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# Copyright(c) 1986 Association of Universities for Research in Astronomy Inc.
include <gset.h>
include "gtools.h"
# GT_GETI -- Set integer parameters.
int procedure gt_geti (gt, param)
pointer gt # GTOOLS pointer
int param # Parameter to set
begin
switch (param) {
case GTLINE:
return (GT_LINE(gt))
case GTTRANSPOSE:
return (GT_TRANSPOSE(gt))
case GTSYSID:
return (GT_SYSID(gt))
case GTCOLOR:
return (GT_COLOR(gt))
case GTXFLIP:
return (GT_XFLIP(gt))
case GTYFLIP:
return (GT_YFLIP(gt))
case GTDRAWTITLE:
return (GT_DRWTITLE(gt))
case GTDRAWXLABELS:
return (GT_DRWXLABELS(gt))
case GTDRAWYLABELS:
return (GT_DRWYLABELS(gt))
}
end
# GT_GETR -- Set real parameters.
real procedure gt_getr (gt, param)
pointer gt # GTOOLS pointer
int param # Parameter to set
begin
switch (param) {
case GTVXMIN:
return (GT_VXMIN(gt))
case GTVXMAX:
return (GT_VXMAX(gt))
case GTVYMIN:
return (GT_VYMIN(gt))
case GTVYMAX:
return (GT_VYMAX(gt))
case GTXMIN:
if (GT_XFLIP(gt) == NO)
return (GT_XMIN(gt))
else
return (GT_XMAX(gt))
case GTXMAX:
if (GT_XFLIP(gt) == NO)
return (GT_XMAX(gt))
else
return (GT_XMIN(gt))
case GTYMIN:
if (GT_YFLIP(gt) == NO)
return (GT_YMIN(gt))
else
return (GT_YMAX(gt))
case GTYMAX:
if (GT_YFLIP(gt) == NO)
return (GT_YMAX(gt))
else
return (GT_YMIN(gt))
case GTXBUF:
return (GT_XBUF(gt))
case GTYBUF:
return (GT_YBUF(gt))
case GTLCLIP:
return (GT_LCLIP(gt))
case GTHCLIP:
return (GT_HCLIP(gt))
case GTXSIZE:
return (GT_XSIZE(gt))
case GTYSIZE:
return (GT_YSIZE(gt))
}
end
# GT_GETS -- Get string parameters.
procedure gt_gets (gt, param, str, sz_str)
pointer gt # GTOOLS pointer
int param # Parameter to set
char str[sz_str] # String
int sz_str # Size of string
begin
str[1] = EOS
switch (param) {
case GTPARAMS:
if (GT_PARAMS(gt) != NULL)
call strcpy (Memc[GT_PARAMS(gt)], str, sz_str)
case GTTITLE:
if (GT_TITLE(gt) != NULL)
call strcpy (Memc[GT_TITLE(gt)], str, sz_str)
case GTSUBTITLE:
if (GT_SUBTITLE(gt) != NULL)
call strcpy (Memc[GT_SUBTITLE(gt)], str, sz_str)
case GTCOMMENTS:
if (GT_COMMENTS(gt) != NULL)
call strcpy (Memc[GT_COMMENTS(gt)], str, sz_str)
case GTXLABEL:
if (GT_XLABEL(gt) != NULL)
call strcpy (Memc[GT_XLABEL(gt)], str, sz_str)
case GTYLABEL:
if (GT_YLABEL(gt) != NULL)
call strcpy (Memc[GT_YLABEL(gt)], str, sz_str)
case GTXUNITS:
if (GT_XUNITS(gt) != NULL)
call strcpy (Memc[GT_XUNITS(gt)], str, sz_str)
case GTYUNITS:
if (GT_YUNITS(gt) != NULL)
call strcpy (Memc[GT_YUNITS(gt)], str, sz_str)
case GTXFORMAT:
if (GT_XFORMAT(gt) != NULL)
call strcpy (Memc[GT_XFORMAT(gt)], str, sz_str)
case GTYFORMAT:
if (GT_YFORMAT(gt) != NULL)
call strcpy (Memc[GT_YFORMAT(gt)], str, sz_str)
case GTXTRAN:
switch (GT_XTRAN(gt)) {
case GW_LINEAR:
call strcpy ("linear", str, sz_str)
case GW_ELOG:
call strcpy ("logarithmic", str, sz_str)
}
case GTYTRAN:
switch (GT_YTRAN(gt)) {
case GW_LINEAR:
call strcpy ("linear", str, sz_str)
case GW_ELOG:
call strcpy ("logarithmic", str, sz_str)
}
case GTTYPE:
#switch (GT_TYPE(gt)) {
#case 1:
# call strcpy ("mark", str, sz_str)
#case 2:
# call strcpy ("line", str, sz_str)
#case 3:
# call strcpy ("histogram", str, sz_str)
#}
switch (GT_TYPE(gt)) {
case 1:
switch (GT_MARK(gt)) {
case GM_POINT:
call strcpy ("point", str, sz_str)
case GM_BOX:
call strcpy ("box", str, sz_str)
case GM_PLUS:
call strcpy ("plus", str, sz_str)
case GM_CROSS:
call strcpy ("cross", str, sz_str)
case GM_DIAMOND:
call strcpy ("diamond", str, sz_str)
case GM_HLINE:
call strcpy ("hline", str, sz_str)
case GM_VLINE:
call strcpy ("vline", str, sz_str)
case GM_HEBAR:
call strcpy ("hebar", str, sz_str)
case GM_VEBAR:
call strcpy ("vebar", str, sz_str)
case GM_CIRCLE:
call strcpy ("circle", str, sz_str)
}
case 2:
call sprintf (str, sz_str, "line%d")
call pargi (GT_LINE(gt))
case 3:
call sprintf (str, sz_str, "hist%d")
call pargi (GT_LINE(gt))
}
case GTMARK:
switch (GT_MARK(gt)) {
case GM_POINT:
call strcpy ("point", str, sz_str)
case GM_BOX:
call strcpy ("box", str, sz_str)
case GM_PLUS:
call strcpy ("plus", str, sz_str)
case GM_CROSS:
call strcpy ("cross", str, sz_str)
case GM_DIAMOND:
call strcpy ("diamond", str, sz_str)
case GM_HLINE:
call strcpy ("hline", str, sz_str)
case GM_VLINE:
call strcpy ("vline", str, sz_str)
case GM_HEBAR:
call strcpy ("hebar", str, sz_str)
case GM_VEBAR:
call strcpy ("vebar", str, sz_str)
case GM_CIRCLE:
call strcpy ("circle", str, sz_str)
}
}
end
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