path: root/pkg/images/imutil/src/generic/imaadd.x

# Copyright(c) 1986 Association of Universities for Research in Astronomy Inc.

include	<imhdr.h>


# IMA_ADD -- Image arithmetic addition.

procedure ima_adds (im_a, im_b, im_c, a, b)

pointer	im_a, im_b, im_c
short	a, b

int	len
pointer	im[3], buf[3]
long	v[IM_MAXDIM, 3]

int	ima_nls()

begin
	# Loop through all of the image lines.
	im[1] = im_c
	len = IM_LEN (im[1], 1)
	call amovkl (long(1), v, 3 * IM_MAXDIM)

	# If imagea is constant then read imageb and do a vector/scalar
	# addition to imagec.
	if (im_a == NULL) {
	    im[2] = im_b
	    while (ima_nls (im, buf, v, 2) != EOF) {
		if (a == 0)
		    call amovs (Mems[buf[2]], Mems[buf[1]], len)
		else
		    call aaddks (Mems[buf[2]], a, Mems[buf[1]], len)
	    }

	# If imageb is constant then read imagea and do a vector/scalar
	# addition to imagec.
	} else if (im_b == NULL) {
	    im[2] = im_a
	    while (ima_nls (im, buf, v, 2) != EOF) {
		if (b == 0)
		    call amovs (Mems[buf[2]], Mems[buf[1]], len)
		else
		    call aaddks (Mems[buf[2]], b, Mems[buf[1]], len)
	    }

	# Read imagea and imageb and do a vector addition into imagec.
	} else {
	    im[2] = im_a
	    im[3] = im_b
	    while (ima_nls (im, buf, v, 3) != EOF)
		call aadds (Mems[buf[2]], Mems[buf[3]], Mems[buf[1]], len)
	}
end

# IMA_ADD -- Image arithmetic addition.

procedure ima_addi (im_a, im_b, im_c, a, b)

pointer	im_a, im_b, im_c
int	a, b

int	len
pointer	im[3], buf[3]
long	v[IM_MAXDIM, 3]

int	ima_nli()

begin
	# Loop through all of the image lines.
	im[1] = im_c
	len = IM_LEN (im[1], 1)
	call amovkl (long(1), v, 3 * IM_MAXDIM)

	# If imagea is constant then read imageb and do a vector/scalar
	# addition to imagec.
	if (im_a == NULL) {
	    im[2] = im_b
	    while (ima_nli (im, buf, v, 2) != EOF) {
		if (a == 0)
		    call amovi (Memi[buf[2]], Memi[buf[1]], len)
		else
		    call aaddki (Memi[buf[2]], a, Memi[buf[1]], len)
	    }

	# If imageb is constant then read imagea and do a vector/scalar
	# addition to imagec.
	} else if (im_b == NULL) {
	    im[2] = im_a
	    while (ima_nli (im, buf, v, 2) != EOF) {
		if (b == 0)
		    call amovi (Memi[buf[2]], Memi[buf[1]], len)
		else
		    call aaddki (Memi[buf[2]], b, Memi[buf[1]], len)
	    }

	# Read imagea and imageb and do a vector addition into imagec.
	} else {
	    im[2] = im_a
	    im[3] = im_b
	    while (ima_nli (im, buf, v, 3) != EOF)
		call aaddi (Memi[buf[2]], Memi[buf[3]], Memi[buf[1]], len)
	}
end

# IMA_ADD -- Image arithmetic addition.

procedure ima_addl (im_a, im_b, im_c, a, b)

pointer	im_a, im_b, im_c
long	a, b

int	len
pointer	im[3], buf[3]
long	v[IM_MAXDIM, 3]

int	ima_nll()

begin
	# Loop through all of the image lines.
	im[1] = im_c
	len = IM_LEN (im[1], 1)
	call amovkl (long(1), v, 3 * IM_MAXDIM)

	# If imagea is constant then read imageb and do a vector/scalar
	# addition to imagec.
	if (im_a == NULL) {
	    im[2] = im_b
	    while (ima_nll (im, buf, v, 2) != EOF) {
		if (a == 0)
		    call amovl (Meml[buf[2]], Meml[buf[1]], len)
		else
		    call aaddkl (Meml[buf[2]], a, Meml[buf[1]], len)
	    }

	# If imageb is constant then read imagea and do a vector/scalar
	# addition to imagec.
	} else if (im_b == NULL) {
	    im[2] = im_a
	    while (ima_nll (im, buf, v, 2) != EOF) {
		if (b == 0)
		    call amovl (Meml[buf[2]], Meml[buf[1]], len)
		else
		    call aaddkl (Meml[buf[2]], b, Meml[buf[1]], len)
	    }

	# Read imagea and imageb and do a vector addition into imagec.
	} else {
	    im[2] = im_a
	    im[3] = im_b
	    while (ima_nll (im, buf, v, 3) != EOF)
		call aaddl (Meml[buf[2]], Meml[buf[3]], Meml[buf[1]], len)
	}
end

# IMA_ADD -- Image arithmetic addition.

procedure ima_addr (im_a, im_b, im_c, a, b)

pointer	im_a, im_b, im_c
real	a, b

int	len
pointer	im[3], buf[3]
long	v[IM_MAXDIM, 3]

int	ima_nlr()

begin
	# Loop through all of the image lines.
	im[1] = im_c
	len = IM_LEN (im[1], 1)
	call amovkl (long(1), v, 3 * IM_MAXDIM)

	# If imagea is constant then read imageb and do a vector/scalar
	# addition to imagec.
	if (im_a == NULL) {
	    im[2] = im_b
	    while (ima_nlr (im, buf, v, 2) != EOF) {
		if (a == 0.0)
		    call amovr (Memr[buf[2]], Memr[buf[1]], len)
		else
		    call aaddkr (Memr[buf[2]], a, Memr[buf[1]], len)
	    }

	# If imageb is constant then read imagea and do a vector/scalar
	# addition to imagec.
	} else if (im_b == NULL) {
	    im[2] = im_a
	    while (ima_nlr (im, buf, v, 2) != EOF) {
		if (b == 0.0)
		    call amovr (Memr[buf[2]], Memr[buf[1]], len)
		else
		    call aaddkr (Memr[buf[2]], b, Memr[buf[1]], len)
	    }

	# Read imagea and imageb and do a vector addition into imagec.
	} else {
	    im[2] = im_a
	    im[3] = im_b
	    while (ima_nlr (im, buf, v, 3) != EOF)
		call aaddr (Memr[buf[2]], Memr[buf[3]], Memr[buf[1]], len)
	}
end

# IMA_ADD -- Image arithmetic addition.

procedure ima_addd (im_a, im_b, im_c, a, b)

pointer	im_a, im_b, im_c
double	a, b

int	len
pointer	im[3], buf[3]
long	v[IM_MAXDIM, 3]

int	ima_nld()

begin
	# Loop through all of the image lines.
	im[1] = im_c
	len = IM_LEN (im[1], 1)
	call amovkl (long(1), v, 3 * IM_MAXDIM)

	# If imagea is constant then read imageb and do a vector/scalar
	# addition to imagec.
	if (im_a == NULL) {
	    im[2] = im_b
	    while (ima_nld (im, buf, v, 2) != EOF) {
		if (a == 0.0D0)
		    call amovd (Memd[buf[2]], Memd[buf[1]], len)
		else
		    call aaddkd (Memd[buf[2]], a, Memd[buf[1]], len)
	    }

	# If imageb is constant then read imagea and do a vector/scalar
	# addition to imagec.
	} else if (im_b == NULL) {
	    im[2] = im_a
	    while (ima_nld (im, buf, v, 2) != EOF) {
		if (b == 0.0D0)
		    call amovd (Memd[buf[2]], Memd[buf[1]], len)
		else
		    call aaddkd (Memd[buf[2]], b, Memd[buf[1]], len)
	    }

	# Read imagea and imageb and do a vector addition into imagec.
	} else {
	    im[2] = im_a
	    im[3] = im_b
	    while (ima_nld (im, buf, v, 3) != EOF)
		call aaddd (Memd[buf[2]], Memd[buf[3]], Memd[buf[1]], len)
	}
end