/* "x.c" SCM interface to Xlib.
* Copyright (C) 1999 Free Software Foundation, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this program. If not, see
* .
*/
/* Authors: Aubrey Jaffer (I have rewritten nearly all of it) and:
*
* Modified by Shigenobu Kimura (skimu@izanagi.phys.s.u-tokyo.ac.jp)
* Author: Larry Campbell (campbell@world.std.com)
*
* Copyright 1992 by The Boston Software Works, Inc.
* Permission to use for any purpose whatsoever granted, as long
* as this copyright notice remains intact. Please send bug fixes
* or enhancements to the above email address.
*
* Generic X and Xlib functions for scm.
* These functions do not depend on any toolkit.
*/
#include
#include
#include
#include
/*#include */ /* For IntensityTbl */
#include
#include
#include
#include "scm.h"
/* These structs are mallocated for use in SMOBS. */
struct xs_Display {
SCM after;
int screen_count;
Display *dpy;
};
/* An array of struct xs_screen (following xs_Display) holds the
root-windows and default colormaps. */
struct xs_screen {
SCM root_window;
SCM default_gcontext;
SCM default_visual;
SCM default_colormap;
};
struct xs_Window {
SCM display;
int screen_number;
Display *dpy;
union {
Window win;
Pixmap pm;
Drawable drbl;
} p;
};
struct xs_GContext {
SCM display;
int screen_number;
Display *dpy;
GC gc;
SCM font;
SCM tile;
SCM stipple;
SCM clipmask;
};
struct xs_Cursor {
SCM display;
Cursor cursor;
};
struct xs_Font {
SCM display;
Font font;
SCM name;
};
struct xs_Colormap {
SCM display;
Display *dpy;
Colormap cm;
};
/* These structs are for returning multiple values when processing
procedure arguments. */
struct display_screen{
SCM display;
Display *dpy;
int screen_number;
};
/* The cproto program fills x.h with ANSI-C prototypes of the
functions in x.c. */
#include "x.h"
/* Macros for accessing these structs */
#define DISPLAY(x) ((struct xs_Display *) CDR(x))
#define WINDOW(x) ((struct xs_Window *) CDR(x))
#define CURSOR(x) ((struct xs_Cursor *) CDR(x))
#define FONT(x) ((struct xs_Font *) CDR(x))
#define COLORMAP(x) ((struct xs_Colormap *) CDR(x))
#define GCONTEXT(x) ((struct xs_GContext *) CDR(x))
#define XDISPLAY(x) (DISPLAY(x)->dpy)
#define XWINDOW(x) (WINDOW(x)->p.win)
#define XWINDISPLAY(x) (WINDOW(x)->dpy)
#define XCURSOR(x) (CURSOR(x)->cursor)
#define XFONT(x) (FONT(x)->font)
#define XGCONTEXT(x) (GCONTEXT(x)->gc)
#define XCOLORMAP(x) (COLORMAP(x)->cm)
#define XGCONDISPLAY(x) (GCONTEXT(x)->dpy)
/* Notice that types XVisualInfo, XcmsCCC, and XEvent don't have
struct wrappers. */
#define XVISUALINFO(x) ((XVisualInfo *) CDR(x))
#define XVISUAL(x) (XVISUALINFO(x)->visual)
#define XCCC(x) ((XcmsCCC) CDR(x))
#define XEVENT(x) ((XEvent *) CDR(x))
/* Type predicates */
#define DISPLAYP(x) (TYP16(x)==tc16_xdisplay)
#define OPDISPLAYP(x) (((0xffff | OPN) & (int)CAR(x))==(tc16_xdisplay | OPN))
#define WINDOWP(x) (TYP16(x)==tc16_xwindow)
#define OPWINDOWP(x) (((0xffff | OPN) & (int)CAR(x))==(tc16_xwindow | OPN))
#define COLORMAPP(x) (TYP16(x)==tc16_xcolormap)
#define GCONTEXTP(x) (TYP16(x)==tc16_xgcontext)
#define CCCP(x) (TYP16(x)==tc16_xccc)
#define CURSORP(x) (TYP16(x)==tc16_xcursor)
#define FONTP(x) (TYP16(x)==tc16_xfont)
#define VISUALP(x) (TYP16(x)==tc16_xvisual)
#define XEVENTP(x) (TYP16(x)==tc16_xevent)
/* Scheme Procedure Names */
static char s_x_open_display[] = "x:open-display";
static char s_x_close[] = "x:close";
static char s_x_display_debug[] = "x:display-debug";
static char s_x_default_screen[] = "x:default-screen";
static char s_x_root_window[] = "x:root-window";
static char s_x_default_gcontext[] = "x:default-gc";
static char s_x_default_visual[] = "x:default-visual";
static char s_x_default_colormap[] = "x:default-colormap";
static char s_x_default_ccc[] = "x:default-ccc";
/* static char s_x_ccc_screen_info[] = "x:ccc-screen-info"; */
static char s_x_create_window[] = "x:create-window";
static char s_x_window_set[] = "x:window-set!";
static char s_x_window_ref[] = "x:window-ref";
static char s_x_create_pixmap[] = "x:create-pixmap";
static char s_x_get_window_property[] = "x:get-window-property";
static char s_x_list_properties[] = "x:list-properties";
static char s_x_map_window[] = "x:map-window";
static char s_x_map_subwindows[] = "x:map-subwindows";
static char s_x_unmap_window[] = "x:unmap-window";
static char s_x_unmap_subwindows[] = "x:unmap-subwindows";
static char s_x_create_gc[] = "x:create-gc";
static char s_x_gc_set[] = "x:gc-set!";
static char s_x_gc_ref[] = "x:gc-ref";
static char s_x_copy_gc[] = "x:copy-gc-fields!";
static char s_x_create_cursor[] = "x:create-cursor";
static char s_x_load_font[] = "x:load-font";
static char s_x_protocol_version[] = "x:protocol-version";
static char s_x_vendor_release[] = "x:vendor-release";
static char s_x_server_vendor[] = "x:server-vendor";
static char s_x_next_event[] = "x:next-event";
static char s_x_peek_event[] = "x:peek-event";
static char s_x_events_queued[] = "x:events-queued";
static char s_x_q_length[] = "x:q-length";
static char s_x_pending[] = "x:pending";
static char s_x_screen_count[] = "x:screen-count";
static char s_x_screen_cells[] = "x:screen-cells";
static char s_x_screen_depths[] = "x:screen-depths";
static char s_x_screen_depth[] = "x:screen-depth";
static char s_x_screen_size[] = "x:screen-size";
static char s_x_screen_dimm[] = "x:screen-dimensions";
static char s_x_screen_white[] = "x:screen-white";
static char s_x_screen_black[] = "x:screen-black";
static char s_x_make_visual[] = "x:make-visual";
static char s_x_visual_class[] = "x:visual-class";
static char s_x_visual_geometry[] = "x:visual-geometry";
static char s_x_window_geometry[] = "x:window-geometry";
static char s_x_window_geometry_set[] = "x:window-geometry-set!";
static char s_x_create_colormap[] = "x:create-colormap";
static char s_x_recreate_colormap[] = "x:copy-colormap-and-free";
static char s_x_alloc_color_cells[] = "x:alloc-colormap-cells";
static char s_x_free_color_cells[] = "x:free-colormap-cells";
static char s_x_find_color[] = "x:colormap-find-color";
static char s_x_color_set[] = "x:colormap-set!";
static char s_x_color_ref[] = "x:colormap-ref";
static char s_x_install_colormap[] = "x:install-colormap";
/* static char s_x_colormap_basis[] = "x:colormap-basis"; */
/* static char s_x_colormap_limits[] = "x:colormap-limits"; */
static char s_x_clear_area[] = "x:clear-area";
static char s_x_fill_rectangle[] = "x:fill-rectangle";
/* static char s_x_copy_area[] = "x:copy-area"; */
static char s_x_draw_points[] = "x:draw-points";
static char s_x_draw_segments[] = "x:draw-segments";
static char s_x_draw_lines[] = "x:draw-lines";
static char s_x_fill_poly[] = "x:fill-polygon";
static char s_x_draw_string[] = "x:draw-string";
static char s_x_image_string[] = "x:image-string";
static char s_x_flush[] = "x:flush";
static char s_x_event_ref[] = "x:event-ref";
static char s_x_event_keysym[] = "x:event->keysym";
/* Type-name strings */
static char s_gc[] = "graphics-context";
#define s_display (&s_x_open_display[7])
#define s_window (&s_x_root_window[7])
#define s_cursor (&s_x_create_cursor[9])
#define s_font (&s_x_load_font[7])
#define s_colormap (&s_x_create_colormap[9])
#define s_visual (&s_x_make_visual[7])
/* Scheme (SMOB) types defined in this module */
long tc16_xdisplay;
long tc16_xgcontext;
long tc16_xcolormap;
long tc16_xwindow;
long tc16_xcursor;
long tc16_xfont;
long tc16_xvisual;
long tc16_xevent;
long tc16_xccc;
XContext xtc_ccc, xtc_cmp;
/* We use OPN (which is already defined and used for PTOB ports) to
keep track of whether objects of types Display and Window are open.
The type xs_Window includes screen root-windows and pixmaps. The
SMOB (CAR) header bits SCROOT and PXMP keep track of which type of
window the SMOB is. */
/* #define OPN (1L<<16) */
/* #define RDNG (2L<<16) */
/* #define WRTNG (4L<<16) */
#define SCROOT (8L<<16)
#define PXMP (16L<<16)
/* Utility routines for creating SCM-wrapped X structs and the SMOB
routines for collecting them. */
SCM make_xwindow(display, screen_number, win, pxmp, rootp)
SCM display;
int screen_number;
Drawable win;
char pxmp, rootp;
{
SCM z;
struct xs_Window *xsw;
DEFER_INTS;
z = must_malloc_cell((long)sizeof(struct xs_Window),
(SCM)(tc16_xwindow | OPN
| (pxmp ? PXMP : 0L)
| (rootp ? SCROOT : 0L)),
s_window);
xsw = WINDOW(z);
xsw->display = display;
xsw->dpy = XDISPLAY(display);
xsw->screen_number = screen_number;
if (pxmp) xsw->p.pm = (Pixmap)win;
else xsw->p.win = (Window)win;
ALLOW_INTS;
return z;
}
static SCM mark_xwindow(ptr)
SCM ptr;
{
if (CLOSEDP(ptr)) return BOOL_F;
return WINDOW(ptr)->display;
}
static sizet free_xwindow(ptr)
CELLPTR ptr;
{
SCM td = CAR((SCM)ptr);
if (!(td & OPN)) return 0;
if (!(td & SCROOT)) {
struct xs_Window *xsw = WINDOW((SCM)ptr);
SCM sd = xsw->display;
if (NIMP(sd) && OPDISPLAYP(sd)) {
if (td & PXMP) XFreePixmap(xsw->dpy, xsw->p.pm);
else XDestroyWindow(xsw->dpy, xsw->p.win);
}
}
must_free((char *)CDR((SCM)ptr), sizeof(struct xs_Window));
CAR((SCM)ptr) = td & ~OPN;
return sizeof(struct xs_Window);
}
SCM make_xcolormap(sdpy, cmp)
SCM sdpy;
Colormap cmp;
{
SCM z;
struct xs_Colormap *xcm;
XPointer scmptr;
if (!XFindContext(XDISPLAY(sdpy), (XID)cmp, xtc_cmp, &scmptr))
return (SCM)scmptr;
DEFER_INTS;
z = must_malloc_cell((long)sizeof(struct xs_Colormap),
(SCM)tc16_xcolormap,
s_colormap);
xcm = COLORMAP(z);
xcm->display = sdpy;
xcm->dpy = DISPLAY(xcm->display)->dpy;
xcm->cm = cmp;
XSaveContext(XDISPLAY(sdpy), (XID)cmp, xtc_cmp, z);
ALLOW_INTS;
return z;
}
static SCM mark_xcolormap(ptr)
SCM ptr;
{
struct xs_Colormap *xcm;
if (CLOSEDP(ptr)) return BOOL_F;
xcm = COLORMAP(ptr);
gc_mark(CCC2SCM_P(XcmsCCCOfColormap(xcm->dpy, xcm->cm)));
return xcm->display;
}
static sizet free_xcolormap(ptr)
CELLPTR ptr;
{
struct xs_Colormap *xcmp = COLORMAP((SCM)ptr);
SCM sdpy = xcmp->display;
if (NIMP(sdpy) && OPDISPLAYP(sdpy))
XFreeColormap(xcmp->dpy, xcmp->cm);
must_free((char *)CDR((SCM)ptr), sizeof(struct xs_Colormap));
return sizeof(struct xs_Colormap);
}
SCM make_xdisplay(d)
Display *d;
{
SCM z;
struct xs_screen *scrns;
struct xs_Display *xsd;
int idx = ScreenCount(d);
DEFER_INTS;
z = must_malloc_cell((long)sizeof(struct xs_Display)
+ idx * sizeof(struct xs_screen),
(SCM)tc16_xdisplay | OPN,
s_display);
xsd = DISPLAY(z);
xsd->after = BOOL_F;
xsd->screen_count = idx;
xsd->dpy = d;
scrns = (struct xs_screen *)(xsd + 1);
while (idx--) {
scrns[idx].root_window = BOOL_F;
scrns[idx].default_gcontext = BOOL_F;
scrns[idx].default_visual = BOOL_F;
scrns[idx].default_colormap = BOOL_F;
}
ALLOW_INTS;
idx = xsd->screen_count;
while (idx--) {
scrns[idx].root_window =
make_xwindow(z, idx, RootWindow(d, idx), (char) 0, (char) 1);
scrns[idx].default_gcontext =
make_xgcontext(z, idx, XDefaultGC(d, idx), !0);
scrns[idx].default_visual =
make_xvisual(visual2visualinfo(d, DefaultVisual(d, idx)));
scrns[idx].default_colormap =
make_xcolormap(z, DefaultColormap(d, idx));
}
return z;
}
static SCM mark_xdisplay(ptr)
SCM ptr;
{
if (CLOSEDP(ptr)) return BOOL_F;
{
struct xs_Display *xsd = DISPLAY((SCM)ptr);
struct xs_screen *scrns = (struct xs_screen *)(xsd + 1);
int idx = xsd->screen_count;
while (--idx) {
SCM scmp = scrns[idx].default_colormap;
gc_mark(scrns[idx].root_window);
gc_mark(scrns[idx].default_gcontext);
gc_mark(scrns[idx].default_visual);
gc_mark(scmp);
gc_mark (CCC2SCM_P(XcmsCCCOfColormap(xsd->dpy, XCOLORMAP(scmp))));
}
gc_mark(scrns[idx].root_window);
gc_mark(scrns[idx].default_gcontext);
gc_mark(scrns[idx].default_visual);
return scrns[idx].default_colormap;
}
}
static sizet free_xdisplay(ptr)
CELLPTR ptr;
{
SCM td = CAR((SCM)ptr);
if (!(td & OPN)) return 0;
{
struct xs_Display *xsd = DISPLAY((SCM)ptr);
sizet len = sizeof(struct xs_Display) +
xsd->screen_count * sizeof(struct xs_screen);
XCloseDisplay(xsd->dpy);
must_free((char *)xsd, len);
CAR((SCM)ptr) = td & ~OPN;
return len;
}
}
SCM make_xgcontext(d, screen_number, gc, rootp)
SCM d;
int screen_number;
GC gc;
int rootp;
{
SCM z;
struct xs_GContext *xgc;
DEFER_INTS;
z = must_malloc_cell((long)sizeof(struct xs_GContext),
(SCM)tc16_xgcontext | (rootp ? SCROOT : 0L),
s_gc);
xgc = GCONTEXT(z);
xgc->display = d;
xgc->screen_number = screen_number;
xgc->dpy = XDISPLAY(d);
xgc->gc = gc;
xgc->font = BOOL_F;
xgc->tile = BOOL_F;
xgc->stipple = BOOL_F;
xgc->clipmask = BOOL_F;
ALLOW_INTS;
return z;
}
static SCM mark_xgcontext(ptr)
SCM ptr;
{
struct xs_GContext *xgc = GCONTEXT(ptr);
gc_mark(xgc->font);
gc_mark(xgc->tile);
gc_mark(xgc->stipple);
gc_mark(xgc->clipmask);
return xgc->display;
}
static sizet free_xgcontext(ptr)
CELLPTR ptr;
{
SCM td = CAR((SCM)ptr);
if (!(td & OPN)) return 0;
if (!(td & SCROOT)) {
struct xs_GContext *xgc = GCONTEXT((SCM)ptr);
SCM sd = xgc->display;
if (NIMP(sd) && OPDISPLAYP(sd)) XFreeGC(xgc->dpy, xgc->gc);
}
must_free((char *)CDR((SCM)ptr), sizeof(struct xs_GContext));
return sizeof(struct xs_GContext);
}
SCM make_xcursor(display, cursor)
SCM display;
Cursor cursor;
{
SCM z;
struct xs_Cursor *xcsr;
DEFER_INTS;
z = must_malloc_cell((long)sizeof(struct xs_Cursor),
(SCM)tc16_xcursor,
s_cursor);
xcsr = CURSOR(z);
xcsr->display = display;
xcsr->cursor = cursor;
ALLOW_INTS;
return z;
}
static SCM mark_xcursor(ptr)
SCM ptr;
{
if (CLOSEDP(ptr)) return BOOL_F;
return CURSOR(ptr)->display;
}
static sizet free_xcursor(ptr)
CELLPTR ptr;
{
struct xs_Cursor *xcsr = CURSOR((SCM)ptr);
SCM sdpy = xcsr->display;
if (NIMP(sdpy) && OPDISPLAYP(sdpy)) {
struct xs_Display *xdp = DISPLAY(sdpy);
XFreeCursor(xdp->dpy, xcsr->cursor);
}
must_free((char *)CDR((SCM)ptr), sizeof(struct xs_Cursor));
return sizeof(struct xs_Cursor);
}
SCM make_xfont(display, font, name)
SCM display;
Font font;
SCM name;
{
SCM z;
struct xs_Font *xfnt;
DEFER_INTS;
z = must_malloc_cell((long)sizeof(struct xs_Font),
(SCM)tc16_xfont,
s_font);
xfnt = FONT(z);
xfnt->display = display;
xfnt->font = font;
xfnt->name = name;
ALLOW_INTS;
return z;
}
static SCM mark_xfont(ptr)
SCM ptr;
{
struct xs_Font *xfn = FONT(ptr);
gc_mark(xfn->name);
return xfn->display;
}
static sizet free_xfont(ptr)
CELLPTR ptr;
{
struct xs_Font *xfnt = FONT((SCM)ptr);
SCM sdpy = xfnt->display;
if (NIMP(sdpy) && OPDISPLAYP(sdpy)) {
struct xs_Display *xdp = DISPLAY(sdpy);
XUnloadFont(xdp->dpy, xfnt->font);
}
must_free((char *)CDR((SCM)ptr), sizeof(struct xs_Font));
return sizeof(struct xs_Font);
}
SCM make_xvisual(vsl)
XVisualInfo *vsl;
{
SCM s_vsl;
NEWCELL(s_vsl);
DEFER_INTS;
CAR(s_vsl) = tc16_xvisual;
SETCDR(s_vsl, vsl);
ALLOW_INTS;
return s_vsl;
}
SCM CCC2SCM_P(ccc)
XcmsCCC ccc;
{
XPointer scmptr;
if (XFindContext(ccc->dpy, (XID)ccc, xtc_ccc, &scmptr))
return BOOL_F;
return (SCM)scmptr;
}
SCM CCC2SCM(ccc)
XcmsCCC ccc;
{
SCM s_ccc = CCC2SCM_P(ccc);
if (FALSEP(s_ccc)) {
NEWCELL(s_ccc);
DEFER_INTS;
CAR(s_ccc) = tc16_xccc;
SETCDR(s_ccc, ccc);
XSaveContext(ccc->dpy, (XID)ccc, xtc_ccc, s_ccc);
ALLOW_INTS;
}
return s_ccc;
}
static sizet free_xccc(ptr)
CELLPTR ptr;
{
XcmsCCC ccc = XCCC((SCM)ptr);
XDeleteContext(ccc->dpy, (XID)ccc, xtc_ccc);
XcmsFreeCCC(ccc);
return 0;
}
SCM make_xevent(e)
XEvent *e;
{
SCM w;
XEvent *ec;
ec = (XEvent *) must_malloc(sizeof(XEvent), "X event");
(void)memcpy(ec, e, sizeof(XEvent));
NEWCELL(w);
DEFER_INTS;
CAR(w) = tc16_xevent;
SETCDR(w, ec);
ALLOW_INTS;
return w;
}
sizet x_free_xevent(ptr)
CELLPTR ptr;
{
must_free(CHARS(ptr), sizeof(XEvent));
return sizeof(XEvent);
}
/* Utility macro and functions for checking and coercing SCM arguments. */
#define GET_NEXT_INT(result, args, err, rtn) \
ASRTER(NIMP(args) && CONSP(args) && INUMP(CAR(args)), args, err, rtn); \
result = INUM(CAR(args)); \
args = CDR(args);
void scm2XPoint(signp, dat, ipr, pos, s_caller)
int signp;
SCM dat;
XPoint *ipr;
char *pos, *s_caller;
{
SCM x, y;
if (IMP(dat)) badarg: wta(dat, pos, s_caller);
if (CONSP(dat)) {
if (INUMP(CDR(dat))) {
x = CAR(dat);
y = CDR(dat);
}
else {
ASRTGO(2==ilength(dat), badarg);
x = CAR(dat);
y = CAR(CDR(dat));
}
}
else switch TYP7(dat) {
default: goto badarg;
case tc7_vector:
ASRTGO(2==LENGTH(dat), badarg);
x = VELTS(dat)[0];
y = VELTS(dat)[1];
break;
case tc7_VfixN32: case tc7_VfixZ32:
ASRTGO(2==LENGTH(dat), badarg);
x = MAKINUM(((long *)VELTS(dat))[0]);
y = MAKINUM(((long *)VELTS(dat))[1]);
break;
case tc7_VfixZ16:
ASRTGO(2==LENGTH(dat), badarg);
x = MAKINUM(((short *)VELTS(dat))[0]);
y = MAKINUM(((short *)VELTS(dat))[1]);
break;
case tc7_smob:
ASRTGO(ARRAYP(dat) && 1==ARRAY_NDIM(dat) &&
0==ARRAY_DIMS(dat)[0].lbnd && 1==ARRAY_DIMS(dat)[0].ubnd,
badarg);
x = aref(dat, MAKINUM(0));
y = aref(dat, MAKINUM(1));
break;
}
ASRTGO(INUMP(x) && INUMP(y), badarg);
ipr->x = INUM(x);
ipr->y = INUM(y);
ASRTGO((ipr->x==INUM(x)) && (ipr->y==INUM(y))
&& (signp ? !0 : ((x >= 0) && (y >= 0))), badarg);
}
int scm2XColor(s_dat, xclr)
SCM s_dat;
XColor *xclr;
{
SCM dat = s_dat;
unsigned int ura[3];
int idx;
/* if (INUMP(dat)) { */
/* xclr->red = (dat>>16 & 0x00ff) * 0x0101; */
/* xclr->green = (dat>>8 & 0x00ff) * 0x0101; */
/* xclr->blue = (dat & 0x00ff) * 0x0101; */
/* } */
/* else */
if (IMP(dat)) return 0;
else if (3==ilength(dat))
for (idx = 0; idx < 3; idx++) {
SCM clr = CAR(dat);
if (!INUMP(clr)) return 0;
ura[idx] = INUM(clr);
dat = CDR(dat);
}
else if (VECTORP(dat) && (3==LENGTH(dat)))
for (idx = 0; idx < 3; idx++) {
if (!INUMP(VELTS(dat)[idx])) return 0;
ura[idx] = INUM(VELTS(dat)[idx]);
}
else return 0;
xclr->red = ura[0];
xclr->green = ura[1];
xclr->blue = ura[2];
return !0;
}
int scm2xpointslen(sara, s_caller)
SCM sara;
char *s_caller;
{
array_dim *adm;
int len;
if (!(NIMP(sara) && ARRAYP(sara) && 2==ARRAY_NDIM(sara))) return -1;
adm = ARRAY_DIMS(sara);
if (!((1==(adm[1].ubnd - adm[1].lbnd))
&& (1==adm[1].inc)
&& ARRAY_CONTP(sara)
&& (tc7_VfixZ16==TYP7(ARRAY_V(sara))))) return -1;
len = 1 + adm[0].ubnd - adm[0].lbnd;
if (len < 0) return 0;
return len;
}
void scm2display_screen(dat, optidx, dspscn, s_caller)
SCM dat;
SCM optidx;
struct display_screen *dspscn;
char *s_caller;
{
ASRTGO(NIMP(dat), badarg);
if (OPDISPLAYP(dat)) {
dspscn->display = dat;
dspscn->dpy = XDISPLAY(dat);
if (UNBNDP(optidx)) dspscn->screen_number = DefaultScreen(dspscn->dpy);
else if (INUMP(optidx) && (INUM(optidx) < DISPLAY(dat)->screen_count))
dspscn->screen_number = INUM(optidx);
else wta(optidx, (char *)ARG2, s_caller);
}
else if (OPWINDOWP(dat)) {
struct xs_Window *xsw = WINDOW(dat);
dspscn->display = xsw->display;
dspscn->dpy = xsw->dpy;
dspscn->screen_number = xsw->screen_number;
ASRTGO(UNBNDP(optidx), badarg);
}
else badarg: wta(dat, (char *)ARG1, s_caller);
}
#define OpPxmpMask (0xffff | OPN | PXMP)
#define OpPxmp (tc16_xwindow | OPN | PXMP)
SCM thevalue(obj)
SCM obj;
{
if (NIMP(obj) && SYMBOLP(obj))
return ceval(obj, (SCM)EOL, (SCM)EOL);
else return obj;
}
Pixmap thepxmap(obj, s_caller)
SCM obj;
char *s_caller;
{
if (FALSEP(obj) || (INUM0==obj)) return 0L;
ASRTER(NIMP(obj) && ((OpPxmpMask & (int)CAR(obj))==OpPxmp),
obj, ARGn, s_caller);
return WINDOW(obj)->p.pm;
}
Font thefont(obj, s_caller)
SCM obj;
char *s_caller;
{
ASRTER(NIMP(obj) && FONTP(obj), obj, ARGn, s_caller);
return FONT(obj)->font;
}
Colormap thecmap(obj, s_caller)
SCM obj;
char *s_caller;
{
if (FALSEP(obj) || (INUM0==obj)) return 0L;
ASRTER(NIMP(obj) && COLORMAPP(obj), obj, ARGn, s_caller);
return COLORMAP(obj)->cm;
}
Cursor thecsr(obj, s_caller)
SCM obj;
char *s_caller;
{
if (FALSEP(obj) || (INUM0==obj)) return 0L;
ASRTER(NIMP(obj) && CURSORP(obj), obj, ARGn, s_caller);
return CURSOR(obj)->cursor;
}
Bool thebool(obj, s_caller)
SCM obj;
char *s_caller;
{
SCM val = thevalue(obj);
ASRTER(BOOL_F==val || BOOL_T==val, obj, ARGn, s_caller);
return NFALSEP(val);
}
int theint(obj, s_caller)
SCM obj;
char *s_caller;
{
SCM val = thevalue(obj);
ASRTER(INUMP(val), obj, ARGn, s_caller);
return INUM(val);
}
int theuint(obj, s_caller)
SCM obj;
char *s_caller;
{
SCM val = thevalue(obj);
ASRTER(INUMP(val) && (0 <= INUM(val)), obj, ARGn, s_caller);
return INUM(val);
}
static int args2valmask(oargs, s_caller)
SCM oargs;
char *s_caller;
{
SCM args = oargs;
int attr, len, attr_mask = 0;
if (!(len = ilength(args))) return 0;
while (len) {
ASRTER(NIMP(args), oargs, WNA, s_caller);
attr = theint(CAR(args), s_caller); args = CDR(args);
attr_mask |= attr;
len -= 1;
}
return attr_mask;
}
static int args2xgcvalues(sgc, vlu, oargs)
SCM sgc;
XGCValues *vlu;
SCM oargs;
{
struct xs_GContext *xgc = GCONTEXT(sgc);
SCM sval, args = oargs;
int attr, len, attr_mask = 0;
/* (void)memset((char *)vlu, 0, sizeof(XGCValues)); */
if (!(len = ilength(args))) return 0;
ASRTER(len > 0 && (! (len & 1)), oargs, WNA, s_gc);
while (len) {
ASRTER(NIMP(args), oargs, WNA, s_gc);
attr = theint(CAR(args), s_gc); args = CDR(args);
ASRTER(NIMP(args), oargs, WNA, s_gc);
sval = CAR(args); args = CDR(args);
attr_mask |= attr;
switch (attr) {
case GCFunction: vlu->function = theint(sval, s_gc); break;
case GCPlaneMask: vlu->plane_mask = theuint(sval, s_gc); break;
case GCForeground: vlu->foreground = theuint(sval, s_gc); break;
case GCBackground: vlu->background = theuint(sval, s_gc); break;
case GCLineWidth: vlu->line_width = theint(sval, s_gc); break;
case GCLineStyle: vlu->line_style = theint(sval, s_gc); break;
case GCCapStyle: vlu->cap_style = theint(sval, s_gc); break;
case GCJoinStyle: vlu->join_style = theint(sval, s_gc); break;
case GCFillStyle: vlu->fill_style = theint(sval, s_gc); break;
case GCFillRule: vlu->fill_rule = theint(sval, s_gc); break;
case GCTile: vlu->tile = thepxmap(sval, s_gc);
xgc->tile = sval;
break;
case GCStipple: vlu->stipple = thepxmap(sval, s_gc);
xgc->stipple = sval;
break;
case GCTileStipXOrigin: vlu->ts_x_origin = theint(sval, s_gc); break;
case GCTileStipYOrigin: vlu->ts_y_origin = theint(sval, s_gc); break;
case (GCTileStipXOrigin | GCTileStipYOrigin): {
XPoint position;
scm2XPoint(!0, sval, &position, (char *)ARGn, s_gc);
vlu->ts_x_origin = position.x;
vlu->ts_y_origin = position.y;
} break;
case GCFont: vlu->font = thefont(sval, s_gc);
xgc->font = sval;
break;
case GCSubwindowMode: vlu->subwindow_mode = theint(sval, s_gc); break;
case GCGraphicsExposures: vlu->graphics_exposures = thebool(sval, s_gc); break;
case GCClipXOrigin: vlu->clip_x_origin = theint(sval, s_gc); break;
case GCClipYOrigin: vlu->clip_y_origin = theint(sval, s_gc); break;
case (GCClipXOrigin | GCClipYOrigin): {
XPoint position;
scm2XPoint(!0, sval, &position, (char *)ARGn, s_gc);
vlu->clip_x_origin = position.x;
vlu->clip_y_origin = position.y;
} break;
case GCClipMask: vlu->clip_mask = thepxmap(sval, s_gc);
xgc->clipmask = sval;
break;
case GCDashOffset: vlu->dash_offset = theint(sval, s_gc); break;
case GCDashList: vlu->dashes = (char)theint(sval, s_gc); break;
case GCArcMode: vlu->arc_mode = theint(sval, s_gc); break;
default: ASRTER(0, MAKINUM(attr), ARGn, s_gc);
}
len -= 2;
}
return attr_mask;
}
static int args2winattribs(vlu, oargs)
XSetWindowAttributes *vlu;
SCM oargs;
{
SCM sval, args = oargs;
int attr, len, attr_mask = 0;
/* (void)memset((char *)vlu, 0, sizeof(XSetWindowAttributes)); */
if (!(len = ilength(args))) return 0;
ASRTER(len > 0 && (! (len & 1)), oargs, WNA, s_window);
while (len) {
ASRTER(NIMP(args), oargs, WNA, s_window);
attr = theint(CAR(args), s_window); args = CDR(args);
ASRTER(NIMP(args), oargs, WNA, s_window);
sval = CAR(args); args = CDR(args);
attr_mask |= attr;
switch (attr) {
case CWBackPixmap: vlu->background_pixmap=thepxmap(sval, s_window); break;
case CWBackPixel: vlu->background_pixel = theuint(sval, s_window); break;
case CWBorderPixmap:vlu->border_pixmap =thepxmap(sval, s_window); break;
case CWBorderPixel: vlu->border_pixel = theuint(sval, s_window); break;
case CWBitGravity: vlu->bit_gravity = theint(sval, s_window); break;
case CWWinGravity: vlu->win_gravity = theint(sval, s_window); break;
case CWBackingStore:vlu->backing_store = theint(sval, s_window); break;
case CWBackingPlanes:vlu->backing_planes = theuint(sval, s_window); break;
case CWBackingPixel:vlu->backing_pixel = theuint(sval, s_window); break;
case CWOverrideRedirect:vlu->override_redirect =
thebool(sval, s_window); break;
case CWSaveUnder: vlu->save_under = thebool(sval, s_window); break;
case CWEventMask: vlu->event_mask = theint(sval, s_window); break;
case CWDontPropagate:vlu->do_not_propagate_mask =
thebool(sval, s_window); break;
case CWColormap: vlu->colormap = thecmap(sval, s_window); break;
case CWCursor: vlu->cursor = thecsr(sval, s_window); break;
default: ASRTER(0, MAKINUM(attr), ARGn, s_window);
}
len -= 2;
}
return attr_mask;
}
static int args2wincfgs(vlu, oargs)
XWindowChanges *vlu;
SCM oargs;
{
SCM sval, args = oargs;
int cfgs, len, cfgs_mask = 0;
/* (void)memset((char *)vlu, 0, sizeof(XWindowChanges)); */
if (!(len = ilength(args))) return 0;
ASRTER(len > 0 && (! (len & 1)), oargs, WNA, s_window);
while (len) {
ASRTER(NIMP(args), oargs, WNA, s_window);
cfgs = theint(CAR(args), s_window); args = CDR(args);
ASRTER(NIMP(args), oargs, WNA, s_window);
sval = CAR(args); args = CDR(args);
cfgs_mask |= cfgs;
switch (cfgs) {
case CWX: vlu->x = theuint(sval, s_window); break;
case CWY: vlu->y = theuint(sval, s_window); break;
case CWWidth: vlu->width = theuint(sval, s_window); break;
case CWHeight: vlu->height = theuint(sval, s_window); break;
case CWBorderWidth: vlu->border_width = theuint(sval, s_window); break;
case CWSibling: vlu->sibling =thepxmap(sval, s_window); break;
case CWStackMode: vlu->stack_mode = theint(sval, s_window); break;
default: ASRTER(0, MAKINUM(cfgs), ARGn, s_window);
}
len -= 2;
}
return cfgs_mask;
}
/* Scheme-visible procedures */
SCM x_open_display(dpy_name)
SCM dpy_name;
{
Display *display;
if (FALSEP(dpy_name)) dpy_name = nullstr;
ASRTER(NIMP(dpy_name) && STRINGP(dpy_name), dpy_name, ARG1, s_x_open_display);
display = XOpenDisplay(CHARS(dpy_name));
return (display ? make_xdisplay(display) : BOOL_F);
}
SCM x_display_debug(sd, si)
SCM sd, si;
{
int (*previous_after_function)();
struct display_screen dspscn;
scm2display_screen(sd, UNDEFINED, &dspscn, s_x_display_debug);
previous_after_function =
XSynchronize(dspscn.dpy, thebool(si, s_x_display_debug));
return UNSPECIFIED;
}
SCM x_default_screen(sdpy)
SCM sdpy;
{
ASRTER(NIMP(sdpy) && OPDISPLAYP(sdpy), sdpy, ARG1, s_x_default_screen);
return MAKINUM(DefaultScreen(XDISPLAY(sdpy)));
}
SCM x_create_window(swin, spos, sargs)
SCM swin, spos, sargs;
{
XPoint position, size;
unsigned int border_width;
Window window;
int len = ilength(sargs);
ASRTER(NIMP(swin) && OPWINDOWP(swin), swin, ARG1, s_x_create_window);
scm2XPoint(!0, spos, &position, (char *)ARG2, s_x_create_window);
scm2XPoint(0, CAR(sargs), &size, (char *)ARG3, s_x_create_window);
sargs = CDR(sargs);
GET_NEXT_INT(border_width, sargs, ARG4, s_x_create_window);
if (4==len) {
unsigned long border;
unsigned long background;
GET_NEXT_INT(border, sargs, ARG5, s_x_create_window);
GET_NEXT_INT(background, sargs, ARGn, s_x_create_window);
window = XCreateSimpleWindow(XWINDISPLAY(swin), XWINDOW(swin),
position.x, position.y, /* initial placement */
size.x, size.y,
border_width,
border, background); /* pixel values */
} else {
int depth;
unsigned int class;
SCM svis;
unsigned long valuemask;
XSetWindowAttributes attributes;
ASRTER(5 <= len, sargs, WNA, s_x_create_window);
GET_NEXT_INT(depth, sargs, ARG5, s_x_create_window);
GET_NEXT_INT(class, sargs, ARGn, s_x_create_window);
svis = CAR(sargs); sargs = CDR(sargs);
ASRTER(NIMP(svis) && VISUALP(svis), svis, ARGn, s_x_create_window);
valuemask = args2winattribs(&attributes, sargs);
window = XCreateWindow(XWINDISPLAY(swin), XWINDOW(swin),
position.x, position.y, /* initial placement */
size.x, size.y,
border_width,
depth,
class,
XVISUAL(svis),
valuemask,
&attributes);
}
return window ? make_xwindow(WINDOW(swin)->display,
WINDOW(swin)->screen_number,
window, (char) 0, (char) 0)
: BOOL_F;
}
SCM x_create_pixmap(obj, s_size, s_depth)
SCM obj, s_size, s_depth;
{
unsigned int depth = INUM(s_depth);
SCM display;
Display *dpy;
int scn;
Drawable drawable;
Pixmap p;
XPoint size;
if (IMP(obj)) badarg1: wta(obj, (char *)ARG1, s_x_create_pixmap);
if (OPDISPLAYP(obj)) {
display = obj;
dpy = XDISPLAY(display);
scn = DefaultScreen(dpy);
drawable = RootWindow(dpy, scn);
}
else if (OPWINDOWP(obj)) {
display = WINDOW(obj)->display;
dpy = XDISPLAY(display);
scn = WINDOW(obj)->screen_number;
drawable = WINDOW(obj)->p.drbl;
}
else goto badarg1;
scm2XPoint(0, s_size, &size, (char *)ARG2, s_x_create_pixmap);
ASRTER(INUMP(s_depth) && depth >= 0, s_depth, ARG3, s_x_create_pixmap);
p = XCreatePixmap(dpy, drawable, size.x, size.y, depth);
return make_xwindow(display, scn, p, (char) 1, (char) 0);
}
SCM x_window_ref(oargs)
SCM oargs;
{
SCM swn, args = oargs, sval = BOOL_F;
SCM vals = cons(BOOL_T, EOL), valend = vals;
struct xs_Window *xwn;
XWindowAttributes vlu;
int attr, len = ilength(args);
/* (void)memset((char *)&vlu, 0, sizeof(XWindowAttributes)); */
ASRTER(len > 0, oargs, WNA, s_x_window_ref);
if (1==len--) return EOL;
swn = CAR(args); args = CDR(args);
ASRTER(NIMP(swn) && WINDOWP(swn), swn, ARG1, s_x_window_ref);
xwn = WINDOW(swn);
if (!XGetWindowAttributes(xwn->dpy, xwn->p.win, &vlu)) return BOOL_F;
while (len) {
attr = theint(CAR(args), s_x_window_ref); args = CDR(args);
switch (attr) {
case CWBackPixel: sval = MAKINUM(vlu.backing_pixel); break;
case CWBitGravity: sval = MAKINUM(vlu.bit_gravity); break;
case CWWinGravity: sval = MAKINUM(vlu.win_gravity); break;
case CWBackingStore: sval = MAKINUM(vlu.backing_store); break;
case CWBackingPlanes:sval = MAKINUM(vlu.backing_planes); break;
case CWBackingPixel: sval = MAKINUM(vlu.backing_pixel); break;
case CWOverrideRedirect:sval = x_make_bool(vlu.override_redirect); break;
case CWSaveUnder: sval = x_make_bool(vlu.save_under); break;
case CWEventMask: sval = MAKINUM(vlu.your_event_mask); break;
case CWDontPropagate:sval = MAKINUM(vlu.do_not_propagate_mask); break;
case CWColormap: sval = make_xcolormap(xwn->display, vlu.colormap); break;
default: ASRTER(0, MAKINUM(attr), ARGn, s_x_window_ref);
}
CAR(valend) = sval;
CDR(valend) = cons(BOOL_T, EOL);
len -= 1;
if (len) valend = CDR(valend);
else CDR(valend) = EOL;
}
return vals;
}
SCM x_window_set(args)
SCM args;
{
SCM swn;
struct xs_Window *xwn;
XSetWindowAttributes vlu;
unsigned long mask;
ASRTER(NIMP(args), args, WNA, s_x_window_set);
swn = CAR(args); args = CDR(args);
ASRTER(NIMP(swn) && WINDOWP(swn), swn, ARG1, s_x_window_set);
xwn = WINDOW(swn);
mask = args2winattribs(&vlu, args);
XChangeWindowAttributes(xwn->dpy, xwn->p.win, mask, &vlu);
return UNSPECIFIED;
}
SCM x_window_geometry(swin)
SCM swin;
{
struct xs_Window *sxw;
Window root;
Status sts;
int x, y;
unsigned int w, h, border_width, depth;
ASRTER(NIMP(swin) && OPWINDOWP(swin), swin, ARG1, s_x_window_geometry);
sxw = WINDOW(swin);
sts = XGetGeometry(sxw->dpy, sxw->p.drbl, &root, &x, &y,
&w, &h, &border_width, &depth);
if (!sts) return BOOL_F;
return cons2(cons2(MAKINUM(x), MAKINUM(y), EOL),
cons2(MAKINUM(w), MAKINUM(h), EOL),
cons2(MAKINUM(border_width), MAKINUM(depth), EOL));
}
SCM x_window_geometry_set(args)
SCM args;
{
SCM swn;
struct xs_Window *xwn;
XWindowChanges vlu;
unsigned long mask;
ASRTER(NIMP(args), args, WNA, s_x_window_geometry_set);
swn = CAR(args); args = CDR(args);
ASRTER(NIMP(swn) && WINDOWP(swn), swn, ARG1, s_x_window_geometry_set);
xwn = WINDOW(swn);
mask = args2wincfgs(&vlu, args);
XConfigureWindow(xwn->dpy, xwn->p.win, mask, &vlu);
return UNSPECIFIED;
}
SCM x_close(obj)
SCM obj;
{
ASRTER(NIMP(obj), obj, ARG1, s_x_close);
if (WINDOWP(obj)) {
Display *dpy;
ASRTER(!(CAR((SCM)obj) & SCROOT), obj, ARG1, s_x_close);
if (CLOSEDP(obj)) return UNSPECIFIED;
DEFER_INTS;
dpy = XWINDISPLAY(obj);
free_xwindow((CELLPTR)obj);
XFlush(dpy);
ALLOW_INTS;
} else {
ASRTER(DISPLAYP(obj), obj, ARG1, s_x_close);
DEFER_INTS;
free_xdisplay((CELLPTR)obj);
ALLOW_INTS;
}
return UNSPECIFIED;
}
SCM x_flush(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
if (NIMP(sd) && UNBNDP(si) && GCONTEXTP(sd)) {
dspscn.dpy = XGCONDISPLAY(sd);
XFlushGC(dspscn.dpy, XGCONTEXT(sd));
} else {
scm2display_screen(sd, si, &dspscn, s_x_flush);
XFlush(dspscn.dpy);
}
return UNSPECIFIED;
}
/* Colormaps */
SCM x_create_colormap(swin, s_vis, s_alloc)
SCM swin, s_vis, s_alloc;
{
SCM alloc;
int allo;
struct xs_Window *sxw;
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_create_colormap);
sxw = WINDOW(swin);
ASRTER(NIMP(s_vis) && VISUALP(s_vis), s_vis, ARG2, s_x_create_colormap);
alloc = thevalue(s_alloc);
allo = INUM(alloc);
ASRTER(INUMP(alloc) && (allo==AllocNone || allo==AllocAll),
s_alloc, ARG3, s_x_create_colormap);
return make_xcolormap(sxw->display,
XCreateColormap(sxw->dpy, sxw->p.win,
XVISUAL(s_vis), allo));
}
SCM x_recreate_colormap(s_cm)
SCM s_cm;
{
struct xs_Colormap *sxw;
ASRTER(NIMP(s_cm) && COLORMAPP(s_cm), s_cm, ARG1, s_x_recreate_colormap);
sxw = COLORMAP(s_cm);
return make_xcolormap(sxw->display,
XCopyColormapAndFree(XDISPLAY(sxw->display), sxw->cm));
}
SCM x_install_colormap(s_cm, s_flg)
SCM s_cm, s_flg;
{
struct xs_Colormap *xcm;
ASRTER(NIMP(s_cm) && COLORMAPP(s_cm), s_cm, ARG1, s_x_install_colormap);
if (UNBNDP(s_flg)) s_flg = BOOL_T;
xcm = COLORMAP(s_cm);
if (FALSEP(s_flg)) XUninstallColormap(XDISPLAY(xcm->display), xcm->cm);
XInstallColormap(XDISPLAY(xcm->display), xcm->cm);
return UNSPECIFIED;
}
/* SCM x_colormap_basis(svsl) */
/* SCM svsl; */
/* { */
/* XColormapInfo *vsl; */
/* ASRTER(NIMP(svsl) && COLORMAPP(svsl), svsl, ARG1, s_x_colormap_basis); */
/* vsl = XCOLORMAPINFO(svsl); */
/* return cons2(vsl->red_mult, vsl->green_mult, */
/* cons2(vsl->blue_mult, vsl->base_pixel, EOL)); */
/* } */
/* SCM x_colormap_limits(svsl) */
/* SCM svsl; */
/* { */
/* XColormapInfo *vsl; */
/* ASRTER(NIMP(svsl) && COLORMAPP(svsl), svsl, ARG1, s_x_colormap_limits); */
/* vsl = XCOLORMAPINFO(svsl); */
/* return cons2(vsl->red_mult, vsl->green_mult, */
/* cons2(vsl->blue_mult, vsl->base_pixel, EOL)); */
/* } */
/* Colors in Colormap */
SCM x_alloc_color_cells(scmap, spxls, sargs)
SCM scmap, spxls, sargs;
{
XColor xclr;
Status sts;
struct xs_Colormap *xcm;
Bool contig = 0;
SCM pxra, plra;
unsigned int npixels, nplanes;
ASRTER(NIMP(scmap) && COLORMAPP(scmap), scmap, ARG1, s_x_alloc_color_cells);
xcm = COLORMAP(scmap);
npixels = INUM(spxls);
ASRTER(INUMP(spxls) && npixels > 0, spxls, ARG2, s_x_alloc_color_cells);
pxra = make_uve(npixels, MAKINUM(32L)); /* Uniform vector of long */
switch (ilength(sargs) + 2) {
default: wta(sargs, (char *)WNA, s_x_alloc_color_cells);
case 3: case 4:
if (scm2XColor(CAR(sargs), &xclr)) {
unsigned long rmask_return, gmask_return, bmask_return;
sargs = CDR(sargs);
if (NNULLP(sargs)) contig = thebool(CAR(sargs), s_x_alloc_color_cells);
sts = XAllocColorPlanes(xcm->dpy, xcm->cm, contig,
VELTS(pxra), npixels,
xclr.red, xclr.green, xclr.blue,
&rmask_return, &gmask_return, &bmask_return);
if (!sts) return BOOL_F;
return cons2(pxra, MAKINUM(rmask_return),
cons2(MAKINUM(gmask_return),
MAKINUM(bmask_return), EOL));
}
nplanes = theuint(CAR(sargs), s_x_alloc_color_cells);
sargs = CDR(sargs);
if (NNULLP(sargs)) contig = thebool(CAR(sargs), s_x_alloc_color_cells);
plra = make_uve(nplanes, MAKINUM(32L)); /* Uniform vector of long */
sts = XAllocColorCells(xcm->dpy, xcm->cm, contig,
VELTS(plra), nplanes, VELTS(pxra), npixels);
if (!sts) return BOOL_F;
return cons2(pxra, plra, EOL);
}
}
SCM x_free_color_cells(scmap, spxls, sargs)
SCM scmap, spxls, sargs;
{
struct xs_Colormap *xcm;
unsigned int planes = 0;
ASRTER(NIMP(scmap) && COLORMAPP(scmap), scmap, ARG1, s_x_free_color_cells);
xcm = COLORMAP(scmap);
ASRTER(NIMP(spxls) && (TYP7(spxls)==tc7_VfixN32), spxls, ARG2,
s_x_free_color_cells);
switch (ilength(sargs) + 2) {
default: wta(sargs, (char *)WNA, s_x_free_color_cells);
case 4:
planes = theuint(CAR(sargs), s_x_free_color_cells);
case 3:
XFreeColors(xcm->dpy, xcm->cm, VELTS(spxls), INUM(spxls), planes);
return UNSPECIFIED;
}
}
SCM x_find_color(scmap, dat)
SCM scmap, dat;
{
XColor xclr;
struct xs_Colormap *xcm;
(void)memset((char *)&xclr, 0, sizeof(xclr));
ASRTER(NIMP(scmap) && COLORMAPP(scmap), scmap, ARG1, s_x_find_color);
xcm = COLORMAP(scmap);
if (!scm2XColor(dat, &xclr)) {
ASRTER(NIMP(dat) && STRINGP(dat), dat, (char*)ARG2, s_x_find_color);
if (XAllocNamedColor(xcm->dpy, xcm->cm, CHARS(dat), &xclr, &xclr))
return MAKINUM(xclr.pixel);
else return BOOL_F;
}
if (XAllocColor(xcm->dpy, xcm->cm, &xclr))
return MAKINUM(xclr.pixel);
else return BOOL_F;
}
SCM x_color_set(scmap, s_pix, dat)
SCM scmap, s_pix, dat;
{
XColor xclr;
struct xs_Colormap *xcm;
(void)memset((char *)&xclr, 0, sizeof(xclr));
ASRTER(NIMP(scmap) && COLORMAPP(scmap), scmap, ARG1, s_x_color_set);
ASRTER(INUMP(s_pix), s_pix, ARG2, s_x_color_set);
xcm = COLORMAP(scmap);
xclr.pixel = INUM(s_pix);
xclr.flags = DoRed | DoGreen | DoBlue;
if (!scm2XColor(dat, &xclr)) {
ASRTER(NIMP(dat) && STRINGP(dat), dat, (char*)ARG3, s_x_color_set);
XStoreNamedColor(xcm->dpy, xcm->cm, CHARS(dat), xclr.pixel, xclr.flags);
}
else XStoreColor(xcm->dpy, xcm->cm, &xclr);
return UNSPECIFIED;
}
SCM x_color_ref(scmap, sidx)
SCM scmap, sidx;
{
XColor xclr;
struct xs_Colormap *xcm;
(void)memset((char *)&xclr, 0, sizeof(xclr));
ASRTER(NIMP(scmap) && COLORMAPP(scmap), scmap, ARG1, s_x_color_ref);
xcm = COLORMAP(scmap);
ASRTER(INUMP(sidx), sidx, (char*)ARG2, s_x_color_ref);
xclr.pixel = INUM(sidx);
XQueryColor(xcm->dpy, xcm->cm, &xclr);
if (xclr.flags==(DoRed | DoGreen | DoBlue))
return cons2(MAKINUM(xclr.red), MAKINUM(xclr.green),
cons(MAKINUM(xclr.blue), EOL));
else return BOOL_F;
}
/* Window Mapping */
SCM x_map_window(swin)
SCM swin;
{
struct xs_Window *w;
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_map_window);
w = WINDOW(swin);
XMapWindow(w->dpy, w->p.win);
return UNSPECIFIED;
}
SCM x_map_subwindows(swin)
SCM swin;
{
struct xs_Window *w;
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_map_subwindows);
w = WINDOW(swin);
XMapSubwindows(w->dpy, w->p.win);
return UNSPECIFIED;
}
SCM x_unmap_window(swin)
SCM swin;
{
struct xs_Window *w;
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_unmap_window);
w = WINDOW(swin);
XUnmapWindow(w->dpy, w->p.win);
return UNSPECIFIED;
}
SCM x_unmap_subwindows(swin)
SCM swin;
{
struct xs_Window *w;
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_unmap_subwindows);
w = WINDOW(swin);
XUnmapSubwindows(w->dpy, w->p.win);
return UNSPECIFIED;
}
SCM x_create_gc(args)
SCM args;
{
SCM swin;
struct xs_Window *xsw;
struct xs_GContext *xgc;
XGCValues v;
unsigned long mask;
SCM ans;
ASRTER(NIMP(args), args, WNA, s_x_create_gc);
swin = CAR(args); args = CDR(args);
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_create_gc);
xsw = WINDOW(swin);
ans = make_xgcontext(xsw->display, xsw->screen_number,
XCreateGC(xsw->dpy, xsw->p.drbl, 0L, &v), 0);
xgc = GCONTEXT(ans);
mask = args2xgcvalues(ans, &v, args);
XChangeGC(xgc->dpy, xgc->gc, mask, &v);
return ans;
}
SCM x_gc_set(args)
SCM args;
{
SCM sgc;
struct xs_GContext *xgc;
XGCValues v;
unsigned long mask;
ASRTER(NIMP(args), args, WNA, s_x_gc_set);
sgc = CAR(args); args = CDR(args);
ASRTER(NIMP(sgc) && GCONTEXTP(sgc), sgc, ARG1, s_x_gc_set);
xgc = GCONTEXT(sgc);
mask = args2xgcvalues(sgc, &v, args);
XChangeGC(xgc->dpy, xgc->gc, mask, &v);
return UNSPECIFIED;
}
SCM x_copy_gc(dst, src, args)
SCM dst;
SCM src;
SCM args;
{
struct xs_GContext *dgc, *sgc;
unsigned long mask;
ASRTER(NIMP(dst) && GCONTEXTP(dst), dst, ARG1, s_x_copy_gc);
ASRTER(NIMP(src) && GCONTEXTP(src), src, ARG2, s_x_copy_gc);
dgc = GCONTEXT(dst);
sgc = GCONTEXT(src);
mask = args2valmask(args, s_gc);
XCopyGC(dgc->dpy, sgc->gc, mask, dgc->gc);
return UNSPECIFIED;
}
SCM x_gc_ref(oargs)
SCM oargs;
{
SCM sgc, args = oargs, sval = BOOL_F;
SCM vals = cons(BOOL_T, EOL), valend = vals;
struct xs_GContext *xgc;
unsigned long valuemask;
XGCValues vlu;
int attr, len = ilength(args);
/* (void)memset((char *)&vlu, 0, sizeof(XGCValues)); */
ASRTER(len > 0, oargs, WNA, s_x_gc_ref);
if (1==len--) return EOL;
sgc = CAR(args); args = CDR(args);
ASRTER(NIMP(sgc) && GCONTEXTP(sgc), sgc, ARG1, s_x_gc_ref);
xgc = GCONTEXT(sgc);
valuemask = args2valmask(args, s_gc);
/* printf("valuemask = %lx\n", valuemask); */
valuemask &= (GCFunction | GCPlaneMask | GCForeground | GCBackground |
GCLineWidth | GCLineStyle | GCCapStyle | GCJoinStyle |
GCFillStyle | GCFillRule |
GCTileStipXOrigin | GCTileStipYOrigin |
GCSubwindowMode | GCGraphicsExposures |
GCClipXOrigin | GCClipYOrigin | GCDashOffset | GCArcMode);
if (!XGetGCValues(xgc->dpy, xgc->gc, valuemask, &vlu)) return BOOL_F;
while (len) {
attr = theint(CAR(args), s_gc); args = CDR(args);
switch (attr) {
case GCFunction: sval = MAKINUM(vlu.function ); break;
case GCPlaneMask: sval = MAKINUM(vlu.plane_mask); break;
case GCForeground: sval = MAKINUM(vlu.foreground); break;
case GCBackground: sval = MAKINUM(vlu.background); break;
case GCLineWidth: sval = MAKINUM(vlu.line_width); break;
case GCLineStyle: sval = MAKINUM(vlu.line_style); break;
case GCCapStyle: sval = MAKINUM(vlu.cap_style ); break;
case GCJoinStyle: sval = MAKINUM(vlu.join_style); break;
case GCFillStyle: sval = MAKINUM(vlu.fill_style); break;
case GCFillRule: sval = MAKINUM(vlu.fill_rule ); break;
case GCTile: sval = xgc->tile; break;
case GCStipple: sval = xgc->stipple; break;
case GCTileStipXOrigin: sval = MAKINUM(vlu.ts_x_origin); break;
case GCTileStipYOrigin: sval = MAKINUM(vlu.ts_y_origin); break;
case (GCTileStipXOrigin | GCTileStipYOrigin):
sval = cons2(MAKINUM(vlu.ts_x_origin), MAKINUM(vlu.ts_y_origin), EOL);
break;
case GCFont: sval = xgc->font; break;
case GCSubwindowMode: sval = MAKINUM(vlu.subwindow_mode); break;
case GCGraphicsExposures:
sval = x_make_bool(vlu.graphics_exposures); break;
case GCClipXOrigin: sval = MAKINUM(vlu.clip_x_origin); break;
case GCClipYOrigin: sval = MAKINUM(vlu.clip_y_origin); break;
case (GCClipXOrigin | GCClipYOrigin):
sval = cons2(MAKINUM(vlu.clip_x_origin),
MAKINUM(vlu.clip_y_origin), EOL);
break;
case GCClipMask: sval = xgc->clipmask; break;
case GCDashOffset: sval = MAKINUM(vlu.dash_offset); break;
case GCDashList: sval = MAKINUM(vlu.dashes); break;
case GCArcMode: sval = MAKINUM(vlu.arc_mode); break;
default: ASRTER(0, MAKINUM(attr), ARGn, s_x_gc_ref);
}
CAR(valend) = sval;
CDR(valend) = cons(BOOL_T, EOL);
len -= 1;
if (len) valend = CDR(valend);
else CDR(valend) = EOL;
}
return vals;
}
SCM x_create_cursor(sdpy, scsr, sargs)
SCM sdpy, scsr, sargs;
{
Cursor cursor;
switch (ilength(sargs)) {
default: ASRTER(0, sargs, WNA, s_x_create_cursor);
case 0: {
SCM shape;
ASRTER(NIMP(sdpy) && DISPLAYP(sdpy), sdpy, ARG1, s_x_create_cursor);
shape = thevalue(scsr);
ASRTER(INUMP(shape) && 0 <= INUM(shape), scsr, ARG2, s_x_create_cursor);
cursor = XCreateFontCursor(XDISPLAY(sdpy), INUM(shape));
return make_xcursor(sdpy, cursor);
}
case 3: {
XColor foreground_color, background_color;
XPoint origin;
int sts;
ASRTER(NIMP(sdpy) && WINDOWP(sdpy), sdpy, ARG1, s_x_create_cursor);
ASRTER(FALSEP(scsr) || (NIMP(scsr) && WINDOWP(scsr)), scsr, ARG2,
s_x_create_cursor);
sts = scm2XColor(CAR(sargs), &foreground_color);
ASRTER(sts, CAR(sargs), ARG3, s_x_create_cursor);
sargs = CDR(sargs);
sts = scm2XColor(CAR(sargs), &background_color);
ASRTER(sts, CAR(sargs), ARG4, s_x_create_cursor);
sargs = CDR(sargs);
scm2XPoint(0, CAR(sargs), &origin, (char*)ARG5, s_x_create_cursor);
cursor = XCreatePixmapCursor(XWINDISPLAY(sdpy), XWINDOW(sdpy),
FALSEP(scsr) ? 0L : XWINDOW(scsr),
&foreground_color, &background_color,
origin.x, origin.y);
return make_xcursor(WINDOW(sdpy)->display, cursor);
}
case 4: {
XColor foreground_color, background_color;
Font source_font, mask_font = 0;
unsigned int source_char, mask_char = 0;
int sts;
source_font = thefont(sdpy, s_x_create_cursor);
GET_NEXT_INT(source_char, sargs, ARG2, s_x_create_cursor);
if (FALSEP(CAR(sargs))) {
sargs = CDR(sargs);
ASRTER(FALSEP(CAR(sargs)), sargs, ARG4, s_x_create_cursor);
sargs = CDR(sargs);
} else {
mask_font = thefont(CAR(sargs), s_x_create_cursor);
sargs = CDR(sargs);
GET_NEXT_INT(mask_char, sargs, ARG4, s_x_create_cursor);
}
sts = scm2XColor(CAR(sargs), &foreground_color);
ASRTER(sts, CAR(sargs), ARG5, s_x_create_cursor);
sargs = CDR(sargs);
sts = scm2XColor(CAR(sargs), &background_color);
ASRTER(sts, CAR(sargs), ARGn, s_x_create_cursor);
cursor = XCreateGlyphCursor(XWINDISPLAY(sdpy),
source_font, mask_font, source_char, mask_char,
&foreground_color, &background_color);
return make_xcursor(FONT(sdpy)->display, cursor);
}}
}
SCM x_load_font(sdpy, fntnam)
SCM sdpy, fntnam;
{
Font font;
ASRTER(NIMP(sdpy) && DISPLAYP(sdpy), sdpy, ARG1, s_x_load_font);
ASRTER(NIMP(fntnam) && STRINGP(fntnam), fntnam, ARG2, s_x_load_font);
font = XLoadFont(XDISPLAY(sdpy), CHARS(fntnam));
return make_xfont(sdpy, font, fntnam);
}
/* Xlib information functions. */
SCM x_protocol_version(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_protocol_version);
return cons(MAKINUM(ProtocolVersion(dspscn.dpy)),
MAKINUM(ProtocolRevision(dspscn.dpy)));
}
SCM x_server_vendor(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_server_vendor);
return makfrom0str(ServerVendor(dspscn.dpy));
}
SCM x_vendor_release(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_vendor_release);
return MAKINUM(VendorRelease(dspscn.dpy));
}
int x_scm_error_handler(display, xee)
Display *display;
XErrorEvent *xee;
{
char buffer_return[1024];
fflush(stdout);
XGetErrorText(display, xee->error_code, buffer_return, sizeof buffer_return);
*loc_errobj = MAKINUM((xee->request_code<<8) + xee->minor_code);
fputs(buffer_return, stderr);
fputc('\n', stderr);
fflush(stderr);
return 0;
}
SCM x_q_length(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_q_length);
return MAKINUM(QLength(dspscn.dpy));
}
SCM x_pending(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_pending);
return MAKINUM(XPending(dspscn.dpy));
}
SCM x_events_queued(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_events_queued);
return MAKINUM(XEventsQueued(dspscn.dpy, QueuedAfterReading));
}
SCM x_next_event(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
XEvent event_return;
scm2display_screen(sd, si, &dspscn, s_x_next_event);
XNextEvent(dspscn.dpy, &event_return);
return make_xevent(&event_return);
}
SCM x_peek_event(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
XEvent event_return;
scm2display_screen(sd, si, &dspscn, s_x_peek_event);
XPeekEvent(dspscn.dpy, &event_return);
return make_xevent(&event_return);
}
/* Screen information functions */
SCM x_screen_count(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_screen_count);
return MAKINUM(ScreenCount(dspscn.dpy));
}
SCM x_screen_cells(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_screen_cells);
return MAKINUM(DisplayCells(dspscn.dpy, dspscn.screen_number));
}
SCM x_screen_depth(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
if (UNBNDP(si) && NIMP(sd) && VISUALP(sd))
return MAKINUM(XVISUALINFO(sd)->depth);
scm2display_screen(sd, si, &dspscn, s_x_screen_depth);
return MAKINUM(DisplayPlanes(dspscn.dpy, dspscn.screen_number));
}
SCM x_screen_depths(sd, si)
SCM sd, si;
{
int count_return = 0;
int *depths;
SCM depra;
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_screen_depths);
depths = XListDepths(dspscn.dpy, dspscn.screen_number, &count_return);
if (!depths) return BOOL_F;
depra = make_uve(count_return, MAKINUM(32L)); /* Uniform vector of long */
for (;count_return--;) VELTS(depra)[count_return] = depths[count_return];
XFree(depths);
return depra;
}
SCM x_screen_size(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_screen_size);
return cons2(MAKINUM(DisplayWidth(dspscn.dpy, dspscn.screen_number)),
MAKINUM(DisplayHeight(dspscn.dpy, dspscn.screen_number)),
EOL);
}
SCM x_screen_dimm(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
scm2display_screen(sd, si, &dspscn, s_x_screen_dimm);
return cons2(MAKINUM(DisplayWidthMM(dspscn.dpy, dspscn.screen_number)),
MAKINUM(DisplayHeightMM(dspscn.dpy, dspscn.screen_number)),
EOL);
}
SCM x_screen_black(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
Screen *scn;
scm2display_screen(sd, si, &dspscn, s_x_screen_black);
scn = ScreenOfDisplay(dspscn.dpy, dspscn.screen_number);
return ulong2num(BlackPixelOfScreen(scn));
}
SCM x_screen_white(sd, si)
SCM sd, si;
{
struct display_screen dspscn;
Screen *scn;
scm2display_screen(sd, si, &dspscn, s_x_screen_white);
scn = ScreenOfDisplay(dspscn.dpy, dspscn.screen_number);
return ulong2num(WhitePixelOfScreen(scn));
}
XVisualInfo *visual2visualinfo(dsp, vis)
Display *dsp;
Visual *vis;
{
int nitems_return;
XVisualInfo vinfo_template;
XVisualInfo *vislst;
vinfo_template.visualid = XVisualIDFromVisual(vis);
vislst = XGetVisualInfo(dsp, VisualIDMask, &vinfo_template, &nitems_return);
if (1 != nitems_return) {
if (vislst) XFree(vislst);
wta(MAKINUM(nitems_return), (char *)WNA, s_visual);
}
return vislst;
}
SCM x_make_visual(sd, sdepth, sclass)
SCM sd, sdepth, sclass;
{
int nitems_return;
struct display_screen dspscn;
XVisualInfo vinfo_template;
XVisualInfo *vislst;
scm2display_screen(sd, UNDEFINED, &dspscn, s_x_make_visual);
vinfo_template.screen = dspscn.screen_number;
vinfo_template.depth = theuint(sdepth, s_x_make_visual);
vinfo_template.class = theuint(sclass, s_x_make_visual);
vislst =
XGetVisualInfo(dspscn.dpy,
VisualScreenMask | VisualDepthMask | VisualClassMask,
&vinfo_template,
&nitems_return);
if (0==nitems_return) return BOOL_F;
return make_xvisual(vislst);
}
static sizet free_visual(ptr)
CELLPTR ptr;
{
XFree(XVISUALINFO(ptr));
return 0;
}
SCM x_visual_geometry(svsl)
SCM svsl;
{
XVisualInfo *vsl;
ASRTER(NIMP(svsl) && VISUALP(svsl), svsl, ARG1, s_x_visual_geometry);
vsl = XVISUALINFO(svsl);
return cons2(MAKINUM(vsl->red_mask), MAKINUM(vsl->green_mask),
cons2(MAKINUM(vsl->blue_mask), MAKINUM(vsl->colormap_size),
EOL));
}
SCM x_visual_class(svsl)
SCM svsl;
{
XVisualInfo *vsl;
ASRTER(NIMP(svsl) && VISUALP(svsl), svsl, ARG1, s_x_visual_class);
vsl = XVISUALINFO(svsl);
return MAKINUM(vsl->class);
}
SCM x_root_window(sdpy, sscr)
SCM sdpy, sscr;
{
struct display_screen dspscn;
struct xs_Display *xsd;
struct xs_screen *scrns;
scm2display_screen(sdpy, sscr, &dspscn, s_x_root_window);
xsd = DISPLAY(dspscn.display);
scrns = (struct xs_screen *)(xsd + 1);
return scrns[dspscn.screen_number].root_window;
}
SCM x_default_colormap(sdpy, sscr)
SCM sdpy, sscr;
{
struct display_screen dspscn;
struct xs_Display *xsd;
struct xs_screen *scrns;
scm2display_screen(sdpy, sscr, &dspscn, s_x_default_colormap);
xsd = DISPLAY(dspscn.display);
scrns = (struct xs_screen *)(xsd + 1);
return scrns[dspscn.screen_number].default_colormap;
}
SCM x_default_gcontext(sdpy, sscr)
SCM sdpy, sscr;
{
struct display_screen dspscn;
struct xs_Display *xsd;
struct xs_screen *scrns;
scm2display_screen(sdpy, sscr, &dspscn, s_x_default_gcontext);
xsd = DISPLAY(dspscn.display);
scrns = (struct xs_screen *)(xsd + 1);
return scrns[dspscn.screen_number].default_gcontext;
}
SCM x_default_visual(sdpy, sscr)
SCM sdpy, sscr;
{
struct display_screen dspscn;
struct xs_Display *xsd;
struct xs_screen *scrns;
scm2display_screen(sdpy, sscr, &dspscn, s_x_default_visual);
xsd = DISPLAY(dspscn.display);
scrns = (struct xs_screen *)(xsd + 1);
return scrns[dspscn.screen_number].default_visual;
}
SCM x_default_ccc(sdpy, sscr)
SCM sdpy, sscr;
{
struct display_screen dspscn;
XcmsCCC ccc;
if (NIMP(sdpy) && COLORMAPP(sdpy) && UNBNDP(sscr)) {
struct xs_Colormap *cmp = COLORMAP(sdpy);
ccc = XcmsCCCOfColormap(cmp->dpy, cmp->cm);
}
else {
scm2display_screen(sdpy, sscr, &dspscn, s_x_default_ccc);
ccc = XcmsDefaultCCC(dspscn.dpy, dspscn.screen_number);
}
return CCC2SCM(ccc);
}
/*
SCM x_ccc_screen_info(sccc, sfmt)
SCM sccc;
SCM sfmt;
{
XcmsCCC xccc;
XcmsPerScrnInfo *pPerScrnInfo;
ASRTER(NIMP(sccc) && CCCP(sccc), sccc, ARG1, s_x_ccc_screen_info);
ASRTER(NIMP(sfmt) && STRINGP(sfmt), sfmt, ARG2, s_x_ccc_screen_info);
xccc = XCCC(sccc);
pPerScrnInfo = (XcmsFunctionSet *)xccc->pPerScrnInfo;
return ;
}
*/
/* Window Information */
SCM x_propdata2scm(type, format, nitems, data)
Atom type;
int format;
unsigned long nitems;
unsigned char* data;
{
SCM datum = EOL;
SCM lst = EOL;
int cnt;
for (cnt = nitems; cnt--;) {
switch (type) {
case XA_ATOM:
case XA_VISUALID:
case XA_CARDINAL:
switch (format) {
case 8: datum = MAKINUM(((unsigned char *)data)[cnt]); break;
case 16: datum = MAKINUM(((unsigned short *)data)[cnt]); break;
case 32: datum = ulong2num(((unsigned long *)data)[cnt]); break;
default: return MAKINUM(format);
} break;
case XA_INTEGER:
switch (format) {
case 8: datum = MAKINUM(((char *)data)[cnt]); break;
case 16: datum = MAKINUM(((short *)data)[cnt]); break;
case 32: datum = long2num(((long *)data)[cnt]); break;
default: return MAKINUM(format);
} break;
case XA_STRING:
switch (format) {
case 8: return makfrom0str(data);
default: return MAKINUM(format);
} break;
case XA_ARC:
case XA_BITMAP:
case XA_COLORMAP:
case XA_CURSOR:
case XA_DRAWABLE:
case XA_FONT:
case XA_PIXMAP:
case XA_POINT:
case XA_RECTANGLE:
case XA_RGB_COLOR_MAP:
case XA_WINDOW:
case XA_WM_HINTS:
case XA_WM_SIZE_HINTS:
default:
/* datum = BOOL_F; */
return MAKINUM(-type);
}
lst = cons(datum, lst);
}
return lst;
}
SCM x_get_window_property(swin, sprop, sargs)
SCM swin, sprop, sargs;
{
struct xs_Window *xwn;
Atom property;
Atom actual_type_return;
int actual_format_return;
unsigned long nitems_return;
unsigned long bytes_after_return;
unsigned char *prop_return;
int sarglen = ilength(sargs);
ASRTER(IMP(sprop) ? INUMP(sprop) : STRINGP(sprop),
sprop, ARG2, s_x_get_window_property);
ASRTER(sarglen >= 0 && sarglen < 2, sargs, WNA, s_x_get_window_property);
if (1 == sarglen) {
ASRTER(NFALSEP(booleanp(CAR(sargs))), sargs, ARG3, s_x_get_window_property);
}
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_map_window);
xwn = WINDOW(swin);
if (INUMP(sprop))
property = INUM(sprop);
else
property = XInternAtom(xwn->dpy, CHARS(sprop), !0);
if (None == property) return BOOL_F;
if (XGetWindowProperty(xwn->dpy, xwn->p.win, property, 0L, 65536L,
(1 == sarglen) && NFALSEP(CAR(sargs)), AnyPropertyType,
&actual_type_return, &actual_format_return,
&nitems_return, &bytes_after_return,
&prop_return)
!= Success)
return BOOL_F;
{
SCM ans = x_propdata2scm(actual_type_return, actual_format_return,
nitems_return, prop_return);
XFree(prop_return);
return ans;
}
}
SCM x_list_properties(swin)
SCM swin;
{
struct xs_Window *xwn;
Atom *atoms;
int num_prop_return;
SCM lst;
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_map_window);
xwn = WINDOW(swin);
atoms = XListProperties(xwn->dpy, xwn->p.win, &num_prop_return);
{
int i = num_prop_return;
lst = EOL;
while (i--) {
char *name = XGetAtomName(xwn->dpy, atoms[i]);
lst = cons(makfrom0str(name), lst);
XFree(name);
}
}
XFree(atoms);
return lst;
}
/* Rendering */
SCM x_clear_area(swin, spos, sargs)
SCM swin, spos, sargs;
{
XPoint position, size;
ASRTER(2==ilength(sargs), sargs, WNA, s_x_clear_area);
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_clear_area);
scm2XPoint(!0, spos, &position, (char *)ARG2, s_x_clear_area);
scm2XPoint(0, CAR(sargs), &size, (char *)ARG3, s_x_clear_area);
sargs = CDR(sargs);
XClearArea(XWINDISPLAY(swin), XWINDOW(swin),
position.x, position.y, size.x, size.y,
NFALSEP(CAR(sargs)));
return UNSPECIFIED;
}
SCM x_fill_rectangle(swin, sgc, sargs)
SCM swin, sgc, sargs;
{
XPoint position, size;
ASRTER(2==ilength(sargs), sargs, WNA, s_x_fill_rectangle);
ASRTER(NIMP(swin) && WINDOWP(swin), swin, ARG1, s_x_fill_rectangle);
ASRTER(NIMP(sgc) && GCONTEXTP(sgc), sgc, ARG2, s_x_fill_rectangle);
scm2XPoint(!0, CAR(sargs), &position, (char *)ARG3, s_x_fill_rectangle);
sargs = CDR(sargs);
scm2XPoint(0, CAR(sargs), &size, (char *)ARG4, s_x_fill_rectangle);
XFillRectangle(XWINDISPLAY(swin), XWINDOW(swin), XGCONTEXT(sgc),
position.x, position.y, size.x, size.y);
return UNSPECIFIED;
}
void xldraw_string(sdbl, sgc, sargs, proc, s_caller)
SCM sdbl, sgc, sargs;
int (*proc)();
char *s_caller;
{
XPoint position;
ASRTER(2==ilength(sargs), sargs, WNA, s_caller);
ASRTER(NIMP(sdbl) && WINDOWP(sdbl), sdbl, ARG1, s_caller);
ASRTER(NIMP(sgc) && GCONTEXTP(sgc), sgc, ARG2, s_caller);
scm2XPoint(!0, CAR(sargs), &position, (char *)ARG3, s_caller);
sargs = CDR(sargs);
sargs = CAR(sargs);
ASRTER(NIMP(sargs) && STRINGP(sargs), sargs, ARG4, s_caller);
proc(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
position.x, position.y, CHARS(sargs), LENGTH(sargs));
}
SCM x_draw_string(sdbl, sgc, sargs)
SCM sdbl, sgc, sargs;
{
xldraw_string(sdbl, sgc, sargs, &XDrawString, s_x_draw_string);
return UNSPECIFIED;
}
SCM x_image_string(sdbl, sgc, sargs)
SCM sdbl, sgc, sargs;
{
xldraw_string(sdbl, sgc, sargs, &XDrawImageString, s_x_image_string);
return UNSPECIFIED;
}
SCM x_draw_points(sdbl, sgc, sargs)
SCM sdbl, sgc, sargs;
{
XPoint pos[1];
int len;
SCM sarg;
ASRTER(NIMP(sdbl) && WINDOWP(sdbl), sdbl, ARG1, s_x_draw_points);
ASRTER(NIMP(sgc) && GCONTEXTP(sgc), sgc, ARG2, s_x_draw_points);
loop:
if (NULLP(sargs)) return UNSPECIFIED;
sarg = CAR(sargs); sargs = CDR(sargs);
if (INUMP(sarg)) {
ASRTER(NNULLP(sargs), sargs, WNA, s_x_draw_points);
pos[0].x = INUM(sarg);
GET_NEXT_INT(pos[0].y, sargs, ARGn, s_x_draw_points);
goto drawshort;
}
len = scm2xpointslen(sarg, s_x_draw_points);
if (len < 0) {
scm2XPoint(!0, sarg, &(pos[0]), (char *)ARG3, s_x_draw_points);
drawshort:
XDrawPoints(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
&(pos[0]), 1, CoordModeOrigin);
goto loop;
} else {
ASRTER(NULLP(sargs), sargs, WNA, s_x_draw_points);
XDrawPoints(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
(XPoint *)scm_base_addr(sarg, s_x_draw_points), len,
CoordModeOrigin);
return UNSPECIFIED;
}
}
SCM xldraw_lines(sdbl, sgc, sargs, funcod, s_caller)
SCM sdbl, sgc, sargs;
int funcod;
char *s_caller;
{
XPoint pos[2];
int len;
SCM sarg;
ASRTER(NIMP(sdbl) && WINDOWP(sdbl), sdbl, ARG1, s_caller);
ASRTER(NIMP(sgc) && GCONTEXTP(sgc), sgc, ARG2, s_caller);
loop:
if (NULLP(sargs)) return UNSPECIFIED;
sarg = CAR(sargs); sargs = CDR(sargs);
if (INUMP(sarg)) {
ASRTER(NNULLP(sargs), sargs, WNA, s_caller);
pos[0].x = INUM(sarg);
GET_NEXT_INT(pos[0].y, sargs, ARGn, s_caller);
GET_NEXT_INT(pos[1].x, sargs, ARGn, s_caller);
GET_NEXT_INT(pos[1].y, sargs, ARGn, s_caller);
goto drawshort;
}
len = scm2xpointslen(sarg, s_caller);
if (len < 0) {
scm2XPoint(!0, sarg, &(pos[0]), (char *)ARG3, s_caller);
scm2XPoint(!0, sarg, &(pos[1]), (char *)ARG4, s_caller);
drawshort:
switch (funcod) {
default: wna: wta(sargs, (char *)WNA, s_caller);
case 0:
XDrawSegments(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
(XSegment *) &(pos[0]), 1);
goto loop;
case 1:
XDrawLines(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
&(pos[0]), 2, CoordModeOrigin);
goto loop;
}
} else {
unsigned long rabase;
ASRTGO(NULLP(sargs), wna);
rabase = scm_base_addr(sarg, s_caller);
switch (funcod) {
default: goto wna;
case 0:
XDrawSegments(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
(XSegment *)rabase, len/2);
return UNSPECIFIED;
case 1:
XDrawLines(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
(XPoint *)rabase, len, CoordModeOrigin);
return UNSPECIFIED;
case 2:
XFillPolygon(XWINDISPLAY(sdbl), XWINDOW(sdbl), XGCONTEXT(sgc),
(XPoint *)rabase, len, Complex, CoordModeOrigin);
return UNSPECIFIED;
}
}
}
SCM x_draw_segments(sdbl, sgc, sargs)
SCM sdbl, sgc, sargs;
{
return xldraw_lines(sdbl, sgc, sargs, 0, s_x_draw_segments);
}
SCM x_draw_lines(sdbl, sgc, sargs)
SCM sdbl, sgc, sargs;
{
return xldraw_lines(sdbl, sgc, sargs, 1, s_x_draw_lines);
}
SCM x_fill_poly(sdbl, sgc, sargs)
SCM sdbl, sgc, sargs;
{
return xldraw_lines(sdbl, sgc, sargs, 2, s_x_fill_poly);
}
static char s_x_read_bitmap_file[] = "x:read-bitmap-file";
SCM x_read_bitmap_file(sdbl, sfname)
SCM sdbl, sfname;
{
unsigned int w, h;
int x, y;
Pixmap pxmp;
ASRTER(NIMP(sdbl) && WINDOWP(sdbl), sdbl, ARG1, s_x_read_bitmap_file);
if (XReadBitmapFile(XWINDISPLAY(sdbl),
WINDOW(sdbl)->p.pm,
CHARS(sfname),
&w, &h, &pxmp, &x, &y) == BitmapSuccess)
return make_xwindow(WINDOW(sdbl)->display,
WINDOW(sdbl)->screen_number,
pxmp, (char) 1, (char) 0);
else return BOOL_F;
}
/* XEvents */
/* x_make_bool() is used in xevent.h */
SCM x_make_bool(f)
Bool f;
{
return f ? BOOL_F : BOOL_T;
}
SCM x_event_ref(sevent, sfield)
SCM sevent, sfield;
{
void *x;
ASRTER(NIMP(sevent) && XEVENTP(sevent), sevent, ARG1, s_x_event_ref);
ASRTER(INUMP(sfield), sfield, ARG2, s_x_event_ref);
x = (void *) CHARS(sevent);
switch (((((XEvent*)x)->type)<<8)+INUM(sfield)) {
default: wta(sevent, "Incompatible field for", s_x_event_ref);
#define SCM_EVENT_FIELDS
#include "xevent.h"
}
}
static struct {
int type;
char *name;
} event_names[] = {
#undef SCM_EVENT_FIELDS
#include "xevent.h"
};
static char *x__event_name(type)
int type;
{
int i;
for (i = 0; i < sizeof(event_names) / sizeof(event_names[0]); i++)
if (type==event_names[i].type) return event_names[i].name;
return "unknown";
}
SCM x_event_keysym(sevent)
SCM sevent;
{
XKeyEvent *ev;
KeySym ans;
ASRTGO(NIMP(sevent) && XEVENTP(sevent), badarg);
ev = (XKeyEvent *)CHARS(sevent);
switch (((XEvent*)ev)->type) {
badarg:
default: wta(sevent, (char *)ARG1, s_x_event_keysym);
case KeyPress:
case KeyRelease:
;
}
ans = XLookupKeysym(ev, ev->state);
if (ans) return MAKINUM(ans);
else return BOOL_F;
}
/* SMOB print routines */
static int print_xevent(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
lputs("#type), f);
lputc('>', f);
return 1;
}
static int print_xdisplay(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
if (CLOSEDP(exp)) lputs("#", f);
else {
lputs("#", f);
}
return 1;
}
static int print_xwindow(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
lputs(CLOSEDP(exp) ? "#', f);
return 1;
}
static int print_xcursor(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
lputs("#', f);
return 1;
}
static int print_xfont(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
lputs("#name), f);
lputs("\">", f);
return 1;
}
static int print_xcolormap(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
lputs("#', f);
return 1;
}
static int print_xgcontext(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
lputs("#gid, 16, f); skimu */
scm_intprint((long) XGContextFromGC(XGCONTEXT(exp)), 16, f);
lputc('>', f);
return 1;
}
char *xvisualclass2name(class)
int class;
{
switch (class) {
case StaticGray: return "StaticGray";
case GrayScale: return "GrayScale";
case StaticColor: return "StaticColor";
case PseudoColor: return "PseudoColor";
case TrueColor: return "TrueColor";
case DirectColor: return "DirectColor";
default: return "??";
}
}
static int print_xvisual(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
XVisualInfo *xvi = XVISUALINFO(exp);
lputs("#visualid, 16, f);
lputs(" ", f);
lputs(xvisualclass2name(xvi->class), f);
lputc(' ', f);
scm_intprint((long) xvi->depth, 10, f);
lputc('x', f);
scm_intprint((long) xvi->colormap_size, 10, f);
lputc('>', f);
return 1;
}
static int print_xccc(exp, f, writing)
SCM exp;
SCM f;
int writing;
{
XcmsColorSpace **papColorSpaces;
XcmsCCC xccc = XCCC(exp);
lputs("#pPerScrnInfo->functionSet)->DDColorSpaces;
if (papColorSpaces != NULL) {
while (*papColorSpaces != NULL) {
lputs(" ", f);
lputs((*papColorSpaces)->prefix, f);
papColorSpaces++;
}
}
lputc('>', f);
return 1;
}
static smobfuns smob_xdisplay = {mark_xdisplay, free_xdisplay, print_xdisplay, 0};
static smobfuns smob_xwindow = {mark_xwindow, free_xwindow, print_xwindow, 0};
static smobfuns smob_xcursor = {mark_xcursor, free_xcursor, print_xcursor, 0};
static smobfuns smob_xfont = {mark_xfont, free_xfont, print_xfont, 0};
static smobfuns smob_xgcontext = {mark_xgcontext, free_xgcontext, print_xgcontext, 0};
static smobfuns smob_xcolormap = {mark_xcolormap, free_xcolormap, print_xcolormap, 0};
static smobfuns smob_xvisual = {mark0, free_visual, print_xvisual, 0};
static smobfuns smob_xccc = {mark0, free_xccc, print_xccc, 0};
static smobfuns smob_xevent = {mark0, x_free_xevent, print_xevent, 0};
static iproc x_subr3s[] = {
{s_x_make_visual, x_make_visual},
{s_x_create_pixmap, x_create_pixmap},
{s_x_create_colormap, x_create_colormap},
{s_x_color_set, x_color_set},
{0, 0}
};
static iproc x_lsubr2s[] = {
{s_x_create_window, x_create_window},
{s_x_create_cursor, x_create_cursor},
{s_x_alloc_color_cells, x_alloc_color_cells},
{s_x_free_color_cells, x_free_color_cells},
{s_x_get_window_property, x_get_window_property},
{s_x_clear_area, x_clear_area},
{s_x_fill_rectangle, x_fill_rectangle},
{s_x_draw_string, x_draw_string},
{s_x_image_string, x_image_string},
{s_x_draw_points, x_draw_points},
{s_x_draw_segments, x_draw_segments},
{s_x_draw_lines, x_draw_lines},
{s_x_fill_poly, x_fill_poly},
{0, 0}
};
static iproc x_lsubrs[] = {
{s_x_create_gc, x_create_gc},
{s_x_gc_set, x_gc_set},
{s_x_gc_ref, x_gc_ref},
{s_x_copy_gc, x_copy_gc},
{s_x_window_set, x_window_set},
{s_x_window_geometry_set, x_window_geometry_set},
{s_x_window_ref, x_window_ref},
{0, 0}
};
static iproc x_subr2s[] = {
{s_x_event_ref, x_event_ref},
{s_x_find_color, x_find_color},
{s_x_color_ref, x_color_ref},
{s_x_load_font, x_load_font},
{s_x_read_bitmap_file, x_read_bitmap_file},
{0, 0}
};
static iproc x_subr2os[] = {
{s_x_display_debug, x_display_debug},
{s_x_screen_cells, x_screen_cells},
{s_x_screen_depth, x_screen_depth},
{s_x_screen_depths, x_screen_depths},
{s_x_screen_size, x_screen_size},
{s_x_screen_dimm, x_screen_dimm},
{s_x_screen_black, x_screen_black},
{s_x_screen_white, x_screen_white},
{s_x_protocol_version, x_protocol_version},
{s_x_vendor_release, x_vendor_release},
{s_x_server_vendor, x_server_vendor},
{s_x_screen_count, x_screen_count},
{s_x_events_queued, x_events_queued},
{s_x_next_event, x_next_event},
{s_x_peek_event, x_peek_event},
{s_x_pending, x_pending},
{s_x_q_length, x_q_length},
{s_x_root_window, x_root_window},
{s_x_default_gcontext, x_default_gcontext},
{s_x_default_visual, x_default_visual},
{s_x_default_colormap, x_default_colormap},
{s_x_install_colormap, x_install_colormap},
{s_x_default_ccc, x_default_ccc},
{s_x_flush, x_flush},
{0, 0}
};
static iproc x_subr1s[] = {
{s_x_open_display, x_open_display},
{s_x_close, x_close},
{s_x_default_screen, x_default_screen},
{s_x_window_geometry, x_window_geometry},
{s_x_list_properties, x_list_properties},
{s_x_map_window, x_map_window},
{s_x_map_subwindows, x_map_subwindows},
{s_x_unmap_window, x_unmap_window},
{s_x_unmap_subwindows, x_unmap_subwindows},
{s_x_recreate_colormap, x_recreate_colormap},
{s_x_visual_geometry, x_visual_geometry},
{s_x_visual_class, x_visual_class},
{s_x_event_keysym, x_event_keysym},
/* {s_x_colormap_basis, x_colormap_basis}, */
/* {s_x_colormap_limits, x_colormap_limits}, */
{0, 0}
};
int (*x_scm_prev_error_handler)() = 0;
void x_scm_final()
{
if (x_scm_prev_error_handler) XSetErrorHandler(x_scm_prev_error_handler);
x_scm_prev_error_handler = 0;
}
void init_x()
{
init_iprocs(x_subr3s, tc7_subr_3);
init_iprocs(x_lsubr2s, tc7_lsubr_2);
init_iprocs(x_lsubrs, tc7_lsubr);
init_iprocs(x_subr2s, tc7_subr_2);
init_iprocs(x_subr2os, tc7_subr_2o);
init_iprocs(x_subr1s, tc7_subr_1);
tc16_xdisplay = newsmob(&smob_xdisplay);
tc16_xwindow = newsmob(&smob_xwindow);
tc16_xcursor = newsmob(&smob_xcursor);
tc16_xfont = newsmob(&smob_xfont);
tc16_xcolormap = newsmob(&smob_xcolormap);
tc16_xgcontext = newsmob(&smob_xgcontext);
tc16_xvisual = newsmob(&smob_xvisual);
tc16_xevent = newsmob(&smob_xevent);
tc16_xccc = newsmob(&smob_xccc);
xtc_ccc = XUniqueContext();
xtc_cmp = XUniqueContext();
scm_ldprog("x11.scm");
scm_ldprog("xevent.scm");
/* Redefines STRING */
/* scm_ldprog("xatoms.scm"); */
scm_ldstr("\
(define x:ccc x:default-ccc)\n\
(define x:GC-Clip-Origin (logior x:GC-Clip-X-Origin x:GC-Clip-Y-Origin))\n\
(define x:GC-Tile-Stip-Origin \n\
(logior x:GC-Tile-Stip-X-Origin x:GC-Tile-Stip-Y-Origin))\n\
");
add_feature("xlib");
add_final(x_scm_final);
XSetErrorHandler(x_scm_error_handler);
}