Annotation of docbook2mdoc/node.c, Revision 1.14
1.14 ! schwarze 1: /* $Id: node.c,v 1.13 2019/04/13 15:54:45 schwarze Exp $ */
1.1 schwarze 2: /*
3: * Copyright (c) 2014 Kristaps Dzonsons <kristaps@bsd.lv>
4: * Copyright (c) 2019 Ingo Schwarze <schwarze@openbsd.org>
5: *
6: * Permission to use, copy, modify, and distribute this software for any
7: * purpose with or without fee is hereby granted, provided that the above
8: * copyright notice and this permission notice appear in all copies.
9: *
10: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES
11: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
12: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR
13: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
14: * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
15: * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
16: * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
17: */
1.10 schwarze 18: #include <assert.h>
1.1 schwarze 19: #include <stdlib.h>
20: #include <string.h>
21:
22: #include "node.h"
23:
24: /*
25: * The implementation of the DocBook syntax tree.
26: */
27:
1.10 schwarze 28: struct nodeprop {
29: const char *name;
30: enum nodeclass class;
31: };
32:
33: static const struct nodeprop properties[] = {
34: { "affiliation", CLASS_TRANS },
35: { "appendix", CLASS_BLOCK },
36: { "arg", CLASS_ENCL },
37: { "author", CLASS_LINE },
38: { "authorgroup", CLASS_BLOCK },
39: { "blockquote", CLASS_BLOCK },
40: { "bookinfo", CLASS_BLOCK },
41: { "caution", CLASS_BLOCK },
42: { "citerefentry", CLASS_LINE },
43: { "citetitle", CLASS_LINE },
44: { "cmdsynopsis", CLASS_TRANS },
45: { "colspec", CLASS_VOID },
46: { "command", CLASS_LINE },
47: { "constant", CLASS_LINE },
48: { "contrib", CLASS_TRANS },
49: { "copyright", CLASS_TRANS },
50: { "date", CLASS_TRANS },
51: { "!DOCTYPE", CLASS_VOID },
52: { "editor", CLASS_LINE },
53: { "email", CLASS_ENCL },
54: { "emphasis", CLASS_LINE },
55: { "!ENTITY", CLASS_VOID },
56: { "entry", CLASS_ENCL },
57: { "envar", CLASS_LINE },
58: { "errorname", CLASS_LINE },
59: { "fieldsynopsis", CLASS_TRANS },
60: { "filename", CLASS_LINE },
61: { "firstterm", CLASS_LINE },
62: { "footnote", CLASS_TRANS },
63: { "funcdef", CLASS_BLOCK },
64: { "funcprototype", CLASS_BLOCK },
65: { "funcsynopsis", CLASS_TRANS },
66: { "funcsynopsisinfo", CLASS_LINE },
67: { "function", CLASS_LINE },
68: { "glossterm", CLASS_LINE },
69: { "group", CLASS_ENCL },
70: { "holder", CLASS_TRANS },
71: { "xi:include", CLASS_VOID },
72: { "index", CLASS_TRANS },
73: { "info", CLASS_TRANS },
74: { "informalequation", CLASS_BLOCK },
75: { "inlineequation", CLASS_BLOCK },
76: { "itemizedlist", CLASS_BLOCK },
77: { "keysym", CLASS_LINE },
78: { "legalnotice", CLASS_BLOCK },
79: { "link", CLASS_ENCL },
80: { "listitem", CLASS_TRANS },
81: { "literal", CLASS_ENCL },
82: { "literallayout", CLASS_BLOCK },
83: { "manvolnum", CLASS_TRANS },
84: { "markup", CLASS_LINE },
85: { "member", CLASS_LINE },
86: { "mml:math", CLASS_LINE },
87: { "mml:mfenced", CLASS_LINE },
88: { "mml:mfrac", CLASS_LINE },
89: { "mml:mi", CLASS_LINE },
90: { "mml:mn", CLASS_LINE },
91: { "mml:mo", CLASS_LINE },
92: { "mml:mrow", CLASS_LINE },
93: { "mml:msub", CLASS_LINE },
94: { "mml:msup", CLASS_LINE },
95: { "modifier", CLASS_LINE },
96: { "note", CLASS_BLOCK },
97: { "option", CLASS_LINE },
98: { "orderedlist", CLASS_BLOCK },
99: { "orgname", CLASS_TRANS },
100: { "para", CLASS_BLOCK },
101: { "paramdef", CLASS_LINE },
102: { "parameter", CLASS_LINE },
103: { "personname", CLASS_TRANS },
104: { "preface", CLASS_BLOCK },
105: { "programlisting", CLASS_BLOCK },
106: { "prompt", CLASS_TRANS },
1.12 schwarze 107: { "pubdate", CLASS_TRANS },
1.10 schwarze 108: { "quote", CLASS_ENCL },
109: { "refclass", CLASS_TRANS },
110: { "refdescriptor", CLASS_TRANS },
111: { "refentry", CLASS_TRANS },
112: { "refentryinfo", CLASS_VOID },
113: { "refentrytitle", CLASS_TRANS },
114: { "refmeta", CLASS_TRANS },
115: { "refmetainfo", CLASS_TRANS },
116: { "refmiscinfo", CLASS_TRANS },
117: { "refname", CLASS_LINE },
118: { "refnamediv", CLASS_BLOCK },
119: { "refpurpose", CLASS_LINE },
120: { "refsynopsisdiv", CLASS_BLOCK },
121: { "releaseinfo", CLASS_TRANS },
122: { "replaceable", CLASS_LINE },
123: { "row", CLASS_BLOCK },
124: { "sbr", CLASS_BLOCK },
125: { "screen", CLASS_BLOCK },
126: { "section", CLASS_BLOCK },
127: { "simplelist", CLASS_TRANS },
128: { "spanspec", CLASS_TRANS },
129: { "subtitle", CLASS_TRANS },
130: { "synopsis", CLASS_BLOCK },
1.13 schwarze 131: { "systemitem", CLASS_LINE },
1.10 schwarze 132: { "table", CLASS_TRANS },
133: { "tbody", CLASS_TRANS },
134: { "term", CLASS_LINE },
135: { "tfoot", CLASS_TRANS },
136: { "tgroup", CLASS_BLOCK },
137: { "thead", CLASS_TRANS },
138: { "tip", CLASS_BLOCK },
139: { "title", CLASS_BLOCK },
140: { "type", CLASS_LINE },
141: { "variablelist", CLASS_BLOCK },
142: { "varlistentry", CLASS_BLOCK },
143: { "varname", CLASS_LINE },
144: { "warning", CLASS_BLOCK },
145: { "wordasword", CLASS_TRANS },
146: { "year", CLASS_TRANS },
147: { "[UNKNOWN]", CLASS_VOID },
1.11 schwarze 148: { "(t)", CLASS_TEXT },
149: { "(e)", CLASS_TEXT }
1.10 schwarze 150: };
151:
1.1 schwarze 152: static const char *const attrkeys[ATTRKEY__MAX] = {
153: "choice",
154: "class",
155: "close",
1.3 schwarze 156: "cols",
1.5 schwarze 157: "DEFINITION",
1.4 schwarze 158: "endterm",
1.6 schwarze 159: "href",
1.1 schwarze 160: "id",
161: "linkend",
1.5 schwarze 162: "NAME",
1.1 schwarze 163: "open",
1.5 schwarze 164: "PUBLIC",
1.4 schwarze 165: "rep",
1.5 schwarze 166: "SYSTEM",
1.4 schwarze 167: "url",
168: "xlink:href"
1.1 schwarze 169: };
170:
171: static const char *const attrvals[ATTRVAL__MAX] = {
1.13 schwarze 172: "event",
173: "ipaddress",
1.1 schwarze 174: "monospaced",
175: "norepeat",
176: "opt",
177: "plain",
178: "repeat",
1.13 schwarze 179: "req",
180: "systemname"
1.1 schwarze 181: };
182:
183: enum attrkey
184: attrkey_parse(const char *name)
185: {
186: enum attrkey key;
187:
188: for (key = 0; key < ATTRKEY__MAX; key++)
189: if (strcmp(name, attrkeys[key]) == 0)
190: break;
191: return key;
192: }
193:
1.11 schwarze 194: const char *
195: attrkey_name(enum attrkey key)
196: {
197: return attrkeys[key];
198: }
199:
1.1 schwarze 200: enum attrval
201: attrval_parse(const char *name)
202: {
203: enum attrval val;
204:
205: for (val = 0; val < ATTRVAL__MAX; val++)
206: if (strcmp(name, attrvals[val]) == 0)
207: break;
208: return val;
1.11 schwarze 209: }
210:
211: const char *
212: attr_getval(const struct pattr *a)
213: {
214: return a->val == ATTRVAL__MAX ? a->rawval : attrvals[a->val];
1.10 schwarze 215: }
216:
217: enum nodeid
218: pnode_parse(const char *name)
219: {
220: enum nodeid node;
221:
222: for (node = 0; node < NODE_UNKNOWN; node++)
223: if (strcmp(name, properties[node].name) == 0)
224: break;
225: return node;
226: }
227:
228: const char *
229: pnode_name(enum nodeid node)
230: {
231: assert(node < NODE_IGNORE);
232: return properties[node].name;
233: }
234:
235: enum nodeclass
236: pnode_class(enum nodeid node)
237: {
238: assert(node < NODE_IGNORE);
239: return properties[node].class;
1.9 schwarze 240: }
241:
242: struct pnode *
243: pnode_alloc(struct pnode *np)
244: {
245: struct pnode *n;
246:
247: if ((n = calloc(1, sizeof(*n))) != NULL) {
248: TAILQ_INIT(&n->childq);
249: TAILQ_INIT(&n->attrq);
250: if ((n->parent = np) != NULL)
251: TAILQ_INSERT_TAIL(&np->childq, n, child);
252: }
253: return n;
1.1 schwarze 254: }
255:
256: /*
257: * Recursively free a node (NULL is ok).
258: */
259: static void
1.7 schwarze 260: pnode_free(struct pnode *n)
1.1 schwarze 261: {
1.7 schwarze 262: struct pnode *nc;
263: struct pattr *a;
1.1 schwarze 264:
1.7 schwarze 265: if (n == NULL)
1.1 schwarze 266: return;
267:
1.7 schwarze 268: while ((nc = TAILQ_FIRST(&n->childq)) != NULL) {
269: TAILQ_REMOVE(&n->childq, nc, child);
270: pnode_free(nc);
1.1 schwarze 271: }
1.7 schwarze 272: while ((a = TAILQ_FIRST(&n->attrq)) != NULL) {
273: TAILQ_REMOVE(&n->attrq, a, child);
274: free(a->rawval);
275: free(a);
1.1 schwarze 276: }
1.8 schwarze 277: free(n->b);
1.7 schwarze 278: free(n);
1.1 schwarze 279: }
280:
281: /*
282: * Unlink a node from its parent and pnode_free() it.
283: */
284: void
1.7 schwarze 285: pnode_unlink(struct pnode *n)
1.1 schwarze 286: {
1.7 schwarze 287: if (n == NULL)
1.1 schwarze 288: return;
1.7 schwarze 289: if (n->parent != NULL)
290: TAILQ_REMOVE(&n->parent->childq, n, child);
291: pnode_free(n);
1.1 schwarze 292: }
293:
294: /*
295: * Unlink all children of a node and pnode_free() them.
296: */
297: void
1.7 schwarze 298: pnode_unlinksub(struct pnode *n)
1.1 schwarze 299: {
1.7 schwarze 300: while (TAILQ_EMPTY(&n->childq) == 0)
301: pnode_unlink(TAILQ_FIRST(&n->childq));
1.1 schwarze 302: }
303:
304: /*
305: * Retrieve an enumeration attribute from a node.
306: * Return ATTRVAL__MAX if the node has no such attribute.
307: */
308: enum attrval
1.7 schwarze 309: pnode_getattr(struct pnode *n, enum attrkey key)
1.1 schwarze 310: {
1.7 schwarze 311: struct pattr *a;
1.1 schwarze 312:
1.7 schwarze 313: if (n == NULL)
1.1 schwarze 314: return ATTRVAL__MAX;
1.7 schwarze 315: TAILQ_FOREACH(a, &n->attrq, child)
316: if (a->key == key)
317: return a->val;
1.1 schwarze 318: return ATTRVAL__MAX;
319: }
320:
321: /*
322: * Retrieve an attribute string from a node.
323: * Return defval if the node has no such attribute.
324: */
325: const char *
1.7 schwarze 326: pnode_getattr_raw(struct pnode *n, enum attrkey key, const char *defval)
1.1 schwarze 327: {
1.7 schwarze 328: struct pattr *a;
1.1 schwarze 329:
1.7 schwarze 330: if (n == NULL)
1.1 schwarze 331: return defval;
1.7 schwarze 332: TAILQ_FOREACH(a, &n->attrq, child)
333: if (a->key == key)
334: return a->val != ATTRVAL__MAX ? attrvals[a->val] :
335: a->rawval != NULL ? a->rawval : defval;
1.1 schwarze 336: return defval;
337: }
338:
339: /*
340: * Recursively search and return the first instance of "node".
341: */
342: struct pnode *
1.7 schwarze 343: pnode_findfirst(struct pnode *n, enum nodeid node)
1.1 schwarze 344: {
1.7 schwarze 345: struct pnode *nc, *res;
1.1 schwarze 346:
1.12 schwarze 347: if (n == NULL)
348: return NULL;
1.7 schwarze 349: if (n->node == node)
350: return n;
351: TAILQ_FOREACH(nc, &n->childq, child)
352: if ((res = pnode_findfirst(nc, node)) != NULL)
1.1 schwarze 353: return res;
354: return NULL;
1.12 schwarze 355: }
356:
357: /*
358: * Like pnode_findfirst(), but also take the node out of the tree.
359: */
360: struct pnode *
361: pnode_takefirst(struct pnode *n, enum nodeid node)
362: {
363: struct pnode *nc;
364:
365: if ((nc = pnode_findfirst(n, node)) != NULL && nc->parent != NULL)
366: TAILQ_REMOVE(&nc->parent->childq, nc, child);
367: return nc;
1.1 schwarze 368: }
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