]*dir[6]; i6 <= stp[6]*dir[6]; i6 += incr[6])
{
for (i5 = str[5]*dir[5]; i5 <= stp[5]*dir[5]; i5 += incr[5])
{
for (i4 = str[4]*dir[4]; i4 <= stp[4]*dir[4]; i4 += incr[4])
{
for (i3 = str[3]*dir[3]; i3 <= stp[3]*dir[3]; i3 += incr[3])
{
for (i2 = str[2]*dir[2]; i2 <= stp[2]*dir[2]; i2 += incr[2])
{
for (i1 = str[1]*dir[1]; i1 <= stp[1]*dir[1]; i1 += incr[1])
{
felem=str[0] + (i1 - dir[1]) * dsize[1] + (i2 - dir[2]) * dsize[2] +
(i3 - dir[3]) * dsize[3] + (i4 - dir[4]) * dsize[4] +
(i5 - dir[5]) * dsize[5] + (i6 - dir[6]) * dsize[6] +
(i7 - dir[7]) * dsize[7] + (i8 - dir[8]) * dsize[8];
if ( ffgcli(fptr, numcol, row, felem, nelem, ninc, nultyp,
nulval, &array[i0], &ldummy, &anyf, status) > 0)
return(*status);
if (anyf && anynul)
*anynul = TRUE;
i0 += nelem;
}
}
}
}
}
}
}
}
}
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffgsfi(fitsfile *fptr, /* I - FITS file pointer */
int colnum, /* I - number of the column to read (1 = 1st) */
int naxis, /* I - number of dimensions in the FITS array */
long *naxes, /* I - size of each dimension */
long *blc, /* I - 'bottom left corner' of the subsection */
long *trc, /* I - 'top right corner' of the subsection */
long *inc, /* I - increment to be applied in each dimension */
short *array, /* O - array to be filled and returned */
char *flagval, /* O - set to 1 if corresponding value is null */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read a subsection of data values from an image or a table column.
This routine is set up to handle a maximum of nine dimensions.
*/
{
long ii,i0, i1,i2,i3,i4,i5,i6,i7,i8,row,rstr,rstp,rinc;
long str[9],stp[9],incr[9],dsize[10];
LONGLONG blcll[9], trcll[9];
long felem, nelem, nultyp, ninc, numcol;
int hdutype, anyf;
short nulval = 0;
char msg[FLEN_ERRMSG];
int nullcheck = 2;
if (naxis < 1 || naxis > 9)
{
sprintf(msg, "NAXIS = %d in call to ffgsvi is out of range", naxis);
ffpmsg(msg);
return(*status = BAD_DIMEN);
}
if (fits_is_compressed_image(fptr, status))
{
/* this is a compressed image in a binary table */
for (ii=0; ii < naxis; ii++) {
blcll[ii] = blc[ii];
trcll[ii] = trc[ii];
}
fits_read_compressed_img(fptr, TSHORT, blcll, trcll, inc,
nullcheck, NULL, array, flagval, anynul, status);
return(*status);
}
/*
if this is a primary array, then the input COLNUM parameter should
be interpreted as the row number, and we will alway read the image
data from column 2 (any group parameters are in column 1).
*/
if (ffghdt(fptr, &hdutype, status) > 0)
return(*status);
if (hdutype == IMAGE_HDU)
{
/* this is a primary array, or image extension */
if (colnum == 0)
{
rstr = 1;
rstp = 1;
}
else
{
rstr = colnum;
rstp = colnum;
}
rinc = 1;
numcol = 2;
}
else
{
/* this is a table, so the row info is in the (naxis+1) elements */
rstr = blc[naxis];
rstp = trc[naxis];
rinc = inc[naxis];
numcol = colnum;
}
nultyp = 2;
if (anynul)
*anynul = FALSE;
i0 = 0;
for (ii = 0; ii < 9; ii++)
{
str[ii] = 1;
stp[ii] = 1;
incr[ii] = 1;
dsize[ii] = 1;
}
for (ii = 0; ii < naxis; ii++)
{
if (trc[ii] < blc[ii])
{
sprintf(msg, "ffgsvi: illegal range specified for axis %ld", ii + 1);
ffpmsg(msg);
return(*status = BAD_PIX_NUM);
}
str[ii] = blc[ii];
stp[ii] = trc[ii];
incr[ii] = inc[ii];
dsize[ii + 1] = dsize[ii] * naxes[ii];
}
if (naxis == 1 && naxes[0] == 1)
{
/* This is not a vector column, so read all the rows at once */
nelem = (rstp - rstr) / rinc + 1;
ninc = rinc;
rstp = rstr;
}
else
{
/* have to read each row individually, in all dimensions */
nelem = (stp[0] - str[0]) / inc[0] + 1;
ninc = incr[0];
}
for (row = rstr; row <= rstp; row += rinc)
{
for (i8 = str[8]; i8 <= stp[8]; i8 += incr[8])
{
for (i7 = str[7]; i7 <= stp[7]; i7 += incr[7])
{
for (i6 = str[6]; i6 <= stp[6]; i6 += incr[6])
{
for (i5 = str[5]; i5 <= stp[5]; i5 += incr[5])
{
for (i4 = str[4]; i4 <= stp[4]; i4 += incr[4])
{
for (i3 = str[3]; i3 <= stp[3]; i3 += incr[3])
{
for (i2 = str[2]; i2 <= stp[2]; i2 += incr[2])
{
for (i1 = str[1]; i1 <= stp[1]; i1 += incr[1])
{
felem=str[0] + (i1 - 1) * dsize[1] + (i2 - 1) * dsize[2] +
(i3 - 1) * dsize[3] + (i4 - 1) * dsize[4] +
(i5 - 1) * dsize[5] + (i6 - 1) * dsize[6] +
(i7 - 1) * dsize[7] + (i8 - 1) * dsize[8];
if ( ffgcli(fptr, numcol, row, felem, nelem, ninc, nultyp,
nulval, &array[i0], &flagval[i0], &anyf, status) > 0)
return(*status);
if (anyf && anynul)
*anynul = TRUE;
i0 += nelem;
}
}
}
}
}
}
}
}
}
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffggpi( fitsfile *fptr, /* I - FITS file pointer */
long group, /* I - group to read (1 = 1st group) */
long firstelem, /* I - first vector element to read (1 = 1st) */
long nelem, /* I - number of values to read */
short *array, /* O - array of values that are returned */
int *status) /* IO - error status */
/*
Read an array of group parameters from the primary array. Data conversion
and scaling will be performed if necessary (e.g, if the datatype of
the FITS array is not the same as the array being read).
*/
{
long row;
int idummy;
char cdummy;
/*
the primary array is represented as a binary table:
each group of the primary array is a row in the table,
where the first column contains the group parameters
and the second column contains the image itself.
*/
row=maxvalue(1,group);
ffgcli(fptr, 1, row, firstelem, nelem, 1, 1, 0,
array, &cdummy, &idummy, status);
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffgcvi(fitsfile *fptr, /* I - FITS file pointer */
int colnum, /* I - number of column to read (1 = 1st col) */
LONGLONG firstrow, /* I - first row to read (1 = 1st row) */
LONGLONG firstelem, /* I - first vector element to read (1 = 1st) */
LONGLONG nelem, /* I - number of values to read */
short nulval, /* I - value for null pixels */
short *array, /* O - array of values that are read */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read an array of values from a column in the current FITS HDU. Automatic
datatype conversion will be performed if the datatype of the column does not
match the datatype of the array parameter. The output values will be scaled
by the FITS TSCALn and TZEROn values if these values have been defined.
Any undefined pixels will be set equal to the value of 'nulval' unless
nulval = 0 in which case no checks for undefined pixels will be made.
*/
{
char cdummy;
ffgcli(fptr, colnum, firstrow, firstelem, nelem, 1, 1, nulval,
array, &cdummy, anynul, status);
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffgcfi(fitsfile *fptr, /* I - FITS file pointer */
int colnum, /* I - number of column to read (1 = 1st col) */
LONGLONG firstrow, /* I - first row to read (1 = 1st row) */
LONGLONG firstelem, /* I - first vector element to read (1 = 1st) */
LONGLONG nelem, /* I - number of values to read */
short *array, /* O - array of values that are read */
char *nularray, /* O - array of flags: 1 if null pixel; else 0 */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read an array of values from a column in the current FITS HDU. Automatic
datatype conversion will be performed if the datatype of the column does not
match the datatype of the array parameter. The output values will be scaled
by the FITS TSCALn and TZEROn values if these values have been defined.
Nularray will be set = 1 if the corresponding array pixel is undefined,
otherwise nularray will = 0.
*/
{
short dummy = 0;
ffgcli(fptr, colnum, firstrow, firstelem, nelem, 1, 2, dummy,
array, nularray, anynul, status);
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffgcli( fitsfile *fptr, /* I - FITS file pointer */
int colnum, /* I - number of column to read (1 = 1st col) */
LONGLONG firstrow, /* I - first row to read (1 = 1st row) */
LONGLONG firstelem, /* I - first vector element to read (1 = 1st) */
LONGLONG nelem, /* I - number of values to read */
long elemincre, /* I - pixel increment; e.g., 2 = every other */
int nultyp, /* I - null value handling code: */
/* 1: set undefined pixels = nulval */
/* 2: set nularray=1 for undefined pixels */
short nulval, /* I - value for null pixels if nultyp = 1 */
short *array, /* O - array of values that are read */
char *nularray, /* O - array of flags = 1 if nultyp = 2 */
int *anynul, /* O - set to 1 if any values are null; else 0 */
int *status) /* IO - error status */
/*
Read an array of values from a column in the current FITS HDU.
The column number may refer to a real column in an ASCII or binary table,
or it may refer be a virtual column in a 1 or more grouped FITS primary
array or image extension. FITSIO treats a primary array as a binary table
with 2 vector columns: the first column contains the group parameters (often
with length = 0) and the second column contains the array of image pixels.
Each row of the table represents a group in the case of multigroup FITS
images.
The output array of values will be converted from the datatype of the column
and will be scaled by the FITS TSCALn and TZEROn values if necessary.
*/
{
double scale, zero, power = 1., dtemp;
int tcode, maxelem2, hdutype, xcode, decimals;
long twidth, incre;
long ii, xwidth, ntodo;
int convert, nulcheck, readcheck = 0;
LONGLONG repeat, startpos, elemnum, readptr, tnull;
LONGLONG rowlen, rownum, remain, next, rowincre, maxelem;
char tform[20];
char message[81];
char snull[20]; /* the FITS null value if reading from ASCII table */
double cbuff[DBUFFSIZE / sizeof(double)]; /* align cbuff on word boundary */
void *buffer;
if (*status > 0 || nelem == 0) /* inherit input status value if > 0 */
return(*status);
buffer = cbuff;
if (anynul)
*anynul = 0;
if (nultyp == 2)
memset(nularray, 0, (size_t) nelem); /* initialize nullarray */
/*---------------------------------------------------*/
/* Check input and get parameters about the column: */
/*---------------------------------------------------*/
if (elemincre < 0)
readcheck = -1; /* don't do range checking in this case */
if ( ffgcprll( fptr, colnum, firstrow, firstelem, nelem, readcheck, &scale, &zero,
tform, &twidth, &tcode, &maxelem2, &startpos, &elemnum, &incre,
&repeat, &rowlen, &hdutype, &tnull, snull, status) > 0 )
return(*status);
maxelem = maxelem2;
incre *= elemincre; /* multiply incre to just get every nth pixel */
if (tcode == TSTRING) /* setup for ASCII tables */
{
/* get the number of implied decimal places if no explicit decmal point */
ffasfm(tform, &xcode, &xwidth, &decimals, status);
for(ii = 0; ii < decimals; ii++)
power *= 10.;
}
/*------------------------------------------------------------------*/
/* Decide whether to check for null values in the input FITS file: */
/*------------------------------------------------------------------*/
nulcheck = nultyp; /* by default check for null values in the FITS file */
if (nultyp == 1 && nulval == 0)
nulcheck = 0; /* calling routine does not want to check for nulls */
else if (tcode%10 == 1 && /* if reading an integer column, and */
tnull == NULL_UNDEFINED) /* if a null value is not defined, */
nulcheck = 0; /* then do not check for null values. */
else if (tcode == TSHORT && (tnull > SHRT_MAX || tnull < SHRT_MIN) )
nulcheck = 0; /* Impossible null value */
else if (tcode == TBYTE && (tnull > 255 || tnull < 0) )
nulcheck = 0; /* Impossible null value */
else if (tcode == TSTRING && snull[0] == ASCII_NULL_UNDEFINED)
nulcheck = 0;
/*----------------------------------------------------------------------*/
/* If FITS column and output data array have same datatype, then we do */
/* not need to use a temporary buffer to store intermediate datatype. */
/*----------------------------------------------------------------------*/
convert = 1;
if (tcode == TSHORT) /* Special Case: */
{ /* no type convertion required, so read */
/* data directly into output buffer. */
if (nelem < (LONGLONG)INT32_MAX/2) {
maxelem = nelem;
} else {
maxelem = INT32_MAX/2;
}
if (nulcheck == 0 && scale == 1. && zero == 0.)
convert = 0; /* no need to scale data or find nulls */
}
/*---------------------------------------------------------------------*/
/* Now read the pixels from the FITS column. If the column does not */
/* have the same datatype as the output array, then we have to read */
/* the raw values into a temporary buffer (of limited size). In */
/* the case of a vector colum read only 1 vector of values at a time */
/* then skip to the next row if more values need to be read. */
/* After reading the raw values, then call the fffXXYY routine to (1) */
/* test for undefined values, (2) convert the datatype if necessary, */
/* and (3) scale the values by the FITS TSCALn and TZEROn linear */
/* scaling parameters. */
/*---------------------------------------------------------------------*/
remain = nelem; /* remaining number of values to read */
next = 0; /* next element in array to be read */
rownum = 0; /* row number, relative to firstrow */
while (remain)
{
/* limit the number of pixels to read at one time to the number that
will fit in the buffer or to the number of pixels that remain in
the current vector, which ever is smaller.
*/
ntodo = (long) minvalue(remain, maxelem);
if (elemincre >= 0)
{
ntodo = (long) minvalue(ntodo, ((repeat - elemnum - 1)/elemincre +1));
}
else
{
ntodo = (long) minvalue(ntodo, (elemnum/(-elemincre) +1));
}
readptr = startpos + ((LONGLONG)rownum * rowlen) + (elemnum * (incre / elemincre));
switch (tcode)
{
case (TSHORT):
ffgi2b(fptr, readptr, ntodo, incre, &array[next], status);
if (convert)
fffi2i2(&array[next], ntodo, scale, zero, nulcheck,
(short) tnull, nulval, &nularray[next], anynul,
&array[next], status);
break;
case (TLONGLONG):
ffgi8b(fptr, readptr, ntodo, incre, (long *) buffer, status);
fffi8i2( (LONGLONG *) buffer, ntodo, scale, zero,
nulcheck, tnull, nulval, &nularray[next],
anynul, &array[next], status);
break;
case (TBYTE):
ffgi1b(fptr, readptr, ntodo, incre, (unsigned char *) buffer,
status);
fffi1i2((unsigned char *) buffer, ntodo, scale, zero, nulcheck,
(unsigned char) tnull, nulval, &nularray[next], anynul,
&array[next], status);
break;
case (TLONG):
ffgi4b(fptr, readptr, ntodo, incre, (INT32BIT *) buffer,
status);
fffi4i2((INT32BIT *) buffer, ntodo, scale, zero, nulcheck,
(INT32BIT) tnull, nulval, &nularray[next], anynul,
&array[next], status);
break;
case (TFLOAT):
ffgr4b(fptr, readptr, ntodo, incre, (float *) buffer, status);
fffr4i2((float *) buffer, ntodo, scale, zero, nulcheck,
nulval, &nularray[next], anynul,
&array[next], status);
break;
case (TDOUBLE):
ffgr8b(fptr, readptr, ntodo, incre, (double *) buffer, status);
fffr8i2((double *) buffer, ntodo, scale, zero, nulcheck,
nulval, &nularray[next], anynul,
&array[next], status);
break;
case (TSTRING):
ffmbyt(fptr, readptr, REPORT_EOF, status);
if (incre == twidth) /* contiguous bytes */
ffgbyt(fptr, ntodo * twidth, buffer, status);
else
ffgbytoff(fptr, twidth, ntodo, incre - twidth, buffer,
status);
fffstri2((char *) buffer, ntodo, scale, zero, twidth, power,
nulcheck, snull, nulval, &nularray[next], anynul,
&array[next], status);
break;
default: /* error trap for invalid column format */
sprintf(message,
"Cannot read numbers from column %d which has format %s",
colnum, tform);
ffpmsg(message);
if (hdutype == ASCII_TBL)
return(*status = BAD_ATABLE_FORMAT);
else
return(*status = BAD_BTABLE_FORMAT);
} /* End of switch block */
/*-------------------------*/
/* Check for fatal error */
/*-------------------------*/
if (*status > 0) /* test for error during previous read operation */
{
dtemp = (double) next;
if (hdutype > 0)
sprintf(message,
"Error reading elements %.0f thru %.0f from column %d (ffgcli).",
dtemp+1, dtemp+ntodo, colnum);
else
sprintf(message,
"Error reading elements %.0f thru %.0f from image (ffgcli).",
dtemp+1, dtemp+ntodo);
ffpmsg(message);
return(*status);
}
/*--------------------------------------------*/
/* increment the counters for the next loop */
/*--------------------------------------------*/
remain -= ntodo;
if (remain)
{
next += ntodo;
elemnum = elemnum + (ntodo * elemincre);
if (elemnum >= repeat) /* completed a row; start on later row */
{
rowincre = elemnum / repeat;
rownum += rowincre;
elemnum = elemnum - (rowincre * repeat);
}
else if (elemnum < 0) /* completed a row; start on a previous row */
{
rowincre = (-elemnum - 1) / repeat + 1;
rownum -= rowincre;
elemnum = (rowincre * repeat) + elemnum;
}
}
} /* End of main while Loop */
/*--------------------------------*/
/* check for numerical overflow */
/*--------------------------------*/
if (*status == OVERFLOW_ERR)
{
ffpmsg(
"Numerical overflow during type conversion while reading FITS data.");
*status = NUM_OVERFLOW;
}
return(*status);
}
/*--------------------------------------------------------------------------*/
int fffi1i2(unsigned char *input, /* I - array of values to be converted */
long ntodo, /* I - number of elements in the array */
double scale, /* I - FITS TSCALn or BSCALE value */
double zero, /* I - FITS TZEROn or BZERO value */
int nullcheck, /* I - null checking code; 0 = don't check */
/* 1:set null pixels = nullval */
/* 2: if null pixel, set nullarray = 1 */
unsigned char tnull, /* I - value of FITS TNULLn keyword if any */
short nullval, /* I - set null pixels, if nullcheck = 1 */
char *nullarray, /* I - bad pixel array, if nullcheck = 2 */
int *anynull, /* O - set to 1 if any pixels are null */
short *output, /* O - array of converted pixels */
int *status) /* IO - error status */
/*
Copy input to output following reading of the input from a FITS file.
Check for null values and do datatype conversion and scaling if required.
The nullcheck code value determines how any null values in the input array
are treated. A null value is an input pixel that is equal to tnull. If
nullcheck = 0, then no checking for nulls is performed and any null values
will be transformed just like any other pixel. If nullcheck = 1, then the
output pixel will be set = nullval if the corresponding input pixel is null.
If nullcheck = 2, then if the pixel is null then the corresponding value of
nullarray will be set to 1; the value of nullarray for non-null pixels
will = 0. The anynull parameter will be set = 1 if any of the returned
pixels are null, otherwise anynull will be returned with a value = 0;
*/
{
long ii;
double dvalue;
if (nullcheck == 0) /* no null checking required */
{
if (scale == 1. && zero == 0.) /* no scaling */
{
for (ii = 0; ii < ntodo; ii++)
output[ii] = (short) input[ii]; /* copy input to output */
}
else /* must scale the data */
{
for (ii = 0; ii < ntodo; ii++)
{
dvalue = input[ii] * scale + zero;
if (dvalue < DSHRT_MIN)
{
*status = OVERFLOW_ERR;
output[ii] = SHRT_MIN;
}
else if (dvalue > DSHRT_MAX)
{
*status = OVERFLOW_ERR;
output[ii] = SHRT_MAX;
}
else
output[ii] = (short) dvalue;
}
}
}
else /* must check for null values */
{
if (scale == 1. && zero == 0.) /* no scaling */
{
for (ii = 0; ii < ntodo; ii++)
{
if (input[ii] == tnull)
{
*anynull = 1;
if (nullcheck == 1)
output[ii] = nullval;
else
nullarray[ii] = 1;
}
else
output[ii] = (short) input[ii];
}
}
else /* must scale the data */
{
for (ii = 0; ii < ntodo; ii++)
{
if (input[ii] == tnull)
{
*anynull = 1;
if (nullcheck == 1)
output[ii] = nullval;
else
nullarray[ii] = 1;
}
else
{
dvalue = input[ii] * scale + zero;
if (dvalue < DSHRT_MIN)
{
*status = OVERFLOW_ERR;
output[ii] = SHRT_MIN;