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include <mach.h>
include <gset.h>
include <pkg/gtools.h>
include <smw.h>
include "../identify.h"
include "autoid.h"
# AID_LGRAPH -- Graph target and reference spectra and associated lines.
# This is only used for debugging.
procedure aid_lgraph (aid, x1, n1, x2, n2)
pointer aid #I AID pointer
double x1[n1] #I Reference lines
int n1 #I Number of reference lines
double x2[n2] #I Target lines
int n2 #I Number of target lines
int i, wcs, key, nr, nt, redraw, clgcur(), stridxs()
real wx, wy, wz, a, b, c, d, dy, ytmin, ytmax
pointer sp, cmd, id, sht, shr, gp, gt, xr, yr, yt, y, gt_init()
double shdr_lw()
begin
call smark (sp)
call salloc (cmd, SZ_LINE, TY_CHAR)
id = AID_IDT(aid)
sht = ID_SH(id)
shr = ID_SH(AID_IDR(aid))
gp = ID_GP(id)
if (gp == NULL)
return
gt = gt_init()
call gt_sets (gt, GTTYPE, "line")
call gt_seti (gt, GTSYSID, NO)
if (DC(sht) == DCNO || WP(sht) * AID_CDSIGN(aid) < 0.) {
call gt_setr (gt, GTXMIN, AID_W1(aid))
call gt_setr (gt, GTXMAX, AID_W2(aid))
} else {
call gt_setr (gt, GTXMIN, W0(sht))
call gt_setr (gt, GTXMAX, W1(sht))
}
if (shr != NULL) {
xr = SX(shr) + AID_X1R(aid) - 1
yr = AID_SPECR(aid)
nr = AID_X2R(aid) - AID_X1R(aid) + 1
}
nt = ID_NPTS(id)
yt = ID_IMDATA(id)
call alimr (Memr[yt], nt, ytmin, ytmax)
call malloc (y, max(nr,nt), TY_REAL)
key = 'r'
repeat {
switch (key) {
case ':':
call gt_colon (Memc[cmd], gp, gt, redraw)
case 'Q':
i = stridxs ("l", AID_DEBUG(aid,1))
AID_DEBUG(aid,i) = ' '
break
case 'q':
break
case 'r':
redraw = YES
case 'w':
call gt_window (gt, gp, "gcur", redraw)
}
if (redraw == YES) {
call gclear (gp)
call gseti (gp, G_YDRAWTICKS, NO)
if (shr != NULL) {
call gascale (gp, Memr[xr], nr, 1)
call gascale (gp, Memr[yr], nr, 2)
} else {
call gswind (gp, real(x1[1]), real(x1[n1]), 0., 1.)
}
call gt_swind (gp, gt)
call ggwind (gp, a, b, c, d)
dy = 2 * (d - c)
call gswind (gp, a, b, c, c + dy)
call gt_labax(gp, gt)
if (shr != NULL) {
call aminkr (Memr[yr], c + 0.44 * dy, Memr[y], nr)
call gt_plot (gp, gt, Memr[xr], Memr[y], nr)
}
wy = c + 0.46 * dy
wz = c + 0.49 * dy
do i = 1, n1 {
wx = x1[i]
if (wx < min (a,b) || wx > max (a,b))
next
call gline (gp, wx, wy, wx, wz)
}
call amapr (Memr[yt], Memr[y], nt,
ytmin, ytmax, c+0.55*dy, c+0.99*dy)
wy = c + 0.50 * dy
wz = c + 0.53 * dy
if (DC(sht) == DCNO || WP(sht) * AID_CDSIGN(aid) < 0.) {
call gvline (gp, Memr[y], nt, a, b)
do i = 1, n2 {
wx = a + (x2[i] - 1) / (nt - 1) * (b - a)
call gline (gp, wx, wy, wx, wz)
}
} else {
call gpline (gp, Memr[SX(sht)], Memr[y], nt)
do i = 1, n2 {
wx = shdr_lw (sht, double (x2[i]))
call gline (gp, wx, wy, wx, wz)
}
}
redraw = NO
}
} until (clgcur ("gcur", wx, wy, wcs, key, Memc[cmd], SZ_LINE) == EOF)
call gdeactivate (gp, 0)
call mfree (y, TY_REAL)
call gt_free (gt)
call sfree (sp)
end
# AID_DGRAPH -- Graph candidate dispersions.
# This routine is only used for debugging.
procedure aid_dgraph (aid, x, y, n, w1, dw, nd)
pointer aid #I AID pointer
real x[n] #I Array of candidate reference coordinates (sorted)
real y[n] #I Array of candidate target coordinates
int n #I Number of candidate pairs
real w1[nd] #I Dispersion origin
real dw[nd] #I Dispersion slope
int nd #I Number of dispersions
int i, ndplot, wcs, key, redraw, clgcur(), stridxs(), ctoi()
real wx, wy, a, b, c, d, dy, crpix, crval, cdelt
pointer sp, cmd, sh, gp, gt, gt_init()
begin
call smark (sp)
call salloc (cmd, SZ_LINE, TY_CHAR)
sh = ID_SH(AID_IDT(aid))
gp = ID_GP(AID_IDT(aid))
if (gp == NULL)
return
gt = gt_init()
call gt_seti (gt, GTSYSID, NO)
if (DC(sh) != DCNO) {
call gt_setr (gt, GTXMIN, W0(sh))
call gt_setr (gt, GTXMAX, W1(sh))
call gt_setr (gt, GTYMIN, 1.)
call gt_setr (gt, GTYMAX, real(SN(sh)))
}
ndplot = nd
key = 'r'
repeat {
switch (key) {
case ':':
if (Memc[cmd] == '/')
call gt_colon (Memc[cmd], gp, gt, redraw)
else {
i = 1
if (ctoi (Memc[cmd], i, ndplot) == 0)
ndplot = nd
}
case 'Q':
i = stridxs ("d", AID_DEBUG(aid,1))
AID_DEBUG(aid,i) = ' '
break
case 'q':
break
case 'r':
redraw = YES
case 'w':
call gt_window (gt, gp, "gcur", redraw)
}
if (redraw == YES) {
call gclear (gp)
call gascale (gp, x, n, 1)
call gascale (gp, y, n, 2)
call gt_swind (gp, gt)
call gt_labax(gp, gt)
call gt_plot (gp, gt, x, y, n)
call ggwind (gp, a, b, c, d)
dy = (b - a) / 500.
do i = 1, ndplot {
crval = w1[i]
cdelt = dw[i]
wy = c
wx = crval + wy * cdelt
call gamove (gp, wx, wy)
for (wy=wy+dy; wy<d+dy; wy=wy+dy) {
wx = crval + wy * cdelt
call gadraw (gp, wx, wy)
}
}
if (AID_CRMIN(aid) > -MAX_DOUBLE / 10. &&
AID_CRMAX(aid) < MAX_DOUBLE / 10.) {
crpix = AID_CRPIX(aid)
crval = AID_CDSIGN(aid) * AID_CDMIN(aid)
cdelt = AID_CDSIGN(aid) * AID_CDMAX(aid)
for (wy=c; wy<d+dy; wy=wy+dy) {
wx = AID_CRMIN(aid) +
min ((wy-crpix)*crval, (wy-crpix)*cdelt)
call gmark (gp, wx, wy, GM_POINT, 2, 2)
}
for (wy=c; wy<d+dy; wy=wy+dy) {
wx = AID_CRMAX(aid) +
max ((wy-crpix)*crval, (wy-crpix)*cdelt)
call gmark (gp, wx, wy, GM_POINT, 2, 2)
}
}
redraw = NO
}
} until (clgcur ("gcur", wx, wy, wcs, key, Memc[cmd], SZ_LINE) == EOF)
call gdeactivate (gp, 0)
call gt_free (gt)
call sfree (sp)
end
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