Clip.c

Bug Summary

File:	Clip.c
Location:	line 142, column 6
Description:	Value stored to 'p' is never read

Annotated Source Code

1	/*
2	* Copyright (c) 1998 by The XFree86 Project, Inc.
3	*
4	* Permission is hereby granted, free of charge, to any person obtaining a
5	* copy of this software and associated documentation files (the "Software"),
6	* to deal in the Software without restriction, including without limitation
7	* the rights to use, copy, modify, merge, publish, distribute, sublicense,
8	* and/or sell copies of the Software, and to permit persons to whom the
9	* Software is furnished to do so, subject to the following conditions:
10	*
11	* The above copyright notice and this permission notice shall be included in
12	* all copies or substantial portions of the Software.
13	*
14	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
17	* THE XFREE86 PROJECT BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
18	* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF
19	* OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
20	* SOFTWARE.
21	*
22	* Except as contained in this notice, the name of the XFree86 Project shall
23	* not be used in advertising or otherwise to promote the sale, use or other
24	* dealings in this Software without prior written authorization from the
25	* XFree86 Project.
26	*/
27
28	#ifdef HAVE_CONFIG_H1
29	#include <config.h>
30	#endif
31	#include <stdlib.h>
32
33	#include <X11/IntrinsicP.h>
34	#include <X11/Xmu/Xmu.h>
35
36	#define XmuMax(a, b)((a) > (b) ? (a) : (b)) ((a) > (b) ? (a) : (b))
37	#define XmuMin(a, b)((a) < (b) ? (a) : (b)) ((a) < (b) ? (a) : (b))
38
39	/*
40	* Function:
41	* XmuNewArea
42	*
43	* Parameters:
44	* x1 - Coordinates of the rectangle
45	* y1 - ""
46	* x2 - ""
47	* y2 - ""
48	*
49	* Description:
50	* Creates a new rectangular clipping area
51	*/
52	XmuArea *
53	XmuNewArea(int x1, int y1, int x2, int y2)
54	{
55	XmuArea *area;
56
57	area = (XmuArea *)XtMalloc(sizeof(XmuArea));
58	if (x2 > x1 && y2 > y1)
59	{
60	area->scanline = XmuNewScanline(y1, x1, x2);
61	area->scanline->next = XmuNewScanline(y2, 0, 0);
62	}
63	else
64	area->scanline = (XmuScanline )NULL((void)0);
65
66	return (area);
67	}
68
69	/*
70	* Function:
71	* XmuAreaDup
72	*
73	* Parameters:
74	* area - Area to copy
75	*
76	* Description:
77	* Returns a copy of its argument
78	*/
79	XmuArea *
80	XmuAreaDup(XmuArea *area)
81	{
82	XmuArea *dst;
83
84	if (!area)
85	return ((XmuArea )NULL((void)0));
86
87	dst = XmuCreateArea()XmuNewArea(0, 0, 0, 0);
88	XmuAreaCopy(dst, area);
89	return (dst);
90	}
91
92	/*
93	* Function:
94	* XmuAreaCopy
95	*
96	* Parameters:
97	* dst - destination area
98	* src - source area
99	*
100	* Description:
101	* Minimizes memory alocation, trying to use already alocated memory
102	* in dst, freeing what is not required anymore.
103	*/
104	XmuArea *
105	XmuAreaCopy(XmuArea dst, XmuArea src)
106	{
107	XmuScanline z, p, *Z;
108
109	if (!dst \|\| !src \|\| dst == src)
110	return (dst);
111
112	z = p = dst->scanline;
113	Z = src->scanline;
114
115	/CONSTCOND/
116	while (1)
117	{
118	if (!Z)
119	{
120	if (z == dst->scanline)
121	{
122	XmuDestroyScanlineList(dst->scanline);
123	dst->scanline = (XmuScanline )NULL((void)0);
124	}
125	else
126	{
127	XmuDestroyScanlineList(p->next);
128	p->next = (XmuScanline )NULL((void)0);
129	}
130	return (dst);
131	}
132	if (z)
133	{
134	XmuScanlineCopy(z, Z);
135	z->y = Z->y;
136	}
137	else
138	{
139	z = XmuNewScanline(Z->y, 0, 0);
140	XmuScanlineCopy(z, Z);
141	if (p == dst->scanline && !dst->scanline)
142	p = dst->scanline = z;
	Value stored to 'p' is never read
143	else
144	p->next = z;
145	}
146	p = z;
147	z = z->next;
148	Z = Z->next;
149	}
150
151	return (dst);
152	}
153
154	/*
155	* Function:
156	* XmuAreaNot
157	*
158	* Parameters:
159	* area - area to operate
160	* x1 - retangle to clip the result against
161	* y1 - ""
162	* x2 - ""
163	* y2 - ""
164	*
165	* Description:
166	* (Input)
167	* (x1, y1) (x2, y1)
168	* +-------------+
169	* +------------+ +----+
170	* \| +--------------+
171	* +----------------+
172	* (x1, y2) (x2, y2)
173	*
174	* (Output)
175	* (x1, y1) (x2, y1)
176	* +--------------+ +--------------------------+
177	* \| +------------+ +----+ \|
178	* \| \| +--------------+ \|
179	* +-+ +------------------------------------+
180	* (x1, y2) (x2, y2)
181	*/
182	XmuArea *
183	XmuAreaNot(XmuArea *area, int x1, int y1, int x2, int y2)
184	{
185	XmuScanline *z;
186	XmuArea *and;
187
188	if (!area)
189	return (area);
190
191	if (x1 > x2)
192	{
193	x1 ^= x2; x2 ^= x1; x1 ^= x2;
194	}
195	if (y1 > y2)
196	{
197	y1 ^= y2; y2 ^= y1; y1 ^= y2;
198	}
199	if (!area->scanline)
200	{
201	if ((area->scanline = XmuNewScanline(y1, x1, x2)) != NULL((void*)0))
202	area->scanline->next = XmuNewScanline(y2, 0, 0);
203	return (area);
204	}
205	and = XmuNewArea(x1, y1, x2, y2);
206	XmuAreaAnd(area, and);
207	XmuDestroyArea(and)do { XmuDestroyScanlineList((and)->scanline); XtFree((char *)(and)); } while (0);
208	z = area->scanline;
209	if (z->y != y1)
210	{
211	XmuScanline *q = XmuNewScanline(y1, x1, x2);
212	q->next = z;
213	area->scanline = q;
214	}
215	else
216	{
217	area->scanline = area->scanline->next;
218	XmuDestroyScanline(z)do { XmuDestroySegmentList((z)->segment); XtFree((char*)(z )); } while (0);
219	XmuOptimizeArea(area);
220	if((z = area->scanline) == (XmuScanline )NULL((void)0))
221	return (area);
222	}
223
224	/* CONSTCOND */
225	while (1)
226	{
227	XmuScanlineNot(z, x1, x2);
228	if (!z->next)
229	{
230	z->next = XmuNewScanline(y2, 0, 0);
231	break;
232	}
233	if (z->next->y == y2)
234	{
235	XmuDestroyScanlineList(z->next);
236	z->next = XmuNewScanline(y2, 0, 0);
237	break;
238	}
239	z = z->next;
240	}
241
242	return (area);
243	}
244
245	/*
246	* Function:
247	* XmuAreaOrXor
248	*
249	* Parameters:
250	* dst - destination area
251	* src - source area
252	* or - or operation if true, else xor operation
253	*
254	* Description:
255	* Executes Or (Union) or Xor (Reverse intesection) of the areas
256	*/
257	XmuArea *
258	XmuAreaOrXor(XmuArea dst, XmuArea src, Boolint or)
259	{
260	XmuScanline z, p, Z, P, ins, top;
261
262	if (!dst \|\| !src)
263	return (dst);
264
265	if (dst == src)
266	{
267	if (or)
268	return (dst);
269	XmuDestroyScanlineList(dst->scanline);
270	dst->scanline = (XmuScanline )NULL((void)0);
271	return (dst);
272	}
273	if (!XmuValidArea(src))
274	return (dst);
275	if (!XmuValidArea(dst))
276	{
277	XmuAreaCopy(dst, src);
278	return (dst);
279	}
280
281	p = z = dst->scanline;
282	P = Z = src->scanline;
283	ins = XmuNewScanline(dst->scanline->y, 0, 0);
284	top = XmuNewScanline(dst->scanline->y, 0, 0);
285	XmuScanlineCopy(ins, dst->scanline);
286	XmuScanlineCopy(top, dst->scanline);
287
288	/CONSTCOND/
289	while (1)
290	{
291	if (!Z)
292	break;
293	else if (Z->y < z->y)
294	{
295	XmuScanline *q = XmuNewScanline(Z->y, 0, 0);
296	XmuScanlineCopy(q, Z);
297
298	if (z == dst->scanline)
299	{
300	dst->scanline = p = q;
301	q->next = z;
302	}
303	else
304	{
305	p->next = q;
306	q->next = z;
307	if (Z->y >= p->y)
308	{
309	if (ins->y >= top->y
310	&& (p->y != P->y \|\| !XmuScanlineEqu(p, P)
311	\|\| (ins->y <= P->y && !XmuScanlineEqu(ins, P))))
312	{
313	if (or)
314	XmuScanlineOr(q, ins);
315	else
316	XmuScanlineXor(q, ins);
317	}
318	else if (Z->y >= top->y
319	&& (top->y == p->y \|\| top->y > ins->y
320	\|\| !XmuValidScanline(Z)
321	\|\| (p->y == P->y && XmuValidScanline(p)
322	&& XmuValidScanline(P))
323	\|\| XmuScanlineEqu(ins, top)))
324	{
325	if (or)
326	XmuScanlineOr(q, top);
327	else
328	XmuScanlineXor(q, top);
329	}
330	if (ins->y != p->y && p->y != P->y)
331	{
332	XmuScanlineCopy(ins, p);
333	ins->y = p->y;
334	}
335	}
336	if (!XmuValidScanline(p) \|\| Z->y <= p->y)
337	{
338	XmuScanlineCopy(top, p);
339	top->y = p->y;
340	}
341	p = q;
342	}
343	P = Z;
344	Z = Z->next;
345	continue;
346	}
347	else if (Z->y == z->y)
348	{
349	if (top->y != z->y)
350	{
351	XmuScanlineCopy(top, z);
352	top->y = z->y;
353	}
354	if (or)
355	XmuScanlineOr(z, Z);
356	else
357	XmuScanlineXor(z, Z);
358	P = Z;
359	Z = Z->next;
360	}
361	else if (P != Z) /* && Z->y > z->y */
362	{
363	if (top->y == ins->y && top->y != z->y)
364	{
365	XmuScanlineCopy(top, z);
366	top->y = z->y;
367	}
368	if (ins->y != z->y)
369	{
370	XmuScanlineCopy(ins, z);
371	ins->y = z->y;
372	}
373	if (or)
374	XmuScanlineOr(z, P);
375	else
376	XmuScanlineXor(z, P);
377	}
378	else if (ins->y != z->y)
379	{
380	XmuScanlineCopy(ins, z);
381	ins->y = z->y;
382	}
383	p = z;
384	z = z->next;
385	if (!z)
386	{
387	while (Z)
388	{
389	p->next = XmuNewScanline(Z->y, 0, 0);
390	XmuScanlineCopy(p->next, Z);
391	p = p->next;
392	Z = Z->next;
393	}
394	break;
395	}
396	else if (ins->y > top->y && !XmuValidScanline(z)
397	&& XmuValidScanline(ins))
398	{
399	XmuScanlineCopy(top, ins);
400	top->y = ins->y;
401	}
402	}
403	XmuOptimizeArea(dst);
404	XmuDestroyScanline(ins)do { XmuDestroySegmentList((ins)->segment); XtFree((char*) (ins)); } while (0);
405	XmuDestroyScanline(top)do { XmuDestroySegmentList((top)->segment); XtFree((char*) (top)); } while (0);
406
407	return (dst);
408	}
409
410	/*
411	* Function:
412	* XmuAreaAnd(dst, src)
413	*
414	* Parameters:
415	* dst - destination area
416	* src - source area
417	*
418	* Description:
419	* Executes And (intersection) of the areas
420	*/
421	XmuArea *
422	XmuAreaAnd(XmuArea dst, XmuArea src)
423	{
424	XmuScanline z, p, Z, P, *top;
425
426	if (!dst \|\| !src \|\| dst == src)
427	return (dst);
428	if (!XmuValidArea(dst) \|\| !XmuValidArea(src))
429	{
430	XmuDestroyScanlineList(dst->scanline);
431	dst->scanline = (XmuScanline )NULL((void)0);
432	return (dst);
433	}
434	z = p = dst->scanline;
435	Z = P = src->scanline;
436	top = XmuNewScanline(dst->scanline->y, 0, 0);
437	XmuScanlineCopy(top, dst->scanline);
438
439	while (z)
440	{
441	while (Z->next && Z->next->y < z->y)
442	{
443	P = Z;
444	Z = Z->next;
445	if (Z->y >= p->y)
446	{
447	XmuScanline *q = XmuNewScanline(Z->y, 0, 0);
448	XmuScanlineCopy(q, Z);
449
450	XmuScanlineAnd(q, top);
451	if (p->y != P->y)
452	{
453	XmuScanlineAnd(p, P);
454	p->y = XmuMax(p->y, P->y)((p->y) > (P->y) ? (p->y) : (P->y));
455	}
456	p->next = q;
457	q->next = z;
458	p = q;
459	}
460	}
461	if (!z->next)
462	{
463	z->y = XmuMax(z->y, Z->y)((z->y) > (Z->y) ? (z->y) : (Z->y));
464	break;
465	}
466	while (Z->y >= z->next->y)
467	{
468	if (z == dst->scanline)
469	{
470	p = dst->scanline = dst->scanline->next;
471	XmuDestroyScanline(z)do { XmuDestroySegmentList((z)->segment); XtFree((char*)(z )); } while (0);
472	z = dst->scanline;
473	}
474	else
475	{
476	p->next = z->next;
477	XmuDestroyScanline(z)do { XmuDestroySegmentList((z)->segment); XtFree((char*)(z )); } while (0);
478	z = p;
479	}
480	if (!z \|\| !z->next)
481	{
482	XmuOptimizeArea(dst);
483	XmuDestroyScanline(top)do { XmuDestroySegmentList((top)->segment); XtFree((char*) (top)); } while (0);
484
485	return (dst);
486	}
487	}
488	if (Z->y > p->y)
489	z->y = XmuMax(z->y, Z->y)((z->y) > (Z->y) ? (z->y) : (Z->y));
490	if (top->y != z->y)
491	{
492	XmuScanlineCopy(top, z);
493	top->y = z->y;
494	}
495	XmuScanlineAnd(z, Z);
496	p = z;
497	z = z->next;
498	}
499	XmuOptimizeArea(dst);
500	XmuDestroyScanline(top)do { XmuDestroySegmentList((top)->segment); XtFree((char*) (top)); } while (0);
501
502	return (dst);
503	}
504
505	/*
506	* Function:
507	* XmuValidArea(area)
508	*
509	* Parameters:
510	* area - area to verify
511	*
512	* Description:
513	* Verifies if the area is valid and/or useful
514	*/
515	Boolint
516	XmuValidArea(XmuArea *area)
517	{
518	XmuScanline *at;
519
520	if (!area \|\| !area->scanline)
521	return (False0);
522
523	at = area->scanline;
524	while (at)
525	{
526	if (XmuValidScanline(at))
527	return (True1);
528	at = at->next;
529	}
530
531	return (False0);
532	}
533
534	/*
535	* Function:
536	* XmuValidScanline
537	*
538	* Parameters:
539	* scanline - scanline to verify
540	*
541	* Description:
542	* Verifies if a scanline is useful
543	*/
544	Boolint
545	XmuValidScanline(XmuScanline *scanline)
546	{
547	XmuSegment *z;
548
549	if (!scanline)
550	return (False0);
551
552	z = scanline->segment;
553	while (z)
554	{
555	if (XmuValidSegment(z)((z)->x1 < (z)->x2))
556	return (True1);
557	z = z->next;
558	}
559
560	return (False0);
561	}
562
563	/*
564	* Function:
565	* XmuScanlineEqu
566	*
567	* Parameters:
568	* s1 - scanline 1
569	* s2 - scanline 2
570	*
571	* Description:
572	* Checks if s1 and s2 are equal
573	*/
574	Boolint
575	XmuScanlineEqu(XmuScanline s1, XmuScanline s2)
576	{
577	XmuSegment z, Z;
578
579	if ((!s1 && !s2) \|\| s1 == s2)
580	return (True1);
581	if (!s1 \|\| !s2)
582	return (False0);
583
584	z = s1->segment;
585	Z = s2->segment;
586
587	/CONSTCOND/
588	while (1)
589	{
590	if (!z && !Z)
591	return (True1);
592	if (!z \|\| !Z)
593	return (False0);
594	if (!XmuSegmentEqu(z, Z)((z)->x1 == (Z)->x1 && (z)->x2 == (Z)->x2 ))
595	return (False0);
596	z = z->next;
597	Z = Z->next;
598	}
599	/NOTREACHED/
600	}
601
602	/*
603	* Function:
604	* XmuNewSegment
605	*
606	* Parameters:
607	* x1 - coordinates of the segment
608	* x2 - ""
609	*
610	* Description:
611	* Creates a new segments with the coordinates x1 and x2
612	*
613	* Returns:
614	* New Segment of NULL
615	*/
616	XmuSegment *
617	XmuNewSegment(int x1, int x2)
618	{
619	XmuSegment *segment;
620
621	if ((segment = (XmuSegment )XtMalloc(sizeof(XmuSegment))) == NULL((void)0))
622	return (segment);
623
624	segment->x1 = x1;
625	segment->x2 = x2;
626	segment->next = (XmuSegment )NULL((void)0);
627
628	return (segment);
629	}
630
631	/*
632	* Function:
633	* XmuDestroySegmentList
634	*
635	* Parameters:
636	* segment - Segment to destroy
637	*
638	* Description:
639	* Frees the memory used by the list headed by segment
640	*/
641	void
642	XmuDestroySegmentList(XmuSegment *segment)
643	{
644	XmuSegment *z;
645
646	if (!segment)
647	return;
648
649	while (segment)
650	{
651	z = segment;
652	segment = segment->next;
653	XmuDestroySegment(z)XtFree((char *)(z));
654	}
655	}
656
657	/*
658	* Function:
659	* XmuScanlineCopy
660	*
661	* Parameters:
662	* dst - destination scanline
663	* src - source scanline
664	*
665	* Description:
666	* Makes dst contain the same data as src
667	*/
668	XmuScanline *
669	XmuScanlineCopy(XmuScanline dst, XmuScanline src)
670	{
671	XmuSegment z, p, *Z;
672
673	if (!dst \|\| !src \|\| dst == src)
674	return (dst);
675
676	z = p = dst->segment;
677	Z = src->segment;
678
679	/CONSTCOND/
680	while (1)
681	{
682	if (!Z)
683	{
684	if (z == dst->segment)
685	dst->segment = (XmuSegment )NULL((void)0);
686	else
687	p->next = (XmuSegment )NULL((void)0);
688	XmuDestroySegmentList(z);
689	return (dst);
690	}
691	if (z)
692	{
693	z->x1 = Z->x1;
694	z->x2 = Z->x2;
695	}
696	else
697	{
698	z = XmuNewSegment(Z->x1, Z->x2);
699	if (p == dst->segment && !dst->segment)
700	p = dst->segment = z;
701	else
702	p->next = z;
703	}
704	p = z;
705	z = z->next;
706	Z = Z->next;
707	}
708	/NOTREACHED/
709	}
710
711	/*
712	* Function:
713	* XmuAppendSegment
714	*
715	* Parameters:
716	* segment - destination segment
717	* append - segment to add
718	*
719	* Description:
720	* Adds a copy of the append list at the end of the segment list
721	*/
722	Boolint
723	XmuAppendSegment(XmuSegment segment, XmuSegment append)
724	{
725	if (!segment \|\| !append)
726	return (False0);
727
728	if (segment->next)
729	/* Should not happen! */
730	XmuDestroySegmentList(segment->next);
731
732	while (append)
733	{
734	if (XmuValidSegment(append)((append)->x1 < (append)->x2))
735	{
736	if ((segment->next = XmuNewSegment(append->x1, append->x2)) == NULL((void*)0))
737	return (False0);
738	segment = segment->next;
739	}
740	append = append->next;
741	}
742
743	return (True1);
744	}
745
746	/*
747	* Function:
748	* XmuOptimizeScanline
749	*
750	* Parameters:
751	* scanline - scanline to optimize
752	*
753	* Description:
754	* Some functions, when transforming Segments of Scanlines, left these
755	* with unnecessary data (that may cause error in these same functions).
756	* This function corrects these incorrect segments.
757	*/
758	XmuScanline *
759	XmuOptimizeScanline(XmuScanline *scanline)
760	{
761	XmuSegment z, p;
762
763	while (scanline->segment && !XmuValidSegment(scanline->segment)((scanline->segment)->x1 < (scanline->segment)-> x2))
764	{
765	XmuSegment *s = scanline->segment;
766
767	scanline->segment = scanline->segment->next;
768	XmuDestroySegment(s)XtFree((char *)(s));
769	}
770	for (z = p = scanline->segment; z; p = z, z = z->next)
771	{
772	if (!XmuValidSegment(z)((z)->x1 < (z)->x2))
773	{
774	p->next = z->next;
775	XmuDestroySegment(z)XtFree((char *)(z));
776	z = p;
777	}
778	}
779	return (scanline);
780	}
781
782	/*
783	* Name:
784	* XmuScanlineNot(scanline, minx, maxx)
785	*
786	* Parameters:
787	* scanline - scanlines operate
788	* minx - minimum x coordinate
789	* maxx - maximum x coordinate
790	*
791	* Description:
792	* (minx) (maxx)
793	* + +
794	* (input) +---------+ +--------+ +--------+
795	* (output) +-----+ +-----+ +--------+ +------------+
796	*/
797	XmuScanline *
798	XmuScanlineNot(XmuScanline *scanline, int minx, int maxx)
799	{
800	XmuSegment *z;
801	static XmuSegment x = { 0, 0, NULL((void*)0) };
802	static XmuScanline and = { 0, &x, NULL((void*)0) };
803
804	if (!scanline)
805	return (scanline);
806
807	XmuOptimizeScanline(scanline);
808	if (minx > maxx)
809	{
810	minx ^= maxx; maxx ^= minx; minx ^= maxx;
811	}
812	and.segment->x1 = minx;
813	and.segment->x2 = maxx;
814	XmuScanlineAnd(scanline, &and);
815	if (!scanline->segment)
816	{
817	scanline->segment = XmuNewSegment(minx, maxx);
818	return (scanline);
819	}
820	z = scanline->segment;
821	if (z->x1 != minx)
822	{
823	XmuSegment *q = XmuNewSegment(minx, z->x1);
824
825	q->next = z;
826	scanline->segment = q;
827	}
828
829	/CONSTCOND/
830	while (1)
831	{
832	z->x1 = z->x2;
833	if (!z->next)
834	{
835	z->x2 = maxx;
836	break;
837	}
838	z->x2 = z->next->x1;
839	if (z->next->x2 == maxx)
840	{
841	XmuDestroySegment(z->next)XtFree((char *)(z->next));
842	z->next = (XmuSegment )NULL((void)0);
843	break;
844	}
845	z = z->next;
846	}
847
848	return (scanline);
849	}
850
851
852	#ifndef notdef
853	/*
854	* Function:
855	* XmuScanlineOrSegment
856	*
857	* Parameters:
858	* dst - destionation scanline
859	* src - source segment
860	*
861	* Description:
862	* (input) +-----------+ +--------+ +---------+
863	* (src) +-------------------+
864	* (output) +-------------------------+ +---------+
865	*/
866	XmuScanline *
867	XmuScanlineOrSegment(XmuScanline dst, XmuSegment src)
868	{
869	XmuSegment z, p, ins;
870
871	if (!src \|\| !dst \|\| !XmuValidSegment(src)((src)->x1 < (src)->x2))
872	return (dst);
873
874	if (!dst->segment)
875	{
876	dst->segment = XmuNewSegment(src->x1, src->x2);
877	return (dst);
878	}
879
880	z = p = dst->segment;
881	ins.x1 = src->x1;
882	ins.x2 = src->x2;
883
884	/CONSTCOND/
885	while (1)
886	{
887	if (!z)
888	{
889	XmuSegment *q = XmuNewSegment(ins.x1, ins.x2);
890
891	if (p == dst->segment && z == p)
892	dst->segment = q;
893	else
894	p->next = q;
895	break;
896	}
897	else if (ins.x2 < z->x1)
898	{
899	XmuSegment *q = XmuNewSegment(ins.x1, ins.x2);
900
901	if (p == dst->segment && z == p)
902	{
903	q->next = dst->segment;
904	dst->segment = q;
905	}
906	else
907	{
908	p->next = q;
909	q->next = z;
910	}
911	break;
912	}
913	else if (ins.x2 <= z->x2)
914	{
915	z->x1 = XmuMin(z->x1, ins.x1)((z->x1) < (ins.x1) ? (z->x1) : (ins.x1));
916	break;
917	}
918	else if (ins.x1 <= z->x2)
919	{
920	ins.x1 = XmuMin(z->x1, ins.x1)((z->x1) < (ins.x1) ? (z->x1) : (ins.x1));
921	if (!z->next)
922	{
923	z->x1 = ins.x1;
924	z->x2 = ins.x2;
925	break;
926	}
927	else
928	{
929	if (z == dst->segment)
930	{
931	p = dst->segment = dst->segment->next;
932	XmuDestroySegment(z)XtFree((char *)(z));
933	z = dst->segment;
934	continue;
935	}
936	else
937	{
938	p->next = z->next;
939	XmuDestroySegment(z)XtFree((char *)(z));
940	z = p;
941	}
942	}
943	}
944	p = z;
945	z = z->next;
946	}
947
948	return (dst);
949	}
950
951	/*
952	* Function:
953	* XmuScanlineAndSegment
954	*
955	* Parameters:
956	* dst - destination scanline
957	* src - source segment
958	*
959	* Description:
960	* (input) +------------+ +------+ +----------+
961	* (src) +---------------------+
962	* (output) +-------+ +------+
963	*/
964	XmuScanline *
965	XmuScanlineAndSegment(XmuScanline dst, XmuSegment src)
966	{
967	XmuSegment z, p;
968
969	if (!dst \|\| !src)
970	return (dst);
971
972	if (!XmuValidSegment(src)((src)->x1 < (src)->x2))
973	{
974	XmuDestroySegmentList(dst->segment);
975	dst->segment = (XmuSegment )NULL((void)0);
976	return (dst);
977	}
978	if (!dst->segment)
979	return (dst);
980
981	z = p = dst->segment;
982	while (z)
983	{
984	if (src->x2 <= z->x1 \|\| src->x1 >= z->x2)
985	{
986	if (z == dst->segment)
987	{
988	p = dst->segment = dst->segment->next;
989	XmuDestroySegment(z)XtFree((char *)(z));
990	z = dst->segment;
991	continue;
992	}
993	else
994	{
995	p->next = z->next;
996	XmuDestroySegment(z)XtFree((char *)(z));
997	z = p;
998	}
999	}
1000	else
1001	{
1002	z->x1 = XmuMax(z->x1, src->x1)((z->x1) > (src->x1) ? (z->x1) : (src->x1));
1003	z->x2 = XmuMin(z->x2, src->x2)((z->x2) < (src->x2) ? (z->x2) : (src->x2));
1004	}
1005	p = z;
1006	z = z->next;
1007	}
1008
1009	return (dst);
1010	}
1011
1012	/*
1013	* Function:
1014	* XmuScanlineXorSegment
1015	*
1016	* Parameters:
1017	* dst - destionation scanline
1018	* src - source segment
1019	*
1020	* Descriptipn:
1021	* (input) +------------+ +----------+ +-----------+
1022	* (src) +------------------------+
1023	* (output) +---+ +--+ +-+ +-----------+
1024	*/
1025	XmuScanline *
1026	XmuScanlineXorSegment(XmuScanline dst, XmuSegment src)
1027	{
1028	XmuSegment p, z, ins;
1029	int tmp1, tmp2;
1030
1031	if (!dst \|\| !src \|\| !XmuValidSegment(src)((src)->x1 < (src)->x2))
1032	return (dst);
1033	if (!dst->segment)
1034	{
1035	dst->segment = XmuNewSegment(src->x1, src->x2);
1036	return (dst);
1037	}
1038
1039	p = z = dst->segment;
1040	ins.x1 = src->x1;
1041	ins.x2 = src->x2;
1042
1043	/CONSTCOND/
1044	while (1)
1045	{
1046	if (!XmuValidSegment((&ins))(((&ins))->x1 < ((&ins))->x2))
1047	break;
1048	if (!z \|\| ins.x2 < z->x1)
1049	{
1050	XmuSegment *q = XmuNewSegment(ins.x1, ins.x2);
1051
1052	q->next = z;
1053	if (z == dst->segment)
1054	dst->segment = q;
1055	else
1056	p->next = q;
1057	break;
1058	}
1059	else if (ins.x2 == z->x1)
1060	{
1061	z->x1 = ins.x1;
1062	break;
1063	}
1064	else if (ins.x1 < z->x2)
1065	{
1066	if (ins.x1 < z->x1)
1067	{
1068	tmp1 = ins.x2;
1069	tmp2 = z->x2;
1070	ins.x2 = XmuMax(ins.x2, z->x2)((ins.x2) > (z->x2) ? (ins.x2) : (z->x2));
1071	z->x2 = z->x1;
1072	z->x1 = ins.x1;
1073	ins.x1 = XmuMin(tmp1, tmp2)((tmp1) < (tmp2) ? (tmp1) : (tmp2));
1074	}
1075	else if (ins.x1 > z->x1)
1076	{
1077	tmp1 = ins.x1;
1078	ins.x1 = XmuMin(ins.x2, z->x2)((ins.x2) < (z->x2) ? (ins.x2) : (z->x2));
1079	ins.x2 = XmuMax(z->x2, ins.x2)((z->x2) > (ins.x2) ? (z->x2) : (ins.x2));
1080	z->x2 = tmp1;
1081	}
1082	else /* ins.x1 == z->x1 */
1083	{
1084	if (ins.x2 < z->x2)
1085	{
1086	z->x1 = ins.x2;
1087	break;
1088	}
1089	else
1090	{
1091	ins.x1 = z->x2;
1092	if (z == dst->segment)
1093	p = dst->segment = dst->segment->next;
1094	else
1095	p->next = z->next;
1096	XmuDestroySegment(z)XtFree((char *)(z));
1097	z = p;
1098	continue;
1099	}
1100	}
1101	}
1102	else if (ins.x1 == z->x2)
1103	{
1104	ins.x1 = z->x1;
1105	if (z == dst->segment)
1106	p = dst->segment = dst->segment->next;
1107	else
1108	p->next = z->next;
1109	XmuDestroySegment(z)XtFree((char *)(z));
1110	z = p;
1111	continue;
1112	}
1113	p = z;
1114	z = z->next;
1115	}
1116
1117	return (dst);
1118	}
1119	#endif /* notdef */
1120
1121	/*
1122	* Function:
1123	* ScanlineOr
1124	*
1125	* Parameters:
1126	* dst - destionation scanline
1127	* src - source scanline
1128	*
1129	* Description:
1130	* (input) +--------------+ +-----+ +----------+
1131	* (src) +---------------------+ +-----------+
1132	* (output) +-------------------------+ +----------------+
1133	*/
1134	XmuScanline *
1135	XmuScanlineOr(XmuScanline dst, XmuScanline src)
1136	{
1137	XmuSegment z, p, *Z, ins;
1138
1139	if (!src \|\| !src->segment \|\| !dst \|\| dst == src)
1140	return (dst);
1141	if (!dst->segment)
1142	{
1143	XmuScanlineCopy(dst, src);
1144	return (dst);
1145	}
1146
1147	z = p = dst->segment;
1148	Z = src->segment;
1149	ins.x1 = Z->x1;
1150	ins.x2 = Z->x2;
1151
1152	/CONSTCOND/
1153	while (1)
1154	{
1155	while (!XmuValidSegment((&ins))(((&ins))->x1 < ((&ins))->x2))
1156	{
1157	if ((Z = Z->next) == (XmuSegment )NULL((void)0))
1158	return (dst);
1159	ins.x1 = Z->x1;
1160	ins.x2 = Z->x2;
1161	}
1162	if (!z)
1163	{
1164	XmuSegment *q = XmuNewSegment(ins.x1, ins.x2);
1165
1166	if (p == dst->segment && z == p)
1167	dst->segment = p = q;
1168	else
1169	{
1170	p->next = q;
1171	p = q;
1172	}
1173	Z = Z->next;
1174	XmuAppendSegment(p, Z);
1175	break;
1176	}
1177	else if (ins.x2 < z->x1)
1178	{
1179	XmuSegment *r = XmuNewSegment(ins.x1, ins.x2);
1180
1181	if (p == dst->segment && z == p)
1182	{
1183	r->next = dst->segment;
1184	dst->segment = p = r;
1185	}
1186	else
1187	{
1188	p->next = r;
1189	r->next = z;
1190	p = r;
1191	}
1192	Z = Z->next;
1193	if (!Z)
1194	break;
1195	else
1196	{
1197	ins.x1 = Z->x1;
1198	ins.x2 = Z->x2;
1199	continue;
1200	}
1201	}
1202	else if (ins.x2 <= z->x2)
1203	{
1204	z->x1 = XmuMin(z->x1, ins.x1)((z->x1) < (ins.x1) ? (z->x1) : (ins.x1));
1205	Z = Z->next;
1206	if (!Z)
1207	break;
1208	else
1209	{
1210	ins.x1 = Z->x1;
1211	ins.x2 = Z->x2;
1212	continue;
1213	}
1214	}
1215	else if (ins.x1 <= z->x2)
1216	{
1217	ins.x1 = XmuMin(z->x1, ins.x1)((z->x1) < (ins.x1) ? (z->x1) : (ins.x1));
1218	if (!z->next)
1219	{
1220	z->x1 = ins.x1;
1221	z->x2 = ins.x2;
1222	p = z;
1223	Z = Z->next;
1224	XmuAppendSegment(p, Z);
1225	break;
1226	}
1227	else
1228	{
1229	if (z == dst->segment)
1230	{
1231	p = dst->segment = dst->segment->next;
1232	XmuDestroySegment(z)XtFree((char *)(z));
1233	z = p;
1234	continue;
1235	}
1236	else
1237	{
1238	p->next = z->next;
1239	XmuDestroySegment(z)XtFree((char *)(z));
1240	z = p;
1241	}
1242	}
1243	}
1244	p = z;
1245	z = z->next;
1246	}
1247
1248	return (dst);
1249	}
1250
1251	/*
1252	* Function:
1253	* XmuScanlineAnd
1254	*
1255	* Parameters:
1256	* dst - destination scanline
1257	* src - source scanline
1258	*
1259	* Description:
1260	* (input) +--------------+ +-----+ +----------+
1261	* (src) +---------------------+ +-----------+
1262	* (output) +----------+ +-----+ +-----+
1263	*/
1264	XmuScanline *
1265	XmuScanlineAnd(XmuScanline dst, XmuScanline src)
1266	{
1267	XmuSegment z, p, *Z;
1268
1269	if (!dst \|\| !src \|\| dst == src \|\| !dst->segment) {
1270	return (dst);
1271	}
1272	if (!src->segment)
1273	{
1274	XmuDestroySegmentList(dst->segment);
1275	dst->segment = (XmuSegment )NULL((void)0);
1276	return (dst);
1277	}
1278	z = p = dst->segment;
1279	Z = src->segment;
1280
1281	while (z)
1282	{
1283	while (!XmuValidSegment(Z)((Z)->x1 < (Z)->x2) \|\| Z->x2 <= z->x1)
1284	{
1285	Z = Z->next;
1286	if (!Z)
1287	{
1288	if (z == dst->segment)
1289	dst->segment = (XmuSegment )NULL((void)0);
1290	else
1291	p->next = (XmuSegment *)0;
1292	XmuDestroySegmentList(z);
1293	return (dst);
1294	}
1295	}
1296	if (Z->x1 >= z->x2)
1297	{
1298	if (z == dst->segment)
1299	{
1300	p = dst->segment = dst->segment->next;
1301	XmuDestroySegment(z)XtFree((char *)(z));
1302	z = dst->segment;
1303	}
1304	else
1305	{
1306	p->next = z->next;
1307	XmuDestroySegment(z)XtFree((char *)(z));
1308	z = p->next;
1309	}
1310	if (!z)
1311	return (dst);
1312	else
1313	continue;
1314	}
1315	z->x1 = XmuMax(z->x1, Z->x1)((z->x1) > (Z->x1) ? (z->x1) : (Z->x1));
1316	if (z->x2 > Z->x2)
1317	{
1318	if (Z->next)
1319	{
1320	XmuSegment *q = XmuNewSegment(Z->x2, z->x2);
1321
1322	q->next = z->next;
1323	z->next = q;
1324	}
1325	z->x2 = Z->x2;
1326	}
1327	p = z;
1328	z = z->next;
1329	}
1330
1331	return (dst);
1332	}
1333
1334	/*
1335	* Function:
1336	* ScanlineXor
1337	*
1338	* Parameters:
1339	* dst - destination scanline
1340	* src - source scanline
1341	*
1342	* Description:
1343	* (input) +--------------+ +-----+ +----------+
1344	* (src) +---------------------+ +-----------+
1345	* (output) +---+ +--+ +-+ +----+ +-----+
1346	*/
1347	XmuScanline *
1348	XmuScanlineXor(XmuScanline dst, XmuScanline src)
1349	{
1350	XmuSegment z, p, *Z, ins;
1351	int tmp1, tmp2;
1352
1353	if (!src \|\| !dst \|\| !src->segment)
1354	return (dst);
1355	if (src == dst)
1356	{
1357	XmuDestroySegmentList(dst->segment);
1358	dst->segment = (XmuSegment )NULL((void)0);
1359	return (dst);
1360	}
1361	if (!dst->segment)
1362	{
1363	XmuScanlineCopy(dst, src);
1364	return (dst);
1365	}
1366
1367	z = p = dst->segment;
1368	Z = src->segment;
1369	ins.x1 = Z->x1;
1370	ins.x2 = Z->x2;
1371
1372	/CONSTCOND/
1373	while (1)
1374	{
1375	while (!XmuValidSegment((&ins))(((&ins))->x1 < ((&ins))->x2))
1376	{
1377	if ((Z = Z->next) == (XmuSegment )NULL((void)0))
1378	return (dst);
1379	ins.x1 = Z->x1;
1380	ins.x2 = Z->x2;
1381	}
1382	if (!z)
1383	{
1384	XmuSegment *q = XmuNewSegment(ins.x1, ins.x2);
1385
1386	if (!dst->segment)
1387	dst->segment = q;
1388	else
1389	p->next = q;
1390	p = q;
1391	Z = Z->next;
1392	XmuAppendSegment(p, Z);
1393	break;
1394	}
1395	else if (ins.x2 < z->x1)
1396	{
1397	XmuSegment *q = XmuNewSegment(ins.x1, ins.x2);
1398
1399	q->next = z;
1400	if (z == dst->segment)
1401	dst->segment = q;
1402	else
1403	p->next = q;
1404	if ((Z = Z->next) == (XmuSegment )NULL((void)0))
1405	return (dst);
1406
1407	p = q;
1408	ins.x1 = Z->x1;
1409	ins.x2 = Z->x2;
1410	continue;
1411	}
1412	else if (ins.x2 == z->x1)
1413	{
1414	z->x1 = ins.x1;
1415	if ((Z = Z->next) == (XmuSegment )NULL((void)0))
1416	break;
1417	ins.x1 = Z->x1;
1418	ins.x2 = Z->x2;
1419	continue;
1420	}
1421	else if (ins.x1 < z->x2)
1422	{
1423	if (ins.x1 == z->x1)
1424	{
1425	if (ins.x2 < z->x2)
1426	{
1427	z->x1 = ins.x2;
1428	if ((Z = Z->next) == (XmuSegment )NULL((void)0))
1429	break;
1430	ins.x1 = Z->x1;
1431	ins.x2 = Z->x2;
1432	continue;
1433	}
1434	else
1435	{
1436	ins.x1 = z->x2;
1437	if (z == dst->segment)
1438	p = dst->segment = dst->segment->next;
1439	else
1440	p->next = z->next;
1441	XmuDestroySegment(z)XtFree((char *)(z));
1442	z = p;
1443	continue;
1444	}
1445	}
1446	else
1447	{
1448	if (Z->x2 < z->x2)
1449	{
1450	XmuSegment *q = XmuNewSegment(XmuMin(ins.x1, z->x1)((ins.x1) < (z->x1) ? (ins.x1) : (z->x1)),
1451	XmuMax(z->x1, ins.x1)((z->x1) > (ins.x1) ? (z->x1) : (ins.x1)));
1452
1453	q->next = z;
1454	if (z == dst->segment)
1455	dst->segment = q;
1456	else
1457	p->next = q;
1458	ins.x1 = z->x2;
1459	z->x1 = ins.x2;
1460	p = q;
1461	continue;
1462	}
1463	else
1464	{
1465	tmp1 = ins.x2;
1466	tmp2 = z->x2;
1467	ins.x2 = XmuMax(ins.x2, z->x2)((ins.x2) > (z->x2) ? (ins.x2) : (z->x2));
1468	z->x2 = XmuMax(z->x1, ins.x1)((z->x1) > (ins.x1) ? (z->x1) : (ins.x1));
1469	z->x1 = XmuMin(ins.x1, z->x1)((ins.x1) < (z->x1) ? (ins.x1) : (z->x1));
1470	ins.x1 = XmuMin(tmp1, tmp2)((tmp1) < (tmp2) ? (tmp1) : (tmp2));
1471	}
1472	}
1473	}
1474	else if (ins.x1 == z->x2)
1475	{
1476	ins.x1 = z->x1;
1477	if (z == dst->segment)
1478	p = dst->segment = dst->segment->next;
1479	else
1480	p->next = z->next;
1481	XmuDestroySegment(z)XtFree((char *)(z));
1482	z = p;
1483	continue;
1484	}
1485	p = z;
1486	z = z->next;
1487	}
1488
1489	return (dst);
1490	}
1491
1492	/*
1493	* Function:
1494	* XmuNewScanline
1495	*
1496	* Parameters:
1497	* y - y coordinate
1498	* x1 - left coordinate
1499	* x2 - right coordinate
1500	*
1501	* Description:
1502	* Creates a new Scanline
1503	*/
1504	XmuScanline *
1505	XmuNewScanline(int y, int x1, int x2)
1506	{
1507	XmuScanline *scanline;
1508
1509	scanline = (XmuScanline *)XtMalloc(sizeof(XmuScanline));
1510	scanline->y = y;
1511	if (x1 < x2)
1512	scanline->segment = XmuNewSegment(x1, x2);
1513	else
1514	scanline->segment = (XmuSegment )NULL((void)0);
1515
1516	scanline->next = (XmuScanline )NULL((void)0);
1517
1518	return (scanline);
1519	}
1520
1521	/*
1522	* Function:
1523	* XmuDestroyScanlineList
1524	*
1525	* Parameters:
1526	* scanline - scanline list to destroy
1527	*
1528	* Description:
1529	* Destroy a scanline list
1530	*
1531	* Observation:
1532	* Use as follow:
1533	* XmuDestroyScanlineList(area->scanline);
1534	* area->scanline = (XmuScanline *)NULL;
1535	*/
1536	void
1537	XmuDestroyScanlineList(XmuScanline *scanline)
1538	{
1539	XmuScanline *z;
1540
1541	if (!scanline)
1542	return;
1543
1544	while (scanline)
1545	{
1546	z = scanline;
1547	scanline = scanline->next;
1548	XmuDestroyScanline(z)do { XmuDestroySegmentList((z)->segment); XtFree((char*)(z )); } while (0);
1549	}
1550	}
1551
1552	/*
1553	* Function:
1554	* XmuOptimizeArea
1555	*
1556	* Parameters:
1557	* area - area to optimize
1558	*
1559	* Description:
1560	* Optimizes an area. This function is called when finishing a
1561	* operation between areas, since they can end with redundant data,
1562	* and the algorithms for area combination waits a area with
1563	* correct data (but can left unnecessary data in the area, to avoid
1564	* to much paranoia tests).
1565	*/
1566	XmuArea XmuOptimizeArea(XmuArea area)
1567	{
1568	XmuScanline pr, at;
1569
1570	if (!area \|\| !area->scanline)
1571	return (area);
1572
1573	if (!area->scanline->next)
1574	{
1575	XmuDestroyScanlineList(area->scanline);
1576	area->scanline = (XmuScanline *)0;
1577	return (area);
1578	}
1579
1580	pr = area->scanline;
1581	at = area->scanline->next;
1582	while (area->scanline && (!XmuValidScanline(area->scanline)
1583	\|\| (area->scanline->next && area->scanline->y
1584	>= area->scanline->next->y)))
1585	{
1586	area->scanline = area->scanline->next;
1587	XmuDestroyScanline(pr)do { XmuDestroySegmentList((pr)->segment); XtFree((char*)( pr)); } while (0);
1588	pr = area->scanline;
1589	if (pr)
1590	at = pr->next;
1591	}
1592
1593	for (; at; pr = at, at = at->next)
1594	{
1595	if (XmuScanlineEqu(at, pr)
1596	\|\| (!XmuValidScanline(at) && !XmuValidScanline(pr))
1597	\|\| (at->next && at->y >= at->next->y))
1598	{
1599	pr->next = at->next;
1600	XmuDestroyScanline(at)do { XmuDestroySegmentList((at)->segment); XtFree((char*)( at)); } while (0);
1601	at = pr;
1602	}
1603	}
1604	if (pr && XmuValidScanline(pr))
1605	{
1606	XmuDestroySegmentList(pr->segment);
1607	pr->segment = (XmuSegment )NULL((void)0);
1608	}
1609	if (area->scanline && !area->scanline->next)
1610	{
1611	XmuDestroyScanlineList(area->scanline);
1612	area->scanline = (XmuScanline )NULL((void)0);
1613	}
1614
1615	return (area);
1616	}