Annotation of libwww/Library/src/HTML.c, revision 1.37
1.2 timbl 1: /* Structured stream to Rich hypertext converter
2: ** ============================================
1.1 timbl 3: **
1.2 timbl 4: ** This generates of a hypertext object. It converts from the
5: ** structured stream interface fro HTMl events into the style-
6: ** oriented iunterface of the HText.h interface. This module is
7: ** only used in clients and shouldnot be linked into servers.
1.1 timbl 8: **
1.6 timbl 9: ** Override this module if making a new GUI browser.
1.1 timbl 10: **
1.35 duns 11: ** HISTORY:
12: ** 8 Jul 94 FM Insulate free() from _free structure element.
13: **
1.1 timbl 14: */
1.16 timbl 15:
1.1 timbl 16: #include "HTML.h"
17:
1.16 timbl 18: /* #define CAREFUL Check nesting here not really necessary */
1.2 timbl 19:
1.1 timbl 20: #include <ctype.h>
21: #include <stdio.h>
22:
23: #include "HTAtom.h"
24: #include "HTChunk.h"
25: #include "HText.h"
26: #include "HTStyle.h"
27:
1.3 timbl 28: #include "HTAlert.h"
1.4 timbl 29: #include "HTMLGen.h"
1.8 timbl 30: #include "HTParse.h"
1.1 timbl 31:
32: extern HTStyleSheet * styleSheet; /* Application-wide */
33:
34: /* Module-wide style cache
35: */
36: PRIVATE int got_styles = 0;
1.16 timbl 37: PRIVATE HTStyle *styles[HTMLP_ELEMENTS];
1.2 timbl 38: PRIVATE HTStyle *default_style;
1.1 timbl 39:
40:
41: /* HTML Object
42: ** -----------
43: */
1.2 timbl 44: #define MAX_NESTING 20 /* Should be checked by parser */
45:
46: typedef struct _stack_element {
47: HTStyle * style;
48: int tag_number;
49: } stack_element;
50:
51: struct _HTStructured {
52: CONST HTStructuredClass * isa;
53: HTParentAnchor * node_anchor;
54: HText * text;
55:
56: HTStream* target; /* Output stream */
57: HTStreamClass targetClass; /* Output routines */
58:
59: HTChunk title; /* Grow by 128 */
60:
61: char * comment_start; /* for literate programming */
62: char * comment_end;
1.16 timbl 63:
64: CONST SGML_dtd* dtd;
65:
1.2 timbl 66: HTTag * current_tag;
67: BOOL style_change;
68: HTStyle * new_style;
69: HTStyle * old_style;
70: BOOL in_word; /* Have just had a non-white char */
71: stack_element stack[MAX_NESTING];
72: stack_element *sp; /* Style stack pointer */
1.1 timbl 73: };
74:
1.2 timbl 75: struct _HTStream {
76: CONST HTStreamClass * isa;
77: /* .... */
78: };
1.1 timbl 79:
80: /* Forward declarations of routines
81: */
82: PRIVATE void get_styles NOPARAMS;
83:
84:
1.4 timbl 85: PRIVATE void actually_set_style PARAMS((HTStructured * me));
1.11 timbl 86: PRIVATE void change_paragraph_style PARAMS((HTStructured * me, HTStyle * style));
1.1 timbl 87:
88: /* Style buffering avoids dummy paragraph begin/ends.
89: */
1.4 timbl 90: #define UPDATE_STYLE if (me->style_change) { actually_set_style(me); }
1.1 timbl 91:
92:
1.2 timbl 93: #ifdef OLD_CODE
1.1 timbl 94: /* The following accented characters are from peter Flynn, curia project */
95:
96: /* these ifdefs don't solve the problem of a simple terminal emulator
97: ** with a different character set to the client machine. But nothing does,
98: ** except looking at the TERM setting */
99:
1.2 timbl 100:
1.1 timbl 101: { "ocus" , "&" }, /* for CURIA */
102: #ifdef IBMPC
103: { "aacute" , "\240" }, /* For PC display */
104: { "eacute" , "\202" },
105: { "iacute" , "\241" },
106: { "oacute" , "\242" },
107: { "uacute" , "\243" },
108: { "Aacute" , "\101" },
109: { "Eacute" , "\220" },
110: { "Iacute" , "\111" },
111: { "Oacute" , "\117" },
112: { "Uacute" , "\125" },
113: #else
114: { "aacute" , "\341" }, /* Works for openwindows -- Peter Flynn */
115: { "eacute" , "\351" },
116: { "iacute" , "\355" },
117: { "oacute" , "\363" },
118: { "uacute" , "\372" },
119: { "Aacute" , "\301" },
120: { "Eacute" , "\310" },
121: { "Iacute" , "\315" },
122: { "Oacute" , "\323" },
123: { "Uacute" , "\332" },
124: #endif
125: { 0, 0 } /* Terminate list */
126: };
1.2 timbl 127: #endif
1.1 timbl 128:
129:
1.2 timbl 130: /* Entity values -- for ISO Latin 1 local representation
131: **
132: ** This MUST match exactly the table referred to in the DTD!
133: */
134: static char * ISO_Latin1[] = {
135: "\306", /* capital AE diphthong (ligature) */
136: "\301", /* capital A, acute accent */
137: "\302", /* capital A, circumflex accent */
138: "\300", /* capital A, grave accent */
139: "\305", /* capital A, ring */
140: "\303", /* capital A, tilde */
141: "\304", /* capital A, dieresis or umlaut mark */
142: "\307", /* capital C, cedilla */
143: "\320", /* capital Eth, Icelandic */
144: "\311", /* capital E, acute accent */
145: "\312", /* capital E, circumflex accent */
146: "\310", /* capital E, grave accent */
147: "\313", /* capital E, dieresis or umlaut mark */
148: "\315", /* capital I, acute accent */
149: "\316", /* capital I, circumflex accent */
150: "\314", /* capital I, grave accent */
151: "\317", /* capital I, dieresis or umlaut mark */
152: "\321", /* capital N, tilde */
153: "\323", /* capital O, acute accent */
154: "\324", /* capital O, circumflex accent */
155: "\322", /* capital O, grave accent */
156: "\330", /* capital O, slash */
157: "\325", /* capital O, tilde */
158: "\326", /* capital O, dieresis or umlaut mark */
159: "\336", /* capital THORN, Icelandic */
160: "\332", /* capital U, acute accent */
161: "\333", /* capital U, circumflex accent */
162: "\331", /* capital U, grave accent */
163: "\334", /* capital U, dieresis or umlaut mark */
164: "\335", /* capital Y, acute accent */
165: "\341", /* small a, acute accent */
166: "\342", /* small a, circumflex accent */
167: "\346", /* small ae diphthong (ligature) */
168: "\340", /* small a, grave accent */
169: "\046", /* ampersand */
170: "\345", /* small a, ring */
171: "\343", /* small a, tilde */
172: "\344", /* small a, dieresis or umlaut mark */
173: "\347", /* small c, cedilla */
174: "\351", /* small e, acute accent */
175: "\352", /* small e, circumflex accent */
176: "\350", /* small e, grave accent */
177: "\360", /* small eth, Icelandic */
178: "\353", /* small e, dieresis or umlaut mark */
179: "\076", /* greater than */
180: "\355", /* small i, acute accent */
181: "\356", /* small i, circumflex accent */
182: "\354", /* small i, grave accent */
183: "\357", /* small i, dieresis or umlaut mark */
184: "\074", /* less than */
185: "\361", /* small n, tilde */
186: "\363", /* small o, acute accent */
187: "\364", /* small o, circumflex accent */
188: "\362", /* small o, grave accent */
189: "\370", /* small o, slash */
190: "\365", /* small o, tilde */
191: "\366", /* small o, dieresis or umlaut mark */
1.36 frystyk 192: "\042", /* double quote sign - June 94 */
1.2 timbl 193: "\337", /* small sharp s, German (sz ligature) */
194: "\376", /* small thorn, Icelandic */
195: "\372", /* small u, acute accent */
196: "\373", /* small u, circumflex accent */
197: "\371", /* small u, grave accent */
198: "\374", /* small u, dieresis or umlaut mark */
199: "\375", /* small y, acute accent */
200: "\377", /* small y, dieresis or umlaut mark */
1.1 timbl 201: };
202:
1.2 timbl 203:
204: /* Entity values -- for NeXT local representation
205: **
206: ** This MUST match exactly the table referred to in the DTD!
207: **
208: */
209: static char * NeXTCharacters[] = {
210: "\341", /* capital AE diphthong (ligature) */
211: "\202", /* capital A, acute accent */
212: "\203", /* capital A, circumflex accent */
213: "\201", /* capital A, grave accent */
214: "\206", /* capital A, ring */
215: "\204", /* capital A, tilde */
216: "\205", /* capital A, dieresis or umlaut mark */
217: "\207", /* capital C, cedilla */
218: "\220", /* capital Eth, Icelandic */
219: "\211", /* capital E, acute accent */
220: "\212", /* capital E, circumflex accent */
221: "\210", /* capital E, grave accent */
222: "\213", /* capital E, dieresis or umlaut mark */
223: "\215", /* capital I, acute accent */
224: "\216", /* capital I, circumflex accent these are */
225: "\214", /* capital I, grave accent ISO -100 hex */
226: "\217", /* capital I, dieresis or umlaut mark */
227: "\221", /* capital N, tilde */
228: "\223", /* capital O, acute accent */
229: "\224", /* capital O, circumflex accent */
230: "\222", /* capital O, grave accent */
231: "\351", /* capital O, slash 'cept this */
232: "\225", /* capital O, tilde */
233: "\226", /* capital O, dieresis or umlaut mark */
234: "\234", /* capital THORN, Icelandic */
235: "\230", /* capital U, acute accent */
236: "\231", /* capital U, circumflex accent */
237: "\227", /* capital U, grave accent */
238: "\232", /* capital U, dieresis or umlaut mark */
239: "\233", /* capital Y, acute accent */
240: "\326", /* small a, acute accent */
241: "\327", /* small a, circumflex accent */
242: "\361", /* small ae diphthong (ligature) */
243: "\325", /* small a, grave accent */
244: "\046", /* ampersand */
245: "\332", /* small a, ring */
246: "\330", /* small a, tilde */
247: "\331", /* small a, dieresis or umlaut mark */
248: "\333", /* small c, cedilla */
249: "\335", /* small e, acute accent */
250: "\336", /* small e, circumflex accent */
251: "\334", /* small e, grave accent */
252: "\346", /* small eth, Icelandic */
253: "\337", /* small e, dieresis or umlaut mark */
254: "\076", /* greater than */
255: "\342", /* small i, acute accent */
256: "\344", /* small i, circumflex accent */
257: "\340", /* small i, grave accent */
258: "\345", /* small i, dieresis or umlaut mark */
259: "\074", /* less than */
260: "\347", /* small n, tilde */
261: "\355", /* small o, acute accent */
262: "\356", /* small o, circumflex accent */
263: "\354", /* small o, grave accent */
264: "\371", /* small o, slash */
265: "\357", /* small o, tilde */
266: "\360", /* small o, dieresis or umlaut mark */
1.36 frystyk 267: "\042", /* double quote sign - June 94 */
1.2 timbl 268: "\373", /* small sharp s, German (sz ligature) */
269: "\374", /* small thorn, Icelandic */
270: "\363", /* small u, acute accent */
271: "\364", /* small u, circumflex accent */
272: "\362", /* small u, grave accent */
273: "\366", /* small u, dieresis or umlaut mark */
274: "\367", /* small y, acute accent */
275: "\375", /* small y, dieresis or umlaut mark */
1.1 timbl 276: };
277:
1.2 timbl 278: /* Entity values -- for IBM/PC Code Page 850 (International)
279: **
280: ** This MUST match exactly the table referred to in the DTD!
281: **
282: */
283: /* @@@@@@@@@@@@@@@@@ TBD */
284:
285:
286:
287: /* Set character set
288: ** ----------------
289: */
290:
291: PRIVATE char** p_entity_values = ISO_Latin1; /* Pointer to translation */
1.1 timbl 292:
1.2 timbl 293: PUBLIC void HTMLUseCharacterSet ARGS1(HTMLCharacterSet, i)
294: {
295: p_entity_values = (i == HTML_NEXT_CHARS) ? NeXTCharacters
296: : ISO_Latin1;
297: }
1.1 timbl 298:
299:
300: /* Flattening the style structure
301: ** ------------------------------
302: **
303: On the NeXT, and on any read-only browser, it is simpler for the text to have
304: a sequence of styles, rather than a nested tree of styles. In this
305: case we have to flatten the structure as it arrives from SGML tags into
306: a sequence of styles.
307: */
308:
309: /* If style really needs to be set, call this
310: */
1.4 timbl 311: PRIVATE void actually_set_style ARGS1(HTStructured *, me)
1.1 timbl 312: {
1.4 timbl 313: if (!me->text) { /* First time through */
314: me->text = HText_new2(me->node_anchor, me->target);
315: HText_beginAppend(me->text);
316: HText_setStyle(me->text, me->new_style);
317: me->in_word = NO;
1.1 timbl 318: } else {
1.4 timbl 319: HText_setStyle(me->text, me->new_style);
1.1 timbl 320: }
1.4 timbl 321: me->old_style = me->new_style;
322: me->style_change = NO;
1.1 timbl 323: }
324:
325: /* If you THINK you need to change style, call this
326: */
327:
1.11 timbl 328: PRIVATE void change_paragraph_style ARGS2(HTStructured *, me, HTStyle *,style)
1.1 timbl 329: {
1.4 timbl 330: if (me->new_style!=style) {
331: me->style_change = YES;
332: me->new_style = style;
1.1 timbl 333: }
1.11 timbl 334: me->in_word = NO;
1.1 timbl 335: }
336:
1.2 timbl 337: /*_________________________________________________________________________
338: **
339: ** A C T I O N R O U T I N E S
340: */
341:
342: /* Character handling
343: ** ------------------
1.1 timbl 344: */
1.4 timbl 345: PRIVATE void HTML_put_character ARGS2(HTStructured *, me, char, c)
1.1 timbl 346: {
1.2 timbl 347:
1.4 timbl 348: switch (me->sp[0].tag_number) {
1.2 timbl 349: case HTML_COMMENT:
350: break; /* Do Nothing */
351:
352: case HTML_TITLE:
1.4 timbl 353: HTChunkPutc(&me->title, c);
1.2 timbl 354: break;
355:
356:
357: case HTML_LISTING: /* Litteral text */
358: case HTML_XMP:
359: case HTML_PLAINTEXT:
360: case HTML_PRE:
361: /* We guarrantee that the style is up-to-date in begin_litteral
362: */
1.4 timbl 363: HText_appendCharacter(me->text, c);
1.2 timbl 364: break;
365:
366: default: /* Free format text */
1.4 timbl 367: if (me->style_change) {
1.2 timbl 368: if ((c=='\n') || (c==' ')) return; /* Ignore it */
369: UPDATE_STYLE;
370: }
371: if (c=='\n') {
1.4 timbl 372: if (me->in_word) {
373: HText_appendCharacter(me->text, ' ');
374: me->in_word = NO;
1.2 timbl 375: }
376: } else {
1.4 timbl 377: HText_appendCharacter(me->text, c);
378: me->in_word = YES;
1.2 timbl 379: }
380: } /* end switch */
1.1 timbl 381: }
382:
1.2 timbl 383:
384:
385: /* String handling
386: ** ---------------
387: **
388: ** This is written separately from put_character becuase the loop can
1.11 timbl 389: ** in some cases be promoted to a higher function call level for speed.
1.2 timbl 390: */
1.4 timbl 391: PRIVATE void HTML_put_string ARGS2(HTStructured *, me, CONST char*, s)
1.1 timbl 392: {
1.2 timbl 393:
1.4 timbl 394: switch (me->sp[0].tag_number) {
1.2 timbl 395: case HTML_COMMENT:
396: break; /* Do Nothing */
397:
398: case HTML_TITLE:
1.4 timbl 399: HTChunkPuts(&me->title, s);
1.2 timbl 400: break;
401:
402:
403: case HTML_LISTING: /* Litteral text */
404: case HTML_XMP:
405: case HTML_PLAINTEXT:
406: case HTML_PRE:
407:
408: /* We guarrantee that the style is up-to-date in begin_litteral
409: */
1.4 timbl 410: HText_appendText(me->text, s);
1.2 timbl 411: break;
412:
413: default: /* Free format text */
414: {
415: CONST char *p = s;
1.4 timbl 416: if (me->style_change) {
1.2 timbl 417: for (; *p && ((*p=='\n') || (*p==' ')); p++) ; /* Ignore leaders */
418: if (!*p) return;
419: UPDATE_STYLE;
420: }
421: for(; *p; p++) {
1.4 timbl 422: if (me->style_change) {
1.2 timbl 423: if ((*p=='\n') || (*p==' ')) continue; /* Ignore it */
424: UPDATE_STYLE;
425: }
426: if (*p=='\n') {
1.4 timbl 427: if (me->in_word) {
428: HText_appendCharacter(me->text, ' ');
429: me->in_word = NO;
1.2 timbl 430: }
431: } else {
1.4 timbl 432: HText_appendCharacter(me->text, *p);
433: me->in_word = YES;
1.2 timbl 434: }
435: } /* for */
436: }
437: } /* end switch */
1.1 timbl 438: }
439:
440:
1.2 timbl 441: /* Buffer write
1.3 timbl 442: ** ------------
1.1 timbl 443: */
1.4 timbl 444: PRIVATE void HTML_write ARGS3(HTStructured *, me, CONST char*, s, int, l)
1.1 timbl 445: {
1.2 timbl 446: CONST char* p;
447: CONST char* e = s+l;
1.4 timbl 448: for (p=s; s<e; p++) HTML_put_character(me, *p);
1.1 timbl 449: }
1.2 timbl 450:
451:
452: /* Start Element
453: ** -------------
454: */
455: PRIVATE void HTML_start_element ARGS4(
1.4 timbl 456: HTStructured *, me,
1.16 timbl 457: int, element_number,
1.3 timbl 458: CONST BOOL*, present,
1.16 timbl 459: CONST char **, value)
1.2 timbl 460: {
461: switch (element_number) {
462: case HTML_A:
463: {
1.8 timbl 464: HTChildAnchor * source;
1.9 timbl 465: char * href = NULL;
466: if (present[HTML_A_HREF]) {
467: StrAllocCopy(href, value[HTML_A_HREF]);
1.36 frystyk 468: #ifdef OLD_CODE
1.9 timbl 469: HTSimplify(href);
1.36 frystyk 470: #endif
1.9 timbl 471: }
1.8 timbl 472: source = HTAnchor_findChildAndLink(
1.4 timbl 473: me->node_anchor, /* parent */
1.2 timbl 474: present[HTML_A_NAME] ? value[HTML_A_NAME] : 0, /* Tag */
1.9 timbl 475: present[HTML_A_HREF] ? href : 0, /* Addresss */
1.16 timbl 476: present[HTML_A_REL] && value[HTML_A_REL] ?
477: (HTLinkType*)HTAtom_for(value[HTML_A_REL])
1.2 timbl 478: : 0);
479:
480: if (present[HTML_A_TITLE] && value[HTML_A_TITLE]) {
481: HTParentAnchor * dest =
482: HTAnchor_parent(
483: HTAnchor_followMainLink((HTAnchor*)source)
484: );
485: if (!HTAnchor_title(dest))
486: HTAnchor_setTitle(dest, value[HTML_A_TITLE]);
487: }
488: UPDATE_STYLE;
1.4 timbl 489: HText_beginAnchor(me->text, source);
1.18 frystyk 490: free(href); /* Leak fix Henrik 17/02-94 */
1.2 timbl 491: }
492: break;
493:
494: case HTML_TITLE:
1.4 timbl 495: HTChunkClear(&me->title);
1.2 timbl 496: break;
497:
498: case HTML_NEXTID:
499: /* if (present[NEXTID_N] && value[NEXTID_N])
1.4 timbl 500: HText_setNextId(me->text, atoi(value[NEXTID_N])); */
1.2 timbl 501: break;
502:
503: case HTML_ISINDEX:
1.4 timbl 504: HTAnchor_setIndex(me->node_anchor);
1.2 timbl 505: break;
506:
1.15 timbl 507: case HTML_BR:
508: UPDATE_STYLE;
509: HText_appendCharacter(me->text, '\n');
510: me->in_word = NO;
511: break;
512:
513: case HTML_HR:
514: UPDATE_STYLE;
515: HText_appendCharacter(me->text, '\n');
1.16 timbl 516: HText_appendText(me->text, "___________________________________");
1.15 timbl 517: HText_appendCharacter(me->text, '\n');
518: me->in_word = NO;
519: break;
520:
1.2 timbl 521: case HTML_P:
522: UPDATE_STYLE;
1.4 timbl 523: HText_appendParagraph(me->text);
524: me->in_word = NO;
1.2 timbl 525: break;
526:
527: case HTML_DL:
1.11 timbl 528: change_paragraph_style(me, present && present[DL_COMPACT]
1.16 timbl 529: ? styles[HTML_DL]
1.2 timbl 530: : styles[HTML_DL]);
531: break;
532:
533: case HTML_DT:
1.4 timbl 534: if (!me->style_change) {
535: HText_appendParagraph(me->text);
536: me->in_word = NO;
1.2 timbl 537: }
538: break;
539:
540: case HTML_DD:
541: UPDATE_STYLE;
1.4 timbl 542: HTML_put_character(me, '\t'); /* Just tab out one stop */
543: me->in_word = NO;
544: break;
1.2 timbl 545:
546: case HTML_UL:
547: case HTML_OL:
548: case HTML_MENU:
549: case HTML_DIR:
1.11 timbl 550: change_paragraph_style(me, styles[element_number]);
1.2 timbl 551: break;
552:
553: case HTML_LI:
554: UPDATE_STYLE;
1.7 timbl 555: if (me->sp[0].tag_number != HTML_DIR)
1.4 timbl 556: HText_appendParagraph(me->text);
1.2 timbl 557: else
1.4 timbl 558: HText_appendCharacter(me->text, '\t'); /* Tab @@ nl for UL? */
559: me->in_word = NO;
1.2 timbl 560: break;
561:
562: case HTML_LISTING: /* Litteral text */
563: case HTML_XMP:
564: case HTML_PLAINTEXT:
565: case HTML_PRE:
1.11 timbl 566: change_paragraph_style(me, styles[element_number]);
1.2 timbl 567: UPDATE_STYLE;
1.4 timbl 568: if (me->comment_end)
569: HText_appendText(me->text, me->comment_end);
1.2 timbl 570: break;
1.11 timbl 571:
1.23 frystyk 572: case HTML_IMG: /* Images */
573: {
574: HTChildAnchor *source;
575: char *src = NULL;
576: if (present[HTML_IMG_SRC]) {
577: StrAllocCopy(src, value[HTML_IMG_SRC]);
1.36 frystyk 578: #ifdef OLD_CODE
1.23 frystyk 579: HTSimplify(src);
1.36 frystyk 580: #endif
1.23 frystyk 581: }
582: source = HTAnchor_findChildAndLink(
583: me->node_anchor, /* parent */
584: 0, /* Tag */
585: src ? src : 0, /* Addresss */
586: 0);
587: UPDATE_STYLE;
588: HText_appendImage(me->text, source,
1.24 frystyk 589: present[HTML_IMG_ALT] ? value[HTML_IMG_ALT] : NULL,
590: present[HTML_IMG_ALIGN] ? value[HTML_IMG_ALIGN] : NULL,
591: present[HTML_IMG_ISMAP] ? YES : NO);
1.23 frystyk 592: free(src);
1.24 frystyk 593: }
594: break;
595:
596: case HTML_HTML: /* Ignore these altogether */
597: case HTML_HEAD:
598: case HTML_BODY:
599:
1.10 timbl 600: case HTML_TT: /* Physical character highlighting */
601: case HTML_B: /* Currently ignored */
602: case HTML_I:
603: case HTML_U:
604:
605: case HTML_EM: /* Logical character highlighting */
606: case HTML_STRONG: /* Currently ignored */
607: case HTML_CODE:
608: case HTML_SAMP:
609: case HTML_KBD:
610: case HTML_VAR:
611: case HTML_DFN:
612: case HTML_CITE:
613: break;
614:
1.11 timbl 615: case HTML_H1: /* paragraph styles */
616: case HTML_H2:
617: case HTML_H3:
618: case HTML_H4:
619: case HTML_H5:
620: case HTML_H6:
621: case HTML_H7:
622: case HTML_ADDRESS:
623: case HTML_BLOCKQUOTE:
624: change_paragraph_style(me, styles[element_number]); /* May be postponed */
1.2 timbl 625: break;
626:
627: } /* end switch */
628:
1.16 timbl 629: if (me->dtd->tags[element_number].contents!= SGML_EMPTY) {
1.13 timbl 630: if (me->sp == me->stack) {
1.12 timbl 631: fprintf(stderr, "HTML: ****** Maximum nesting of %d exceded!\n",
632: MAX_NESTING);
633: return;
634: }
1.4 timbl 635: --(me->sp);
636: me->sp[0].style = me->new_style; /* Stack new style */
637: me->sp[0].tag_number = element_number;
1.10 timbl 638: }
1.1 timbl 639: }
1.10 timbl 640:
1.2 timbl 641:
1.1 timbl 642: /* End Element
1.2 timbl 643: ** -----------
1.1 timbl 644: **
1.2 timbl 645: */
646: /* When we end an element, the style must be returned to that
1.1 timbl 647: ** in effect before that element. Note that anchors (etc?)
648: ** don't have an associated style, so that we must scan down the
649: ** stack for an element with a defined style. (In fact, the styles
650: ** should be linked to the whole stack not just the top one.)
651: ** TBL 921119
1.6 timbl 652: **
653: ** We don't turn on "CAREFUL" check because the parser produces
654: ** (internal code errors apart) good nesting. The parser checks
655: ** incoming code errors, not this module.
1.1 timbl 656: */
1.4 timbl 657: PRIVATE void HTML_end_element ARGS2(HTStructured *, me, int , element_number)
1.1 timbl 658: {
1.2 timbl 659: #ifdef CAREFUL /* parser assumed to produce good nesting */
1.4 timbl 660: if (element_number != me->sp[0].tag_number) {
1.2 timbl 661: fprintf(stderr, "HTMLText: end of element %s when expecting end of %s\n",
1.16 timbl 662: me->dtd->tags[element_number].name,
663: me->dtd->tags[me->sp->tag_number].name);
1.6 timbl 664: /* panic */
1.1 timbl 665: }
1.2 timbl 666: #endif
667:
1.4 timbl 668: me->sp++; /* Pop state off stack */
1.2 timbl 669:
670: switch(element_number) {
671:
672: case HTML_A:
673: UPDATE_STYLE;
1.4 timbl 674: HText_endAnchor(me->text);
1.2 timbl 675: break;
676:
677: case HTML_TITLE:
1.4 timbl 678: HTChunkTerminate(&me->title);
679: HTAnchor_setTitle(me->node_anchor, me->title.data);
1.2 timbl 680: break;
681:
682: case HTML_LISTING: /* Litteral text */
683: case HTML_XMP:
684: case HTML_PLAINTEXT:
685: case HTML_PRE:
1.4 timbl 686: if (me->comment_start)
687: HText_appendText(me->text, me->comment_start);
1.2 timbl 688: /* Fall through */
689:
690: default:
691:
1.11 timbl 692: change_paragraph_style(me, me->sp->style); /* Often won't really change */
1.2 timbl 693: break;
694:
695: } /* switch */
1.1 timbl 696: }
697:
1.2 timbl 698:
699: /* Expanding entities
700: ** ------------------
701: */
702: /* (In fact, they all shrink!)
1.1 timbl 703: */
1.2 timbl 704:
1.4 timbl 705: PRIVATE void HTML_put_entity ARGS2(HTStructured *, me, int, entity_number)
1.1 timbl 706: {
1.4 timbl 707: HTML_put_string(me, ISO_Latin1[entity_number]); /* @@ Other representations */
1.1 timbl 708: }
1.2 timbl 709:
710:
711: /* Free an HTML object
712: ** -------------------
713: **
1.4 timbl 714: ** If the document is empty, the text object will not yet exist.
715: So we could in fact abandon creating the document and return
716: an error code. In fact an empty document is an important type
717: of document, so we don't.
718: **
719: ** If non-interactive, everything is freed off. No: crashes -listrefs
1.2 timbl 720: ** Otherwise, the interactive object is left.
721: */
1.37 ! frystyk 722: PUBLIC int HTML_free ARGS1(HTStructured *, me)
1.1 timbl 723: {
1.4 timbl 724: UPDATE_STYLE; /* Creates empty document here! */
725: if (me->comment_end)
726: HTML_put_string(me,me->comment_end);
727: HText_endAppend(me->text);
728:
729: if (me->target) {
1.35 duns 730: (*me->targetClass._free)(me->target);
1.2 timbl 731: }
1.19 frystyk 732: HTChunkClear(&me->title); /* Henrik 18/02-94 */
1.4 timbl 733: free(me);
1.37 ! frystyk 734: return 0;
1.1 timbl 735: }
736:
737:
1.37 ! frystyk 738: PRIVATE int HTML_abort ARGS2(HTStructured *, me, HTError, e)
1.1 timbl 739:
1.14 timbl 740: {
741: if (me->target) {
742: (*me->targetClass.abort)(me->target, e);
743: }
1.19 frystyk 744: HTChunkClear(&me->title); /* Henrik 18/02-94 */
1.14 timbl 745: free(me);
1.37 ! frystyk 746: return EOF;
1.1 timbl 747: }
748:
1.2 timbl 749:
750: /* Get Styles from style sheet
751: ** ---------------------------
752: */
753: PRIVATE void get_styles NOARGS
1.1 timbl 754: {
1.2 timbl 755: got_styles = YES;
756:
757: default_style = HTStyleNamed(styleSheet, "Normal");
1.1 timbl 758:
1.2 timbl 759: styles[HTML_H1] = HTStyleNamed(styleSheet, "Heading1");
760: styles[HTML_H2] = HTStyleNamed(styleSheet, "Heading2");
761: styles[HTML_H3] = HTStyleNamed(styleSheet, "Heading3");
762: styles[HTML_H4] = HTStyleNamed(styleSheet, "Heading4");
763: styles[HTML_H5] = HTStyleNamed(styleSheet, "Heading5");
764: styles[HTML_H6] = HTStyleNamed(styleSheet, "Heading6");
765: styles[HTML_H7] = HTStyleNamed(styleSheet, "Heading7");
766:
767: styles[HTML_DL] = HTStyleNamed(styleSheet, "Glossary");
768: styles[HTML_UL] =
769: styles[HTML_OL] = HTStyleNamed(styleSheet, "List");
770: styles[HTML_MENU] = HTStyleNamed(styleSheet, "Menu");
771: styles[HTML_DIR] = HTStyleNamed(styleSheet, "Dir");
1.16 timbl 772: /* styles[HTML_DLC] = HTStyleNamed(styleSheet, "GlossaryCompact"); */
1.2 timbl 773: styles[HTML_ADDRESS]= HTStyleNamed(styleSheet, "Address");
774: styles[HTML_BLOCKQUOTE]= HTStyleNamed(styleSheet, "BlockQuote");
775: styles[HTML_PLAINTEXT] =
776: styles[HTML_XMP] = HTStyleNamed(styleSheet, "Example");
777: styles[HTML_PRE] = HTStyleNamed(styleSheet, "Preformatted");
778: styles[HTML_LISTING] = HTStyleNamed(styleSheet, "Listing");
779: }
780: /* P U B L I C
781: */
782:
783: /* Structured Object Class
784: ** -----------------------
785: */
786: PUBLIC CONST HTStructuredClass HTMLPresentation = /* As opposed to print etc */
787: {
788: "text/html",
789: HTML_free,
1.14 timbl 790: HTML_abort,
1.2 timbl 791: HTML_put_character, HTML_put_string, HTML_write,
792: HTML_start_element, HTML_end_element,
793: HTML_put_entity
794: };
1.1 timbl 795:
1.4 timbl 796:
1.2 timbl 797: /* New Structured Text object
798: ** --------------------------
799: **
1.16 timbl 800: ** The structured stream can generate either presentation,
1.4 timbl 801: ** or plain text, or HTML.
1.1 timbl 802: */
1.16 timbl 803: PUBLIC HTStructured* HTML_new ARGS5(
804: HTRequest *, request,
805: void *, param,
806: HTFormat, input_format,
807: HTFormat, output_format,
808: HTStream *, output_stream)
1.1 timbl 809: {
810:
1.4 timbl 811: HTStructured * me;
812:
1.16 timbl 813: if (output_format != WWW_PLAINTEXT
814: && output_format != WWW_PRESENT
815: && output_format != HTAtom_for("text/x-c")) {
1.37 ! frystyk 816: HTStream * intermediate = HTStreamStack(WWW_HTML, output_format,
! 817: output_stream, request, NO);
1.6 timbl 818: if (intermediate) return HTMLGenerator(intermediate);
1.4 timbl 819: fprintf(stderr, "** Internal error: can't parse HTML to %s\n",
1.16 timbl 820: HTAtom_name(output_format));
1.4 timbl 821: exit (-99);
822: }
823:
824: me = (HTStructured*) malloc(sizeof(*me));
825: if (me == NULL) outofmem(__FILE__, "HTML_new");
1.1 timbl 826:
827: if (!got_styles) get_styles();
828:
1.4 timbl 829: me->isa = &HTMLPresentation;
1.16 timbl 830: me->dtd = &DTD;
831: me->node_anchor = request->anchor;
1.4 timbl 832: me->title.size = 0;
833: me->title.growby = 128;
834: me->title.allocated = 0;
835: me->title.data = 0;
836: me->text = 0;
837: me->style_change = YES; /* Force check leading to text creation */
838: me->new_style = default_style;
839: me->old_style = 0;
840: me->sp = me->stack + MAX_NESTING - 1;
841: me->sp->tag_number = -1; /* INVALID */
842: me->sp->style = default_style; /* INVALID */
1.1 timbl 843:
1.4 timbl 844: me->comment_start = NULL;
845: me->comment_end = NULL;
1.16 timbl 846: me->target = output_stream;
847: if (output_stream) me->targetClass = *output_stream->isa; /* Copy pointers */
1.1 timbl 848:
1.4 timbl 849: return (HTStructured*) me;
1.1 timbl 850: }
851:
852:
1.2 timbl 853: /* HTConverter for HTML to plain text
854: ** ----------------------------------
1.1 timbl 855: **
1.2 timbl 856: ** This will convert from HTML to presentation or plain text.
1.1 timbl 857: */
1.16 timbl 858: PUBLIC HTStream* HTMLToPlain ARGS5(
859: HTRequest *, request,
860: void *, param,
861: HTFormat, input_format,
862: HTFormat, output_format,
863: HTStream *, output_stream)
1.1 timbl 864: {
1.16 timbl 865: return SGML_new(&DTD, HTML_new(
866: request, NULL, input_format, output_format, output_stream));
1.1 timbl 867: }
868:
869:
1.2 timbl 870: /* HTConverter for HTML to C code
871: ** ------------------------------
872: **
1.36 frystyk 873: ** C code is like plain text but all non-preformatted code
1.2 timbl 874: ** is commented out.
875: ** This will convert from HTML to presentation or plain text.
876: */
1.16 timbl 877: PUBLIC HTStream* HTMLToC ARGS5(
878: HTRequest *, request,
879: void *, param,
880: HTFormat, input_format,
881: HTFormat, output_format,
882: HTStream *, output_stream)
1.1 timbl 883: {
1.4 timbl 884:
885: HTStructured * html;
886:
1.36 frystyk 887: (*output_stream->isa->put_string)(output_stream, "/* "); /* Before title */
1.16 timbl 888: html = HTML_new(request, NULL, input_format, output_format, output_stream);
1.2 timbl 889: html->comment_start = "/* ";
1.16 timbl 890: html->dtd = &DTD;
1.2 timbl 891: html->comment_end = " */\n"; /* Must start in col 1 for cpp */
1.16 timbl 892: return SGML_new(&DTD, html);
1.1 timbl 893: }
894:
895:
1.2 timbl 896: /* Presenter for HTML
897: ** ------------------
898: **
899: ** This will convert from HTML to presentation or plain text.
900: **
901: ** Override this if you have a windows version
1.1 timbl 902: */
1.2 timbl 903: #ifndef GUI
1.16 timbl 904: PUBLIC HTStream* HTMLPresent ARGS5(
905: HTRequest *, request,
906: void *, param,
907: HTFormat, input_format,
908: HTFormat, output_format,
909: HTStream *, output_stream)
1.1 timbl 910: {
1.16 timbl 911: return SGML_new(&DTD, HTML_new(
912: request, NULL, input_format, output_format, output_stream));
1.1 timbl 913: }
1.2 timbl 914: #endif
1.1 timbl 915:
916:
1.2 timbl 917: /* Record error message as a hypertext object
918: ** ------------------------------------------
919: **
920: ** The error message should be marked as an error so that
921: ** it can be reloaded later.
922: ** This implementation just throws up an error message
923: ** and leaves the document unloaded.
1.9 timbl 924: ** A smarter implementation would load an error document,
925: ** marking at such so that it is retried on reload.
1.1 timbl 926: **
1.2 timbl 927: ** On entry,
928: ** sink is a stream to the output device if any
929: ** number is the HTTP error number
930: ** message is the human readable message.
1.9 timbl 931: **
932: ** On exit,
933: ** returns a negative number to indicate lack of success in the load.
1.1 timbl 934: */
1.2 timbl 935:
936: PUBLIC int HTLoadError ARGS3(
1.17 luotonen 937: HTRequest *, req,
1.2 timbl 938: int, number,
939: CONST char *, message)
940: {
1.20 frystyk 941: char *err = "Oh I screwed up!"; /* Dummy pointer not used (I hope) */
1.2 timbl 942: HTAlert(message); /* @@@@@@@@@@@@@@@@@@@ */
1.20 frystyk 943: /* Clean up! Henrik 04/03-94 */
944: if (req && req->output_stream)
945: (*req->output_stream->isa->abort)(req->output_stream, err);
1.33 frystyk 946: #if OLD_CODE
1.25 luotonen 947: HTClearErrors(req);
1.33 frystyk 948: #endif
1.2 timbl 949: return -number;
950: }
1.29 frystyk 951:
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