src/px/x11raster.c

/* Copyright 1990 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 * x11raster.c - routines to handle images for X windows.
 *
 *      2/18/88
 */

#include <stdio.h>
#include <X11/Xlib.h>
#include <X11/Xutil.h>

#include "x11raster.h"


XRASTER *
make_raster(disp, vis, npixbits, data, width, height, bm_pad)
Display *disp;
XVisualInfo     *vis;
int     npixbits;
char    *data;
int     width, height;
int     bm_pad;
{
        static long     swaptest = 1;
        register XRASTER        *xr;

        if ((xr = (XRASTER *)calloc(1, sizeof(XRASTER))) == NULL)
                return(NULL);
        xr->disp = disp;
        xr->screen = vis->screen;
        xr->visual = vis->visual;
        if (npixbits == 1)
                xr->image = XCreateImage(disp,vis->visual,1,
                                XYBitmap,0,data,width,height,bm_pad,0);
        else
                xr->image = XCreateImage(disp,vis->visual,vis->depth,
                                ZPixmap,0,data,width,height,bm_pad,0);
        xr->image->bitmap_bit_order = MSBFirst;
        xr->image->bitmap_unit = bm_pad;
        xr->image->byte_order = *(char *)&swaptest ? LSBFirst : MSBFirst;
        if (vis->depth >= 24 && (xr->image->red_mask != 0xff ||
                        xr->image->green_mask != 0xff00 ||
                        xr->image->blue_mask != 0xff0000) &&
                        (xr->image->red_mask != 0xff0000 ||
                        xr->image->green_mask != 0xff00 ||
                        xr->image->blue_mask != 0xff)) {
                xr->image->red_mask = 0xff;
                xr->image->green_mask = 0xff00;
                xr->image->blue_mask = 0xff0000;
        }
        xr->gc = 0;
        return(xr);
}


int
init_rcolors(xr, rmap, gmap, bmap)              /* initialize colors */
register XRASTER        *xr;
int     rmap[256], gmap[256], bmap[256];
{
        register unsigned char  *p;
        register int    i;

        if (xr->image->depth > 8 || xr->ncolors != 0)
                return(xr->ncolors);
        xr->pmap = (short *)malloc(256*sizeof(short));
        if (xr->pmap == NULL)
                return(0);
        xr->cdefs = (XColor *)malloc(256*sizeof(XColor));
        if (xr->cdefs == NULL)
                return(0);
        for (i = 0; i < 256; i++)
                xr->pmap[i] = -1;
        for (p = (unsigned char *)xr->image->data,
                        i = xr->image->width*xr->image->height;
                        i--; p++)
                if (xr->pmap[*p] == -1) {
                        xr->cdefs[xr->ncolors].red = rmap[*p] << 8;
                        xr->cdefs[xr->ncolors].green = gmap[*p] << 8;
                        xr->cdefs[xr->ncolors].blue = bmap[*p] << 8;
                        xr->cdefs[xr->ncolors].pixel = *p;
                        xr->cdefs[xr->ncolors].flags = DoRed|DoGreen|DoBlue;
                        xr->pmap[*p] = xr->ncolors++;
                }
        xr->cdefs = (XColor *)realloc((char *)xr->cdefs,
                        xr->ncolors*sizeof(XColor));
        if (xr->cdefs == NULL)
                return(0);
        return(xr->ncolors);
}


Colormap
newcmap(disp, scrn, w, vis)             /* get colormap and fix b & w */
Display *disp;
int     scrn;
Window  w;
Visual  *vis;
{
        XColor  thiscolor;
        unsigned long   *pixels;
        Colormap        cmap;
        int     n;
        register int    i, j;

        cmap = XCreateColormap(disp, w, vis, AllocNone);
        if (cmap == 0)
                return(0);
        pixels=(unsigned long *)malloc(vis->map_entries*sizeof(unsigned long));
        if (pixels == NULL)
                return(0);
        for (n = vis->map_entries; n > 0; n--)
                if (XAllocColorCells(disp, cmap, 0, NULL, 0, pixels, n) != 0)
                        break;
        if (n == 0)
                return(0);
                                        /* reset black and white */
        for (i = 0; i < n; i++) {
                if (pixels[i] != BlackPixel(disp,scrn)
                                && pixels[i] != WhitePixel(disp,scrn))
                        continue;
                thiscolor.pixel = pixels[i];
                thiscolor.flags = DoRed|DoGreen|DoBlue;
                XQueryColor(disp, DefaultColormap(disp,scrn), &thiscolor);
                XStoreColor(disp, cmap, &thiscolor);
                for (j = i; j+1 < n; j++)
                        pixels[j] = pixels[j+1];
                n--;
                i--;
        }
        XFreeColors(disp, cmap, pixels, n, 0);
        free((char *)pixels);
        return(cmap);
}


unsigned long *
map_rcolors(xr, w)                              /* get and assign pixels */
register XRASTER        *xr;
Window  w;
{
        register int    i;
        register unsigned char  *p;

        if (xr->ncolors == 0 || xr->image->depth > 8)
                return(NULL);
        if (xr->pixels != NULL)
                return(xr->pixels);
        xr->pixels = (unsigned long *)malloc(xr->ncolors*sizeof(unsigned long));
        if (xr->pixels == NULL)
                return(NULL);
        if (xr->visual == DefaultVisual(xr->disp, xr->screen))
                xr->cmap = DefaultColormap(xr->disp, xr->screen);
        else
                xr->cmap = newcmap(xr->disp, xr->screen, w, xr->visual);
        while (XAllocColorCells(xr->disp, xr->cmap, 0,
                        NULL, 0, xr->pixels, xr->ncolors) == 0)
                if (xr->cmap == DefaultColormap(xr->disp, xr->screen))
                        xr->cmap = newcmap(xr->disp, xr->screen, w, xr->visual);
                else {
                        free((char *)xr->pixels);
                        xr->pixels = NULL;
                        return(NULL);
                }
        for (i = 0; i < xr->ncolors; i++)
                if (xr->pmap[xr->pixels[i]] == -1)
                        break;
        if (i < xr->ncolors) {                  /* different pixels */
                for (p = (unsigned char *)xr->image->data,
                                i = xr->image->width*xr->image->height;
                                i--; p++)
                        *p = xr->pixels[xr->pmap[*p]];
                for (i = 0; i < 256; i++)
                        xr->pmap[i] = -1;
                for (i = 0; i < xr->ncolors; i++) {
                        xr->cdefs[i].pixel = xr->pixels[i];
                        xr->pmap[xr->pixels[i]] = i;
                }
                free_rpixmap(xr);               /* Pixmap invalid */
        }
        XStoreColors(xr->disp, xr->cmap, xr->cdefs, xr->ncolors);
        XSetWindowColormap(xr->disp, w, xr->cmap);
        return(xr->pixels);
}


Pixmap
make_rpixmap(xr, w)                     /* make pixmap for raster */
register XRASTER        *xr;
Window  w;
{
        XWindowAttributes       xwattr;
        Pixmap  pm;

        if (xr->pm != 0)
                return(xr->pm);
        XGetWindowAttributes(xr->disp, w, &xwattr);
        pm = XCreatePixmap(xr->disp, w,
                        xr->image->width, xr->image->height,
                        xwattr.depth);
        if (pm == 0)
                return(0);
        put_raster(pm, 0, 0, xr);
        return(xr->pm = pm);
}


patch_raster(d, xsrc, ysrc, xdst, ydst, width, height, xr)      /* redraw */
Drawable        d;
int     xsrc, ysrc, xdst, ydst;
int     width, height;
register XRASTER        *xr;
{
        if (xsrc >= xr->image->width || ysrc >= xr->image->height)
                return;
        if (xsrc < 0) {
                xdst -= xsrc; width += xsrc;
                xsrc = 0;
        }
        if (ysrc < 0) {
                ydst -= ysrc; height += ysrc;
                ysrc = 0;
        }
        if (width <= 0 || height <= 0)
                return;
        if (xsrc + width > xr->image->width)
                width = xr->image->width - xsrc;
        if (ysrc + height > xr->image->height)
                height = xr->image->height - ysrc;

        if (xr->gc == 0) {
                xr->gc = XCreateGC(xr->disp, d, 0, 0);
                XSetState(xr->disp, xr->gc, BlackPixel(xr->disp,xr->screen),
                        WhitePixel(xr->disp,xr->screen), GXcopy, AllPlanes);
        }
        if (xr->pm == 0)
                XPutImage(xr->disp, d, xr->gc, xr->image, xsrc, ysrc,
                                xdst, ydst, width, height);
        else
                XCopyArea(xr->disp, xr->pm, d, xr->gc, xsrc, ysrc,
                                width, height, xdst, ydst);
}


unmap_rcolors(xr)                       /* free colors */
register XRASTER        *xr;
{
        if (xr->pixels == NULL)
                return;
        XFreeColors(xr->disp, xr->cmap, xr->pixels, xr->ncolors, 0);
        if (xr->cmap != DefaultColormap(xr->disp, xr->screen))
                XFreeColormap(xr->disp, xr->cmap);
        free((char *)xr->pixels);
        xr->pixels = NULL;
}


free_rpixmap(xr)                        /* release Pixmap */
register XRASTER        *xr;
{
        if (xr->pm == 0)
                return;
        XFreePixmap(xr->disp, xr->pm);
        xr->pm = 0;
}


free_raster(xr)                         /* free raster data */
register XRASTER        *xr;
{
        free_rpixmap(xr);
        if (xr->ncolors > 0) {
                unmap_rcolors(xr);
                free((char *)xr->pmap);
                free((char *)xr->cdefs);
        }
        XDestroyImage(xr->image);
        if (xr->gc != 0)
                XFreeGC(xr->disp, xr->gc);
        free((char *)xr);
}
Revision:	2.6
Committed:	Thu May 28 09:39:22 1992 UTC (31 years, 11 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.5:	+9 -6 lines
Log Message:	further refinements for grayscale and odd devices
#	Content
1	/* Copyright 1990 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* x11raster.c - routines to handle images for X windows.
9	*
10	* 2/18/88
11	*/
12
13	#include <stdio.h>
14	#include <X11/Xlib.h>
15	#include <X11/Xutil.h>
16
17	#include "x11raster.h"
18
19
20	XRASTER *
21	make_raster(disp, vis, npixbits, data, width, height, bm_pad)
22	Display *disp;
23	XVisualInfo *vis;
24	int npixbits;
25	char *data;
26	int width, height;
27	int bm_pad;
28	{
29	static long swaptest = 1;
30	register XRASTER *xr;
31
32	if ((xr = (XRASTER *)calloc(1, sizeof(XRASTER))) == NULL)
33	return(NULL);
34	xr->disp = disp;
35	xr->screen = vis->screen;
36	xr->visual = vis->visual;
37	if (npixbits == 1)
38	xr->image = XCreateImage(disp,vis->visual,1,
39	XYBitmap,0,data,width,height,bm_pad,0);
40	else
41	xr->image = XCreateImage(disp,vis->visual,vis->depth,
42	ZPixmap,0,data,width,height,bm_pad,0);
43	xr->image->bitmap_bit_order = MSBFirst;
44	xr->image->bitmap_unit = bm_pad;
45	xr->image->byte_order = (char )&swaptest ? LSBFirst : MSBFirst;
46	if (vis->depth >= 24 && (xr->image->red_mask != 0xff \|\|
47	xr->image->green_mask != 0xff00 \|\|
48	xr->image->blue_mask != 0xff0000) &&
49	(xr->image->red_mask != 0xff0000 \|\|
50	xr->image->green_mask != 0xff00 \|\|
51	xr->image->blue_mask != 0xff)) {
52	xr->image->red_mask = 0xff;
53	xr->image->green_mask = 0xff00;
54	xr->image->blue_mask = 0xff0000;
55	}
56	xr->gc = 0;
57	return(xr);
58	}
59
60
61	int
62	init_rcolors(xr, rmap, gmap, bmap) /* initialize colors */
63	register XRASTER *xr;
64	int rmap[256], gmap[256], bmap[256];
65	{
66	register unsigned char *p;
67	register int i;
68
69	if (xr->image->depth > 8 \|\| xr->ncolors != 0)
70	return(xr->ncolors);
71	xr->pmap = (short )malloc(256sizeof(short));
72	if (xr->pmap == NULL)
73	return(0);
74	xr->cdefs = (XColor )malloc(256sizeof(XColor));
75	if (xr->cdefs == NULL)
76	return(0);
77	for (i = 0; i < 256; i++)
78	xr->pmap[i] = -1;
79	for (p = (unsigned char *)xr->image->data,
80	i = xr->image->width*xr->image->height;
81	i--; p++)
82	if (xr->pmap[*p] == -1) {
83	xr->cdefs[xr->ncolors].red = rmap[*p] << 8;
84	xr->cdefs[xr->ncolors].green = gmap[*p] << 8;
85	xr->cdefs[xr->ncolors].blue = bmap[*p] << 8;
86	xr->cdefs[xr->ncolors].pixel = *p;
87	xr->cdefs[xr->ncolors].flags = DoRed\|DoGreen\|DoBlue;
88	xr->pmap[*p] = xr->ncolors++;
89	}
90	xr->cdefs = (XColor )realloc((char )xr->cdefs,
91	xr->ncolors*sizeof(XColor));
92	if (xr->cdefs == NULL)
93	return(0);
94	return(xr->ncolors);
95	}
96
97
98	Colormap
99	newcmap(disp, scrn, w, vis) /* get colormap and fix b & w */
100	Display *disp;
101	int scrn;
102	Window w;
103	Visual *vis;
104	{
105	XColor thiscolor;
106	unsigned long *pixels;
107	Colormap cmap;
108	int n;
109	register int i, j;
110
111	cmap = XCreateColormap(disp, w, vis, AllocNone);
112	if (cmap == 0)
113	return(0);
114	pixels=(unsigned long )malloc(vis->map_entriessizeof(unsigned long));
115	if (pixels == NULL)
116	return(0);
117	for (n = vis->map_entries; n > 0; n--)
118	if (XAllocColorCells(disp, cmap, 0, NULL, 0, pixels, n) != 0)
119	break;
120	if (n == 0)
121	return(0);
122	/* reset black and white */
123	for (i = 0; i < n; i++) {
124	if (pixels[i] != BlackPixel(disp,scrn)
125	&& pixels[i] != WhitePixel(disp,scrn))
126	continue;
127	thiscolor.pixel = pixels[i];
128	thiscolor.flags = DoRed\|DoGreen\|DoBlue;
129	XQueryColor(disp, DefaultColormap(disp,scrn), &thiscolor);
130	XStoreColor(disp, cmap, &thiscolor);
131	for (j = i; j+1 < n; j++)
132	pixels[j] = pixels[j+1];
133	n--;
134	i--;
135	}
136	XFreeColors(disp, cmap, pixels, n, 0);
137	free((char *)pixels);
138	return(cmap);
139	}
140
141
142	unsigned long *
143	map_rcolors(xr, w) /* get and assign pixels */
144	register XRASTER *xr;
145	Window w;
146	{
147	register int i;
148	register unsigned char *p;
149
150	if (xr->ncolors == 0 \|\| xr->image->depth > 8)
151	return(NULL);
152	if (xr->pixels != NULL)
153	return(xr->pixels);
154	xr->pixels = (unsigned long )malloc(xr->ncolorssizeof(unsigned long));
155	if (xr->pixels == NULL)
156	return(NULL);
157	if (xr->visual == DefaultVisual(xr->disp, xr->screen))
158	xr->cmap = DefaultColormap(xr->disp, xr->screen);
159	else
160	xr->cmap = newcmap(xr->disp, xr->screen, w, xr->visual);
161	while (XAllocColorCells(xr->disp, xr->cmap, 0,
162	NULL, 0, xr->pixels, xr->ncolors) == 0)
163	if (xr->cmap == DefaultColormap(xr->disp, xr->screen))
164	xr->cmap = newcmap(xr->disp, xr->screen, w, xr->visual);
165	else {
166	free((char *)xr->pixels);
167	xr->pixels = NULL;
168	return(NULL);
169	}
170	for (i = 0; i < xr->ncolors; i++)
171	if (xr->pmap[xr->pixels[i]] == -1)
172	break;
173	if (i < xr->ncolors) { /* different pixels */
174	for (p = (unsigned char *)xr->image->data,
175	i = xr->image->width*xr->image->height;
176	i--; p++)
177	p = xr->pixels[xr->pmap[p]];
178	for (i = 0; i < 256; i++)
179	xr->pmap[i] = -1;
180	for (i = 0; i < xr->ncolors; i++) {
181	xr->cdefs[i].pixel = xr->pixels[i];
182	xr->pmap[xr->pixels[i]] = i;
183	}
184	free_rpixmap(xr); /* Pixmap invalid */
185	}
186	XStoreColors(xr->disp, xr->cmap, xr->cdefs, xr->ncolors);
187	XSetWindowColormap(xr->disp, w, xr->cmap);
188	return(xr->pixels);
189	}
190
191
192	Pixmap
193	make_rpixmap(xr, w) /* make pixmap for raster */
194	register XRASTER *xr;
195	Window w;
196	{
197	XWindowAttributes xwattr;
198	Pixmap pm;
199
200	if (xr->pm != 0)
201	return(xr->pm);
202	XGetWindowAttributes(xr->disp, w, &xwattr);
203	pm = XCreatePixmap(xr->disp, w,
204	xr->image->width, xr->image->height,
205	xwattr.depth);
206	if (pm == 0)
207	return(0);
208	put_raster(pm, 0, 0, xr);
209	return(xr->pm = pm);
210	}
211
212
213	patch_raster(d, xsrc, ysrc, xdst, ydst, width, height, xr) /* redraw */
214	Drawable d;
215	int xsrc, ysrc, xdst, ydst;
216	int width, height;
217	register XRASTER *xr;
218	{
219	if (xsrc >= xr->image->width \|\| ysrc >= xr->image->height)
220	return;
221	if (xsrc < 0) {
222	xdst -= xsrc; width += xsrc;
223	xsrc = 0;
224	}
225	if (ysrc < 0) {
226	ydst -= ysrc; height += ysrc;
227	ysrc = 0;
228	}
229	if (width <= 0 \|\| height <= 0)
230	return;
231	if (xsrc + width > xr->image->width)
232	width = xr->image->width - xsrc;
233	if (ysrc + height > xr->image->height)
234	height = xr->image->height - ysrc;
235
236	if (xr->gc == 0) {
237	xr->gc = XCreateGC(xr->disp, d, 0, 0);
238	XSetState(xr->disp, xr->gc, BlackPixel(xr->disp,xr->screen),
239	WhitePixel(xr->disp,xr->screen), GXcopy, AllPlanes);
240	}
241	if (xr->pm == 0)
242	XPutImage(xr->disp, d, xr->gc, xr->image, xsrc, ysrc,
243	xdst, ydst, width, height);
244	else
245	XCopyArea(xr->disp, xr->pm, d, xr->gc, xsrc, ysrc,
246	width, height, xdst, ydst);
247	}
248
249
250	unmap_rcolors(xr) /* free colors */
251	register XRASTER *xr;
252	{
253	if (xr->pixels == NULL)
254	return;
255	XFreeColors(xr->disp, xr->cmap, xr->pixels, xr->ncolors, 0);
256	if (xr->cmap != DefaultColormap(xr->disp, xr->screen))
257	XFreeColormap(xr->disp, xr->cmap);
258	free((char *)xr->pixels);
259	xr->pixels = NULL;
260	}
261
262
263	free_rpixmap(xr) /* release Pixmap */
264	register XRASTER *xr;
265	{
266	if (xr->pm == 0)
267	return;
268	XFreePixmap(xr->disp, xr->pm);
269	xr->pm = 0;
270	}
271
272
273	free_raster(xr) /* free raster data */
274	register XRASTER *xr;
275	{
276	free_rpixmap(xr);
277	if (xr->ncolors > 0) {
278	unmap_rcolors(xr);
279	free((char *)xr->pmap);
280	free((char *)xr->cdefs);
281	}
282	XDestroyImage(xr->image);
283	if (xr->gc != 0)
284	XFreeGC(xr->disp, xr->gc);
285	free((char *)xr);
286	}