/[CvsGraph]/cvsgraph/cvsgraph.c
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Revision 1.25 - (hide annotations)
Thu Jul 18 15:26:34 2002 UTC (15 years, 4 months ago) by bertho
Branch: MAIN
Changes since 1.24: +345 -90 lines
File MIME type: text/plain
First changes for left_right drawing of the tree.
Still missing proper branch_dupbox, upside_down and imagemap support.
1 bertho 1.1 /*
2     * CvsGraph graphical representation generator of brances and revisions
3     * of a file in cvs/rcs.
4     *
5 bertho 1.20 * Copyright (C) 2001,2002 B. Stultiens
6 bertho 1.1 *
7     * This program is free software; you can redistribute it and/or modify
8     * it under the terms of the GNU General Public License as published by
9     * the Free Software Foundation; either version 2 of the License, or
10     * (at your option) any later version.
11     *
12     * This program is distributed in the hope that it will be useful,
13     * but WITHOUT ANY WARRANTY; without even the implied warranty of
14     * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15     * GNU General Public License for more details.
16     *
17     * You should have received a copy of the GNU General Public License
18     * along with this program; if not, write to the Free Software
19     * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
20     */
21    
22 bertho 1.14 #include "config.h"
23    
24 bertho 1.1 #include <stdio.h>
25     #include <stdlib.h>
26     #include <unistd.h>
27     #include <string.h>
28     #include <assert.h>
29     #include <sys/types.h>
30     #include <sys/stat.h>
31     #include <sys/wait.h>
32     #include <fcntl.h>
33     #include <regex.h>
34     #include <errno.h>
35 bertho 1.8 #include <ctype.h>
36 bertho 1.9 #include <time.h>
37 bertho 1.18 #include <limits.h>
38 bertho 1.9
39 bertho 1.14 #ifdef HAVE_GETOPT_H
40     # include <getopt.h>
41     #endif
42    
43 bertho 1.1 #include <gd.h>
44     #include <gdfontt.h>
45    
46     #include "cvsgraph.h"
47     #include "utils.h"
48     #include "readconf.h"
49 bertho 1.7 #include "rcs.h"
50 bertho 1.1
51 bertho 1.5 #if !defined(HAVE_IMAGE_GIF) && !defined(HAVE_IMAGE_PNG) && !defined(HAVE_IMAGE_JPEG)
52     # error No image output format available. Check libgd
53     #endif
54    
55    
56 bertho 1.21 /*#define DEBUG 1*/
57 bertho 1.19 /*#define NOGDFILL 1*/
58    
59     #define LOOPSAFEGUARD 100 /* Max itterations in possible infinite loops */
60 bertho 1.1
61     #ifndef MAX
62     # define MAX(a,b) ((a) > (b) ? (a) : (b))
63     #endif
64    
65     #ifndef MIN
66     # define MIN(a,b) ((a) < (b) ? (a) : (b))
67     #endif
68    
69     #define ALIGN_HL 0x00
70     #define ALIGN_HC 0x01
71     #define ALIGN_HR 0x02
72 bertho 1.9 #define ALIGN_HX 0x0f
73 bertho 1.1 #define ALIGN_VT 0x00
74     #define ALIGN_VC 0x10
75     #define ALIGN_VB 0x20
76     #define ALIGN_VX 0xf0
77 bertho 1.9
78 bertho 1.1 /*
79     **************************************************************************
80     * Globals
81     **************************************************************************
82     */
83    
84     config_t conf;
85 bertho 1.7 int debuglevel;
86 bertho 1.9 color_t white_color = {255, 255, 255, 0};
87     color_t black_color = {0, 0, 0, 0};
88    
89 bertho 1.1
90     /*
91     **************************************************************************
92 bertho 1.17 * Debug routines
93 bertho 1.1 **************************************************************************
94     */
95 bertho 1.19 static void dump_rev(char *p, rev_t *r)
96 bertho 1.1 {
97 bertho 1.7 printf("%s", p);
98     if(r)
99     printf("'%s', '%s', %d\n", r->rev, r->branch, r->isbranch);
100     else
101     printf("<null>\n");
102 bertho 1.1 }
103    
104 bertho 1.19 static void dump_id(char *p, char *d)
105 bertho 1.1 {
106 bertho 1.7 printf("%s", p);
107     if(d)
108     printf("'%s'\n", d);
109     else
110     printf("<null>\n");
111 bertho 1.1 }
112    
113 bertho 1.19 static void dump_idrev(char *p, idrev_t *t)
114 bertho 1.1 {
115 bertho 1.7 printf("%s", p);
116     if(t)
117 bertho 1.1 {
118 bertho 1.7 printf("'%s' -> ", t->id);
119     dump_rev("", t->rev);
120 bertho 1.1 }
121     else
122 bertho 1.7 printf("<null>\n");
123 bertho 1.1 }
124    
125 bertho 1.19 static void dump_tag(char *p, tag_t *t)
126 bertho 1.1 {
127 bertho 1.7 printf("%s", p);
128     if(t)
129 bertho 1.1 {
130 bertho 1.7 printf("'%s' -> ", t->tag);
131     dump_rev("", t->rev);
132 bertho 1.1 }
133 bertho 1.7 else
134     printf("<null>\n");
135 bertho 1.1 }
136    
137 bertho 1.19 static void dump_delta(char *p, delta_t *d)
138 bertho 1.1 {
139 bertho 1.7 int i;
140     printf("%sdelta.rev : ", p);
141     dump_rev("", d->rev);
142     printf("%sdelta.date : %s\n", p, d->date);
143     printf("%sdelta.author: %s\n", p, d->author);
144     printf("%sdelta.state : %s\n", p, d->state);
145     for(i = 0; d->branches && i < d->branches->nrevs; i++)
146 bertho 1.1 {
147 bertho 1.7 printf("%sdelta.branch: ", p);
148     dump_rev("", d->branches->revs[i]);
149 bertho 1.1 }
150 bertho 1.7 printf("%sdelta.next : ", p);
151     dump_rev("", d->next);
152     printf("\n");
153 bertho 1.1 }
154    
155 bertho 1.19 static void dump_dtext(char *p, dtext_t *d)
156 bertho 1.1 {
157 bertho 1.7 printf("%sdtext.rev : ", p);
158     dump_rev("", d->rev);
159     printf("%sdtext.log : %d bytes\n", p, d->log ? strlen(d->log) : -1);
160     printf("%sdtext.text : %d bytes\n", p, d->text ? strlen(d->text) : -1);
161     printf("\n");
162 bertho 1.1 }
163    
164 bertho 1.19 static void dump_rcsfile(rcsfile_t *rcs)
165 bertho 1.1 {
166 bertho 1.7 int i;
167     printf("root : '%s'\n", rcs->root);
168     printf("module : '%s'\n", rcs->module);
169     printf("file : '%s'\n", rcs->file);
170     dump_rev("head : ", rcs->head);
171     dump_rev("branch : ", rcs->branch);
172     printf("access :\n");
173     for(i = 0; rcs->access && i < rcs->access->nids; i++)
174     dump_id("\t", rcs->access->ids[i]);
175     printf("tags :\n");
176     for(i = 0; rcs->tags && i < rcs->tags->ntags; i++)
177     dump_tag("\t", rcs->tags->tags[i]);
178     printf("locks :%s\n", rcs->strict ? " (strict)" : "");
179     for(i = 0; rcs->locks && i < rcs->locks->nidrevs; i++)
180     dump_idrev("\t", rcs->locks->idrevs[i]);
181     printf("comment: '%s'\n", rcs->comment);
182     printf("expand : '%s'\n", rcs->expand ? rcs->expand : "(default -kv)");
183     printf("deltas :\n");
184     for(i = 0; rcs->deltas && i < rcs->deltas->ndeltas; i++)
185     dump_delta("\t", rcs->deltas->deltas[i]);
186     printf("desc : '%s'\n", rcs->desc);
187     printf("dtexts :\n");
188     for(i = 0; rcs->dtexts && i < rcs->dtexts->ndtexts; i++)
189     dump_dtext("\t", rcs->dtexts->dtexts[i]);
190    
191     fflush(stdout);
192 bertho 1.1 }
193    
194 bertho 1.7 /*
195     **************************************************************************
196     * Read the rcs file
197     **************************************************************************
198     */
199     rcsfile_t *get_rcsfile(const char *cvsroot, const char *module, const char *file)
200 bertho 1.1 {
201 bertho 1.7 char *cmd = NULL;
202     int rv;
203 bertho 1.1
204 bertho 1.18 if(file)
205 bertho 1.9 {
206 bertho 1.18 cmd = xmalloc(strlen(cvsroot) + strlen(module) + strlen(file) + 1);
207     sprintf(cmd, "%s%s%s", cvsroot, module, file);
208     if(!(rcsin = fopen(cmd, "rb")))
209     {
210     perror(cmd);
211     return NULL;
212     }
213     input_file = cmd;
214     }
215     else
216     {
217     rcsin = stdin;
218     input_file = "<stdin>";
219 bertho 1.9 }
220 bertho 1.7 line_number = 1;
221     rv = rcsparse();
222 bertho 1.18 if(file)
223     {
224     fclose(rcsin);
225     xfree(cmd);
226     }
227 bertho 1.7 if(rv)
228 bertho 1.1 return NULL;
229 bertho 1.7 input_file = NULL;
230 bertho 1.18 if(file)
231     {
232     rcsfile->root = xstrdup(cvsroot);
233     rcsfile->module = xstrdup(module);
234     rcsfile->file = xstrdup(file);
235     }
236     else
237     {
238     rcsfile->root = xstrdup("");
239     rcsfile->module = xstrdup("");
240     rcsfile->file = xstrdup("<stdin>");
241     }
242 bertho 1.7 return rcsfile;
243 bertho 1.1 }
244    
245     /*
246     **************************************************************************
247     * Sort and find helpers
248     **************************************************************************
249     */
250 bertho 1.5 int count_dots(const char *s)
251     {
252     int i;
253     for(i = 0; *s; s++)
254     {
255     if(*s == '.')
256     i++;
257     }
258     return i;
259     }
260    
261 bertho 1.7 int compare_rev(int bcmp, const rev_t *r1, const rev_t *r2)
262 bertho 1.5 {
263     int d1, d2;
264 bertho 1.7 char *c1, *c2;
265 bertho 1.5 char *v1, *v2;
266     char *s1, *s2;
267     int retval = 0;
268     assert(r1 != NULL);
269     assert(r2 != NULL);
270 bertho 1.7 if(bcmp)
271     {
272     assert(r1->branch != NULL);
273     assert(r2->branch != NULL);
274     c1 = r1->branch;
275     c2 = r2->branch;
276     }
277     else
278     {
279     assert(r1->rev != NULL);
280     assert(r2->rev != NULL);
281     c1 = r1->rev;
282     c2 = r2->rev;
283     }
284 bertho 1.5
285 bertho 1.7 d1 = count_dots(c1);
286     d2 = count_dots(c2);
287 bertho 1.5 if(d1 != d2)
288     {
289     return d1 - d2;
290     }
291    
292 bertho 1.7 s1 = v1 = xstrdup(c1);
293     s2 = v2 = xstrdup(c2);
294 bertho 1.5 while(1)
295     {
296     char *vc1 = strchr(s1, '.');
297     char *vc2 = strchr(s2, '.');
298     if(vc1 && vc2)
299     *vc1 = *vc2 = '\0';
300     if(*s1 && *s2)
301     {
302     d1 = atoi(s1);
303     d2 = atoi(s2);
304     if(d1 != d2)
305     {
306     retval = d1 - d2;
307     break;
308     }
309     }
310     if(!vc1 || !vc2)
311     break;
312     s1 = vc1 + 1;
313     s2 = vc2 + 1;
314     }
315     xfree(v1);
316     xfree(v2);
317     return retval;
318     }
319    
320 bertho 1.7 /*
321     **************************************************************************
322     * Reorganise the rcsfile for the branches
323     *
324     * Basically, we have a list of deltas (i.e. administrative info on
325     * revisions) and a list of delta text (the actual logs and diffs).
326     * The deltas are linked through the 'next' and the 'branches' fields
327     * which describe the tree-structure of revisions.
328     * The reorganisation means that we put each delta and corresponding
329     * delta text in a revision structure and assign it to a specific
330     * branch. This is required because we want to be able to calculate
331     * the bounding boxes of each branch. The revisions expand vertically
332     * and the branches expand horizontally.
333     * The reorganisation is performed in these steps:
334 bertho 1.17 * 1 - sort deltas and delta text on revision number for quick lookup
335 bertho 1.7 * 2 - start at the denoted head revision:
336     * * create a branch structure and add this revision
337     * * for each 'branches' in the delta do:
338     * - walk all 'branches' of the delta and recursively goto 2
339     * with the denoted branch delta as new head
340     * - backlink the newly create sub-branch to the head revision
341     * so that we can draw them recursively
342     * * set head to the 'next' field and goto 2 until no next is
343     * available
344     * 3 - update the administration
345     **************************************************************************
346     */
347 bertho 1.19 static int sort_delta(const void *d1, const void *d2)
348 bertho 1.7 {
349     return compare_rev(0, (*(delta_t **)d1)->rev, (*(delta_t **)d2)->rev);
350     }
351    
352 bertho 1.19 static int search_delta(const void *r, const void *d)
353 bertho 1.1 {
354 bertho 1.7 return compare_rev(0, (rev_t *)r, (*(delta_t **)d)->rev);
355 bertho 1.1 }
356    
357 bertho 1.19 static delta_t *find_delta(delta_t **dl, int n, rev_t *r)
358 bertho 1.1 {
359 bertho 1.7 delta_t **d;
360 bertho 1.23 if(!n)
361     return NULL;
362 bertho 1.7 d = bsearch(r, dl, n, sizeof(*dl), search_delta);
363     if(!d)
364     return NULL;
365     return *d;
366 bertho 1.1 }
367    
368 bertho 1.19 static int sort_dtext(const void *d1, const void *d2)
369 bertho 1.1 {
370 bertho 1.7 return compare_rev(0, (*(dtext_t **)d1)->rev, (*(dtext_t **)d2)->rev);
371 bertho 1.1 }
372    
373 bertho 1.19 static int search_dtext(const void *r, const void *d)
374 bertho 1.1 {
375 bertho 1.7 return compare_rev(0, (rev_t *)r, (*(dtext_t **)d)->rev);
376 bertho 1.1 }
377    
378 bertho 1.19 static dtext_t *find_dtext(dtext_t **dl, int n, rev_t *r)
379 bertho 1.1 {
380 bertho 1.7 dtext_t **d;
381 bertho 1.23 if(!n)
382     return NULL;
383 bertho 1.7 d = bsearch(r, dl, n, sizeof(*dl), search_dtext);
384     if(!d)
385 bertho 1.1 return NULL;
386 bertho 1.7 return *d;
387     }
388    
389 bertho 1.19 static rev_t *dup_rev(const rev_t *r)
390 bertho 1.7 {
391     rev_t *t = xmalloc(sizeof(*t));
392     t->rev = xstrdup(r->rev);
393     t->branch = xstrdup(r->branch);
394     t->isbranch = r->isbranch;
395     return t;
396     }
397    
398 bertho 1.19 static branch_t *new_branch(delta_t *d, dtext_t *t)
399 bertho 1.7 {
400     branch_t *b = xmalloc(sizeof(*b));
401     revision_t *r = xmalloc(sizeof(*r));
402     r->delta = d;
403     r->dtext = t;
404     r->rev = d->rev;
405     r->branch = b;
406     b->branch = dup_rev(d->rev);
407     b->branch->isbranch = 1;
408     b->nrevs = 1;
409     b->revs = xmalloc(sizeof(b->revs[0]));
410     b->revs[0] = r;
411     return b;
412     }
413    
414 bertho 1.19 static revision_t *add_to_branch(branch_t *b, delta_t *d, dtext_t *t)
415 bertho 1.7 {
416     revision_t *r = xmalloc(sizeof(*r));
417     r->delta = d;
418     r->dtext = t;
419     r->rev = d->rev;
420     r->branch = b;
421     b->revs = xrealloc(b->revs, (b->nrevs+1) * sizeof(b->revs[0]));
422     b->revs[b->nrevs] = r;
423     b->nrevs++;
424     return r;
425     }
426    
427     void build_branch(branch_t ***bl, int *nbl, delta_t **sdl, int nsdl, dtext_t **sdt, int nsdt, delta_t *head)
428     {
429     branch_t *b;
430     dtext_t *text;
431     revision_t *currev;
432    
433     assert(head != NULL);
434    
435     if(head->flag)
436     {
437     fprintf(stderr, "Circular reference on '%s' in branchpoint\n", head->rev->rev);
438     return;
439     }
440     head->flag++;
441     text = find_dtext(sdt, nsdt, head->rev);
442    
443     /* Create a new branch for this head */
444     b = new_branch(head, text);
445     *bl = xrealloc(*bl, (*nbl+1)*sizeof((*bl)[0]));
446     (*bl)[*nbl] = b;
447     (*nbl)++;
448     currev = b->revs[0];
449     while(1)
450     {
451     /* Process all sub-branches */
452     if(head->branches)
453     {
454     int i;
455     for(i = 0; i < head->branches->nrevs; i++)
456     {
457     delta_t *d = find_delta(sdl, nsdl, head->branches->revs[i]);
458     int btag = *nbl;
459     if(!d)
460     continue;
461     build_branch(bl, nbl, sdl, nsdl, sdt, nsdt, d);
462    
463     /* Set the new branch's origin */
464     (*bl)[btag]->branchpoint = currev;
465    
466     /* Add branch to this revision */
467     currev->branches = xrealloc(currev->branches, (currev->nbranches+1)*sizeof(currev->branches[0]));
468     currev->branches[currev->nbranches] = (*bl)[btag];
469     currev->nbranches++;
470     }
471     }
472    
473     /* Walk through the next list */
474     if(!head->next)
475     return;
476 bertho 1.9
477 bertho 1.7 head = find_delta(sdl, nsdl, head->next);
478     if(!head)
479     {
480     fprintf(stderr, "Next revision (%s) not found in deltalist\n", head->next->rev);
481     return;
482     }
483     if(head->flag)
484     {
485     fprintf(stderr, "Circular reference on '%s'\n", head->rev->rev);
486     return;
487     }
488     head->flag++;
489     text = find_dtext(sdt, nsdt, head->rev);
490     currev = add_to_branch(b, head, text);
491     }
492     }
493    
494     int reorganise_branches(rcsfile_t *rcs)
495     {
496     delta_t **sdelta;
497     int nsdelta;
498     dtext_t **sdtext;
499     int nsdtext;
500     delta_t *head;
501     branch_t **bl;
502     int nbl;
503     int i;
504    
505     assert(rcs->deltas != NULL);
506     assert(rcs->head != NULL);
507    
508     /* Make a new list for quick lookup */
509     nsdelta = rcs->deltas->ndeltas;
510     sdelta = xmalloc(nsdelta * sizeof(sdelta[0]));
511     memcpy(sdelta, rcs->deltas->deltas, nsdelta * sizeof(sdelta[0]));
512     qsort(sdelta, nsdelta, sizeof(sdelta[0]), sort_delta);
513    
514     /* Do the same for the delta text */
515 bertho 1.22 if(rcs->dtexts)
516     {
517     nsdtext = rcs->dtexts->ndtexts;
518     sdtext = xmalloc(nsdtext * sizeof(sdtext[0]));
519     memcpy(sdtext, rcs->dtexts->dtexts, nsdtext * sizeof(sdtext[0]));
520     qsort(sdtext, nsdtext, sizeof(sdtext[0]), sort_dtext);
521     }
522     else
523     {
524     nsdtext = 0;
525     sdtext = NULL;
526     }
527 bertho 1.7
528     /* Start from the head of the trunk */
529     head = find_delta(sdelta, nsdelta, rcs->head);
530     if(!head)
531     {
532     fprintf(stderr, "Head revision (%s) not found in deltalist\n", rcs->head->rev);
533     return 0;
534     }
535     bl = NULL;
536     nbl = 0;
537     build_branch(&bl, &nbl, sdelta, nsdelta, sdtext, nsdtext, head);
538    
539     /* Reverse the head branch */
540     for(i = 0; i < bl[0]->nrevs/2; i++)
541     {
542     revision_t *r;
543     r = bl[0]->revs[i];
544     bl[0]->revs[i] = bl[0]->revs[bl[0]->nrevs-i-1];
545     bl[0]->revs[bl[0]->nrevs-i-1] = r;
546     }
547    
548     /* Update the branch-number of the head because it was reversed */
549     xfree(bl[0]->branch->branch);
550     bl[0]->branch->branch = xstrdup(bl[0]->revs[0]->rev->branch);
551    
552     /* Keep the admin */
553     rcs->branches = bl;
554     rcs->nbranches = nbl;
555     rcs->sdelta = sdelta;
556     rcs->nsdelta = nsdelta;
557     rcs->sdtext = sdtext;
558     rcs->nsdtext = nsdtext;
559     rcs->active = bl[0];
560     return 1;
561     }
562    
563     /*
564     **************************************************************************
565     * Assign the symbolic tags to the revisions and branches
566     *
567     * The tags point to revision numbers somewhere in the tree structure
568     * of branches and revisions. First we make a sorted list of all
569     * revisions and then we assign each tag to the proper revision.
570     **************************************************************************
571     */
572 bertho 1.19 static int sort_revision(const void *r1, const void *r2)
573 bertho 1.7 {
574     return compare_rev(0, (*(revision_t **)r1)->delta->rev, (*(revision_t **)r2)->delta->rev);
575     }
576    
577 bertho 1.19 static int search_revision(const void *t, const void *r)
578 bertho 1.7 {
579     return compare_rev(0, (rev_t *)t, (*(revision_t **)r)->delta->rev);
580     }
581    
582 bertho 1.19 static int sort_branch(const void *b1, const void *b2)
583 bertho 1.7 {
584     return compare_rev(1, (*(branch_t **)b1)->branch, (*(branch_t **)b2)->branch);
585 bertho 1.1 }
586    
587 bertho 1.19 static int search_branch(const void *t, const void *b)
588 bertho 1.1 {
589 bertho 1.7 return compare_rev(1, (rev_t *)t, (*(branch_t **)b)->branch);
590 bertho 1.1 }
591    
592 bertho 1.19 static char *previous_rev(const char *c)
593 bertho 1.1 {
594 bertho 1.7 int dots = count_dots(c);
595     char *cptr;
596     char *r;
597     if(!dots)
598 bertho 1.9 {
599     fprintf(stderr, "FIXME: previous_rev(\"%s\"): Cannot determine parent branch revision\n", c);
600 bertho 1.7 return xstrdup("1.0"); /* FIXME: don't know what the parent is */
601 bertho 1.9 }
602 bertho 1.7 if(dots & 1)
603     {
604     /* Is is a revision we want the parent of */
605     r = xstrdup(c);
606     cptr = strrchr(r, '.');
607     assert(cptr != NULL);
608     if(dots == 1)
609     {
610 bertho 1.9 fprintf(stderr, "FIXME: previous_rev(\"%s\"): Going beyond top-level?\n", c);
611 bertho 1.7 /* FIXME: What is the parent of 1.1? */
612     cptr[1] = '\0';
613     strcat(r, "0");
614     return r;
615     }
616     /* Here we have a "x.x[.x.x]+" case */
617     *cptr = '\0';
618     cptr = strrchr(r, '.');
619     assert(cptr != NULL);
620     *cptr = '\0';
621     return r;
622     }
623     /* It is a branch we want the parent of */
624     r = xstrdup(c);
625     cptr = strrchr(r, '.');
626     assert(cptr != NULL);
627     *cptr = '\0';
628     return r;
629 bertho 1.1 }
630    
631 bertho 1.7 int assign_tags(rcsfile_t *rcs)
632 bertho 1.1 {
633     int i;
634 bertho 1.7 int nr;
635    
636     for(i = nr = 0; i < rcs->nbranches; i++)
637     nr += rcs->branches[i]->nrevs;
638    
639     rcs->srev = xmalloc(nr * sizeof(rcs->srev[0]));
640     rcs->nsrev = nr;
641     for(i = nr = 0; i < rcs->nbranches; i++)
642     {
643     memcpy(&rcs->srev[nr], rcs->branches[i]->revs, rcs->branches[i]->nrevs * sizeof(rcs->branches[i]->revs[0]));
644     nr += rcs->branches[i]->nrevs;
645     }
646    
647     qsort(rcs->srev, rcs->nsrev, sizeof(rcs->srev[0]), sort_revision);
648     qsort(rcs->branches, rcs->nbranches, sizeof(rcs->branches[0]), sort_branch);
649    
650     if(!rcs->branch)
651     {
652     /* The main trunk is the active trunk */
653     rcs->tags->tags = xrealloc(rcs->tags->tags, (rcs->tags->ntags+1)*sizeof(rcs->tags->tags[0]));
654     rcs->tags->tags[rcs->tags->ntags] = xmalloc(sizeof(tag_t));
655     rcs->tags->tags[rcs->tags->ntags]->tag = xstrdup("MAIN");
656     rcs->tags->tags[rcs->tags->ntags]->rev = xmalloc(sizeof(rev_t));
657     rcs->tags->tags[rcs->tags->ntags]->rev->rev = xstrdup(rcs->active->branch->rev);
658     rcs->tags->tags[rcs->tags->ntags]->rev->branch = xstrdup(rcs->active->branch->branch);
659     rcs->tags->tags[rcs->tags->ntags]->rev->isbranch = 1;
660     rcs->tags->ntags++;
661     }
662    
663     /* We should have at least two tags (HEAD and MAIN) */
664     assert(rcs->tags != 0);
665    
666     for(i = 0; i < rcs->tags->ntags; i++)
667     {
668     tag_t *t = rcs->tags->tags[i];
669     if(t->rev->isbranch)
670     {
671     branch_t **b;
672     add_btag:
673     b = bsearch(t->rev, rcs->branches, rcs->nbranches, sizeof(rcs->branches[0]), search_branch);
674     if(!b)
675     {
676     rev_t rev;
677     revision_t **r;
678     /* This happens for the magic branch numbers if there are
679 bertho 1.12 * no commits within the new branch yet. So, we add the
680     * branch and try to continue.
681 bertho 1.7 */
682     rev.rev = previous_rev(t->rev->branch);
683     rev.branch = NULL;
684     rev.isbranch = 0;
685     r = bsearch(&rev, rcs->srev, rcs->nsrev, sizeof(rcs->srev[0]), search_revision);
686     xfree(rev.rev);
687     if(!r)
688     {
689 bertho 1.12 if(!quiet)
690     fprintf(stderr, "No branch found for tag '%s:%s'\n", t->tag, t->rev->branch);
691 bertho 1.7 }
692     else
693     {
694     rcs->branches = xrealloc(rcs->branches, (rcs->nbranches+1)*sizeof(rcs->branches[0]));
695     rcs->branches[rcs->nbranches] = xmalloc(sizeof(branch_t));
696     rcs->branches[rcs->nbranches]->branch = dup_rev(t->rev);
697     rcs->branches[rcs->nbranches]->branchpoint = *r;
698     (*r)->branches = xrealloc((*r)->branches, ((*r)->nbranches+1)*sizeof((*r)->branches[0]));
699     (*r)->branches[(*r)->nbranches] = rcs->branches[rcs->nbranches];
700     (*r)->nbranches++;
701     rcs->nbranches++;
702     /* Resort the branches */
703     qsort(rcs->branches, rcs->nbranches, sizeof(rcs->branches[0]), sort_branch);
704     goto add_btag;
705     }
706     }
707     else
708     {
709     branch_t *bb = *b;
710     bb->tags = xrealloc(bb->tags, (bb->ntags+1)*sizeof(bb->tags[0]));
711     bb->tags[bb->ntags] = t;
712     bb->ntags++;
713     }
714     }
715     else
716     {
717     revision_t **r = bsearch(t->rev, rcs->srev, rcs->nsrev, sizeof(rcs->srev[0]), search_revision);
718     if(!r)
719 bertho 1.12 {
720     if(!quiet)
721     fprintf(stderr, "No revision found for tag '%s:%s'\n", t->tag, t->rev->rev);
722     }
723 bertho 1.7 else
724     {
725     revision_t *rr = *r;
726     rr->tags = xrealloc(rr->tags, (rr->ntags+1)*sizeof(rr->tags[0]));
727     rr->tags[rr->ntags] = t;
728     rr->ntags++;
729     }
730     }
731     }
732    
733     /* We need to reset the first in the list of branches to the
734     * active branch to ensure the drawing of all
735     */
736     if(rcs->active != rcs->branches[0])
737 bertho 1.1 {
738 bertho 1.7 branch_t **b = bsearch(rcs->active->branch, rcs->branches, rcs->nbranches, sizeof(rcs->branches[0]), search_branch);
739     branch_t *t;
740     assert(b != NULL);
741     t = *b;
742     *b = rcs->branches[0];
743     rcs->branches[0] = t;
744 bertho 1.1 }
745 bertho 1.7 return 1;
746 bertho 1.1 }
747    
748     /*
749     **************************************************************************
750 bertho 1.8 * String expansion
751     **************************************************************************
752     */
753     static char *_string;
754     static int _nstring;
755     static int _nastring;
756    
757 bertho 1.19 static void add_string_str(const char *s)
758 bertho 1.8 {
759     int l = strlen(s) + 1;
760     if(_nstring + l > _nastring)
761     {
762 bertho 1.24 _nastring += MAX(128, l);
763 bertho 1.8 _string = xrealloc(_string, _nastring * sizeof(_string[0]));
764     }
765     memcpy(_string+_nstring, s, l);
766     _nstring += l-1;
767     }
768    
769 bertho 1.19 static void add_string_ch(int ch)
770 bertho 1.8 {
771     char buf[2];
772     buf[0] = ch;
773     buf[1] = '\0';
774     add_string_str(buf);
775     }
776    
777 bertho 1.19 static void add_string_date(const char *d)
778 bertho 1.9 {
779     struct tm tm, *tmp;
780     int n;
781     time_t t;
782     char *buf;
783     int nbuf;
784    
785     memset(&tm, 0, sizeof(tm));
786     n = sscanf(d, "%d.%d.%d.%d.%d.%d",
787     &tm.tm_year, &tm.tm_mon, &tm.tm_mday,
788     &tm.tm_hour, &tm.tm_min, &tm.tm_sec);
789     tm.tm_mon--;
790     if(tm.tm_year > 1900)
791     tm.tm_year -= 1900;
792     t = mktime(&tm);
793     if(n != 6 || t == (time_t)(-1))
794     {
795     add_string_str("<invalid date>");
796     return;
797     }
798    
799     tmp = localtime(&t);
800     nbuf = strlen(conf.date_format) * 16; /* Should be enough to hold all types of expansions */
801     buf = xmalloc(nbuf);
802     strftime(buf, nbuf, conf.date_format, tmp);
803     add_string_str(buf);
804     xfree(buf);
805     }
806    
807 bertho 1.22 static void add_string_str_html(const char *s, int maxlen)
808     {
809     int l = 0;
810     char *str = xmalloc(6 * strlen(s) + 1); /* Should hold all char entity-expand */
811     char *cptr = str;
812     for(; *s; s++)
813     {
814     if(maxlen && l > abs(maxlen))
815     {
816     cptr += sprintf(cptr, "...");
817     break;
818     }
819     if(*s < 0x20)
820     {
821     if(*s == '\n')
822     {
823     if(maxlen < 0)
824     *cptr++ = ' ';
825     else
826     cptr += sprintf(cptr, "<br>");
827     }
828     }
829     else if(*s >= 0x7f)
830     cptr += sprintf(cptr, "&#%d;", (int)(unsigned char)*s);
831     else if(*s == '<')
832     cptr += sprintf(cptr, "&lt;");
833     else if(*s == '>')
834     cptr += sprintf(cptr, "&gt;");
835     else
836     *cptr++ = *s;
837     l++;
838     }
839     *cptr = '\0';
840     add_string_str(str);
841     xfree(str);
842     }
843    
844     static void add_string_str_len(const char *s, int maxlen)
845     {
846     int l = strlen(s);
847     char *str = xmalloc(l + 1 + 3);
848     strcpy(str, s);
849     if(maxlen < l)
850     sprintf(&str[maxlen], "...");
851     add_string_str(str);
852     xfree(str);
853     }
854    
855 bertho 1.9 char *expand_string(const char *s, rcsfile_t *rcs, revision_t *r, rev_t *rev, rev_t *prev, tag_t *tag)
856 bertho 1.8 {
857     char nb[32];
858     char nr[32];
859     char *base;
860 bertho 1.22 int l;
861     char ch;
862 bertho 1.8
863     if(!s)
864     return xstrdup("");
865    
866     _nstring = 0;
867     if(_string)
868     _string[0] = '\0';
869    
870     sprintf(nb, "%d", rcs->nbranches);
871     sprintf(nr, "%d", rcs->nsrev);
872     for(; *s; s++)
873     {
874     if(*s == '%')
875     {
876     switch(*++s)
877     {
878 bertho 1.12 case 'c':
879     case 'C':
880     add_string_str(conf.cvsroot);
881     if(*s == 'C' && conf.cvsroot[0] && conf.cvsroot[strlen(conf.cvsroot)-1] == '/')
882     {
883     /* Strip the trailing '/' */
884     _nstring--;
885     _string[_nstring] = '\0';
886     }
887     break;
888 bertho 1.8 case 'f':
889     case 'F':
890     base = strrchr(rcs->file, '/');
891     if(!base)
892     add_string_str(rcs->file);
893     else
894     add_string_str(base+1);
895     if(*s == 'F' && _string[_nstring-1] == 'v' && _string[_nstring-2] == ',')
896     {
897     _nstring -= 2;
898     _string[_nstring] = '\0';
899     }
900     break;
901     case 'p':
902     base = strrchr(rcs->file, '/');
903     if(base)
904     {
905     char *c = xstrdup(rcs->file);
906     base = strrchr(c, '/');
907     assert(base != NULL);
908     base[1] = '\0';
909     add_string_str(c);
910     xfree(c);
911     }
912 bertho 1.9 /*
913     * We should not add anything here because we can encounter
914     * a completely empty path, in which case we do not want
915 bertho 1.17 * to add any slash. This prevents an inadvertent root redirect.
916 bertho 1.9 *
917     * else
918     * add_string_str("/");
919     */
920 bertho 1.8 break;
921 bertho 1.12 case 'm':
922     case 'M':
923     add_string_str(conf.cvsmodule);
924     if(*s == 'M' && conf.cvsmodule[0] && conf.cvsmodule[strlen(conf.cvsmodule)-1] == '/')
925     {
926     /* Strip the trailing '/' */
927     _nstring--;
928     _string[_nstring] = '\0';
929     }
930     break;
931 bertho 1.8 case 'r': add_string_str(nr); break;
932     case 'b': add_string_str(nb); break;
933     case '%': add_string_ch('%'); break;
934     case '0': if(conf.expand[0]) add_string_str(conf.expand[0]); break;
935     case '1': if(conf.expand[1]) add_string_str(conf.expand[1]); break;
936     case '2': if(conf.expand[2]) add_string_str(conf.expand[2]); break;
937     case '3': if(conf.expand[3]) add_string_str(conf.expand[3]); break;
938     case '4': if(conf.expand[4]) add_string_str(conf.expand[4]); break;
939     case '5': if(conf.expand[5]) add_string_str(conf.expand[5]); break;
940     case '6': if(conf.expand[6]) add_string_str(conf.expand[6]); break;
941     case '7': if(conf.expand[7]) add_string_str(conf.expand[7]); break;
942     case '8': if(conf.expand[8]) add_string_str(conf.expand[8]); break;
943     case '9': if(conf.expand[9]) add_string_str(conf.expand[9]); break;
944     case 'R': if(rev && rev->rev) add_string_str(rev->rev); break;
945 bertho 1.9 case 'P': if(prev && prev->rev) add_string_str(prev->rev); break;
946 bertho 1.8 case 'B': if(rev && rev->branch) add_string_str(rev->branch); break;
947     case 't': if(tag && tag->tag) add_string_str(tag->tag); break;
948 bertho 1.9 case 'd': if(r && r->delta && r->delta->date) add_string_date(r->delta->date); break;
949     case 's': if(r && r->delta && r->delta->state) add_string_str(r->delta->state); break;
950     case 'a': if(r && r->delta && r->delta->author) add_string_str(r->delta->author); break;
951 bertho 1.22 case 'L':
952     case 'l':
953     ch = *s;
954     l = 0;
955     if(s[1] == '[')
956     {
957     char *cptr = strchr(s, ']');
958     char *eptr;
959     if(cptr)
960     {
961     l = strtol(&s[2], &eptr, 10);
962     if(eptr != cptr)
963     l = 0;
964     else
965     s = cptr;
966     }
967     }
968     if(!conf.parse_logs)
969     add_string_str("N/A");
970     else if(r && r->dtext && r->dtext->log)
971     {
972     if(ch == 'l')
973     add_string_str_html(r->dtext->log, l);
974     else
975     add_string_str_len(r->dtext->log, abs(l));
976     }
977     break;
978 bertho 1.8 default:
979     add_string_ch('%');
980     add_string_ch(*s);
981     break;
982     }
983     }
984     else
985     add_string_ch(*s);
986     }
987     return xstrdup(_string);
988     }
989    
990     /*
991     **************************************************************************
992 bertho 1.1 * Drawing routines
993     **************************************************************************
994     */
995 bertho 1.19 static int get_swidth(const char *s, font_t *f)
996 bertho 1.1 {
997 bertho 1.9 int n;
998     int m;
999     if(!s || !*s)
1000 bertho 1.1 return 0;
1001 bertho 1.19
1002     #if defined(HAVE_GDIMAGESTRINGFT) || defined(HAVE_GDIMAGESTRINGTTF)
1003     if(conf.use_ttf && f->ttfont)
1004     {
1005     int bb[8];
1006     char *e;
1007     #ifdef HAVE_GDIMAGESTRINGFT
1008     e = gdImageStringFT(NULL, bb, 0, f->ttfont, f->ttsize, 0.0, 0, 0, (char *)s);
1009     #else
1010     e = gdImageStringTTF(NULL, bb, 0, f->ttfont, f->ttsize, 0.0, 0, 0, (char *)s);
1011     #endif
1012     if(!e)
1013     return bb[2] - bb[6];
1014     }
1015     #endif
1016 bertho 1.9 for(n = m = 0; *s; n++, s++)
1017     {
1018     if(*s == '\n')
1019     {
1020     if(n > m)
1021     m = n;
1022     n = 0;
1023     }
1024     }
1025     if(n > m)
1026     m = n;
1027 bertho 1.22 return f->gdfont ? m * f->gdfont->w : m;
1028 bertho 1.1 }
1029    
1030 bertho 1.19 static int get_sheight(const char *s, font_t *f)
1031 bertho 1.1 {
1032     int nl;
1033 bertho 1.9 if(!s || !*s)
1034 bertho 1.1 return 0;
1035 bertho 1.19
1036     #if defined(HAVE_GDIMAGESTRINGFT) || defined(HAVE_GDIMAGESTRINGTTF)
1037     if(conf.use_ttf && f->ttfont)
1038     {
1039     int bb[8];
1040     char *e;
1041     #ifdef HAVE_GDIMAGESTRINGFT
1042     e = gdImageStringFT(NULL, bb, 0, f->ttfont, f->ttsize, 0.0, 0, 0, (char *)s);
1043     #else
1044     e = gdImageStringTTF(NULL, bb, 0, f->ttfont, f->ttsize, 0.0, 0, 0, (char *)s);
1045     #endif
1046     if(!e)
1047     return bb[3] - bb[7] + 4;
1048     }
1049     #endif
1050 bertho 1.1 for(nl = 1; *s; s++)
1051     {
1052     if(*s == '\n' && s[1])
1053     nl++;
1054     }
1055 bertho 1.19 return nl * f->gdfont->h;
1056 bertho 1.1 }
1057    
1058 bertho 1.19 static void draw_rbox(gdImagePtr im, int x1, int y1, int x2, int y2, int r, color_t *color, color_t *bgcolor)
1059 bertho 1.1 {
1060     int r2 = 2*r;
1061     gdImageLine(im, x1+r, y1, x2-r, y1, color->id);
1062     gdImageLine(im, x1+r, y2, x2-r, y2, color->id);
1063     gdImageLine(im, x1, y1+r, x1, y2-r, color->id);
1064     gdImageLine(im, x2, y1+r, x2, y2-r, color->id);
1065 bertho 1.9 if(conf.box_shadow)
1066     {
1067     gdImageLine(im, x1+r+1, y2+1, x2-r, y2+1, black_color.id);
1068     gdImageLine(im, x2+1, y1+r+1, x2+1, y2-r, black_color.id);
1069     }
1070 bertho 1.1 if(r)
1071     {
1072 bertho 1.18 /* FIXME: Pixelization is not perfect */
1073 bertho 1.1 gdImageArc(im, x1+r, y1+r, r2, r2, 180, 270, color->id);
1074     gdImageArc(im, x2-r, y1+r, r2, r2, 270, 360, color->id);
1075     gdImageArc(im, x1+r, y2-r, r2, r2, 90, 180, color->id);
1076 bertho 1.9 if(conf.box_shadow)
1077     {
1078     gdImageArc(im, x2-r+1, y2-r+1, r2, r2, 0, 90, black_color.id);
1079 bertho 1.18 gdImageArc(im, x2-r+1, y2-r, r2, r2, 0, 90, black_color.id);
1080     gdImageArc(im, x2-r, y2-r+1, r2, r2, 0, 90, black_color.id);
1081 bertho 1.9 }
1082 bertho 1.18 gdImageArc(im, x2-r, y2-r, r2, r2, 0, 90, color->id);
1083 bertho 1.1 }
1084 bertho 1.19 #ifndef NOGDFILL
1085 bertho 1.9 gdImageFillToBorder(im, (x1+x2)/2, (y1+y2)/2, color->id, bgcolor->id);
1086 bertho 1.19 #endif
1087 bertho 1.1 }
1088    
1089 bertho 1.19 static void draw_string(gdImagePtr im, char *s, font_t *f, int x, int y, int align, color_t *c)
1090 bertho 1.1 {
1091 bertho 1.19 int h = get_sheight(s, f);
1092 bertho 1.1 int xx, yy;
1093     switch(align & ALIGN_HX)
1094     {
1095     default:
1096     case ALIGN_HL: xx = 0; break;
1097     case ALIGN_HC: xx = -get_swidth(s, f)/2; break;
1098     case ALIGN_HR: xx = -get_swidth(s, f); break;
1099     }
1100     switch(align & ALIGN_VX)
1101     {
1102     default:
1103     case ALIGN_VT: yy = 0; break;
1104 bertho 1.19 case ALIGN_VC: yy = h/2; break;
1105     case ALIGN_VB: yy = h; break;
1106 bertho 1.1 }
1107 bertho 1.19 #if defined(HAVE_GDIMAGESTRINGFT) || defined(HAVE_GDIMAGESTRINGTTF)
1108     if(conf.use_ttf && f->ttfont)
1109     {
1110     int bb[8];
1111     char *e;
1112     int cid = conf.anti_alias ? c->id : -c->id;
1113     #ifdef HAVE_GDIMAGESTRINGFT
1114     e = gdImageStringFT(im, bb, cid, f->ttfont, f->ttsize, 0.0, x+xx, y+yy+h-2, (char *)s);
1115     #else
1116     e = gdImageStringTTF(im, bb, cid, f->ttfont, f->ttsize, 0.0, x+xx, y+yy+h-2, (char *)s);
1117     #endif
1118     if(!e)
1119     return;
1120     }
1121     #endif
1122     yy = -yy;
1123     gdImageString(im, f->gdfont, x+xx+1, y+yy, s, c->id);
1124 bertho 1.1 }
1125    
1126 bertho 1.19 static void draw_stringnl(gdImagePtr im, char *s, font_t *f, int x, int y, int align, color_t *c)
1127 bertho 1.9 {
1128     char *t;
1129     char *d;
1130     d = s = xstrdup(s);
1131     do
1132     {
1133     t = strchr(s, '\n');
1134     if(t)
1135     *t = '\0';
1136     draw_string(im, s, f, x, y, align, c);
1137     y += get_sheight(s, f);
1138     s = t+1;
1139     } while(t);
1140     xfree(d);
1141     }
1142    
1143 bertho 1.19 static void draw_rev(gdImagePtr im, revision_t *r)
1144 bertho 1.1 {
1145 bertho 1.25 int lx;
1146     int rx;
1147     int x2;
1148 bertho 1.1 int i;
1149 bertho 1.25 int ty;
1150    
1151     if(conf.left_right)
1152     {
1153     lx = r->cx;
1154     rx = r->cx + r->w;
1155     ty = r->y - r->h/2;
1156     x2 = r->cx + r->w/2;
1157     }
1158     else
1159     {
1160     lx = r->cx - r->w/2;
1161     rx = lx + r->w;
1162     ty = r->y;
1163     x2 = r->cx;
1164     }
1165 bertho 1.9 draw_rbox(im, lx, ty, rx, ty+r->h, 0, &conf.rev_color, &conf.rev_bgcolor);
1166 bertho 1.1 ty += conf.rev_tspace;
1167 bertho 1.25 draw_string(im, r->rev->rev, &conf.rev_font, x2, ty, ALIGN_HC, &conf.rev_color);
1168 bertho 1.1 ty += get_sheight(r->rev->rev, &conf.rev_font);
1169 bertho 1.25 draw_stringnl(im, r->revtext, &conf.rev_text_font, x2, ty, ALIGN_HC, &conf.rev_text_color);
1170 bertho 1.9 ty += get_sheight(r->revtext, &conf.rev_text_font);
1171 bertho 1.1 for(i = 0; i < r->ntags; i++)
1172     {
1173 bertho 1.25 draw_string(im, r->tags[i]->tag, &conf.tag_font, x2, ty, ALIGN_HC, &conf.tag_color);
1174 bertho 1.19 ty += get_sheight(r->tags[i]->tag, &conf.tag_font) + conf.rev_separator;
1175 bertho 1.1 }
1176     }
1177    
1178 bertho 1.19 static void draw_branch_box(gdImagePtr im, branch_t *b, int ypos)
1179 bertho 1.1 {
1180 bertho 1.25 int lx;
1181     int rx;
1182 bertho 1.16 int i;
1183 bertho 1.1 int yy;
1184 bertho 1.25 int x2;
1185 bertho 1.16
1186 bertho 1.25 if(conf.left_right)
1187     {
1188     lx = b->cx;
1189     rx = lx + b->w;
1190     x2 = b->cx + b->w/2;
1191     }
1192     else
1193     {
1194     lx = b->cx - b->w/2;
1195     rx = lx + b->w;
1196     x2 = b->cx;
1197     }
1198 bertho 1.17 draw_rbox(im, lx, ypos, rx, ypos+b->h, 5, &conf.branch_color, &conf.branch_bgcolor);
1199 bertho 1.1 yy = conf.branch_tspace;
1200 bertho 1.25 draw_string(im, b->branch->branch, &conf.branch_font, x2, ypos+yy, ALIGN_HC, &conf.branch_color);
1201 bertho 1.7 yy += get_sheight(b->branch->branch, &conf.branch_font);
1202     for(i = 0; i < b->ntags; i++)
1203 bertho 1.1 {
1204 bertho 1.25 draw_string(im, b->tags[i]->tag, &conf.branch_tag_font, x2, ypos+yy, ALIGN_HC, &conf.branch_tag_color);
1205 bertho 1.7 yy += get_sheight(b->tags[i]->tag, &conf.branch_font);
1206 bertho 1.1 }
1207 bertho 1.16 }
1208    
1209 bertho 1.19 static void draw_branch(gdImagePtr im, branch_t *b)
1210 bertho 1.16 {
1211 bertho 1.25 int yy, xx;
1212 bertho 1.16 int i;
1213 bertho 1.17 int line[4];
1214 bertho 1.20 int l;
1215     int sign;
1216 bertho 1.17
1217     line[0] = conf.rev_color.id;
1218     line[1] = gdTransparent;
1219     line[1] = gdTransparent;
1220     line[3] = conf.rev_color.id;
1221    
1222 bertho 1.25 draw_branch_box(im, b, conf.left_right ? b->y - b->h/2 : b->y);
1223 bertho 1.1
1224 bertho 1.25 if(conf.left_right)
1225 bertho 1.16 {
1226 bertho 1.25 if(conf.upside_down)
1227 bertho 1.16 {
1228 bertho 1.25 xx = b->cx;
1229     for(i = 0; i < b->nrevs; i++)
1230 bertho 1.20 {
1231 bertho 1.25 revision_t *r = b->revs[i];
1232     gdImageSetStyle(im, line, r->stripped ? 4 : 1);
1233     gdImageLine(im, xx, r->y, r->cx+r->w, r->y, gdStyled);
1234     for(sign = l = 1; l < conf.thick_lines; l++)
1235     {
1236     int pp = (l+1)/2*sign;
1237     gdImageLine(im, xx, r->y+pp, r->cx+r->w, r->y+pp, gdStyled);
1238     sign *= -1;
1239     }
1240     draw_rev(im, r);
1241     xx = r->cx;
1242     }
1243     if(conf.branch_dupbox)
1244     {
1245     i = b->cx - b->tw + b->w;
1246     gdImageLine(im, xx, b->y, i, b->y, conf.rev_color.id);
1247     for(sign = l = 1; l < conf.thick_lines; l++)
1248     {
1249     int pp = (l+1)/2*sign;
1250     gdImageLine(im, xx, b->y+pp, i, b->y+pp, conf.rev_color.id);
1251     sign *= -1;
1252     }
1253     draw_branch_box(im, b, i);
1254 bertho 1.20 }
1255 bertho 1.16 }
1256 bertho 1.25 else
1257 bertho 1.16 {
1258 bertho 1.25 xx = b->cx + b->w;
1259     for(i = 0; i < b->nrevs; i++)
1260     {
1261     revision_t *r = b->revs[i];
1262     gdImageSetStyle(im, line, r->stripped ? 4 : 1);
1263     gdImageLine(im, xx, r->y, r->cx, r->y, gdStyled);
1264     for(sign = l = 1; l < conf.thick_lines; l++)
1265     {
1266     int pp = (l+1)/2*sign;
1267     gdImageLine(im, xx, r->y+pp, r->cx, r->y+pp, gdStyled);
1268     sign *= -1;
1269     }
1270     draw_rev(im, r);
1271     xx = r->cx + r->w;
1272     }
1273     if(conf.branch_dupbox)
1274 bertho 1.20 {
1275 bertho 1.25 i = b->cx + b->tw - b->w;
1276     gdImageLine(im, xx, b->y, i, b->y, conf.rev_color.id);
1277     for(sign = l = 1; l < conf.thick_lines; l++)
1278     {
1279     int pp = (l+1)/2*sign;
1280     gdImageLine(im, xx, b->y+pp, i, b->y+pp, conf.rev_color.id);
1281     sign *= -1;
1282     }
1283     draw_branch_box(im, b, i);
1284 bertho 1.20 }
1285 bertho 1.16 }
1286     }
1287     else
1288 bertho 1.1 {
1289 bertho 1.25 if(conf.upside_down)
1290 bertho 1.16 {
1291 bertho 1.25 yy = b->y;
1292     for(i = 0; i < b->nrevs; i++)
1293 bertho 1.20 {
1294 bertho 1.25 revision_t *r = b->revs[i];
1295     gdImageSetStyle(im, line, r->stripped ? 4 : 1);
1296     gdImageLine(im, r->cx, yy, r->cx, r->y+r->h, gdStyled);
1297     for(sign = l = 1; l < conf.thick_lines; l++)
1298     {
1299     int pp = (l+1)/2*sign;
1300     gdImageLine(im, r->cx+pp, yy, r->cx+pp, r->y+r->h, gdStyled);
1301     sign *= -1;
1302     }
1303     draw_rev(im, r);
1304     yy = r->y;
1305     }
1306     if(conf.branch_dupbox)
1307     {
1308     i = b->y - b->th + b->h;
1309     gdImageLine(im, b->cx, yy, b->cx, i, conf.rev_color.id);
1310     for(sign = l = 1; l < conf.thick_lines; l++)
1311     {
1312     int pp = (l+1)/2*sign;
1313     gdImageLine(im, b->cx+pp, yy, b->cx+pp, i, conf.rev_color.id);
1314     sign *= -1;
1315     }
1316     draw_branch_box(im, b, i);
1317 bertho 1.20 }
1318 bertho 1.16 }
1319 bertho 1.25 else
1320 bertho 1.16 {
1321 bertho 1.25 yy = b->y + b->h;
1322     for(i = 0; i < b->nrevs; i++)
1323     {
1324     revision_t *r = b->revs[i];
1325     gdImageSetStyle(im, line, r->stripped ? 4 : 1);
1326     gdImageLine(im, r->cx, yy, r->cx, r->y, gdStyled);
1327     for(sign = l = 1; l < conf.thick_lines; l++)
1328     {
1329     int pp = (l+1)/2*sign;
1330     gdImageLine(im, r->cx+pp, yy, r->cx+pp, r->y, gdStyled);
1331     sign *= -1;
1332     }
1333     draw_rev(im, r);
1334     yy = r->y + r->h;
1335     }
1336     if(conf.branch_dupbox)
1337 bertho 1.20 {
1338 bertho 1.25 i = b->y + b->th - b->h;
1339     gdImageLine(im, b->cx, yy, b->cx, i, conf.rev_color.id);
1340     for(sign = l = 1; l < conf.thick_lines; l++)
1341     {
1342     int pp = (l+1)/2*sign;
1343     gdImageLine(im, b->cx+pp, yy, b->cx+pp, i, conf.rev_color.id);
1344     sign *= -1;
1345     }
1346     draw_branch_box(im, b, i);
1347 bertho 1.20 }
1348 bertho 1.16 }
1349 bertho 1.1 }
1350     }
1351    
1352 bertho 1.19 static void draw_connector(gdImagePtr im, branch_t *b)
1353 bertho 1.1 {
1354 bertho 1.20 int l;
1355     int sign;
1356 bertho 1.1 revision_t *r = b->branchpoint;
1357 bertho 1.7 int x1 = r->cx + r->w/2 + 2;
1358 bertho 1.1 int y1 = r->y + r->h/2;
1359 bertho 1.7 int x2 = b->cx;
1360 bertho 1.1 int y2 = b->y;
1361 bertho 1.25
1362     if(conf.left_right)
1363     {
1364     x2 = r->cx + r->w/2;
1365     y2 = r->y + r->h/2 + 2;
1366     x1 = b->cx;
1367     y1 = b->y;
1368     if(conf.upside_down)
1369     x1 += b->w;
1370     }
1371     else
1372     {
1373     x1 = r->cx + r->w/2 + 2;
1374     y1 = r->y + r->h/2;
1375     x2 = b->cx;
1376     y2 = b->y;
1377     if(conf.upside_down)
1378     y2 += b->h;
1379     }
1380 bertho 1.1 gdImageLine(im, x1, y1, x2, y1, conf.branch_color.id);
1381     gdImageLine(im, x2, y1, x2, y2, conf.branch_color.id);
1382 bertho 1.20 for(sign = l = 1; l < conf.thick_lines; l++)
1383     {
1384     int pp = (l+1)/2*sign;
1385     gdImageLine(im, x1, y1+pp, x2-pp, y1+pp, conf.branch_color.id);
1386     gdImageLine(im, x2+pp, y1-pp, x2+pp, y2, conf.branch_color.id);
1387     sign *= -1;
1388     }
1389 bertho 1.1 }
1390    
1391 bertho 1.19 static void alloc_color(gdImagePtr im, color_t *c)
1392 bertho 1.9 {
1393     c->id = gdImageColorAllocate(im, c->r, c->g, c->b);
1394     }
1395    
1396 bertho 1.7 gdImagePtr make_image(rcsfile_t *rcs)
1397 bertho 1.1 {
1398     gdImagePtr im;
1399     int i;
1400 bertho 1.8 char *cptr;
1401 bertho 1.1
1402 bertho 1.15 cptr = expand_string(conf.title, rcs, NULL, NULL, NULL, NULL);
1403     i = get_swidth(cptr, &conf.title_font);
1404     if(rcs->tw+conf.margin_left+conf.margin_right > i)
1405     i = rcs->tw+conf.margin_left+conf.margin_right;
1406     im = gdImageCreate(i, rcs->th+conf.margin_top+conf.margin_bottom);
1407 bertho 1.9 alloc_color(im, &conf.color_bg);
1408     alloc_color(im, &conf.tag_color);
1409     alloc_color(im, &conf.rev_color);
1410     alloc_color(im, &conf.rev_bgcolor);
1411     alloc_color(im, &conf.rev_text_color);
1412     alloc_color(im, &conf.branch_color);
1413 bertho 1.19 alloc_color(im, &conf.branch_tag_color);
1414 bertho 1.9 alloc_color(im, &conf.branch_bgcolor);
1415     alloc_color(im, &conf.title_color);
1416     alloc_color(im, &black_color);
1417     alloc_color(im, &white_color);
1418 bertho 1.1
1419 bertho 1.19 if(conf.transparent_bg)
1420     gdImageColorTransparent(im, conf.color_bg.id);
1421    
1422 bertho 1.1 for(i = 0; i < rcs->nbranches; i++)
1423 bertho 1.16 draw_branch(im, rcs->branches[i]);
1424 bertho 1.1 for(i = 0; i < rcs->nbranches; i++)
1425     {
1426     if(rcs->branches[i]->branchpoint)
1427     draw_connector(im, rcs->branches[i]);
1428     }
1429 bertho 1.9 draw_stringnl(im, cptr, &conf.title_font, conf.title_x, conf.title_y, conf.title_align, &conf.title_color);
1430 bertho 1.8 xfree(cptr);
1431 bertho 1.1
1432     return im;
1433     }
1434    
1435 bertho 1.7 /*
1436     **************************************************************************
1437     * Layout routines
1438 bertho 1.19 *
1439     * Branch BBox:
1440     * left = center_x - total_width / 2 (cx-tw)/2
1441     * right = center_x + total_width / 2 (cx+tw)/2
1442     * top = y_pos (y)
1443     * bottom = y_pos + total_height (y+th)
1444     *
1445     * Margins of branches:
1446     *
1447     * . .
1448     * . .
1449     * +--------------+
1450     * ^
1451     * | branch_margin .
1452     * v .
1453     * ----------------+ .
1454     * | ^ |
1455     * | | branch_connect |
1456     * | v |
1457     *..-+ +t-----+------+ +------+------+
1458     * | l | | |
1459     * | <--> | branch bbox | <--> | branch bbox |
1460     * | | | r | | |
1461     *..-+ | +------------b+ | +-------------+
1462     * | ^ branch_margin
1463     * | | branch_margin
1464     * | v
1465     * | +-------------+
1466     * | . .
1467     * | . .
1468     * |
1469     * branch_margin
1470     *
1471     * FIXME: There are probable som +/-1 errors in the code...
1472     * (notably shadows are not calculated in the margins)
1473 bertho 1.7 **************************************************************************
1474     */
1475 bertho 1.19 static void move_branch(branch_t *b, int x, int y)
1476 bertho 1.1 {
1477     int i;
1478 bertho 1.7 b->cx += x;
1479 bertho 1.1 b->y += y;
1480     for(i = 0; i < b->nrevs; i++)
1481     {
1482 bertho 1.7 b->revs[i]->cx += x;
1483 bertho 1.1 b->revs[i]->y += y;
1484     }
1485     }
1486    
1487 bertho 1.19 static void initial_reposition_branch(revision_t *r, int *x, int *w)
1488 bertho 1.6 {
1489     int i, j;
1490     for(j = 0; j < r->nbranches; j++)
1491     {
1492     branch_t *b = r->branches[j];
1493 bertho 1.7 *x += *w + conf.rev_minline + b->tw/2 - b->cx;
1494 bertho 1.6 *w = b->tw/2;
1495 bertho 1.7 move_branch(b, *x, r->y + r->h/2 + conf.branch_connect);
1496     *x = b->cx;
1497 bertho 1.6 /* Recurse to move branches of branched revisions */
1498     for(i = b->nrevs-1; i >= 0; i--)
1499     {
1500 bertho 1.18 initial_reposition_branch(b->revs[i], x, w);
1501 bertho 1.6 }
1502     }
1503     }
1504    
1505 bertho 1.25 static void initial_reposition_branch_lr(revision_t *r, int *y, int *h)
1506     {
1507     int i, j;
1508     for(j = 0; j < r->nbranches; j++)
1509     {
1510     branch_t *b = r->branches[j];
1511     *y += *h + conf.rev_minline + b->th/2 - b->y;
1512     *h = b->th/2;
1513     move_branch(b, r->cx + r->w/2 + conf.branch_connect, *y);
1514     *y = b->y;
1515     /* Recurse to move branches of branched revisions */
1516     for(i = b->nrevs-1; i >= 0; i--)
1517     {
1518     initial_reposition_branch(b->revs[i], y, h);
1519     }
1520     }
1521     }
1522    
1523 bertho 1.19 static void rect_union(int *x, int *y, int *w, int *h, branch_t *b)
1524 bertho 1.1 {
1525     int x1 = *x;
1526     int x2 = x1 + *w;
1527     int y1 = *y;
1528     int y2 = y1 + *h;
1529 bertho 1.25 int xx1;
1530     int xx2;
1531     int yy1;
1532     int yy2;
1533    
1534     if(conf.left_right)
1535     {
1536     xx1 = b->cx;
1537     yy1 = b->y - b->th/2;
1538     }
1539     else
1540     {
1541     xx1 = b->cx - b->tw/2;
1542     yy1 = b->y;
1543     }
1544     xx2 = xx1 + b->tw;
1545     yy2 = yy1 + b->th;
1546    
1547 bertho 1.1 x1 = MIN(x1, xx1);
1548     x2 = MAX(x2, xx2);
1549     y1 = MIN(y1, yy1);
1550     y2 = MAX(y2, yy2);
1551     *x = x1;
1552     *y = y1;
1553     *w = x2 - x1;
1554     *h = y2 - y1;
1555     }
1556    
1557 bertho 1.19 static int branch_intersects(int top, int bottom, int left, branch_t *b)
1558 bertho 1.7 {
1559     int br = b->cx + b->tw/2;
1560     int bt = b->y - conf.branch_connect - conf.branch_margin/2;
1561     int bb = b->y + b->th + conf.branch_margin/2;
1562     return !(bt > bottom || bb < top || br >= left);
1563     }
1564    
1565 bertho 1.25 static int branch_intersects_lr(int left, int right, int top, branch_t *b)
1566     {
1567     int bt = b->y + b->th/2;
1568     int bl = b->cx - conf.branch_connect - conf.branch_margin/2;
1569     int br = b->cx + b->tw + conf.branch_margin/2;
1570     return !(bl > right || br < left || bt >= top);
1571     }
1572    
1573 bertho 1.19 static int kern_branch(rcsfile_t *rcs, branch_t *b)
1574 bertho 1.7 {
1575     int left = b->cx - b->tw/2;
1576     int top = b->y - conf.branch_connect - conf.branch_margin/2;
1577     int bottom = b->y + b->th + conf.branch_margin/2;
1578     int i;
1579     int xpos = 0;
1580    
1581     for(i = 0; i < rcs->nbranches; i++)
1582     {
1583     branch_t *bp = rcs->branches[i];
1584     if(bp == b)
1585     continue;
1586     if(branch_intersects(top, bottom, left, bp))
1587     {
1588     int m = bp->cx + bp->tw/2 + conf.branch_margin;
1589     if(m > xpos)
1590     xpos = m;
1591     }
1592     }
1593     if(xpos && (b->cx - b->tw/2) - xpos > 0)
1594     {
1595     move_branch(b, xpos - (b->cx - b->tw/2), 0);
1596     return 1;
1597     }
1598     return 0;
1599     }
1600    
1601 bertho 1.25 static int kern_branch_lr(rcsfile_t *rcs, branch_t *b)
1602     {
1603     int top = b->y - b->th/2;
1604     int left = b->cx - conf.branch_connect - conf.branch_margin/2;
1605     int right = b->cx + b->tw + conf.branch_margin/2;
1606     int i;
1607     int ypos = 0;
1608    
1609     for(i = 0; i < rcs->nbranches; i++)
1610     {
1611     branch_t *bp = rcs->branches[i];
1612     if(bp == b)
1613     continue;
1614     if(branch_intersects_lr(left, right, top, bp))
1615     {
1616     int m = bp->y + bp->th/2 + conf.branch_margin;
1617     if(m > ypos)
1618     ypos = m;
1619     }
1620     }
1621     if(ypos && (b->y - b->th/2) - ypos > 0)
1622     {
1623     move_branch(b, 0, ypos - (b->y - b->th/2));
1624     return 1;
1625     }
1626     return 0;
1627     }
1628    
1629 bertho 1.19 static int kern_tree(rcsfile_t *rcs)
1630 bertho 1.18 {
1631     int i;
1632     int moved;
1633 bertho 1.19 int safeguard;
1634     int totalmoved = 0;
1635     for(moved = 1, safeguard = LOOPSAFEGUARD; moved && safeguard; safeguard--)
1636 bertho 1.18 {
1637     moved = 0;
1638     for(i = 1; i < rcs->nbranches; i++)
1639     {
1640 bertho 1.25 if(conf.left_right)
1641     moved += kern_branch_lr(rcs, rcs->branches[i]);
1642     else
1643     moved += kern_branch(rcs, rcs->branches[i]);
1644 bertho 1.18 }
1645 bertho 1.19 totalmoved += moved;
1646 bertho 1.18 #ifdef DEBUG
1647     fprintf(stderr, "kern_tree: moved=%d\n", moved);
1648     #endif
1649     }
1650 bertho 1.19 if(!quiet && !safeguard)
1651     fprintf(stderr, "kern_tree: safeguard terminated possible infinite loop; please report.\n");
1652     return totalmoved;
1653     }
1654    
1655     static int index_of_revision(revision_t *r)
1656     {
1657     branch_t *b = r->branch;
1658     int i;
1659     for(i = 0; i < b->nrevs; i++)
1660     {
1661     if(r == b->revs[i])
1662     return i;
1663     }
1664     fprintf(stderr, "index_of_revision: Cannot find revision in branch\n");
1665     return 0;
1666 bertho 1.18 }
1667    
1668 bertho 1.19 static void branch_bbox(branch_t *br, int *l, int *r, int *t, int *b)
1669     {
1670     if(l) *l = br->cx - br->tw/2;
1671     if(r) *r = br->cx + br->tw/2;
1672     if(t) *t = br->y;
1673     if(b) *b = br->y + br->th + (conf.branch_dupbox ? conf.rev_minline + br->h : 0);
1674     }
1675    
1676     static void branch_ext_bbox(branch_t *br, int *l, int *r, int *t, int *b)
1677     {
1678     int extra = conf.branch_margin & 1; /* Correct +/-1 error on div 2 */
1679     branch_bbox(br, l, r, t, b);
1680     if(l) *l -= conf.branch_margin/2;
1681     if(r) *r += conf.branch_margin/2 + extra;
1682     if(t) *t -= conf.branch_connect + conf.branch_margin/2;
1683     if(b) *b += conf.branch_margin/2 + extra;
1684     }
1685    
1686     static int branch_distance(branch_t *br1, branch_t *br2)
1687     {
1688     int l1, r1, t1, b1;
1689     int l2, r2, t2, b2;
1690     assert(br1 != NULL);
1691     assert(br2 != NULL);
1692     branch_bbox(br1, &l1, &r1, NULL, NULL);
1693     branch_bbox(br2, &l2, &r2, NULL, NULL);
1694     branch_ext_bbox(br1, NULL, NULL, &t1, &b1);
1695     branch_ext_bbox(br2, NULL, NULL, &t2, &b2);
1696     /* Return:
1697     * - 0 if branches have no horizontal overlap
1698     * - positive if b1 is left of b2
1699     * - negative if b2 is left of b1
1700     */
1701     if((t1 > t2 && t1 < b2) || (b1 > t2 && b1 < b2))
1702     return l1 < l2 ? l2 - r1 : -(l1 - r2);
1703     else
1704     return 0;
1705     }
1706    
1707     static int space_needed(branch_t *br1, branch_t *br2)
1708     {
1709     int t1, b1;
1710     int t2, b2;
1711     assert(br1 != NULL);
1712     assert(br2 != NULL);
1713     assert(br1->cx < br2->cx); /* br1 must be left of br2 */
1714     branch_ext_bbox(br1, NULL, NULL, &t1, &b1);
1715     branch_ext_bbox(br2, NULL, NULL, &t2, &b2);
1716     /* Return:
1717     * - positive if top br1 is located lower than br2
1718     * - negatve is top br2 is located lower than br1
1719     */
1720     if(t1 > t2)
1721     return -(t1 - b2);
1722     else
1723     return t2 - b1;
1724     }
1725    
1726     static void move_yr_branch(branch_t *b, int dy)
1727 bertho 1.18 {
1728     int i, j;
1729     #ifdef DEBUG
1730 bertho 1.23 /* fprintf(stderr, "move_yr_branch: b=%s, dy=%d\n", b->branch->branch, dy);*/
1731 bertho 1.18 #endif
1732 bertho 1.19 b->y += dy;
1733     for(i = 0; i < b->nrevs; i++)
1734 bertho 1.18 {
1735 bertho 1.19 b->revs[i]->y += dy;
1736     for(j = 0; j < b->revs[i]->nbranches; j++)
1737 bertho 1.18 {
1738 bertho 1.19 #ifdef DEBUG
1739 bertho 1.23 /* fprintf(stderr, ".");*/
1740 bertho 1.19 #endif
1741     move_yr_branch(b->revs[i]->branches[j], dy);
1742 bertho 1.18 }
1743     }
1744     }
1745    
1746 bertho 1.19 static void move_trunk(revision_t *r, int dy)
1747 bertho 1.18 {
1748 bertho 1.19 int i, j;
1749 bertho 1.18 branch_t *b = r->branch;
1750 bertho 1.19 b->th += dy;
1751     for(i = index_of_revision(r); i < b->nrevs; i++)
1752 bertho 1.18 {
1753 bertho 1.19 #ifdef DEBUG
1754     fprintf(stderr, "move_trunk: start %s, moving %s by %d (b's %d)\n", r->rev->rev, b->revs[i]->rev->rev, dy, b->revs[i]->nbranches);
1755     #endif
1756     b->revs[i]->y += dy;
1757     for(j = 0; j < b->revs[i]->nbranches; j++)
1758     {
1759     move_yr_branch(b->revs[i]->branches[j], dy);
1760     }
1761 bertho 1.18 }
1762     }
1763    
1764 bertho 1.19 static int space_below(rcsfile_t *rcs, revision_t *r)
1765 bertho 1.18 {
1766 bertho 1.19 int i, j;
1767     int bl, br, bb;
1768 bertho 1.18 int space = INT_MAX;
1769 bertho 1.19 branch_t *b = r->branch;
1770     branch_t *minb = NULL;
1771    
1772     branch_ext_bbox(b, &bl, &br, NULL, &bb);
1773 bertho 1.18 for(i = 0; i < rcs->nbranches; i++)
1774     {
1775 bertho 1.19 int tbl, tbr, tbt;
1776 bertho 1.18 branch_t *tb = rcs->branches[i];
1777 bertho 1.19 branch_ext_bbox(tb, &tbl, &tbr, &tbt, NULL);
1778 bertho 1.18 if(tb == b)
1779     continue;
1780 bertho 1.19 if(tbt > bb) /* Must be below our branch */
1781 bertho 1.18 {
1782 bertho 1.19 if(tb->branchpoint) /* Take account for the horiz connector */
1783     tbl = tb->branchpoint->cx + tb->branchpoint->branch->tw/2;
1784     if((bl >= tbl && bl <= tbr) || (br <= tbr && br >= tbl))
1785 bertho 1.18 {
1786 bertho 1.19 int s = tbt - bb - conf.branch_connect;
1787     if(s < space)
1788 bertho 1.18 {
1789 bertho 1.19 space = s;
1790     minb = tb;
1791 bertho 1.18 }
1792     }
1793     }
1794     }
1795 bertho 1.19 if(b->branchpoint)
1796     {
1797     for(i = index_of_revision(r); i < b->nrevs; i++)
1798     {
1799     for(j = 0; j < b->revs[i]->nbranches; j++)
1800     {
1801     int s = space_below(rcs, b->revs[i]->branches[j]->revs[0]);
1802     if(s < space)
1803     space = s;
1804     }
1805     }
1806     }
1807     #ifdef DEBUG
1808     fprintf(stderr, "space_below: from %s have %d to %s\n", b->branch->branch, space, minb ? minb->branch->branch : "<recursed>");
1809     #endif
1810 bertho 1.18 return space;
1811     }
1812    
1813 bertho 1.19 static int space_available(rcsfile_t *rcs, branch_t *colbr, branch_t *tagbr, int *nl, revision_t **bpcommon)
1814 bertho 1.18 {
1815 bertho 1.19 int i;
1816     int space = 0;
1817     int nlinks = 0;
1818     revision_t *r;
1819     branch_t *b;
1820     branch_t *ancestor;
1821     revision_t *branchpoint;
1822    
1823     if(!tagbr->branchpoint || !colbr->branchpoint)
1824 bertho 1.18 {
1825 bertho 1.19 if(!quiet)
1826     fprintf(stderr, "space_available: Trying to stretch the top?\n");
1827     return 0;
1828 bertho 1.18 }
1829 bertho 1.19
1830     r = colbr->branchpoint;
1831     b = r->branch;
1832     branchpoint = tagbr->branchpoint;
1833     ancestor = branchpoint->branch;
1834     assert(b != NULL);
1835     assert(ancestor != NULL);
1836    
1837     while(1)
1838 bertho 1.18 {
1839 bertho 1.19 int s;
1840     int rtag = b == ancestor ? index_of_revision(branchpoint)+1 : 0;
1841     for(i = index_of_revision(r); i >= rtag; i--)
1842 bertho 1.18 {
1843 bertho 1.19 if(i > 0)
1844     s = b->revs[i]->y - (b->revs[i-1]->y + b->revs[i-1]->h);
1845     else
1846     s = b->revs[i]->y - (b->y + b->h);
1847     if(s < conf.rev_maxline)
1848     {
1849     space += conf.rev_maxline - s;
1850     nlinks++;
1851     }
1852 bertho 1.18 }
1853 bertho 1.19 s = space_below(rcs, r);
1854     if(s < space)
1855     space = s;
1856     #ifdef DEBUG
1857     if(space < 0)
1858     return -1;
1859     #endif
1860     if(b == ancestor)
1861     break;
1862     r = b->branchpoint;
1863     if(!r)
1864     {
1865     /* Not a common ancestor */
1866     r = colbr->branchpoint;
1867     b = r->branch;
1868     branchpoint = ancestor->branchpoint;
1869     if(!branchpoint)
1870     {
1871     if(!quiet)
1872     fprintf(stderr, "space_available: No common ancestor?\n");
1873     return 0;
1874     }
1875     ancestor = branchpoint->branch;
1876     assert(ancestor != NULL);
1877     nlinks = 0;
1878     space = 0;
1879     continue; /* Restart with a new ancestor */
1880     }
1881     b = r->branch;
1882     }
1883     if(nl)
1884     *nl = nlinks; /* Return the number of links that can stretch */
1885     if(bpcommon)
1886     *bpcommon = branchpoint; /* Return the ancestral branchpoint on the common branch */
1887     return space;
1888 bertho 1.18 }
1889    
1890 bertho 1.19 static int stretch_branches(rcsfile_t *rcs, branch_t *br1, branch_t *br2, int totalstretch)
1891 bertho 1.18 {
1892 bertho 1.19 revision_t *r;
1893     revision_t *bpcommon = NULL;
1894     branch_t *ancestor = NULL;
1895     branch_t *b;
1896 bertho 1.18 int i;
1897 bertho 1.19 int space;
1898     int nlinks;
1899     int dy;
1900     int rest;
1901    
1902     space = space_available(rcs, br1, br2, &nlinks, &bpcommon);
1903     if(bpcommon)
1904     ancestor = bpcommon->branch;
1905    
1906     #ifdef DEBUG
1907     if(space == -1)
1908     return 0;
1909     fprintf(stderr, "stretch_branches: space available %d over %d links common %s\n", space, nlinks, ancestor->branch->branch);
1910     #endif
1911     if(space < totalstretch)
1912     return 0;
1913    
1914     dy = totalstretch / nlinks;
1915     rest = totalstretch - dy * nlinks;
1916    
1917     r = br1->branchpoint;
1918     b = r->branch;
1919     while(1)
1920 bertho 1.18 {
1921 bertho 1.19 int rtag = b == ancestor ? index_of_revision(bpcommon)+1 : 0;
1922     for(i = index_of_revision(r); i >= rtag; i--)
1923     {
1924     int s, q;
1925     if(i > 0)
1926     s = b->revs[i]->y - (b->revs[i-1]->y + b->revs[i-1]->h);
1927     else
1928     s = b->revs[i]->y - (b->y + b->h);
1929     q = conf.rev_maxline - s;
1930     if(q > 0)
1931     {
1932     int d = rest ? rest/nlinks+1 : 0;
1933     if(q >= dy+d)
1934     {
1935     move_trunk(b->revs[i], dy+d);
1936     }
1937     else
1938     {
1939     move_trunk(b->revs[i], q);
1940     rest += dy+d - q;
1941     }
1942     rest -= d;
1943     nlinks--;
1944     }
1945     }
1946     if(b == ancestor)
1947     break;
1948     r = b->branchpoint;
1949     assert(r != NULL); /* else 'space_available' wouldn't have returned positively */
1950     b = r->branch;
1951 bertho 1.18 }
1952 bertho 1.19 return 1;
1953 bertho 1.18 }
1954    
1955 bertho 1.19 static branch_t *find_collision_branch(rcsfile_t *rcs, branch_t *b)
1956 bertho 1.18 {
1957     int i;
1958 bertho 1.19 int dist = INT_MAX;
1959     branch_t *col = NULL;
1960    
1961 bertho 1.18 for(i = 0; i < rcs->nbranches; i++)
1962     {
1963 bertho 1.19 int t = branch_distance(rcs->branches[i], b);
1964     if(t > 0 && t < dist)
1965 bertho 1.18 {
1966 bertho 1.19 dist = t;
1967     col = rcs->branches[i];
1968 bertho 1.18 }
1969     }
1970 bertho 1.19 return col;
1971 bertho 1.18 }
1972    
1973 bertho 1.19 void auto_stretch(rcsfile_t *rcs)
1974 bertho 1.18 {
1975 bertho 1.19 int i;
1976     int safeguard;
1977 bertho 1.18
1978 bertho 1.19 for(i = 0, safeguard = LOOPSAFEGUARD; i < rcs->nbranches && safeguard; i++)
1979 bertho 1.18 {
1980 bertho 1.19 int bl, pr;
1981     branch_t *b = rcs->branches[i];
1982     if(!b->branchpoint)
1983     continue;
1984     branch_bbox(b, &bl, NULL, NULL, NULL);
1985     branch_bbox(b->branchpoint->branch, NULL, &pr, NULL, NULL);
1986     if(bl - conf.branch_margin - pr > 0)
1987 bertho 1.18 {
1988 bertho 1.19 branch_t *col;
1989 bertho 1.18 int spaceneeded;
1990 bertho 1.19 /* There is a potential to move branch b further left.
1991     * All branches obstructing this one from moving further
1992     * left must be originating from revisions below
1993     * b->branchpoint until a common ancester.
1994     * So, we search all branches for a branch that lies left
1995     * of b and is closest to b. This is then the collission
1996     * branch that needs to be moved.
1997     */
1998     col = find_collision_branch(rcs, b);
1999     if(!col)
2000 bertho 1.18 continue;
2001 bertho 1.19 spaceneeded = space_needed(col, b);
2002     if(spaceneeded < 0)
2003     continue;
2004     #ifdef DEBUG
2005     fprintf(stderr, "auto_stretch: %s collides %s need %d\n", b->branch->branch, col->branch->branch, spaceneeded);
2006     #endif
2007     /* Trace the collision branch back to find the common ancester
2008     * of both col and b. All revisions encountered while traversing
2009     * backwards must be stretched, including all revisions on the
2010     * common ancester from where the branches sprout.
2011     */
2012     if(stretch_branches(rcs, col, b, spaceneeded))
2013 bertho 1.18 {
2014 bertho 1.19 if(kern_tree(rcs))
2015     {
2016     /* Restart the process because movement can
2017     * cause more movement.
2018     */
2019     i = 0 - 1; /* -1 for the i++ of the loop */
2020     safeguard--; /* Prevent infinite loop, just in case */
2021     }
2022 bertho 1.23 /*return;*/
2023 bertho 1.18 }
2024     }
2025     }
2026 bertho 1.19 if(!quiet && !safeguard)
2027     fprintf(stderr, "auto_stretch: safeguard terminated possible infinite loop; please report.\n");
2028 bertho 1.18 }
2029    
2030 bertho 1.7 void make_layout(rcsfile_t *rcs)
2031 bertho 1.1 {
2032     int i, j;
2033     int x, y;
2034     int w, h;
2035     int w2;
2036    
2037 bertho 1.16 /* Remove all unwanted revisions */
2038     if(conf.strip_untagged)
2039     {
2040 bertho 1.21 int fr = conf.strip_first_rev ? 0 : 1;
2041 bertho 1.16 for(i = 0; i < rcs->nbranches; i++)
2042     {
2043     branch_t *bp = rcs->branches[i];
2044 bertho 1.18 for(j = fr; j < bp->nrevs-1; j++)
2045 bertho 1.16 {
2046     if(!bp->revs[j]->ntags && !bp->revs[j]->nbranches)
2047     {
2048     memmove(&bp->revs[j], &bp->revs[j+1], (bp->nrevs-j-1) * sizeof(bp->revs[0]));
2049     bp->nrevs--;
2050 bertho 1.17 bp->revs[j]->stripped = 1;
2051 bertho 1.16 j--;
2052     }
2053     }
2054     }
2055     }
2056    
2057 bertho 1.1 /* Calculate the box-sizes of the revisions */
2058 bertho 1.7 for(i = 0; i < rcs->nsrev; i++)
2059 bertho 1.1 {
2060     revision_t *rp;
2061     int w;
2062     int h;
2063 bertho 1.7 rp = rcs->srev[i];
2064 bertho 1.9 rp->revtext = expand_string(conf.rev_text, rcs, rp, rp->rev, NULL, rp->ntags ? rp->tags[0] : NULL);
2065     w = get_swidth(rp->revtext, &conf.rev_text_font);
2066     j = get_swidth(rp->rev->rev, &conf.rev_font);
2067     if(j > w)
2068     w = j;
2069     h = get_sheight(rp->revtext, &conf.rev_text_font) + get_sheight(rp->rev->rev, &conf.rev_font);
2070 bertho 1.1 for(j = 0; j < rp->ntags; j++)
2071     {
2072     int ww = get_swidth(rp->tags[j]->tag, &conf.tag_font);
2073     if(ww > w) w = ww;
2074     h += get_sheight(rp->tags[j]->tag, &conf.tag_font) + conf.rev_separator;
2075     }
2076     rp->w = w + conf.rev_lspace + conf.rev_rspace;
2077     rp->h = h + conf.rev_tspace + conf.rev_bspace;
2078     }
2079    
2080     /* Calculate the box-sizes of the branches */
2081     for(i = 0; i < rcs->nbranches; i++)
2082     {
2083     branch_t *bp = rcs->branches[i];
2084     int w;
2085     int h;
2086 bertho 1.7 w = get_swidth(bp->branch->branch, &conf.branch_font);
2087     h = get_sheight(bp->branch->branch, &conf.branch_font);
2088     for(j = 0; j < bp->ntags; j++)
2089 bertho 1.1 {
2090 bertho 1.19 int ww = get_swidth(bp->tags[j]->tag, &conf.branch_tag_font);
2091 bertho 1.1 if(ww > w) w = ww;
2092 bertho 1.19 h += get_sheight(bp->tags[j]->tag, &conf.branch_tag_font);
2093 bertho 1.1 }
2094     w += conf.branch_lspace + conf.branch_rspace;
2095     h += conf.branch_tspace + conf.branch_bspace;
2096     bp->w = w;
2097     bp->h = h;
2098 bertho 1.25 if(conf.left_right)
2099     {
2100     for(j = 0; j < bp->nrevs; j++)
2101     {
2102     if(bp->revs[j]->h > h)
2103     h = bp->revs[j]->h;
2104     w += bp->revs[j]->w + conf.rev_minline;
2105     }
2106     if(conf.branch_dupbox)
2107     w += bp->w + conf.rev_minline;
2108     }
2109     else
2110 bertho 1.1 {
2111 bertho 1.25 for(j = 0; j < bp->nrevs; j++)
2112     {
2113     if(bp->revs[j]->w > w)
2114     w = bp->revs[j]->w;
2115     h += bp->revs[j]->h + conf.rev_minline;
2116     }
2117     if(conf.branch_dupbox)
2118     h += bp->h + conf.rev_minline;
2119 bertho 1.1 }
2120     bp->th = h;
2121     bp->tw = w;
2122     }
2123    
2124     /* Calculate the relative positions of revs in a branch */
2125 bertho 1.25 if(conf.left_right)
2126     {
2127     for(i = 0; i < rcs->nbranches; i++)
2128     {
2129     branch_t *b = rcs->branches[i];
2130     y = b->th/2;
2131     x = b->w;
2132     b->y = y;
2133     b->cx = 0;
2134     for(j = 0; j < b->nrevs; j++)
2135     {
2136     x += conf.rev_minline;
2137     b->revs[j]->y = y;
2138     b->revs[j]->cx = x;
2139     x += b->revs[j]->w;
2140     }
2141     }
2142     }
2143     else
2144 bertho 1.1 {
2145 bertho 1.25 for(i = 0; i < rcs->nbranches; i++)
2146     {
2147     branch_t *b = rcs->branches[i];
2148     x = b->tw/2;
2149     y = b->h;
2150     b->cx = x;
2151     b->y = 0;
2152     for(j = 0; j < b->nrevs; j++)
2153     {
2154     y += conf.rev_minline;
2155     b->revs[j]->cx = x;
2156     b->revs[j]->y = y;
2157     y += b->revs[j]->h;
2158     }
2159 bertho 1.1 }
2160     }
2161    
2162 bertho 1.18 /* Initially reposition the branches from bottom to top progressively right */
2163 bertho 1.25 if(conf.left_right)
2164     {
2165     x = rcs->branches[0]->y;
2166     w2 = rcs->branches[0]->th / 2;
2167     for(i = rcs->branches[0]->nrevs-1; i >= 0; i--)
2168     {
2169     initial_reposition_branch_lr(rcs->branches[0]->revs[i], &x, &w2);
2170     }
2171     }
2172     else
2173 bertho 1.1 {
2174 bertho 1.25 x = rcs->branches[0]->cx;
2175     w2 = rcs->branches[0]->tw / 2;
2176     for(i = rcs->branches[0]->nrevs-1; i >= 0; i--)
2177     {
2178     initial_reposition_branch(rcs->branches[0]->revs[i], &x, &w2);
2179     }
2180 bertho 1.1 }
2181    
2182 bertho 1.19 /* Initially move branches left if there is room */
2183     kern_tree(rcs);
2184    
2185 bertho 1.18 /* Try to kern the branches more by expanding the inter-revision spacing */
2186 bertho 1.25 if(conf.auto_stretch && !conf.left_right)
2187 bertho 1.19 auto_stretch(rcs);
2188 bertho 1.7
2189     /* Move everything w.r.t. the top-left margin */
2190 bertho 1.1 for(i = 0; i < rcs->nbranches; i++)
2191     move_branch(rcs->branches[i], conf.margin_left, conf.margin_top);
2192    
2193     /* Calculate overall image size */
2194 bertho 1.25 if(conf.left_right)
2195     {
2196     x = rcs->branches[0]->cx;
2197     y = rcs->branches[0]->y - rcs->branches[0]->th/2;
2198     }
2199     else
2200     {
2201     x = rcs->branches[0]->cx - rcs->branches[0]->tw/2;
2202     y = rcs->branches[0]->y;
2203     }
2204 bertho 1.1 w = rcs->branches[0]->tw;
2205     h = rcs->branches[0]->th;
2206     for(i = 1; i < rcs->nbranches; i++)
2207     rect_union(&x, &y, &w, &h, rcs->branches[i]);
2208     rcs->tw = w;
2209     rcs->th = h;
2210 bertho 1.16
2211     /* Flip the entire tree */
2212     if(conf.upside_down)
2213     {
2214 bertho 1.25 if(conf.left_right)
2215     {
2216     x += rcs->tw;
2217     for(i = 0; i < rcs->nbranches; i++)
2218     {
2219     branch_t *b = rcs->branches[i];
2220     for(j = 0; j < b->nrevs; j++)
2221     {
2222     revision_t *r = b->revs[j];
2223     r->cx = x - r->cx - r->w + conf.margin_top;
2224     }
2225     b->cx = x - b->cx - b->w + conf.margin_top;
2226     }
2227     }
2228     else
2229 bertho 1.16 {
2230 bertho 1.25 y += rcs->th;
2231     for(i = 0; i < rcs->nbranches; i++)
2232 bertho 1.16 {
2233 bertho 1.25 branch_t *b = rcs->branches[i];
2234     for(j = 0; j < b->nrevs; j++)
2235     {
2236     revision_t *r = b->revs[j];
2237     r->y = y - r->y - r->h + conf.margin_top;
2238     }
2239     b->y = y - b->y - b->h + conf.margin_top;
2240 bertho 1.16 }
2241     }
2242     }
2243 bertho 1.1 }
2244    
2245     /*
2246     **************************************************************************
2247 bertho 1.6 * Imagemap functions
2248     **************************************************************************
2249     */
2250 bertho 1.7 void make_imagemap(rcsfile_t *rcs, FILE *fp)
2251 bertho 1.6 {
2252     int i, j;
2253     fprintf(fp, "<map name=\"%s\">\n", conf.map_name);
2254     for(i = 0; i < rcs->nbranches; i++)
2255     {
2256     branch_t *b = rcs->branches[i];
2257 bertho 1.8 tag_t *tag = b->ntags ? b->tags[0] : NULL;
2258 bertho 1.16 char *bhref = expand_string(conf.map_branch_href, rcs, NULL, b->branch, NULL, tag);
2259     char *balt = expand_string(conf.map_branch_alt, rcs, NULL, b->branch, NULL, tag);
2260 bertho 1.8 fprintf(fp, "\t<area shape=\"rect\" %s coords=\"%d,%d,%d,%d\" %s>\n",
2261 bertho 1.16 bhref,
2262 bertho 1.7 b->cx - b->w/2, b->y, b->cx + b->w/2, b->y + b->h,
2263 bertho 1.16 balt);
2264 bertho 1.6 for(j = 0; j < b->nrevs; j++)
2265     {
2266     revision_t *r = b->revs[j];
2267 bertho 1.13 revision_t* r1;
2268     int xoff;
2269     int x1;
2270     int x2;
2271     int y1;
2272 bertho 1.16 int y2;
2273     char *href;
2274     char *alt;
2275 bertho 1.13
2276 bertho 1.8 tag = r->ntags ? r->tags[0] : NULL;
2277 bertho 1.9 href = expand_string(conf.map_rev_href, rcs, r, r->rev, NULL, tag);
2278     alt = expand_string(conf.map_rev_alt, rcs, r, r->rev, NULL, tag);
2279 bertho 1.8 fprintf(fp, "\t<area shape=\"rect\" %s coords=\"%d,%d,%d,%d\" %s>\n",
2280     href,
2281 bertho 1.7 r->cx - r->w/2, r->y, r->cx + r->w/2, r->y + r->h,
2282 bertho 1.8 alt);
2283     xfree(href);
2284     xfree(alt);
2285 bertho 1.16 if(j > 0 || b->branchpoint)
2286 bertho 1.9 {
2287 bertho 1.16 if(j > 0)
2288     {
2289     r1 = b->revs[j-1];
2290     xoff = MIN(r->w, r1->w)/4;
2291     y1 = conf.upside_down ? r1->y : r1->y + r1->h;
2292     }
2293     else
2294     {
2295     r1 = b->branchpoint;
2296     xoff = MIN(r->w, b->w)/4;
2297     y1 = conf.upside_down ? b->y : b->y + b->h;
2298     }
2299     x1 = r->cx - xoff;
2300     x2 = r->cx + xoff;
2301     y2 = conf.upside_down ? r->y + r->h : r->y;
2302     href = expand_string(conf.map_diff_href, rcs, r, r->rev, r1->rev, tag);
2303     alt = expand_string(conf.map_diff_alt, rcs, r, r->rev, r1->rev, tag);
2304     fprintf(fp, "\t<area shape=\"rect\" %s coords=\"%d,%d,%d,%d\" %s>\n",
2305     href,
2306 bertho 1.22 x1, (conf.upside_down ? y2 : y1) + 1, x2, (conf.upside_down ? y1 : y2) - 1,
2307 bertho 1.16 alt);
2308     xfree(href);
2309     xfree(alt);
2310 bertho 1.9 }
2311 bertho 1.6 }
2312 bertho 1.17 if(conf.branch_dupbox)
2313 bertho 1.16 {
2314     int y;
2315     if(conf.upside_down)
2316     y = b->y + b->h - b->th;
2317     else
2318     y = b->y - b->h + b->th;
2319     fprintf(fp, "\t<area shape=\"rect\" %s coords=\"%d,%d,%d,%d\" %s>\n",
2320     bhref,
2321     b->cx - b->w/2, y, b->cx + b->w/2, y + b->h,
2322     balt);
2323     }
2324     xfree(bhref);
2325     xfree(balt);
2326 bertho 1.6 }
2327     fprintf(fp, "</map>\n");
2328     }
2329    
2330     /*
2331     **************************************************************************
2332 bertho 1.1 * Program entry
2333     **************************************************************************
2334     */
2335     static const char usage_str[] =
2336     "Usage: cvsgraph [options] <file>\n"
2337 bertho 1.16 " -b Add a branch box at both sides of the trunk (config value is negated)\n"
2338 bertho 1.8 " -c <file> Read alternative config from <file>\n"
2339     " -d <level> Enable debug mode at <level>\n"
2340     " -h This message\n"
2341     " -i Generate an imagemap instead of image\n"
2342 bertho 1.18 " -I <file> Also write the imagemap to <file>\n"
2343 bertho 1.19 " -k Auto stretch the tree (config value is negated)\n"
2344 bertho 1.8 " -M <name> Use <name> as imagemap name\n"
2345     " -m <mod> Use <mod> as cvs module\n"
2346     " -o <file> Output to <file>\n"
2347 bertho 1.18 " -O <opt=val> Set option opt to value val\n"
2348 bertho 1.8 " -q Be quiet (i.e. no warnings)\n"
2349     " -r <path> Use <path> as cvsroot path\n"
2350 bertho 1.16 " -s Strip untagged revisions (config value is negated)\n"
2351 bertho 1.18 " -S Also strip the first revision (config value is negated)\n"
2352 bertho 1.16 " -u Upside down image (mirror vertically; config value is negated)\n"
2353 bertho 1.8 " -V Print version and exit\n"
2354     " -[0-9] <txt> Use <txt> for expansion\n"
2355 bertho 1.1 ;
2356    
2357 bertho 1.22 #define VERSION_STR "1.2.1"
2358 bertho 1.20 #define NOTICE_STR "Copyright (c) 2001,2002 B.Stultiens"
2359 bertho 1.1
2360 bertho 1.19 static void append_slash(char **path)
2361 bertho 1.9 {
2362     int l;
2363     assert(path != NULL);
2364     assert(*path != NULL);
2365     l = strlen(*path);
2366     if(!l || (*path)[l-1] == '/')
2367     return;
2368     *path = xrealloc(*path, l+2);
2369     strcat(*path, "/");
2370     }
2371    
2372 bertho 1.1 int main(int argc, char *argv[])
2373     {
2374 bertho 1.7 extern int rcs_flex_debug;
2375     extern int rcsdebug;
2376 bertho 1.1 int optc;
2377     char *confpath = NULL;
2378     char *outfile = NULL;
2379     char *cvsroot = NULL;
2380     char *cvsmodule = NULL;
2381 bertho 1.7 int imagemap = 0;
2382 bertho 1.16 int upsidedown = 0;
2383 bertho 1.17 int bdupbox = 0;
2384 bertho 1.16 int stripuntag = 0;
2385 bertho 1.18 int stripfirst = 0;
2386 bertho 1.19 int autostretch = 0;
2387 bertho 1.7 char *imgmapname = NULL;
2388 bertho 1.18 char *imgmapfile = NULL;
2389 bertho 1.1 int lose = 0;
2390     FILE *fp;
2391 bertho 1.18 char *rcsfilename;
2392 bertho 1.7 rcsfile_t *rcs;
2393 bertho 1.1 gdImagePtr im;
2394    
2395 bertho 1.18 while((optc = getopt(argc, argv, "0:1:2:3:4:5:6:7:8:9:bc:d:hI:ikM:m:O:o:qr:SsuV")) != EOF)
2396 bertho 1.1 {
2397     switch(optc)
2398     {
2399 bertho 1.16 case 'b':
2400 bertho 1.17 bdupbox = 1;
2401 bertho 1.16 break;
2402 bertho 1.1 case 'c':
2403     confpath = xstrdup(optarg);
2404     break;
2405 bertho 1.7 case 'd':
2406     debuglevel = strtol(optarg, NULL, 0);
2407     break;
2408 bertho 1.18 case 'I':
2409     imgmapfile = xstrdup(optarg);
2410     break;
2411 bertho 1.6 case 'i':
2412 bertho 1.7 imagemap = 1;
2413     break;
2414 bertho 1.18 case 'k':
2415 bertho 1.19 autostretch = 1;
2416 bertho 1.18 break;
2417 bertho 1.7 case 'M':
2418     imgmapname = xstrdup(optarg);
2419 bertho 1.6 break;
2420 bertho 1.1 case 'm':
2421     cvsmodule = xstrdup(optarg);
2422     break;
2423 bertho 1.18 case 'O':
2424     stack_option(optarg);
2425     break;
2426 bertho 1.1 case 'o':
2427     outfile = xstrdup(optarg);
2428     break;
2429 bertho 1.7 case 'q':
2430     quiet = 1;
2431     break;
2432 bertho 1.1 case 'r':
2433     cvsroot = xstrdup(optarg);
2434     break;
2435 bertho 1.18 case 'S':
2436     stripfirst = 1;
2437     break;
2438 bertho 1.16 case 's':
2439     stripuntag = 1;
2440     break;
2441     case 'u':
2442     upsidedown = 1;
2443     break;
2444 bertho 1.1 case 'V':
2445     fprintf(stdout, "cvsgraph v%s, %s\n", VERSION_STR, NOTICE_STR);
2446     return 0;
2447     case 'h':
2448     fprintf(stdout, "%s", usage_str);
2449     return 0;
2450     default:
2451 bertho 1.8 if(isdigit(optc))
2452     {
2453     conf.expand[optc-'0'] = xstrdup(optarg);
2454     }
2455     else
2456     lose++;
2457 bertho 1.1 }
2458     }
2459    
2460     if(lose)
2461     {
2462     fprintf(stderr, "%s", usage_str);
2463     return 1;
2464     }
2465    
2466 bertho 1.7 if(debuglevel)
2467     {
2468     setvbuf(stdout, NULL, 0, _IONBF);
2469     setvbuf(stderr, NULL, 0, _IONBF);
2470     }
2471     rcs_flex_debug = (debuglevel & DEBUG_RCS_LEX) != 0;
2472     rcsdebug = (debuglevel & DEBUG_RCS_YACC) != 0;
2473    
2474 bertho 1.1 /* Set defaults */
2475 bertho 1.21 conf.tag_font.gdfont = gdFontTiny;
2476     conf.rev_font.gdfont = gdFontTiny;
2477     conf.branch_font.gdfont = gdFontTiny;
2478     conf.branch_tag_font.gdfont = gdFontTiny;
2479     conf.title_font.gdfont = gdFontTiny;
2480     conf.rev_text_font.gdfont = gdFontTiny;
2481    
2482 bertho 1.19 conf.anti_alias = 1;
2483 bertho 1.20 conf.thick_lines = 1;
2484 bertho 1.9
2485     conf.cvsroot = xstrdup("");
2486     conf.cvsmodule = xstrdup("");
2487     conf.date_format = xstrdup("%d-%b-%Y %H:%M:%S");
2488     conf.title = xstrdup("");
2489     conf.map_name = xstrdup("CvsGraphImageMap");
2490     conf.map_branch_href = xstrdup("href=\"unset: conf.map_branch_href\"");
2491     conf.map_branch_alt = xstrdup("alt=\"%B\"");
2492     conf.map_rev_href = xstrdup("href=\"unset: conf.map_rev_href\"");
2493     conf.map_rev_alt = xstrdup("alt=\"%R\"");
2494     conf.map_diff_href = xstrdup("href=\"unset: conf.map_diff_href\"");
2495 bertho 1.12 conf.map_diff_alt = xstrdup("alt=\"%P &lt;-&gt; %R\"");
2496 bertho 1.10 conf.rev_text = xstrdup("%d");
2497 bertho 1.9
2498     conf.color_bg = white_color;
2499     conf.branch_bgcolor = white_color;
2500     conf.branch_color = black_color;
2501 bertho 1.19 conf.branch_tag_color = black_color;
2502 bertho 1.9 conf.rev_color = black_color;
2503     conf.rev_bgcolor = white_color;
2504     conf.tag_color = black_color;
2505     conf.title_color = black_color;
2506     conf.rev_text_color = black_color;
2507 bertho 1.10
2508     conf.image_quality = 100;
2509 bertho 1.18 conf.rev_maxline = -1; /* Checked later to set to default */
2510    
2511     read_config(confpath);
2512 bertho 1.1
2513 bertho 1.18 if(conf.rev_maxline == -1) conf.rev_maxline = 5 * conf.rev_minline;
2514 bertho 1.1
2515     /* Set overrides */
2516 bertho 1.7 if(cvsroot) conf.cvsroot = cvsroot;
2517     if(cvsmodule) conf.cvsmodule = cvsmodule;
2518     if(imgmapname) conf.map_name = imgmapname;
2519 bertho 1.16 if(upsidedown) conf.upside_down = !conf.upside_down;
2520 bertho 1.17 if(bdupbox) conf.branch_dupbox = !conf.branch_dupbox;
2521 bertho 1.16 if(stripuntag) conf.strip_untagged = !conf.strip_untagged;
2522 bertho 1.18 if(stripfirst) conf.strip_first_rev = !conf.strip_first_rev;
2523 bertho 1.19 if(autostretch) conf.auto_stretch = !conf.auto_stretch;
2524 bertho 1.18
2525     if(conf.rev_minline >= conf.rev_maxline)
2526     {
2527 bertho 1.19 if(conf.auto_stretch && !quiet)
2528     fprintf(stderr, "Auto stretch is only possible if rev_minline < rev_maxline\n");
2529     conf.auto_stretch = 0;
2530 bertho 1.18 }
2531 bertho 1.20
2532     if(conf.thick_lines < 1)
2533     conf.thick_lines = 1;
2534     if(conf.thick_lines > 11)
2535     conf.thick_lines = 11;
2536 bertho 1.1
2537 bertho 1.9 append_slash(&conf.cvsroot);
2538     append_slash(&conf.cvsmodule);
2539    
2540 bertho 1.18 if(optind >= argc)
2541     {
2542     #ifdef __WIN32__
2543     /* Bad hack for DOS/Windows */
2544     if(setmode(fileno(stdin), O_BINARY) == -1)
2545     {
2546     perror("Set binary mode for stdin");
2547     return 1;
2548     }
2549     #endif
2550     rcsfilename = NULL;
2551     }
2552     else
2553     rcsfilename = argv[optind];
2554    
2555     rcs = get_rcsfile(conf.cvsroot, conf.cvsmodule, rcsfilename);
2556 bertho 1.1 if(!rcs)
2557     return 1;
2558    
2559 bertho 1.7 if(debuglevel & DEBUG_RCS_FILE)
2560     dump_rcsfile(rcs);
2561 bertho 1.1
2562 bertho 1.7 if(!reorganise_branches(rcs))
2563     return 1;
2564 bertho 1.1
2565 bertho 1.7 if(!assign_tags(rcs))
2566     return 1;
2567 bertho 1.1
2568     if(outfile)
2569     {
2570 bertho 1.15 if((fp = fopen(outfile, "wb")) == NULL)
2571 bertho 1.1 {
2572     perror(outfile);
2573     return 1;
2574     }
2575     }
2576     else
2577 bertho 1.15 {
2578 bertho 1.1 fp = stdout;
2579 bertho 1.15 #ifdef __WIN32__
2580     /* Bad hack for DOS/Windows */
2581     if(setmode(fileno(fp), O_BINARY) == -1)
2582     {
2583     perror("Set binary mode for stdout");
2584     return 1;
2585     }
2586     #endif
2587     }
2588 bertho 1.5
2589 bertho 1.7 make_layout(rcs);
2590    
2591     if(!imagemap)
2592 bertho 1.5 {
2593 bertho 1.7 /* Create an image */
2594     im = make_image(rcs);
2595    
2596     switch(conf.image_type)
2597     {
2598 bertho 1.5 #ifdef HAVE_IMAGE_GIF
2599 bertho 1.7 # ifndef HAVE_IMAGE_PNG
2600     default:
2601     # endif
2602     case IMAGE_GIF:
2603     gdImageGif(im, fp);
2604     break;
2605 bertho 1.5 #endif
2606     #ifdef HAVE_IMAGE_PNG
2607 bertho 1.7 default:
2608     case IMAGE_PNG:
2609     gdImagePng(im, fp);
2610     break;
2611 bertho 1.5 #endif
2612     #ifdef HAVE_IMAGE_JPEG
2613     # if !defined(HAVE_IMAGE_GIF) && !defined(HAVE_IMAGE_PNG)
2614 bertho 1.7 default:
2615 bertho 1.5 # endif
2616 bertho 1.7 case IMAGE_JPEG:
2617     gdImageJpeg(im, fp, conf.image_quality);
2618     break;
2619 bertho 1.5 #endif
2620 bertho 1.7 }
2621    
2622     gdImageDestroy(im);
2623     }
2624     else
2625     {
2626     /* Create an imagemap */
2627     make_imagemap(rcs, fp);
2628 bertho 1.18 }
2629    
2630     /* Also create imagemap to file if requested */
2631     if(imgmapfile)
2632     {
2633     FILE *ifp = fopen(imgmapfile, "wb");
2634     if(!ifp)
2635     {
2636     perror(imgmapfile);
2637     return 1;
2638     }
2639     make_imagemap(rcs, ifp);
2640     fclose(ifp);
2641 bertho 1.5 }
2642    
2643 bertho 1.1 if(outfile)
2644     fclose(fp);
2645 bertho 1.6
2646 bertho 1.1 return 0;
2647     }
2648    

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