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# Copyright(c) 1986 Association of Universities for Research in Astronomy Inc.
include <imhdr.h>
include <error.h>
define AVG 1 # operation = arithmetic average
define SUM 2 # operation = arithmetic sum
# change to (lrdx) in future
# BLKAVG -- Block average or sum on n-dimensional images.
# For example, block averaging by a factor of 2 means that pixels 1 and 2
# are averaged to produce the first output pixel, 3 and 4 are averaged to
# produce the second output pixel, and so on. Remainder pixels at the end
# of a line, col, etc. are averaged correctly.
procedure blkavl (im1, im2, blkfac, option)
pointer im1 # input image
pointer im2 # output image
int blkfac[IM_MAXDIM] # blocking factors
int option # block operation (average, sum, ...)
int num_oblks[IM_MAXDIM], i, count, ndim, dim, nlines_in_sum, nfull_blkx
int junk, num_ilines, num_olines, oline
long blkin_s[IM_MAXDIM], blkin_e[IM_MAXDIM]
long vin_s[IM_MAXDIM], vin_e[IM_MAXDIM], vout[IM_MAXDIM]
real sum
pointer sp, accum_ptr, iline_ptr, oline_ptr
int blkcomp(), imggsl(), impnll()
errchk imggsl(), impnll()
begin
call smark (sp)
call salloc (accum_ptr, IM_LEN(im1, 1), TY_LONG)
# Initialize; input and output vectors, block counters.
ndim = IM_NDIM(im1)
nfull_blkx = IM_LEN(im1, 1) / blkfac[1]
blkin_s[1] = long(1)
blkin_e[1] = long(IM_LEN(im1, 1))
vin_s[1] = blkin_s[1]
vin_e[1] = blkin_e[1]
do i = 1, ndim {
num_oblks[i] = (IM_LEN(im1,i) + blkfac[i] - 1) / blkfac[i]
IM_LEN(im2, i) = num_oblks[i]
}
num_olines = 1
do i = 2, ndim
num_olines = num_olines * num_oblks[i]
call amovkl (long(1), vout, IM_MAXDIM)
# For each sequential output-image line, ...
do oline = 1, num_olines {
call aclrl (Meml[accum_ptr], IM_LEN(im1, 1))
nlines_in_sum = 0
# Compute block vector; initialize dim>1 input vector.
num_ilines = blkcomp (im1, blkfac, vout, blkin_s, blkin_e,
vin_s, vin_e)
# Output pointer; note impnl$t returns vout for NEXT output line.
junk = impnll (im2, oline_ptr, vout)
# For all input lines mapping to current output line, ...
do i = 1, num_ilines {
# Get line from input image.
iline_ptr = imggsl (im1, vin_s, vin_e, ndim)
# Increment general section input vector between block bounds.
do dim = 2, ndim {
if (vin_s[dim] < blkin_e[dim]) {
vin_s[dim] = vin_s[dim] + 1
vin_e[dim] = vin_s[dim]
break
} else {
vin_s[dim] = blkin_s[dim]
vin_e[dim] = vin_s[dim]
}
}
# Accumulate line into block sum. Keep track of no. of
# lines in sum so that we can compute block average later.
call aaddl (Meml[iline_ptr], Meml[accum_ptr],
Meml[accum_ptr], IM_LEN(im1,1))
nlines_in_sum = nlines_in_sum + 1
}
# We now have a templine of sums; average/sum into output buffer
# first the full blocks using a vop.
if (option == AVG)
call abavl (Meml[accum_ptr], Meml[oline_ptr], nfull_blkx,
blkfac[1])
else
call absul (Meml[accum_ptr], Meml[oline_ptr], nfull_blkx,
blkfac[1])
# Now average/sum the final partial block in x, if any.
if (nfull_blkx < num_oblks[1]) {
sum = 0
count = 0
do i = nfull_blkx * blkfac[1] + 1, IM_LEN(im1,1) {
sum = sum + Meml[accum_ptr+i-1]
count = count + 1
}
if (option == AVG)
Meml[oline_ptr+num_oblks[1]-1] = sum / count
else
Meml[oline_ptr+num_oblks[1]-1] = sum
}
# Block average into output line from the sum of all lines block
# averaged in X.
if (option == AVG)
call adivkl (Meml[oline_ptr], long(nlines_in_sum),
Meml[oline_ptr], num_oblks[1])
}
call sfree (sp)
end
# BLKAVG -- Block average or sum on n-dimensional images.
# For example, block averaging by a factor of 2 means that pixels 1 and 2
# are averaged to produce the first output pixel, 3 and 4 are averaged to
# produce the second output pixel, and so on. Remainder pixels at the end
# of a line, col, etc. are averaged correctly.
procedure blkavr (im1, im2, blkfac, option)
pointer im1 # input image
pointer im2 # output image
int blkfac[IM_MAXDIM] # blocking factors
int option # block operation (average, sum, ...)
int num_oblks[IM_MAXDIM], i, count, ndim, dim, nlines_in_sum, nfull_blkx
int junk, num_ilines, num_olines, oline
long blkin_s[IM_MAXDIM], blkin_e[IM_MAXDIM]
long vin_s[IM_MAXDIM], vin_e[IM_MAXDIM], vout[IM_MAXDIM]
real sum
pointer sp, accum_ptr, iline_ptr, oline_ptr
int blkcomp(), imggsr(), impnlr()
errchk imggsr(), impnlr()
begin
call smark (sp)
call salloc (accum_ptr, IM_LEN(im1, 1), TY_REAL)
# Initialize; input and output vectors, block counters.
ndim = IM_NDIM(im1)
nfull_blkx = IM_LEN(im1, 1) / blkfac[1]
blkin_s[1] = long(1)
blkin_e[1] = long(IM_LEN(im1, 1))
vin_s[1] = blkin_s[1]
vin_e[1] = blkin_e[1]
do i = 1, ndim {
num_oblks[i] = (IM_LEN(im1,i) + blkfac[i] - 1) / blkfac[i]
IM_LEN(im2, i) = num_oblks[i]
}
num_olines = 1
do i = 2, ndim
num_olines = num_olines * num_oblks[i]
call amovkl (long(1), vout, IM_MAXDIM)
# For each sequential output-image line, ...
do oline = 1, num_olines {
call aclrr (Memr[accum_ptr], IM_LEN(im1, 1))
nlines_in_sum = 0
# Compute block vector; initialize dim>1 input vector.
num_ilines = blkcomp (im1, blkfac, vout, blkin_s, blkin_e,
vin_s, vin_e)
# Output pointer; note impnl$t returns vout for NEXT output line.
junk = impnlr (im2, oline_ptr, vout)
# For all input lines mapping to current output line, ...
do i = 1, num_ilines {
# Get line from input image.
iline_ptr = imggsr (im1, vin_s, vin_e, ndim)
# Increment general section input vector between block bounds.
do dim = 2, ndim {
if (vin_s[dim] < blkin_e[dim]) {
vin_s[dim] = vin_s[dim] + 1
vin_e[dim] = vin_s[dim]
break
} else {
vin_s[dim] = blkin_s[dim]
vin_e[dim] = vin_s[dim]
}
}
# Accumulate line into block sum. Keep track of no. of
# lines in sum so that we can compute block average later.
call aaddr (Memr[iline_ptr], Memr[accum_ptr],
Memr[accum_ptr], IM_LEN(im1,1))
nlines_in_sum = nlines_in_sum + 1
}
# We now have a templine of sums; average/sum into output buffer
# first the full blocks using a vop.
if (option == AVG)
call abavr (Memr[accum_ptr], Memr[oline_ptr], nfull_blkx,
blkfac[1])
else
call absur (Memr[accum_ptr], Memr[oline_ptr], nfull_blkx,
blkfac[1])
# Now average/sum the final partial block in x, if any.
if (nfull_blkx < num_oblks[1]) {
sum = 0.0
count = 0
do i = nfull_blkx * blkfac[1] + 1, IM_LEN(im1,1) {
sum = sum + Memr[accum_ptr+i-1]
count = count + 1
}
if (option == AVG)
Memr[oline_ptr+num_oblks[1]-1] = sum / count
else
Memr[oline_ptr+num_oblks[1]-1] = sum
}
# Block average into output line from the sum of all lines block
# averaged in X.
if (option == AVG)
call adivkr (Memr[oline_ptr], real(nlines_in_sum),
Memr[oline_ptr], num_oblks[1])
}
call sfree (sp)
end
# BLKAVG -- Block average or sum on n-dimensional images.
# For example, block averaging by a factor of 2 means that pixels 1 and 2
# are averaged to produce the first output pixel, 3 and 4 are averaged to
# produce the second output pixel, and so on. Remainder pixels at the end
# of a line, col, etc. are averaged correctly.
procedure blkavd (im1, im2, blkfac, option)
pointer im1 # input image
pointer im2 # output image
int blkfac[IM_MAXDIM] # blocking factors
int option # block operation (average, sum, ...)
int num_oblks[IM_MAXDIM], i, count, ndim, dim, nlines_in_sum, nfull_blkx
int junk, num_ilines, num_olines, oline
long blkin_s[IM_MAXDIM], blkin_e[IM_MAXDIM]
long vin_s[IM_MAXDIM], vin_e[IM_MAXDIM], vout[IM_MAXDIM]
double sum
pointer sp, accum_ptr, iline_ptr, oline_ptr
int blkcomp(), imggsd(), impnld()
errchk imggsd(), impnld()
begin
call smark (sp)
call salloc (accum_ptr, IM_LEN(im1, 1), TY_DOUBLE)
# Initialize; input and output vectors, block counters.
ndim = IM_NDIM(im1)
nfull_blkx = IM_LEN(im1, 1) / blkfac[1]
blkin_s[1] = long(1)
blkin_e[1] = long(IM_LEN(im1, 1))
vin_s[1] = blkin_s[1]
vin_e[1] = blkin_e[1]
do i = 1, ndim {
num_oblks[i] = (IM_LEN(im1,i) + blkfac[i] - 1) / blkfac[i]
IM_LEN(im2, i) = num_oblks[i]
}
num_olines = 1
do i = 2, ndim
num_olines = num_olines * num_oblks[i]
call amovkl (long(1), vout, IM_MAXDIM)
# For each sequential output-image line, ...
do oline = 1, num_olines {
call aclrd (Memd[accum_ptr], IM_LEN(im1, 1))
nlines_in_sum = 0
# Compute block vector; initialize dim>1 input vector.
num_ilines = blkcomp (im1, blkfac, vout, blkin_s, blkin_e,
vin_s, vin_e)
# Output pointer; note impnl$t returns vout for NEXT output line.
junk = impnld (im2, oline_ptr, vout)
# For all input lines mapping to current output line, ...
do i = 1, num_ilines {
# Get line from input image.
iline_ptr = imggsd (im1, vin_s, vin_e, ndim)
# Increment general section input vector between block bounds.
do dim = 2, ndim {
if (vin_s[dim] < blkin_e[dim]) {
vin_s[dim] = vin_s[dim] + 1
vin_e[dim] = vin_s[dim]
break
} else {
vin_s[dim] = blkin_s[dim]
vin_e[dim] = vin_s[dim]
}
}
# Accumulate line into block sum. Keep track of no. of
# lines in sum so that we can compute block average later.
call aaddd (Memd[iline_ptr], Memd[accum_ptr],
Memd[accum_ptr], IM_LEN(im1,1))
nlines_in_sum = nlines_in_sum + 1
}
# We now have a templine of sums; average/sum into output buffer
# first the full blocks using a vop.
if (option == AVG)
call abavd (Memd[accum_ptr], Memd[oline_ptr], nfull_blkx,
blkfac[1])
else
call absud (Memd[accum_ptr], Memd[oline_ptr], nfull_blkx,
blkfac[1])
# Now average/sum the final partial block in x, if any.
if (nfull_blkx < num_oblks[1]) {
sum = 0.0D0
count = 0
do i = nfull_blkx * blkfac[1] + 1, IM_LEN(im1,1) {
sum = sum + Memd[accum_ptr+i-1]
count = count + 1
}
if (option == AVG)
Memd[oline_ptr+num_oblks[1]-1] = sum / count
else
Memd[oline_ptr+num_oblks[1]-1] = sum
}
# Block average into output line from the sum of all lines block
# averaged in X.
if (option == AVG)
call adivkd (Memd[oline_ptr], double(nlines_in_sum),
Memd[oline_ptr], num_oblks[1])
}
call sfree (sp)
end
|
