docbook2mdoc/parse.c - diff

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Up to [cvsweb.bsd.lv] / docbook2mdoc

Diff for /docbook2mdoc/parse.c between version 1.17 and 1.37

version 1.17, 2019/04/07 14:49:26

version 1.37, 2019/04/12 07:53:09

Line 17

#include <assert.h>

#include <ctype.h>

#include <errno.h>

#include <fcntl.h>

#include <libgen.h>

#include <stdarg.h>

#include <stdio.h>

#include <stdlib.h>

Line 45 enum pstate {

Line 48 enum pstate {

struct parse {

const char *fname; /* Name of the input file. */

struct ptree *tree; /* Complete parse result. */

struct pnode *doctype;

struct pnode *cur; /* Current node in the tree. */

enum nodeid ncur; /* Type of the current node. */

int line; /* Line number in the input file. */

Line 52 struct parse {

Line 56 struct parse {

int nline; /* Line number of next token. */

int ncol; /* Column number of next token. */

int del; /* Levels of nested nodes being deleted. */

int spc; /* Whitespace before the next element. */

int flags;

int attr; /* The most recent attribute is valid. */

#define PFLAG_WARN (1 << 0) /* Print warning messages. */

int warn;

#define PFLAG_SPC (1 << 1) /* Whitespace before the next element. */

#define PFLAG_ATTR (1 << 2) /* The most recent attribute is valid. */

#define PFLAG_EEND (1 << 3) /* This element is self-closing. */

};

struct element {

Line 66 static const struct element elements[] = {

Line 72 static const struct element elements[] = {

{ "acronym", NODE_IGNORE },

{ "affiliation", NODE_AFFILIATION },

{ "anchor", NODE_DELETE },

{ "appendix", NODE_APPENDIX },

{ "application", NODE_APPLICATION },

{ "arg", NODE_ARG },

{ "article", NODE_SECTION },

{ "author", NODE_AUTHOR },

{ "authorgroup", NODE_AUTHORGROUP },

{ "blockquote", NODE_BLOCKQUOTE },

{ "book", NODE_BOOK },

{ "book", NODE_SECTION },

{ "bookinfo", NODE_BOOKINFO },

{ "caution", NODE_CAUTION },

{ "chapter", NODE_SECTION },

Line 81 static const struct element elements[] = {

Line 89 static const struct element elements[] = {

{ "code", NODE_LITERAL },

{ "colspec", NODE_COLSPEC },

{ "command", NODE_COMMAND },

{ "computeroutput", NODE_LITERAL },

{ "constant", NODE_CONSTANT },

{ "contrib", NODE_CONTRIB },

{ "copyright", NODE_COPYRIGHT },

{ "date", NODE_DATE },

{ "!doctype", NODE_DOCTYPE },

{ "!DOCTYPE", NODE_DOCTYPE },

{ "editor", NODE_EDITOR },

{ "email", NODE_EMAIL },

{ "emphasis", NODE_EMPHASIS },

{ "!ENTITY", NODE_ENTITY },

{ "entry", NODE_ENTRY },

{ "envar", NODE_ENVAR },

{ "errorname", NODE_ERRORNAME },

Line 101 static const struct element elements[] = {

Line 113 static const struct element elements[] = {

{ "funcsynopsis", NODE_FUNCSYNOPSIS },

{ "funcsynopsisinfo", NODE_FUNCSYNOPSISINFO },

{ "function", NODE_FUNCTION },

{ "glossary", NODE_VARIABLELIST },

{ "glossdef", NODE_IGNORE },

{ "glossdiv", NODE_IGNORE },

{ "glossentry", NODE_VARLISTENTRY },

{ "glosslist", NODE_VARIABLELIST },

{ "glossterm", NODE_GLOSSTERM },

{ "group", NODE_GROUP },

{ "holder", NODE_HOLDER },

Line 118 static const struct element elements[] = {

Line 135 static const struct element elements[] = {

{ "literal", NODE_LITERAL },

{ "literallayout", NODE_LITERALLAYOUT },

{ "manvolnum", NODE_MANVOLNUM },

{ "markup", NODE_MARKUP },

{ "member", NODE_MEMBER },

{ "mml:math", NODE_MML_MATH },

{ "mml:mfenced", NODE_MML_MFENCED },

Line 170 static const struct element elements[] = {

Line 188 static const struct element elements[] = {

{ "sect1", NODE_SECTION },

{ "sect2", NODE_SECTION },

{ "section", NODE_SECTION },

{ "sgmltag", NODE_SGMLTAG },

{ "sgmltag", NODE_MARKUP },

{ "simpara", NODE_PARA },

{ "simplelist", NODE_SIMPLELIST },

{ "spanspec", NODE_SPANSPEC },

Line 190 static const struct element elements[] = {

Line 208 static const struct element elements[] = {

{ "title", NODE_TITLE },

{ "trademark", NODE_IGNORE },

{ "type", NODE_TYPE },

{ "ulink", NODE_ULINK },

{ "ulink", NODE_LINK },

{ "userinput", NODE_LITERAL },

{ "variablelist", NODE_VARIABLELIST },

{ "varlistentry", NODE_VARLISTENTRY },

{ "varname", NODE_VARNAME },

{ "warning", NODE_WARNING },

{ "wordasword", NODE_WORDASWORD },

{ "xi:include", NODE_DELETE_WARN },

{ "xi:include", NODE_INCLUDE },

{ "year", NODE_YEAR },

{ NULL, NODE_IGNORE }

};

Line 258 static const struct entity entities[] = {

Line 276 static const struct entity entities[] = {

{ NULL, NULL }

};

static size_t parse_string(struct parse *, char *, size_t,

enum pstate *, int);

static void parse_fd(struct parse *, int);

static void

fatal(struct parse *p)

{

fprintf(stderr, "%s:%d:%d: FATAL: ", p->fname, p->line, p->col);

perror(NULL);

exit(6);

}

static void

error_msg(struct parse *p, const char *fmt, ...)

{

va_list ap;

fprintf(stderr, "%s:%d:%d: ", p->fname, p->line, p->col);

fprintf(stderr, "%s:%d:%d: ERROR: ", p->fname, p->line, p->col);

va_start(ap, fmt);

vfprintf(stderr, fmt, ap);

va_end(ap);

fputc('\n', stderr);

p->tree->flags |= TREE_FAIL;

p->tree->flags |= TREE_ERROR;

}

static void

Line 276 warn_msg(struct parse *p, const char *fmt, ...)

Line 307 warn_msg(struct parse *p, const char *fmt, ...)

{

va_list ap;

if (p->warn == 0)

if ((p->flags & PFLAG_WARN) == 0)

return;

fprintf(stderr, "%s:%d:%d: warning: ", p->fname, p->line, p->col);

fprintf(stderr, "%s:%d:%d: WARNING: ", p->fname, p->line, p->col);

va_start(ap, fmt);

vfprintf(stderr, fmt, ap);

va_end(ap);

fputc('\n', stderr);

p->tree->flags |= TREE_WARN;

}

Line 292 warn_msg(struct parse *p, const char *fmt, ...)

Line 324 warn_msg(struct parse *p, const char *fmt, ...)

* Otherwise, create a new one as a child of the current node.

static void

xml_char(struct parse *ps, const char *p, int sz)

xml_text(struct parse *p, const char *word, int sz)

{

struct pnode *dat;

struct pnode *n, *np;

size_t newsz;

size_t oldsz, newsz;

int i;

if (ps->del > 0)

assert(sz > 0);

if (p->del > 0)

return;

if (ps->cur == NULL) {

if ((n = p->cur) == NULL) {

error_msg(ps, "discarding text before document: %.*s", sz, p);

error_msg(p, "discarding text before document: %.*s",

sz, word);

return;

}

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

/* Append to the current text node, if one is open. */

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

perror(NULL);

if (n->node == NODE_TEXT) {

exit(1);

oldsz = strlen(n->b);

}

newsz = oldsz + sz;

dat->node = NODE_TEXT;

if (oldsz && (p->flags & PFLAG_SPC))

dat->spc = ps->spc;

newsz++;

dat->parent = ps->cur;

if ((n->b = realloc(n->b, newsz + 1)) == NULL)

TAILQ_INIT(&dat->childq);

fatal(p);

TAILQ_INIT(&dat->attrq);

if (oldsz && (p->flags & PFLAG_SPC))

TAILQ_INSERT_TAIL(&ps->cur->childq, dat, child);

n->b[oldsz++] = ' ';

ps->cur = dat;

memcpy(n->b + oldsz, word, sz);

n->b[newsz] = '\0';

p->flags &= ~PFLAG_SPC;

return;

}

if (ps->tree->flags & TREE_CLOSED &&

if (p->tree->flags & TREE_CLOSED && n == p->tree->root)

ps->cur->parent == ps->tree->root)

warn_msg(p, "text after end of document: %.*s", sz, word);

warn_msg(ps, "text after end of document: %.*s", sz, p);

/* Append to the current text node. */

/* Create a new text node. */

assert(sz >= 0);

if ((n = pnode_alloc(p->cur)) == NULL)

newsz = ps->cur->bsz + (ps->cur->bsz && ps->spc) + sz;

fatal(p);

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

n->node = NODE_TEXT;

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

n->spc = (p->flags & PFLAG_SPC) != 0;

perror(NULL);

p->flags &= ~PFLAG_SPC;

exit(1);

* If this node follows a non-text node without intervening

* whitespace, keep the text in it as short as possible,

* and do not keep it open.

if (n->spc == 0 &&

(np = TAILQ_PREV(n, pnodeq, child)) != NULL &&

np->node != NODE_TEXT && np->node != NODE_ESCAPE) {

i = 0;

while (i < sz && !isspace((unsigned char)word[i]))

i++;

if ((n->b = strndup(word, i)) == NULL)

fatal(p);

if (i == sz)

return;

while (i < sz && isspace((unsigned char)word[i]))

i++;

if (i == sz) {

p->flags |= PFLAG_SPC;

return;

}

/* Put any remaining text into a second node. */

if ((n = pnode_alloc(p->cur)) == NULL)

fatal(p);

n->node = NODE_TEXT;

n->spc = 1;

word += i;

sz -= i;

}

if (ps->cur->bsz && ps->spc)

if ((n->b = strndup(word, sz)) == NULL)

ps->cur->b[ps->cur->bsz++] = ' ';

fatal(p);

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

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

/* The new node remains open for later pnode_closetext(). */

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

ps->spc = 0;

p->cur = n;

}

* Close out the text node and strip trailing whitespace, if one is open.

static void

pnode_closetext(struct parse *p)

pnode_closetext(struct parse *p, int check_last_word)

{

struct pnode *n;

char *cp, *last_word;

if ((n = p->cur) == NULL || n->node != NODE_TEXT)

return;

p->cur = n->parent;

while (n->bsz > 0 && isspace((unsigned char)n->b[n->bsz - 1])) {

for (cp = strchr(n->b, '\0');

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

cp > n->b && isspace((unsigned char)cp[-1]);

p->spc = 1;

*--cp = '\0')

}

p->flags |= PFLAG_SPC;

if (p->flags & PFLAG_SPC || !check_last_word)

return;

* Find the beginning of the last word

* and delete whitespace before it.

while (cp > n->b && !isspace((unsigned char)cp[-1]))

cp--;

if (cp == n->b)

return;

last_word = cp;

while (cp > n->b && isspace((unsigned char)cp[-1]))

*--cp = '\0';

/* Move the last word into its own node, for use with .Pf. */

if ((n = pnode_alloc(p->cur)) == NULL)

fatal(p);

n->node = NODE_TEXT;

n->spc = 1;

if ((n->b = strdup(last_word)) == NULL)

fatal(p);

}

static void

xml_entity(struct parse *p, const char *name)

{

const struct entity *entity;

struct pnode *dat;

struct pnode *n;

const char *ccp;

char *cp;

enum pstate pstate;

if (p->del > 0)

return;

Line 371 xml_entity(struct parse *p, const char *name)

Line 469 xml_entity(struct parse *p, const char *name)

return;

}

pnode_closetext(p);

pnode_closetext(p, 0);

if (p->tree->flags & TREE_CLOSED && p->cur == p->tree->root)

warn_msg(p, "entity after end of document: &%s;", name);

Line 381 xml_entity(struct parse *p, const char *name)

Line 479 xml_entity(struct parse *p, const char *name)

break;

if (entity->roff == NULL) {

if (p->doctype != NULL) {

TAILQ_FOREACH(n, &p->doctype->childq, child) {

if ((ccp = pnode_getattr_raw(n,

ATTRKEY_NAME, NULL)) == NULL ||

strcmp(ccp, name) != 0)

continue;

if ((ccp = pnode_getattr_raw(n,

ATTRKEY_SYSTEM, NULL)) != NULL) {

parse_file(p, -1, ccp);

p->flags &= ~PFLAG_SPC;

return;

}

if ((ccp = pnode_getattr_raw(n,

ATTRKEY_DEFINITION, NULL)) == NULL)

continue;

if ((cp = strdup(ccp)) == NULL)

fatal(p);

pstate = PARSE_ELEM;

parse_string(p, cp, strlen(cp), &pstate, 0);

p->flags &= ~PFLAG_SPC;

free(cp);

return;

}

error_msg(p, "unknown entity &%s;", name);

return;

}

/* Create, append, and close out an entity node. */

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

if ((n = pnode_alloc(p->cur)) == NULL ||

(dat->b = dat->real = strdup(entity->roff)) == NULL) {

(n->b = strdup(entity->roff)) == NULL)

perror(NULL);

fatal(p);

exit(1);

n->node = NODE_ESCAPE;

}

n->spc = (p->flags & PFLAG_SPC) != 0;

dat->node = NODE_ESCAPE;

p->flags &= ~PFLAG_SPC;

dat->bsz = strlen(dat->b);

dat->spc = p->spc;

dat->parent = p->cur;

TAILQ_INIT(&dat->childq);

TAILQ_INIT(&dat->attrq);

TAILQ_INSERT_TAIL(&p->cur->childq, dat, child);

p->spc = 0;

}

* Begin an element.

static void

xml_elem_start(struct parse *ps, const char *name)

xml_elem_start(struct parse *p, const char *name)

{

const struct element *elem;

struct pnode *dat;

struct pnode *n;

if (*name == '!' || *name == '?')

return;

* An ancestor is excluded from the tree;

* keep track of the number of levels excluded.

if (ps->del > 0) {

if (p->del > 0) {

ps->del++;

if (*name != '!' && *name != '?')

p->del++;

return;

}

pnode_closetext(ps);

pnode_closetext(p, 1);

for (elem = elements; elem->name != NULL; elem++)

if (strcmp(elem->name, name) == 0)

break;

if (elem->name == NULL)

if (elem->name == NULL) {

error_msg(ps, "unknown element <%s>", name);

if (*name == '!' || *name == '?')

return;

error_msg(p, "unknown element <%s>", name);

}

ps->ncur = elem->node;

p->ncur = elem->node;

switch (ps->ncur) {

switch (p->ncur) {

case NODE_DELETE_WARN:

warn_msg(ps, "skipping element <%s>", name);

warn_msg(p, "skipping element <%s>", name);

/* FALLTHROUGH */

case NODE_DELETE:

ps->del = 1;

p->del = 1;

/* FALLTHROUGH */

case NODE_IGNORE:

return;

case NODE_INLINEEQUATION:

ps->tree->flags |= TREE_EQN;

p->tree->flags |= TREE_EQN;

break;

default:

break;

}

if (ps->tree->flags & TREE_CLOSED && ps->cur->parent == NULL)

if (p->tree->flags & TREE_CLOSED && p->cur->parent == NULL)

warn_msg(ps, "element after end of document: <%s>", name);

warn_msg(p, "element after end of document: <%s>", name);

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

if ((n = pnode_alloc(p->cur)) == NULL)

perror(NULL);

fatal(p);

exit(1);

}

* Nodes that begin a new macro or request line or start by

* printing text always want whitespace before themselves.

switch (dat->node = elem->node) {

switch (n->node = elem->node) {

case NODE_DOCTYPE:

case NODE_ENTITY:

case NODE_SBR:

p->flags |= PFLAG_EEND;

/* FALLTHROUGH */

case NODE_APPENDIX:

case NODE_AUTHORGROUP:

case NODE_BLOCKQUOTE:

case NODE_BOOKINFO:

case NODE_CAUTION:

case NODE_EDITOR:

Line 484 xml_elem_start(struct parse *ps, const char *name)

Line 605 xml_elem_start(struct parse *ps, const char *name)

case NODE_REFNAMEDIV:

case NODE_REFSYNOPSISDIV:

case NODE_ROW:

case NODE_SBR:

case NODE_SCREEN:

case NODE_SECTION:

case NODE_SYNOPSIS:

Line 494 xml_elem_start(struct parse *ps, const char *name)

Line 614 xml_elem_start(struct parse *ps, const char *name)

case NODE_VARIABLELIST:

case NODE_VARLISTENTRY:

case NODE_WARNING:

dat->spc = 1;

n->spc = 1;

break;

default:

dat->spc = ps->spc;

n->spc = (p->flags & PFLAG_SPC) != 0;

break;

}

dat->parent = ps->cur;

p->cur = n;

TAILQ_INIT(&dat->childq);

if (n->node == NODE_DOCTYPE) {

TAILQ_INIT(&dat->attrq);

if (p->doctype == NULL)

p->doctype = n;

if (ps->cur != NULL)

else

TAILQ_INSERT_TAIL(&ps->cur->childq, dat, child);

error_msg(p, "duplicate doctype");

} else if (n->parent == NULL && p->tree->root == NULL)

ps->cur = dat;

p->tree->root = n;

if (ps->tree->root == NULL)

ps->tree->root = dat;

}

static void

xml_attrkey(struct parse *ps, const char *name)

xml_attrkey(struct parse *p, const char *name)

{

struct pattr *attr;

struct pattr *a;

const char *value;

enum attrkey key;

if (ps->del > 0 || *name == '\0')

if (p->del > 0 || p->ncur == NODE_IGNORE || *name == '\0')

return;

if ((p->ncur == NODE_DOCTYPE || p->ncur == NODE_ENTITY) &&

TAILQ_FIRST(&p->cur->attrq) == NULL) {

value = name;

name = "NAME";

} else

value = NULL;

if ((key = attrkey_parse(name)) == ATTRKEY__MAX) {

ps->attr = 0;

p->flags &= ~PFLAG_ATTR;

return;

}

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

if ((a = calloc(1, sizeof(*a))) == NULL)

perror(NULL);

fatal(p);

exit(1);

a->key = key;

a->val = ATTRVAL__MAX;

if (value == NULL) {

a->rawval = NULL;

p->flags |= PFLAG_ATTR;

} else {

if ((a->rawval = strdup(value)) == NULL)

fatal(p);

p->flags &= ~PFLAG_ATTR;

}

attr->key = key;

TAILQ_INSERT_TAIL(&p->cur->attrq, a, child);

attr->val = ATTRVAL__MAX;

if (p->ncur == NODE_ENTITY && key == ATTRKEY_NAME)

attr->rawval = NULL;

xml_attrkey(p, "DEFINITION");

TAILQ_INSERT_TAIL(&ps->cur->attrq, attr, child);

ps->attr = 1;

}

static void

xml_attrval(struct parse *ps, const char *name)

xml_attrval(struct parse *p, const char *name)

{

struct pattr *attr;

struct pattr *a;

if (ps->del > 0 || ps->attr == 0)

if (p->del > 0 || p->ncur == NODE_IGNORE ||

(p->flags & PFLAG_ATTR) == 0)

return;

if ((attr = TAILQ_LAST(&ps->cur->attrq, pattrq)) == NULL)

if ((a = TAILQ_LAST(&p->cur->attrq, pattrq)) == NULL)

return;

if ((attr->val = attrval_parse(name)) == ATTRVAL__MAX &&

if ((a->val = attrval_parse(name)) == ATTRVAL__MAX &&

(attr->rawval = strdup(name)) == NULL) {

(a->rawval = strdup(name)) == NULL)

perror(NULL);

fatal(p);

exit(1);

p->flags &= ~PFLAG_ATTR;

}

Line 556 xml_attrval(struct parse *ps, const char *name)

Line 690 xml_attrval(struct parse *ps, const char *name)

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

static void

xml_elem_end(struct parse *ps, const char *name)

xml_elem_end(struct parse *p, const char *name)

{

const struct element *elem;

struct pnode *n;

const char *cp;

enum nodeid node;

* An ancestor is excluded from the tree;

* keep track of the number of levels excluded.

if (ps->del > 1) {

if (p->del > 1) {

ps->del--;

p->del--;

return;

}

if (ps->del == 0)

if (p->del == 0)

pnode_closetext(ps);

pnode_closetext(p, 0);

if (name != NULL) {

for (elem = elements; elem->name != NULL; elem++)

Line 579 xml_elem_end(struct parse *ps, const char *name)

Line 715 xml_elem_end(struct parse *ps, const char *name)

break;

node = elem->node;

} else

node = ps->ncur;

node = p->ncur;

switch (node) {

case NODE_DELETE_WARN:

case NODE_DELETE:

if (ps->del > 0)

if (p->del > 0)

ps->del--;

p->del--;

break;

case NODE_IGNORE:

break;

case NODE_INCLUDE:

n = p->cur;

p->cur = p->cur->parent;

cp = pnode_getattr_raw(n, ATTRKEY_HREF, NULL);

if (cp == NULL)

error_msg(p, "<xi:include> element "

"without href attribute");

else

parse_file(p, -1, cp);

pnode_unlink(n);

p->flags &= ~PFLAG_SPC;

break;

case NODE_DOCTYPE:

case NODE_SBR:

p->flags &= ~PFLAG_EEND;

/* FALLTHROUGH */

default:

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

if (p->cur == NULL || node != p->cur->node) {

warn_msg(ps, "element not open: </%s>", name);

warn_msg(p, "element not open: </%s>", name);

break;

}

Line 602 xml_elem_end(struct parse *ps, const char *name)

Line 754 xml_elem_end(struct parse *ps, const char *name)

* obviously better than discarding it or crashing.

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

if (p->cur->parent != NULL || node == NODE_DOCTYPE) {

ps->tree->flags |= TREE_CLOSED;

p->cur = p->cur->parent;

else

if (p->cur != NULL)

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

p->ncur = p->cur->node;

ps->spc = 0;

} else

p->tree->flags |= TREE_CLOSED;

p->flags &= ~PFLAG_SPC;

break;

}

assert(ps->del == 0);

assert(p->del == 0);

}

struct parse *

Line 624 parse_alloc(int warn)

Line 778 parse_alloc(int warn)

free(p);

return NULL;

}

p->warn = warn;

if (warn)

p->flags |= PFLAG_WARN;

else

p->flags &= ~PFLAG_WARN;

return p;

}

Line 700 parse_string(struct parse *p, char *b, size_t rlen,

Line 857 parse_string(struct parse *p, char *b, size_t rlen,

size_t pend; /* Offset of the end of the current word. */

int elem_end;

p->spc = 0;

pend = 0;

for (;;) {

Line 713 parse_string(struct parse *p, char *b, size_t rlen,

Line 869 parse_string(struct parse *p, char *b, size_t rlen,

if ((poff = pend) == rlen)

break;

if (isspace((unsigned char)b[pend])) {

p->spc = 1;

p->flags |= PFLAG_SPC;

increment(p, b, &pend, refill);

continue;

}

Line 754 parse_string(struct parse *p, char *b, size_t rlen,

Line 910 parse_string(struct parse *p, char *b, size_t rlen,

b[pend - 1] = '\0';

elem_end = 1;

}

if (p->flags & PFLAG_EEND)

elem_end = 1;

}

b[pend] = '\0';

if (pend < rlen)

Line 765 parse_string(struct parse *p, char *b, size_t rlen,

Line 923 parse_string(struct parse *p, char *b, size_t rlen,

/* Look for an attribute name. */

} else if (*pstate == PARSE_TAG) {

switch (p->ncur) {

case NODE_DOCTYPE:

if (b[pend] == '[') {

*pstate = PARSE_ELEM;

increment(p, b, &pend, refill);

continue;

}

/* FALLTHROUGH */

case NODE_ENTITY:

if (b[pend] == '"' || b[pend] == '\'') {

*pstate = PARSE_ARG;

continue;

}

break;

default:

break;

}

if (advance(p, b, rlen, &pend, " =>", refill))

break;

elem_end = 0;

Line 775 parse_string(struct parse *p, char *b, size_t rlen,

Line 950 parse_string(struct parse *p, char *b, size_t rlen,

b[pend - 1] = '\0';

elem_end = 1;

}

if (p->flags & PFLAG_EEND)

elem_end = 1;

break;

case '=':

*pstate = PARSE_ARG;

Line 823 parse_string(struct parse *p, char *b, size_t rlen,

Line 1000 parse_string(struct parse *p, char *b, size_t rlen,

if (b[++poff] == '/') {

elem_end = 1;

poff++;

} else

} else {

xml_elem_start(p, b + poff);

if (*pstate == PARSE_ELEM &&

p->flags & PFLAG_EEND)

elem_end = 1;

}

if (elem_end)

xml_elem_end(p, b + poff);

/* Close a doctype. */

} else if (p->ncur == NODE_DOCTYPE && b[poff] == ']') {

*pstate = PARSE_TAG;

increment(p, b, &pend, refill);

/* Process an entity. */

} else if (b[poff] == '&') {

Line 841 parse_string(struct parse *p, char *b, size_t rlen,

Line 1028 parse_string(struct parse *p, char *b, size_t rlen,

/* Process text up to the next tag, entity, or EOL. */

} else {

advance(p, b, rlen, &pend, "<&", refill);

advance(p, b, rlen, &pend,

xml_char(p, b + poff, pend - poff);

p->ncur == NODE_DOCTYPE ? "<&]\n" : "<&\n",

refill);

xml_text(p, b + poff, pend - poff);

if (b[pend] == '\n')

pnode_closetext(p, 0);

}

return poff;

}

struct ptree *

parse_file(struct parse *p, int fd, const char *fname)

* The read loop.

* If the previous token was incomplete and asked for more input,

* we have to enter the read loop once more even on EOF.

* Once rsz is 0, incomplete tokens will no longer ask for more input

* but instead use whatever there is, and then exit the read loop.

* The minus one on the size limit for read(2) is needed such that

* advance() can set b[rlen] to NUL when needed.

static void

parse_fd(struct parse *p, int fd)

{

char b[4096];

ssize_t rsz; /* Return value from read(2). */

Line 857 parse_file(struct parse *p, int fd, const char *fname)

Line 1058 parse_file(struct parse *p, int fd, const char *fname)

size_t poff; /* Parse offset in b[]. */

enum pstate pstate;

p->fname = fname;

p->nline = 1;

p->ncol = 1;

pstate = PARSE_ELEM;

rlen = 0;

pstate = PARSE_ELEM;

* Read loop.

* If the previous token was incomplete and asked for more

* input, we have to enter the read loop once more even on EOF.

* Once rsz is 0, incomplete tokens will no longer ask

* for more input but instead use whatever there is,

* and then exit the read loop.

* The minus one on the size limit for read(2) is needed

* such that advance() can set b[rlen] to NUL when needed.

while ((rsz = read(fd, b + rlen, sizeof(b) - rlen - 1)) >= 0 &&

(rlen += rsz) > 0) {

poff = parse_string(p, b, rlen, &pstate, rsz > 0);

Line 883 parse_file(struct parse *p, int fd, const char *fname)

Line 1068 parse_file(struct parse *p, int fd, const char *fname)

rlen -= poff;

memmove(b, b + poff, rlen);

}

if (rsz < 0) {

if (rsz < 0)

perror(fname);

error_msg(p, "read: %s", strerror(errno));

p->tree->flags |= TREE_FAIL;

}

* Open and parse a file.

struct ptree *

parse_file(struct parse *p, int fd, const char *fname)

{

const char *save_fname;

int save_line, save_col;

/* Save and initialize reporting data. */

save_fname = p->fname;

save_line = p->nline;

save_col = p->ncol;

p->fname = fname;

p->line = 0;

p->col = 0;

/* Open the file, unless it is already open. */

if (fd == -1 && (fd = open(fname, O_RDONLY, 0)) == -1) {

error_msg(p, "open: %s", strerror(errno));

p->fname = save_fname;

return p->tree;

}

pnode_closetext(p);

if ((p->tree->flags & TREE_CLOSED) == 0)

warn_msg(p, "document not closed");

* After opening the starting file, change to the directory it

* is located in, in case it wants to include any further files,

* which are typically given with relative paths in DocBook.

* Do this on a best-effort basis; don't complain about failure.

if (save_fname == NULL && (fname = dirname(fname)) != NULL &&

strcmp(fname, ".") != 0)

(void)chdir(fname);

/* Run the read loop. */

p->nline = 1;

p->ncol = 1;

parse_fd(p, fd);

/* On the top level, finalize the parse tree. */

if (save_fname == NULL) {

pnode_closetext(p, 0);

if (p->tree->root == NULL)

error_msg(p, "empty document");

else if ((p->tree->flags & TREE_CLOSED) == 0)

warn_msg(p, "document not closed");

pnode_unlink(p->doctype);

}

/* Clean up. */

if (fd != STDIN_FILENO)

close(fd);

p->fname = save_fname;

p->nline = save_line;

p->ncol = save_col;

return p->tree;

}

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