diff options
Diffstat (limited to 'noao/imred/ccdred/src/combine/icgdata.gx')
| -rw-r--r-- | noao/imred/ccdred/src/combine/icgdata.gx | 233 |
1 files changed, 233 insertions, 0 deletions
diff --git a/noao/imred/ccdred/src/combine/icgdata.gx b/noao/imred/ccdred/src/combine/icgdata.gx new file mode 100644 index 00000000..41cf5810 --- /dev/null +++ b/noao/imred/ccdred/src/combine/icgdata.gx @@ -0,0 +1,233 @@ +# Copyright(c) 1986 Association of Universities for Research in Astronomy Inc. + +include <imhdr.h> +include <mach.h> +include "../icombine.h" + +$for (sr) +# IC_GDATA -- Get line of image and mask data and apply threshold and scaling. +# Entirely empty lines are excluded. The data are compacted within the +# input data buffers. If it is required, the connection to the original +# image index is keeped in the returned m data pointers. + +procedure ic_gdata$t (in, out, dbuf, d, id, n, m, lflag, offsets, scales, + zeros, nimages, npts, v1, v2) + +pointer in[nimages] # Input images +pointer out[ARB] # Output images +pointer dbuf[nimages] # Data buffers for nonaligned images +pointer d[nimages] # Data pointers +pointer id[nimages] # ID pointers +int n[npts] # Number of good pixels +pointer m[nimages] # Mask pointers +int lflag[nimages] # Empty mask flags +int offsets[nimages,ARB] # Image offsets +real scales[nimages] # Scale factors +real zeros[nimages] # Zero offset factors +int nimages # Number of input images +int npts # NUmber of output points per line +long v1[ARB], v2[ARB] # Line vectors + +int i, j, k, l, ndim, nused +real a, b +pointer buf, dp, ip, mp, imgnl$t() + +include "../icombine.com" + +begin + # Get masks and return if there is no data + call ic_mget (in, out, offsets, v1, v2, m, lflag, nimages) + if (dflag == D_NONE) + return + + # Get data and fill data buffers. Correct for offsets if needed. + ndim = IM_NDIM(out[1]) + do i = 1, nimages { + if (lflag[i] == D_NONE) + next + if (aligned) { + call amovl (v1, v2, IM_MAXDIM) + if (project) + v2[ndim+1] = i + j = imgnl$t (in[i], d[i], v2) + } else { + v2[1] = v1[1] + do j = 2, ndim + v2[j] = v1[j] - offsets[i,j] + if (project) + v2[ndim+1] = i + j = imgnl$t (in[i], buf, v2) + call amov$t (Mem$t[buf], Mem$t[dbuf[i]+offsets[i,1]], + IM_LEN(in[i],1)) + d[i] = dbuf[i] + } + } + + # Apply threshold if needed + if (dothresh) { + do i = 1, nimages { + dp = d[i] + if (lflag[i] == D_ALL) { + do j = 1, npts { + a = Mem$t[dp] + if (a < lthresh || a > hthresh) { + Memi[m[i]+j-1] = 1 + lflag[i] = D_MIX + dflag = D_MIX + } + dp = dp + 1 + } + } else if (lflag[i] == D_MIX) { + mp = m[i] + do j = 1, npts { + if (Memi[mp] == 0) { + a = Mem$t[dp] + if (a < lthresh || a > hthresh) { + Memi[m[i]+j-1] = 1 + dflag = D_MIX + } + } + dp = dp + 1 + mp = mp + 1 + } + } + + # Check for completely empty lines + if (lflag[i] == D_MIX) { + lflag[i] = D_NONE + mp = m[i] + do j = 1, npts { + if (Memi[mp] == 0) { + lflag[i] = D_MIX + break + } + mp = mp + 1 + } + } + } + } + + # Apply scaling (avoiding masked pixels which might overflow?) + if (doscale) { + if (dflag == D_ALL) { + do i = 1, nimages { + dp = d[i] + a = scales[i] + b = -zeros[i] + do j = 1, npts { + Mem$t[dp] = Mem$t[dp] / a + b + dp = dp + 1 + } + } + } else if (dflag == D_MIX) { + do i = 1, nimages { + dp = d[i] + a = scales[i] + b = -zeros[i] + if (lflag[i] == D_ALL) { + do j = 1, npts { + Mem$t[dp] = Mem$t[dp] / a + b + dp = dp + 1 + } + } else if (lflag[i] == D_MIX) { + mp = m[i] + do j = 1, npts { + if (Memi[mp] == 0) + Mem$t[dp] = Mem$t[dp] / a + b + dp = dp + 1 + mp = mp + 1 + } + } + } + } + } + + # Sort pointers to exclude unused images. + # Use the lflag array to keep track of the image index. + + if (dflag == D_ALL) + nused = nimages + else { + nused = 0 + do i = 1, nimages + if (lflag[i] != D_NONE) { + nused = nused + 1 + d[nused] = d[i] + m[nused] = m[i] + lflag[nused] = i + } + if (nused == 0) + dflag = D_NONE + } + + # Compact data to remove bad pixels + # Keep track of the image indices if needed + # If growing mark the end of the included image indices with zero + + if (dflag == D_ALL) { + call amovki (nused, n, npts) + if (keepids) + do i = 1, nimages + call amovki (i, Memi[id[i]], npts) + } else if (dflag == D_NONE) + call aclri (n, npts) + else { + call aclri (n, npts) + if (keepids) { + do i = 1, nused { + l = lflag[i] + dp = d[i] + ip = id[i] + mp = m[i] + do j = 1, npts { + if (Memi[mp] == 0) { + n[j] = n[j] + 1 + k = n[j] + if (k < i) { + Mem$t[d[k]+j-1] = Mem$t[dp] + Memi[id[k]+j-1] = l + } else + Memi[ip] = l + } + dp = dp + 1 + ip = ip + 1 + mp = mp + 1 + } + } + if (grow > 0) { + do j = 1, npts { + do i = n[j]+1, nimages + Memi[id[i]+j-1] = 0 + } + } + } else { + do i = 1, nused { + dp = d[i] + mp = m[i] + do j = 1, npts { + if (Memi[mp] == 0) { + n[j] = n[j] + 1 + k = n[j] + if (k < i) + Mem$t[d[k]+j-1] = Mem$t[dp] + } + dp = dp + 1 + mp = mp + 1 + } + } + } + } + + # Sort the pixels and IDs if needed + if (mclip) { + call malloc (dp, nimages, TY_PIXEL) + if (keepids) { + call malloc (ip, nimages, TY_INT) + call ic_2sort$t (d, Mem$t[dp], id, Memi[ip], n, npts) + call mfree (ip, TY_INT) + } else + call ic_sort$t (d, Mem$t[dp], n, npts) + call mfree (dp, TY_PIXEL) + } +end +$endfor |