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include <gset.h>
include "sensfunc.h"
# SF_MOVE -- Move point, star, or wavelength.
procedure sf_move (gp, stds, nstds, key, istd, ipt, shift)
pointer gp # GIO pointer
pointer stds[nstds] # Standard star data
int nstds # Number of standard stars
int key # Delete point, star, or wavelength
int istd # Index of standard star
int ipt # Index of point
real shift
int i, j, n, wcs, mark, mdel, cdel, color, stridx()
real wave, szmark, szmdel
pointer x, y, z, w, gio
begin
gio = GP_GIO(gp)
mdel = GP_MDEL(gp)
cdel = GP_CDEL(gp)
szmdel = GP_SZMDEL(gp)
szmark = GP_SZMARK(gp)
# Move points in each displayed graph.
for (wcs = 1; GP_GRAPHS(gp,wcs) != EOS; wcs = wcs + 1) {
if (stridx (GP_GRAPHS(gp,wcs), "ars") == 0)
next
call gseti (gio, G_WCS, wcs)
call sf_data (stds, nstds, GP_GRAPHS(gp,wcs))
switch (key) {
case 'p':
if (istd != nstds-1) {
mark = GP_MARK(gp)
color = GP_CMARK(gp)
} else {
mark = GP_MADD(gp)
color = GP_CADD(gp)
}
x = STD_X(stds[istd])+ipt-1
y = STD_Y(stds[istd],1)+ipt-1
w = STD_WTS(stds[istd])+ipt-1
if (Memr[w] != 0.) {
call gseti (gio, G_PMLTYPE, 0)
call gmark (gio, Memr[x], Memr[y], mark, szmark, szmark)
call gseti (gio, G_PMLTYPE, 1)
call gseti (gio, G_PLCOLOR, color)
call gmark (gio, Memr[x], Memr[y]+shift, mark, szmark,
szmark)
} else {
call gseti (gio, G_PMLTYPE, 0)
call gmark (gio, Memr[x], Memr[y], mdel, szmdel, szmdel)
call gseti (gio, G_PMLTYPE, 1)
call gseti (gio, G_PLCOLOR, cdel)
call gmark (gio, Memr[x], Memr[y]+shift, mdel, szmdel,
szmdel)
}
case 's':
if (istd != nstds-1) {
mark = GP_MARK(gp)
color = GP_CMARK(gp)
} else {
mark = GP_MADD(gp)
color = GP_CADD(gp)
}
n = STD_NWAVES(stds[istd])
x = STD_X(stds[istd])
y = STD_Y(stds[istd])
w = STD_WTS(stds[istd])
do i = 1, n {
if (Memr[w] != 0.) {
call gseti (gio, G_PMLTYPE, 0)
call gmark (gio, Memr[x], Memr[y], mark, szmark, szmark)
call gseti (gio, G_PMLTYPE, 1)
call gseti (gio, G_PLCOLOR, color)
call gmark (gio, Memr[x], Memr[y]+shift, mark, szmark,
szmark)
} else {
call gseti (gio, G_PMLTYPE, 0)
call gmark (gio, Memr[x], Memr[y], mdel, szmdel, szmdel)
call gseti (gio, G_PMLTYPE, 1)
call gseti (gio, G_PLCOLOR, cdel)
call gmark (gio, Memr[x], Memr[y]+shift, mdel, szmdel,
szmdel)
}
x = x + 1
y = y + 1
w = w + 1
}
case 'w':
wave = Memr[STD_WAVES(stds[istd])+ipt-1]
do i = 1, nstds {
if (STD_FLAG(stds[i]) != SF_INCLUDE)
next
if (i != nstds-1) {
mark = GP_MARK(gp)
color = GP_CMARK(gp)
} else {
mark = GP_MADD(gp)
color = GP_CADD(gp)
}
n = STD_NWAVES(stds[i])
x = STD_X(stds[i])
y = STD_Y(stds[i])
z = STD_WAVES(stds[i])
w = STD_WTS(stds[i])
do j = 1, n {
if (Memr[z] == wave) {
if (Memr[w] != 0.) {
call gseti (gio, G_PMLTYPE, 0)
call gmark (gio, Memr[x], Memr[y], mark, szmark,
szmark)
call gseti (gio, G_PMLTYPE, 1)
call gseti (gio, G_PLCOLOR, color)
call gmark (gio, Memr[x], Memr[y]+shift, mark,
szmark, szmark)
} else {
call gseti (gio, G_PMLTYPE, 0)
call gmark (gio, Memr[x], Memr[y], mdel, szmdel,
szmdel)
call gseti (gio, G_PMLTYPE, 1)
call gseti (gio, G_PLCOLOR, cdel)
call gmark (gio, Memr[x], Memr[y]+shift, mdel,
szmdel, szmdel)
}
}
x = x + 1
y = y + 1
z = z + 1
w = w + 1
}
}
}
}
# Now add the shift to the data.
switch (key) {
case 'p':
y = STD_SENS(stds[istd])+ipt-1
Memr[y] = Memr[y] + shift
case 's':
n = STD_NWAVES(stds[istd])
y = STD_SENS(stds[istd])
call aaddkr (Memr[y], shift, Memr[y], n)
STD_SHIFT(stds[istd]) = STD_SHIFT(stds[istd]) + shift
case 'w':
wave = Memr[STD_WAVES(stds[istd])+ipt-1]
do i = 1, nstds {
if (STD_FLAG(stds[i]) != SF_INCLUDE)
next
n = STD_NWAVES(stds[i])
z = STD_WAVES(stds[i])
y = STD_SENS(stds[i])
do j = 1, n {
if (Memr[z] == wave)
Memr[y] = Memr[y] + shift
w = w + 1
y = y + 1
}
}
}
end
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