docbook2mdoc/docbook2mdoc.c - diff

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Diff for /docbook2mdoc/docbook2mdoc.c between version 1.69 and 1.73

version 1.69, 2019/03/24 16:45:46

version 1.73, 2019/03/25 23:14:44

Line 41 enum linestate {

struct parse {

XML_Parser xml;

enum nodeid node; /* current (NODE_ROOT if pre-tree) */

const char *fname; /* filename */

int stop; /* should we stop now? */

#define PARSE_EQN 1

unsigned int flags; /* document-wide flags */

struct pnode *root; /* root of parse tree */

struct pnode *cur; /* current node in tree */

char *b; /* NUL-terminated buffer for pre-print */

size_t bsz; /* current length of b */

size_t mbsz; /* max bsz allocation */

int level; /* header level, starting at 1 */

enum linestate linestate;

};

Line 252 xml_char(void *arg, const XML_Char *p, int sz)

Line 248 xml_char(void *arg, const XML_Char *p, int sz)

struct pnode *dat;

int i;

/* Stopped or no tree yet. */

if (ps->stop)

if (ps->stop || ps->node == NODE_ROOT)

return;

assert(ps->cur != NULL);

* Are we in the midst of processing text?

* If we're not processing text right now, then create a text

Line 265 xml_char(void *arg, const XML_Char *p, int sz)

Line 258 xml_char(void *arg, const XML_Char *p, int sz)

* However, don't do so unless we have some non-whitespace to

* process: strip out all leading whitespace to be sure.

if (ps->node != NODE_TEXT) {

if (ps->cur->node != NODE_TEXT) {

for (i = 0; i < sz; i++)

if ( ! isspace((unsigned char)p[i]))

break;

Line 273 xml_char(void *arg, const XML_Char *p, int sz)

Line 266 xml_char(void *arg, const XML_Char *p, int sz)

return;

p += i;

sz -= i;

dat = calloc(1, sizeof(struct pnode));

dat = calloc(1, sizeof(*dat));

if (dat == NULL) {

perror(NULL);

exit(1);

}

dat->node = ps->node = NODE_TEXT;

dat->node = NODE_TEXT;

dat->parent = ps->cur;

TAILQ_INIT(&dat->childq);

TAILQ_INIT(&dat->attrq);

Line 290 xml_char(void *arg, const XML_Char *p, int sz)

Line 283 xml_char(void *arg, const XML_Char *p, int sz)

/* Append to current buffer. */

assert(sz >= 0);

ps->cur->b = realloc(ps->cur->b,

ps->cur->b = realloc(ps->cur->b, ps->cur->bsz + sz + 1);

ps->cur->bsz + (size_t)sz);

if (ps->cur->b == NULL) {

perror(NULL);

exit(1);

}

memcpy(ps->cur->b + ps->cur->bsz, p, sz);

ps->cur->bsz += (size_t)sz;

ps->cur->bsz += sz;

ps->cur->b[ps->cur->bsz] = '\0';

ps->cur->real = ps->cur->b;

}

Line 305 static void

Line 298 static void

pnode_trim(struct pnode *pn)

{

assert(pn->node == NODE_TEXT);

for ( ; pn->bsz > 0; pn->bsz--)

for (; pn->bsz > 0; pn->b[--pn->bsz] = '\0')

if ( ! isspace((unsigned char)pn->b[pn->bsz - 1]))

break;

}

Line 340 xml_elem_start(void *arg, const XML_Char *name, const

Line 333 xml_elem_start(void *arg, const XML_Char *name, const

return;

/* Close out text node, if applicable... */

if (ps->node == NODE_TEXT) {

if (ps->cur != NULL && ps->cur->node == NODE_TEXT) {

pnode_trim(ps->cur);

ps->cur = ps->cur->parent;

ps->node = ps->cur->node;

}

for (node = nodes; node->name != NULL; node++)

Line 351 xml_elem_start(void *arg, const XML_Char *name, const

Line 343 xml_elem_start(void *arg, const XML_Char *name, const

break;

if (node->name == NULL) {

if (ps->node == NODE_ROOT)

return;

fprintf(stderr, "%s:%zu:%zu: unknown node \"%s\"\n",

ps->fname, XML_GetCurrentLineNumber(ps->xml),

XML_GetCurrentColumnNumber(ps->xml), name);

ps->stop = 1;

return;

} else if (ps->node == NODE_ROOT && ps->root != NULL) {

fprintf(stderr, "%s:%zu:%zu: multiple refentries\n",

ps->fname, XML_GetCurrentLineNumber(ps->xml),

XML_GetCurrentColumnNumber(ps->xml));

ps->stop = 1;

return;

}

if (node->node == NODE_INLINEEQUATION)

ps->flags |= PARSE_EQN;

if ((dat = calloc(1, sizeof(struct pnode))) == NULL) {

if ((dat = calloc(1, sizeof(*dat))) == NULL) {

perror(NULL);

exit(1);

}

dat->node = ps->node = node->node;

dat->node = node->node;

dat->parent = ps->cur;

TAILQ_INIT(&dat->childq);

TAILQ_INIT(&dat->attrq);

Line 406 xml_elem_start(void *arg, const XML_Char *name, const

Line 390 xml_elem_start(void *arg, const XML_Char *name, const

for (val = 0; val < ATTRVAL__MAX; val++)

if (strcmp(att[1], attrvals[val]) == 0)

break;

pattr = calloc(1, sizeof(struct pattr));

pattr = calloc(1, sizeof(*pattr));

pattr->key = key;

pattr->val = val;

if (val == ATTRVAL__MAX)

pattr->rawval = strdup(att[1]);

TAILQ_INSERT_TAIL(&dat->attrq, pattr, child);

}

* Roll up the parse tree.

* If we're at a text node, roll that one up first.

* If we hit the root, then assign ourselves as the NODE_ROOT.

static void

xml_elem_end(void *arg, const XML_Char *name)

{

struct parse *ps = arg;

if (ps->stop)

return;

/* FIXME: find a better way to ditch other namespaces. */

if (ps->stop || ps->node == NODE_ROOT)

if (strcmp(name, "xi:include") == 0)

return;

else if (strcmp(name, "xi:include") == 0)

return;

/* Close out text node, if applicable... */

if (ps->node == NODE_TEXT) {

if (ps->cur->node == NODE_TEXT) {

pnode_trim(ps->cur);

ps->cur = ps->cur->parent;

ps->node = ps->cur->node;

}

ps->cur = ps->cur->parent;

if ((ps->cur = ps->cur->parent) == NULL)

ps->node = NODE_ROOT;

else

ps->node = ps->cur->node;

}

Line 503 pnode_getattr(struct pnode *pn, enum attrkey key)

Line 481 pnode_getattr(struct pnode *pn, enum attrkey key)

{

struct pattr *ap;

if (pn == NULL)

return ATTRVAL__MAX;

TAILQ_FOREACH(ap, &pn->attrq, child)

if (ap->key == key)

return ap->val;

Line 518 pnode_getattr_raw(struct pnode *pn, enum attrkey key,

Line 498 pnode_getattr_raw(struct pnode *pn, enum attrkey key,

{

struct pattr *ap;

if (pn == NULL)

return defval;

TAILQ_FOREACH(ap, &pn->attrq, child)

if (ap->key == key)

return ap->val == ATTRVAL__MAX ? ap->rawval :

Line 526 pnode_getattr_raw(struct pnode *pn, enum attrkey key,

Line 508 pnode_getattr_raw(struct pnode *pn, enum attrkey key,

}

* Reset the lookaside buffer.

static void

bufclear(struct parse *p)

{

p->b[p->bsz = 0] = '\0';

}

* Append NODE_TEXT contents to the current buffer, reallocating its

* size if necessary.

* The buffer is ALWAYS NUL-terminated.

static void

bufappend(struct parse *p, struct pnode *pn)

{

assert(pn->node == NODE_TEXT);

if (p->bsz + pn->bsz + 1 > p->mbsz) {

p->mbsz = p->bsz + pn->bsz + 1;

if ((p->b = realloc(p->b, p->mbsz)) == NULL) {

perror(NULL);

exit(1);

}

memcpy(p->b + p->bsz, pn->b, pn->bsz);

p->bsz += pn->bsz;

p->b[p->bsz] = '\0';

}

* Recursively append all NODE_TEXT nodes to the buffer.

* This descends into non-text nodes, but doesn't do anything beyond

* them.

* In other words, this is a recursive text grok.

static void

bufappend_r(struct parse *p, struct pnode *pn)

{

struct pnode *pp;

if (pn->node == NODE_TEXT)

bufappend(p, pn);

TAILQ_FOREACH(pp, &pn->childq, child)

bufappend_r(p, pp);

}

* Recursively search and return the first instance of "node".

static struct pnode *

Line 626 macro_line(struct parse *p, const char *name)

Line 559 macro_line(struct parse *p, const char *name)

macro_close(p);

}

#define MACROLINE_UPPER 1

#define ARG_SPACE 1 /* Insert whitespace before this argument. */

#define MACROLINE_NOWS 2

#define ARG_SINGLE 2 /* Quote argument if it contains whitespace. */

#define ARG_QUOTED 4 /* We are already in a quoted argument. */

#define ARG_UPPER 8 /* Covert argument to upper case. */

* Print an argument string on a macro line, collapsing whitespace.

static void

macro_addarg(struct parse *p, const char *arg, int fl)

macro_addarg(struct parse *p, const char *arg, int flags)

{

const char *cp;

int wantspace;

assert(p->linestate == LINE_MACRO);

wantspace = !(fl & MACROLINE_NOWS);

/* Quote if requested and necessary. */

if ((flags & (ARG_SINGLE | ARG_QUOTED)) == ARG_SINGLE) {

for (cp = arg; *cp != '\0'; cp++)

if (isspace((unsigned char)*cp))

break;

if (*cp != '\0') {

if (flags & ARG_SPACE) {

putchar(' ');

flags &= ~ ARG_SPACE;

}

putchar('"');

flags = ARG_QUOTED;

}

for (cp = arg; *cp != '\0'; cp++) {

/* Collapse whitespace. */

if (isspace((unsigned char)*cp)) {

wantspace = 1;

flags |= ARG_SPACE;

continue;

} else if (wantspace) {

} else if (flags & ARG_SPACE) {

putchar(' ');

wantspace = 0;

flags &= ~ ARG_SPACE;

}

/* Escape us if we look like a macro. */

if ((cp == arg || cp[-1] == ' ') &&

if ((flags & ARG_QUOTED) == 0 &&

(cp == arg || isspace((unsigned char)cp[-1])) &&

isupper((unsigned char)cp[0]) &&

islower((unsigned char)cp[1]) &&

(cp[2] == '\0' || cp[2] == ' ' ||

(islower((unsigned char)cp[2]) &&

(cp[3] == '\0' || cp[3] == ' '))))

fputs("\\&", stdout);

if (fl & MACROLINE_UPPER)

if (*cp == '"')

fputs("\\(dq", stdout);

else if (flags & ARG_UPPER)

putchar(toupper((unsigned char)*cp));

else

putchar(*cp);

Line 668 static void

Line 627 static void

macro_argline(struct parse *p, const char *name, const char *arg)

{

macro_open(p, name);

macro_addarg(p, arg, 0);

macro_addarg(p, arg, ARG_SPACE);

macro_close(p);

}

* Recurse nodes to print arguments on a macro line.

* Recursively append text from the children of a node to a macro line.

static void

macro_addnode(struct parse *p, struct pnode *pn, int fl)

macro_addnode(struct parse *p, struct pnode *pn, int flags)

{

bufclear(p);

int quote_now;

bufappend_r(p, pn);

macro_addarg(p, p->b, fl);

assert(p->linestate == LINE_MACRO);

* If the only child is a text node, just add that text,

* letting macro_addarg() decide about quoting.

pn = TAILQ_FIRST(&pn->childq);

if (pn != NULL && pn->node == NODE_TEXT &&

TAILQ_NEXT(pn, child) == NULL) {

macro_addarg(p, pn->b, flags);

return;

}

* If we want the argument quoted and are not already

* in a quoted context, quote now.

quote_now = 0;

if (flags & ARG_SINGLE) {

if ((flags & ARG_QUOTED) == 0) {

if (flags & ARG_SPACE) {

putchar(' ');

flags &= ~ARG_SPACE;

}

putchar('"');

flags |= ARG_QUOTED;

quote_now = 1;

}

flags &= ~ARG_SINGLE;

}

* Iterate to child and sibling nodes,

* inserting whitespace between nodes.

while (pn != NULL) {

if (pn->node == NODE_TEXT)

macro_addarg(p, pn->b, flags);

else

macro_addnode(p, pn, flags);

pn = TAILQ_NEXT(pn, child);

flags |= ARG_SPACE;

}

if (quote_now)

putchar('"');

}

static void

macro_nodeline(struct parse *p, const char *name, struct pnode *pn)

macro_nodeline(struct parse *p, const char *name, struct pnode *pn, int flags)

{

macro_open(p, name);

macro_addnode(p, pn, 0);

macro_addnode(p, pn, ARG_SPACE | flags);

macro_close(p);

}

Line 711 macro_closepunct(struct parse *p, struct pnode *pn)

Line 717 macro_closepunct(struct parse *p, struct pnode *pn)

}

static void

print_text(struct parse *p, const char *word)

{

switch (p->linestate) {

case LINE_NEW:

break;

case LINE_TEXT:

putchar(' ');

break;

case LINE_MACRO:

macro_close(p);

break;

}

fputs(word, stdout);

p->linestate = LINE_TEXT;

}

static void

pnode_printpara(struct parse *p, struct pnode *pn)

{

struct pnode *pp;

Line 740 pnode_printpara(struct parse *p, struct pnode *pn)

Line 763 pnode_printpara(struct parse *p, struct pnode *pn)

static void

pnode_printrefsynopsisdiv(struct parse *p, struct pnode *pn)

{

struct pnode *pp;

struct pnode *pp, *pq;

TAILQ_FOREACH(pp, &pn->childq, child)

TAILQ_FOREACH_SAFE(pp, &pn->childq, child, pq)

if (pp->node == NODE_TITLE) {

if (pp->node == NODE_TITLE)

pnode_unlink(pp);

return;

}

macro_line(p, "Sh SYNOPSIS");

}

Line 763 pnode_printrefsect(struct parse *p, struct pnode *pn)

Line 786 pnode_printrefsect(struct parse *p, struct pnode *pn)

return;

level = ++p->level;

flags = level == 1 ? MACROLINE_UPPER : 0;

flags = ARG_SPACE;

if (level == 1)

flags |= ARG_UPPER;

if (level < 3) {

switch (pn->node) {

case NODE_CAUTION:

Line 821 pnode_printrefsect(struct parse *p, struct pnode *pn)

Line 846 pnode_printrefsect(struct parse *p, struct pnode *pn)

macro_addnode(p, pp, flags);

pnode_unlink(pp);

} else

macro_addarg(p, title, 0);

macro_addarg(p, title, ARG_SPACE | ARG_QUOTED);

macro_close(p);

}

Line 842 pnode_printciterefentry(struct parse *p, struct pnode

Line 867 pnode_printciterefentry(struct parse *p, struct pnode

}

macro_open(p, "Xr");

if (title == NULL)

macro_addarg(p, "unknown", 0);

macro_addarg(p, "unknown", ARG_SPACE);

else

macro_addnode(p, title, 0);

macro_addnode(p, title, ARG_SPACE | ARG_SINGLE);

if (manvol == NULL)

macro_addarg(p, "1", 0);

macro_addarg(p, "1", ARG_SPACE);

else

macro_addnode(p, manvol, 0);

macro_addnode(p, manvol, ARG_SPACE | ARG_SINGLE);

macro_close(p);

pnode_unlinksub(pn);

}

static void

Line 866 pnode_printrefmeta(struct parse *p, struct pnode *pn)

Line 892 pnode_printrefmeta(struct parse *p, struct pnode *pn)

}

macro_open(p, "Dt");

if (title == NULL)

macro_addarg(p, "UNKNOWN", 0);

macro_addarg(p, "UNKNOWN", ARG_SPACE);

else

macro_addnode(p, title, MACROLINE_UPPER);

macro_addnode(p, title, ARG_SPACE | ARG_SINGLE | ARG_UPPER);

if (manvol == NULL)

macro_addarg(p, "1", 0);

macro_addarg(p, "1", ARG_SPACE);

else

macro_addnode(p, manvol, 0);

macro_addnode(p, manvol, ARG_SPACE | ARG_SINGLE);

macro_close(p);

pnode_unlink(pn);

}

static void

Line 889 pnode_printfuncdef(struct parse *p, struct pnode *pn)

Line 916 pnode_printfuncdef(struct parse *p, struct pnode *pn)

func = pp;

}

if (ftype != NULL)

macro_nodeline(p, "Ft", ftype);

macro_argline(p, "Ft", ftype->b);

macro_open(p, "Fo");

if (func == NULL)

macro_addarg(p, "UNKNOWN", 0);

macro_addarg(p, "UNKNOWN", ARG_SPACE);

else

macro_addnode(p, func, 0);

macro_addnode(p, func, ARG_SPACE | ARG_SINGLE);

macro_close(p);

}

static void

pnode_printparamdef(struct parse *p, struct pnode *pn)

{

struct pnode *pp, *ptype, *param;

int flags;

ptype = param = NULL;

TAILQ_FOREACH(pp, &pn->childq, child) {

if (pp->node == NODE_TEXT)

ptype = pp;

else if (pp->node == NODE_PARAMETER)

param = pp;

}

macro_open(p, "Fa \"");

flags = MACROLINE_NOWS;

if (ptype != NULL) {

macro_addnode(p, ptype, flags);

flags = 0;

}

if (param != NULL)

macro_addnode(p, param, flags);

flags = MACROLINE_NOWS;

macro_addarg(p, "\"", flags);

macro_close(p);

}

* The <mml:mfenced> node is a little peculiar.

* First, it can have arbitrary open and closing tokens, which default

Line 944 pnode_printmathfenced(struct parse *p, struct pnode *p

Line 945 pnode_printmathfenced(struct parse *p, struct pnode *p

putchar(',');

pnode_print(p, pp);

}

printf("right %s ", pnode_getattr_raw(pn, ATTRKEY_CLOSE, ")"));

pnode_unlinksub(pn);

}

Line 978 pnode_printmath(struct parse *p, struct pnode *pn)

Line 979 pnode_printmath(struct parse *p, struct pnode *pn)

pp = TAILQ_NEXT(pp, child);

pnode_print(p, pp);

pnode_unlinksub(pn);

}

static void

Line 996 pnode_printfuncprototype(struct parse *p, struct pnode

Line 998 pnode_printfuncprototype(struct parse *p, struct pnode

TAILQ_FOREACH(pp, &pn->childq, child)

if (pp->node == NODE_PARAMDEF)

pnode_printparamdef(p, pp);

macro_nodeline(p, "Fa", pp, ARG_SINGLE);

macro_line(p, "Fc");

pnode_unlinksub(pn);

}

Line 1032 pnode_printarg(struct parse *p, struct pnode *pn)

Line 1035 pnode_printarg(struct parse *p, struct pnode *pn)

macro_open(p, "Ar");

pnode_print(p, pp);

if (isrep && pp->node == NODE_TEXT)

macro_addarg(p, "...", 0);

macro_addarg(p, "...", ARG_SPACE);

}

pnode_unlinksub(pn);

}

static void

Line 1076 pnode_printgroup(struct parse *p, struct pnode *pn)

Line 1080 pnode_printgroup(struct parse *p, struct pnode *pn)

while (np != NULL) {

if (pp->node != np->node)

break;

macro_addarg(p, "|", 0);

macro_addarg(p, "|", ARG_SPACE);

macro_addnode(p, np, 0);

macro_addnode(p, np, ARG_SPACE);

pp = np;

np = TAILQ_NEXT(np, child);

}

if (sv)

macro_close(p);

pnode_unlinksub(pn);

}

static void

Line 1095 pnode_printprologue(struct parse *p, struct pnode *pn)

Line 1100 pnode_printprologue(struct parse *p, struct pnode *pn)

pnode_findfirst(p->root, NODE_REFMETA);

macro_line(p, "Dd $Mdocdate" "$");

if (pp != NULL) {

if (pp != NULL)

pnode_printrefmeta(p, pp);

pnode_unlink(pp);

else {

} else {

macro_open(p, "Dt");

macro_addarg(p,

pnode_getattr_raw(p->root, ATTRKEY_ID, "UNKNOWN"), 0);

pnode_getattr_raw(p->root, ATTRKEY_ID, "UNKNOWN"),

macro_addarg(p, "1", 0);

ARG_SPACE | ARG_SINGLE | ARG_UPPER);

macro_addarg(p, "1", ARG_SPACE);

macro_close(p);

}

macro_line(p, "Os");

if (p->flags & PARSE_EQN) {

macro_line(p, "EQ");

puts("delim $$");

print_text(p, "delim $$");

macro_line(p, "EN");

}

Line 1129 pnode_printvarlistentry(struct parse *p, struct pnode

Line 1134 pnode_printvarlistentry(struct parse *p, struct pnode

if (pp->node != NODE_TERM)

continue;

if ( ! first)

putchar(',');

macro_addarg(p, ",", 0);

pnode_print(p, pp);

first = 0;

}

Line 1137 pnode_printvarlistentry(struct parse *p, struct pnode

Line 1142 pnode_printvarlistentry(struct parse *p, struct pnode

TAILQ_FOREACH(pp, &pn->childq, child)

if (pp->node != NODE_TERM)

pnode_print(p, pp);

pnode_unlinksub(pn);

}

static void

pnode_printtitle(struct parse *p, struct pnode *pn)

{

struct pnode *pp, *pq;

TAILQ_FOREACH_SAFE(pp, &pn->childq, child, pq) {

if (pp->node == NODE_TITLE) {

pnode_printpara(p, pp);

pnode_print(p, pp);

pnode_unlink(pp);

}

static void

pnode_printrow(struct parse *p, struct pnode *pn)

{

struct pnode *pp;

Line 1150 pnode_printrow(struct parse *p, struct pnode *pn)

Line 1170 pnode_printrow(struct parse *p, struct pnode *pn)

pnode_print(p, pp);

}

macro_line(p, "El");

pnode_unlink(pn);

}

static void

Line 1157 pnode_printtable(struct parse *p, struct pnode *pn)

Line 1178 pnode_printtable(struct parse *p, struct pnode *pn)

{

struct pnode *pp;

TAILQ_FOREACH(pp, &pn->childq, child) {

pnode_printtitle(p, pn);

if (pp->node == NODE_TITLE) {

pnode_printpara(p, pp);

pnode_print(p, pp);

pnode_unlink(pp);

}

macro_line(p, "Bl -ohang");

while ((pp = pnode_findfirst(pn, NODE_ROW)) != NULL) {

macro_line(p, "It Table Row");

pnode_printrow(p, pp);

pnode_unlink(pp);

}

macro_line(p, "El");

pnode_unlinksub(pn);

}

static void

Line 1178 pnode_printlist(struct parse *p, struct pnode *pn)

Line 1193 pnode_printlist(struct parse *p, struct pnode *pn)

{

struct pnode *pp;

TAILQ_FOREACH(pp, &pn->childq, child) {

pnode_printtitle(p, pn);

if (pp->node == NODE_TITLE) {

pnode_printpara(p, pp);

pnode_print(p, pp);

pnode_unlink(pp);

}

macro_argline(p, "Bl",

pn->node == NODE_ORDEREDLIST ? "-enum" : "-bullet");

TAILQ_FOREACH(pp, &pn->childq, child) {

Line 1192 pnode_printlist(struct parse *p, struct pnode *pn)

Line 1201 pnode_printlist(struct parse *p, struct pnode *pn)

pnode_print(p, pp);

}

macro_line(p, "El");

pnode_unlinksub(pn);

}

static void

Line 1199 pnode_printvariablelist(struct parse *p, struct pnode

Line 1209 pnode_printvariablelist(struct parse *p, struct pnode

{

struct pnode *pp;

TAILQ_FOREACH(pp, &pn->childq, child) {

pnode_printtitle(p, pn);

if (pp->node == NODE_TITLE) {

pnode_printpara(p, pp);

pnode_print(p, pp);

pnode_unlink(pp);

}

macro_line(p, "Bl -tag -width Ds");

TAILQ_FOREACH(pp, &pn->childq, child) {

if (pp->node == NODE_VARLISTENTRY)

pnode_print(p, pp);

else

macro_nodeline(p, "It", pp);

macro_nodeline(p, "It", pp, 0);

}

macro_line(p, "El");

pnode_unlinksub(pn);

}

Line 1245 pnode_print(struct parse *p, struct pnode *pn)

Line 1250 pnode_print(struct parse *p, struct pnode *pn)

return;

case NODE_ARG:

pnode_printarg(p, pn);

pnode_unlinksub(pn);

break;

case NODE_AUTHOR:

macro_open(p, "An");

Line 1258 pnode_print(struct parse *p, struct pnode *pn)

Line 1262 pnode_print(struct parse *p, struct pnode *pn)

break;

case NODE_CITEREFENTRY:

pnode_printciterefentry(p, pn);

pnode_unlinksub(pn);

break;

case NODE_CITETITLE:

macro_open(p, "%T");

Line 1273 pnode_print(struct parse *p, struct pnode *pn)

Line 1276 pnode_print(struct parse *p, struct pnode *pn)

macro_open(p, "Dv");

break;

case NODE_EDITOR:

if (p->linestate != LINE_NEW)

print_text(p, "editor:");

putchar('\n');

puts("editor:");

p->linestate = LINE_TEXT;

macro_open(p, "An");

break;

case NODE_EMAIL:

Line 1297 pnode_print(struct parse *p, struct pnode *pn)

break;

case NODE_FUNCPROTOTYPE:

pnode_printfuncprototype(p, pn);

pnode_unlinksub(pn);

break;

case NODE_FUNCSYNOPSISINFO:

macro_open(p, "Fd");

Line 1314 pnode_print(struct parse *p, struct pnode *pn)

Line 1313 pnode_print(struct parse *p, struct pnode *pn)

break;

case NODE_ITEMIZEDLIST:

pnode_printlist(p, pn);

pnode_unlinksub(pn);

break;

case NODE_GROUP:

pnode_printgroup(p, pn);

pnode_unlinksub(pn);

break;

case NODE_KEYSYM:

macro_open(p, "Sy");

Line 1341 pnode_print(struct parse *p, struct pnode *pn)

Line 1338 pnode_print(struct parse *p, struct pnode *pn)

break;

case NODE_MML_MFENCED:

pnode_printmathfenced(p, pn);

pnode_unlinksub(pn);

break;

case NODE_MML_MROW:

case NODE_MML_MI:

Line 1355 pnode_print(struct parse *p, struct pnode *pn)

Line 1351 pnode_print(struct parse *p, struct pnode *pn)

case NODE_MML_MSUB:

case NODE_MML_MSUP:

pnode_printmath(p, pn);

pnode_unlinksub(pn);

break;

case NODE_OPTION:

macro_open(p, "Fl");

break;

case NODE_ORDEREDLIST:

pnode_printlist(p, pn);

pnode_unlinksub(pn);

break;

case NODE_PARA:

pnode_printpara(p, pn);

break;

case NODE_PARAMETER:

/* Suppress non-text children... */

macro_nodeline(p, "Fa", pn, ARG_SINGLE);

macro_open(p, "Fa \"");

macro_addnode(p, pn, MACROLINE_NOWS);

macro_addarg(p, "\"", MACROLINE_NOWS);

macro_close(p);

pnode_unlinksub(pn);

break;

case NODE_QUOTE:

Line 1391 pnode_print(struct parse *p, struct pnode *pn)

Line 1381 pnode_print(struct parse *p, struct pnode *pn)

break;

case NODE_REFNAME:

/* Suppress non-text children... */

macro_nodeline(p, "Nm", pn);

macro_open(p, "Nm");

macro_addnode(p, pn, ARG_SPACE | ARG_SINGLE);

pnode_unlinksub(pn);

break;

case NODE_REFNAMEDIV:

Line 1402 pnode_print(struct parse *p, struct pnode *pn)

Line 1393 pnode_print(struct parse *p, struct pnode *pn)

break;

case NODE_REFSYNOPSISDIV:

pnode_printrefsynopsisdiv(p, pn);

macro_line(p, "Sh SYNOPSIS");

break;

case NODE_PREFACE:

case NODE_SECTION:

Line 1427 pnode_print(struct parse *p, struct pnode *pn)

Line 1417 pnode_print(struct parse *p, struct pnode *pn)

case NODE_TABLE:

case NODE_INFORMALTABLE:

pnode_printtable(p, pn);

pnode_unlinksub(pn);

break;

case NODE_TEXT:

bufclear(p);

if (pn->bsz == 0) {

bufappend(p, pn);

if (p->bsz == 0) {

assert(pn->real != pn->b);

break;

}

Line 1447 pnode_print(struct parse *p, struct pnode *pn)

Line 1434 pnode_print(struct parse *p, struct pnode *pn)

* XXX: all whitespace, including tabs (?).

* Remember to escape control characters and escapes.

cp = p->b;

cp = pn->b;

* There's often a superfluous "-" in its <option> tags

Line 1486 pnode_print(struct parse *p, struct pnode *pn)

Line 1473 pnode_print(struct parse *p, struct pnode *pn)

break;

case NODE_VARIABLELIST:

pnode_printvariablelist(p, pn);

pnode_unlinksub(pn);

break;

case NODE_VARLISTENTRY:

pnode_printvarlistentry(p, pn);

pnode_unlinksub(pn);

break;

case NODE_VARNAME:

macro_open(p, "Va");

Line 1566 pnode_print(struct parse *p, struct pnode *pn)

Line 1551 pnode_print(struct parse *p, struct pnode *pn)

pn->parent->node == NODE_REFNAMEDIV &&

TAILQ_NEXT(pn, child) != NULL &&

TAILQ_NEXT(pn, child)->node == NODE_REFNAME)

fputs(" ,", stdout);

macro_addarg(p, ",", ARG_SPACE);

if (sv == LINE_NEW)

macro_close(p);

break;

Line 1604 readfile(XML_Parser xp, int fd,

Line 1589 readfile(XML_Parser xp, int fd,

int rc;

ssize_t ssz;

memset(&p, 0, sizeof(struct parse));

memset(&p, 0, sizeof(p));

p.b = malloc(p.bsz = p.mbsz = 1024);

p.fname = fn;

p.xml = xp;

Line 1633 readfile(XML_Parser xp, int fd,

Line 1616 readfile(XML_Parser xp, int fd,

if (p.linestate != LINE_NEW)

putchar('\n');

pnode_free(p.root);

free(p.b);

return rc != 0 && p.stop == 0;

}

/* Read error has occured. */

perror(fn);

pnode_free(p.root);

free(p.b);

return 0;

}

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