mandoc/mdoc.c - diff

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Diff for /mandoc/mdoc.c between version 1.75 and 1.133

version 1.75, 2009/04/12 19:45:26

version 1.133, 2010/05/15 16:24:37

Line 1

/* $Id$ */

* Permission to use, copy, modify, and distribute this software for any

* purpose with or without fee is hereby granted, provided that the above

Line 14

* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF

* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.

#ifdef HAVE_CONFIG_H

#include "config.h"

#endif

#include <sys/types.h>

#include <assert.h>

#include <ctype.h>

#include <stdarg.h>

#include <stdio.h>

#include <stdlib.h>

#include <string.h>

#include <time.h>

#include "libmdoc.h"

#include "libmandoc.h"

enum merr {

const char *const __mdoc_merrnames[MERRMAX] = {

ENOCALL,

"trailing whitespace", /* ETAILWS */

EBODYPROL,

"unexpected quoted parameter", /* EQUOTPARM */

EPROLBODY,

"unterminated quoted parameter", /* EQUOTTERM */

ESPACE,

"argument parameter suggested", /* EARGVAL */

ETEXTPROL,

"macro disallowed in prologue", /* EBODYPROL */

ENOBLANK,

"macro disallowed in body", /* EPROLBODY */

EMALLOC

"text disallowed in prologue", /* ETEXTPROL */

"blank line disallowed", /* ENOBLANK */

"text parameter too long", /* ETOOLONG */

"invalid escape sequence", /* EESCAPE */

"invalid character", /* EPRINT */

"document has no body", /* ENODAT */

"document has no prologue", /* ENOPROLOGUE */

"expected line arguments", /* ELINE */

"invalid AT&T argument", /* EATT */

"default name not yet set", /* ENAME */

"missing list type", /* ELISTTYPE */

"missing display type", /* EDISPTYPE */

"too many display types", /* EMULTIDISP */

"too many list types", /* EMULTILIST */

"NAME section must be first", /* ESECNAME */

"badly-formed NAME section", /* ENAMESECINC */

"argument repeated", /* EARGREP */

"expected boolean parameter", /* EBOOL */

"inconsistent column syntax", /* ECOLMIS */

"nested display invalid", /* ENESTDISP */

"width argument missing", /* EMISSWIDTH */

"invalid section for this manual section", /* EWRONGMSEC */

"section out of conventional order", /* ESECOOO */

"section repeated", /* ESECREP */

"invalid standard argument", /* EBADSTAND */

"multi-line arguments discouraged", /* ENOMULTILINE */

"multi-line arguments suggested", /* EMULTILINE */

"line arguments discouraged", /* ENOLINE */

"prologue macro out of conventional order", /* EPROLOOO */

"prologue macro repeated", /* EPROLREP */

"invalid manual section", /* EBADMSEC */

"invalid font mode", /* EFONT */

"invalid date syntax", /* EBADDATE */

"invalid number format", /* ENUMFMT */

"superfluous width argument", /* ENOWIDTH */

"system: utsname error", /* EUTSNAME */

"obsolete macro", /* EOBS */

"end-of-line scope violation", /* EIMPBRK */

"empty macro ignored", /* EIGNE */

"unclosed explicit scope", /* EOPEN */

"unterminated quoted phrase", /* EQUOTPHR */

"closure macro without prior context", /* ENOCTX */

"no description found for library", /* ELIB */

"bad child for parent context", /* EBADCHILD */

"list arguments preceding type", /* ENOTYPE */

"deprecated comment style", /* EBADCOMMENT */

};

const char *const __mdoc_macronames[MDOC_MAX] = {

"\\\"", "Dd", "Dt", "Os",

"Ap", "Dd", "Dt", "Os",

"Sh", "Ss", "Pp", "D1",

"Dl", "Bd", "Ed", "Bl",

"El", "It", "Ad", "An",

Line 45 const char *const __mdoc_macronames[MDOC_MAX] = {

Line 98 const char *const __mdoc_macronames[MDOC_MAX] = {

"Nm", "Op", "Ot", "Pa",

"Rv", "St", "Va", "Vt",

/* LINTED */

"Xr", "\%A", "\%B", "\%D",

"Xr", "%A", "%B", "%D",

/* LINTED */

"\%I", "\%J", "\%N", "\%O",

"%I", "%J", "%N", "%O",

/* LINTED */

"\%P", "\%R", "\%T", "\%V",

"%P", "%R", "%T", "%V",

"Ac", "Ao", "Aq", "At",

"Bc", "Bf", "Bo", "Bq",

"Bsx", "Bx", "Db", "Dc",

Line 63 const char *const __mdoc_macronames[MDOC_MAX] = {

Line 116 const char *const __mdoc_macronames[MDOC_MAX] = {

"Tn", "Ux", "Xc", "Xo",

"Fo", "Fc", "Oo", "Oc",

"Bk", "Ek", "Bt", "Hf",

"Fr", "Ud", "Lb", "Ap",

"Fr", "Ud", "Lb", "Lp",

"Lp", "Lk", "Mt", "Brq",

"Lk", "Mt", "Brq", "Bro",

/* LINTED */

"Bro", "Brc", "\%C", "Es",

"Brc", "%C", "Es", "En",

/* LINTED */

"En", "Dx", "\%Q"

"Dx", "%Q", "br", "sp",

/* LINTED */

"%U"

};

const char *const __mdoc_argnames[MDOC_ARG_MAX] = {

Line 80 const char *const __mdoc_argnames[MDOC_ARG_MAX] = {

Line 135 const char *const __mdoc_argnames[MDOC_ARG_MAX] = {

"ohang", "inset", "column",

"width", "compact", "std",

"filled", "words", "emphasis",

"symbolic", "nested"

"symbolic", "nested", "centered"

};

const char * const *mdoc_macronames = __mdoc_macronames;

const char * const *mdoc_argnames = __mdoc_argnames;

static void mdoc_node_free(struct mdoc_node *);

static void mdoc_node_unlink(struct mdoc *,

struct mdoc_node *);

static void mdoc_free1(struct mdoc *);

static int mdoc_alloc1(struct mdoc *);

static void mdoc_alloc1(struct mdoc *);

static struct mdoc_node *node_alloc(struct mdoc *, int, int,

int, enum mdoc_type);

enum mdoct, enum mdoc_type);

static int node_append(struct mdoc *,

struct mdoc_node *);

static int parsetext(struct mdoc *, int, char *);

static int mdoc_ptext(struct mdoc *, int, char *);

static int parsemacro(struct mdoc *, int, char *);

static int mdoc_pmacro(struct mdoc *, int, char *);

static int macrowarn(struct mdoc *, int, const char *);

static int perr(struct mdoc *, int, int, enum merr);

#define verr(m, t) perr((m), (m)->last->line, (m)->last->pos, (t))

* Get the first (root) node of the parse tree.

const struct mdoc_node *

mdoc_node(const struct mdoc *m)

{

Line 118 mdoc_meta(const struct mdoc *m)

Line 171 mdoc_meta(const struct mdoc *m)

}

* Frees volatile resources (parse tree, meta-data, fields).

static void

mdoc_free1(struct mdoc *mdoc)

{

if (mdoc->first)

mdoc_node_freelist(mdoc->first);

mdoc_node_delete(mdoc, mdoc->first);

if (mdoc->meta.title)

free(mdoc->meta.title);

if (mdoc->meta.os)

Line 134 mdoc_free1(struct mdoc *mdoc)

Line 190 mdoc_free1(struct mdoc *mdoc)

free(mdoc->meta.arch);

if (mdoc->meta.vol)

free(mdoc->meta.vol);

if (mdoc->meta.msec)

free(mdoc->meta.msec);

}

static int

* Allocate all volatile resources (parse tree, meta-data, fields).

static void

mdoc_alloc1(struct mdoc *mdoc)

{

bzero(&mdoc->meta, sizeof(struct mdoc_meta));

memset(&mdoc->meta, 0, sizeof(struct mdoc_meta));

mdoc->flags = 0;

mdoc->lastnamed = mdoc->lastsec = 0;

mdoc->lastnamed = mdoc->lastsec = SEC_NONE;

mdoc->last = calloc(1, sizeof(struct mdoc_node));

mdoc->last = mandoc_calloc(1, sizeof(struct mdoc_node));

if (NULL == mdoc->last)

return(0);

mdoc->first = mdoc->last;

mdoc->last->type = MDOC_ROOT;

mdoc->next = MDOC_NEXT_CHILD;

return(1);

}

* Free up all resources contributed by a parse: the node tree,

* Free up volatile resources (see mdoc_free1()) then re-initialises the

* meta-data and so on. Then reallocate the root node for another

* data with mdoc_alloc1(). After invocation, parse data has been reset

* parse.

* and the parser is ready for re-invocation on a new tree; however,

* cross-parse non-volatile data is kept intact.

int

void

mdoc_reset(struct mdoc *mdoc)

{

mdoc_free1(mdoc);

return(mdoc_alloc1(mdoc));

mdoc_alloc1(mdoc);

}

* Completely free up all resources.

* Completely free up all volatile and non-volatile parse resources.

* After invocation, the pointer is no longer usable.

void

mdoc_free(struct mdoc *mdoc)

{

mdoc_free1(mdoc);

if (mdoc->htab)

mdoc_hash_free(mdoc->htab);

free(mdoc);

}

* Allocate volatile and non-volatile parse resources.

struct mdoc *

mdoc_alloc(void *data, int pflags, const struct mdoc_cb *cb)

{

struct mdoc *p;

if (NULL == (p = calloc(1, sizeof(struct mdoc))))

p = mandoc_calloc(1, sizeof(struct mdoc));

return(NULL);

if (cb)

(void)memcpy(&p->cb, cb, sizeof(struct mdoc_cb));

memcpy(&p->cb, cb, sizeof(struct mdoc_cb));

p->data = data;

p->pflags = pflags;

if (NULL == (p->htab = mdoc_hash_alloc())) {

mdoc_hash_init();

free(p);

mdoc_alloc1(p);

return(NULL);

return(p);

} else if (mdoc_alloc1(p))

return(p);

free(p);

return(NULL);

}

* Climb back up the parse tree, validating open scopes. Mostly calls

* through to macro_end in macro.c.

* through to macro_end() in macro.c.

int

mdoc_endparse(struct mdoc *m)

Line 226 mdoc_endparse(struct mdoc *m)

Line 281 mdoc_endparse(struct mdoc *m)

* Main parse routine. Parses a single line -- really just hands off to

* the macro or text parser.

* the macro (mdoc_pmacro()) or text parser (mdoc_ptext()).

int

mdoc_parseln(struct mdoc *m, int ln, char *buf)

{

/* If in error-mode, then we parse no more. */

if (MDOC_HALT & m->flags)

return(0);

return('.' == *buf ? parsemacro(m, ln, buf) :

m->flags |= MDOC_NEWLINE;

parsetext(m, ln, buf));

return('.' == *buf ?

mdoc_pmacro(m, ln, buf) :

mdoc_ptext(m, ln, buf));

}

void

mdoc_vmsg(struct mdoc *mdoc, int ln, int pos, const char *fmt, ...)

{

char buf[256];

va_list ap;

if (NULL == mdoc->cb.mdoc_msg)

return;

va_start(ap, fmt);

(void)vsnprintf(buf, sizeof(buf) - 1, fmt, ap);

va_end(ap);

(*mdoc->cb.mdoc_msg)(mdoc->data, ln, pos, buf);

}

int

mdoc_verr(struct mdoc *mdoc, int ln, int pos,

const char *fmt, ...)

Line 271 mdoc_verr(struct mdoc *mdoc, int ln, int pos,

Line 310 mdoc_verr(struct mdoc *mdoc, int ln, int pos,

va_start(ap, fmt);

(void)vsnprintf(buf, sizeof(buf) - 1, fmt, ap);

va_end(ap);

return((*mdoc->cb.mdoc_err)(mdoc->data, ln, pos, buf));

}

int

mdoc_vwarn(struct mdoc *mdoc, int ln, int pos,

mdoc_vwarn(struct mdoc *mdoc, int ln, int pos, const char *fmt, ...)

enum mdoc_warn type, const char *fmt, ...)

{

char buf[256];

va_list ap;

Line 288 mdoc_vwarn(struct mdoc *mdoc, int ln, int pos,

Line 327 mdoc_vwarn(struct mdoc *mdoc, int ln, int pos,

va_start(ap, fmt);

(void)vsnprintf(buf, sizeof(buf) - 1, fmt, ap);

va_end(ap);

return((*mdoc->cb.mdoc_warn)(mdoc->data, ln, pos, type, buf));

return((*mdoc->cb.mdoc_warn)(mdoc->data, ln, pos, buf));

}

int

mdoc_macro(struct mdoc *m, int tok,

mdoc_err(struct mdoc *m, int line, int pos, int iserr, enum merr type)

int ln, int pp, int *pos, char *buf)

{

const char *p;

/* FIXME - these should happen during validation. */

p = __mdoc_merrnames[(int)type];

assert(p);

if (MDOC_PROLOGUE & mdoc_macros[tok].flags &&

if (iserr)

SEC_PROLOGUE != m->lastnamed)

return(mdoc_verr(m, line, pos, p));

return(perr(m, ln, pp, EPROLBODY));

if ( ! (MDOC_PROLOGUE & mdoc_macros[tok].flags) &&

return(mdoc_vwarn(m, line, pos, p));

SEC_PROLOGUE == m->lastnamed)

return(perr(m, ln, pp, EBODYPROL));

if (1 != pp && ! (MDOC_CALLABLE & mdoc_macros[tok].flags))

return(perr(m, ln, pp, ENOCALL));

return((*mdoc_macros[tok].fp)(m, tok, ln, pp, pos, buf));

}

static int

int

perr(struct mdoc *m, int line, int pos, enum merr type)

mdoc_macro(struct mdoc *m, enum mdoct tok,

int ln, int pp, int *pos, char *buf)

{

char *p;

assert(tok < MDOC_MAX);

p = NULL;

/* If we're in the body, deny prologue calls. */

switch (type) {

case (ENOCALL):

if (MDOC_PROLOGUE & mdoc_macros[tok].flags &&

p = "not callable";

MDOC_PBODY & m->flags)

break;

return(mdoc_perr(m, ln, pp, EPROLBODY));

case (EPROLBODY):

p = "macro disallowed in document body";

/* If we're in the prologue, deny "body" macros. */

break;

case (EBODYPROL):

if ( ! (MDOC_PROLOGUE & mdoc_macros[tok].flags) &&

p = "macro disallowed in document prologue";

! (MDOC_PBODY & m->flags)) {

break;

if ( ! mdoc_pwarn(m, ln, pp, EBODYPROL))

case (EMALLOC):

return(0);

p = "memory exhausted";

if (NULL == m->meta.title)

break;

m->meta.title = mandoc_strdup("unknown");

case (ETEXTPROL):

if (NULL == m->meta.vol)

p = "text disallowed in document prologue";

m->meta.vol = mandoc_strdup("local");

break;

if (NULL == m->meta.os)

case (ENOBLANK):

m->meta.os = mandoc_strdup("local");

p = "blank lines disallowed in non-literal contexts";

if (0 == m->meta.date)

break;

m->meta.date = time(NULL);

case (ESPACE):

m->flags |= MDOC_PBODY;

p = "whitespace disallowed after delimiter";

break;

}

assert(p);

return(mdoc_perr(m, line, pos, p));

return((*mdoc_macros[tok].fp)(m, tok, ln, pp, pos, buf));

}

Line 371 node_append(struct mdoc *mdoc, struct mdoc_node *p)

Line 403 node_append(struct mdoc *mdoc, struct mdoc_node *p)

/* NOTREACHED */

}

p->parent->nchild++;

if ( ! mdoc_valid_pre(mdoc, p))

return(0);

if ( ! mdoc_action_pre(mdoc, p))

Line 411 node_append(struct mdoc *mdoc, struct mdoc_node *p)

Line 445 node_append(struct mdoc *mdoc, struct mdoc_node *p)

static struct mdoc_node *

node_alloc(struct mdoc *mdoc, int line,

node_alloc(struct mdoc *m, int line, int pos,

int pos, int tok, enum mdoc_type type)

enum mdoct tok, enum mdoc_type type)

{

struct mdoc_node *p;

if (NULL == (p = calloc(1, sizeof(struct mdoc_node)))) {

p = mandoc_calloc(1, sizeof(struct mdoc_node));

(void)verr(mdoc, EMALLOC);

p->sec = m->lastsec;

return(NULL);

}

p->sec = mdoc->lastsec;

p->line = line;

p->pos = pos;

p->tok = tok;

if (MDOC_TEXT != (p->type = type))

p->type = type;

assert(p->tok >= 0);

if (MDOC_NEWLINE & m->flags)

p->flags |= MDOC_LINE;

m->flags &= ~MDOC_NEWLINE;

return(p);

}

int

mdoc_tail_alloc(struct mdoc *mdoc, int line, int pos, int tok)

mdoc_tail_alloc(struct mdoc *m, int line, int pos, enum mdoct tok)

{

struct mdoc_node *p;

p = node_alloc(mdoc, line, pos, tok, MDOC_TAIL);

p = node_alloc(m, line, pos, tok, MDOC_TAIL);

if (NULL == p)

if ( ! node_append(m, p))

return(0);

return(node_append(mdoc, p));

m->next = MDOC_NEXT_CHILD;

return(1);

}

int

mdoc_head_alloc(struct mdoc *mdoc, int line, int pos, int tok)

mdoc_head_alloc(struct mdoc *m, int line, int pos, enum mdoct tok)

{

struct mdoc_node *p;

assert(mdoc->first);

assert(m->first);

assert(mdoc->last);

assert(m->last);

p = node_alloc(mdoc, line, pos, tok, MDOC_HEAD);

p = node_alloc(m, line, pos, tok, MDOC_HEAD);

if (NULL == p)

if ( ! node_append(m, p))

return(0);

return(node_append(mdoc, p));

m->next = MDOC_NEXT_CHILD;

return(1);

}

int

mdoc_body_alloc(struct mdoc *mdoc, int line, int pos, int tok)

mdoc_body_alloc(struct mdoc *m, int line, int pos, enum mdoct tok)

{

struct mdoc_node *p;

p = node_alloc(mdoc, line, pos, tok, MDOC_BODY);

p = node_alloc(m, line, pos, tok, MDOC_BODY);

if (NULL == p)

if ( ! node_append(m, p))

return(0);

return(node_append(mdoc, p));

m->next = MDOC_NEXT_CHILD;

return(1);

}

int

mdoc_block_alloc(struct mdoc *mdoc, int line, int pos,

mdoc_block_alloc(struct mdoc *m, int line, int pos,

int tok, struct mdoc_arg *args)

enum mdoct tok, struct mdoc_arg *args)

{

struct mdoc_node *p;

p = node_alloc(mdoc, line, pos, tok, MDOC_BLOCK);

p = node_alloc(m, line, pos, tok, MDOC_BLOCK);

if (NULL == p)

p->args = args;

return(0);

if (p->args)

if ((p->args = args))

(args->refcnt)++;

return(node_append(mdoc, p));

if ( ! node_append(m, p))

return(0);

m->next = MDOC_NEXT_CHILD;

return(1);

}

int

mdoc_elem_alloc(struct mdoc *mdoc, int line, int pos,

mdoc_elem_alloc(struct mdoc *m, int line, int pos,

int tok, struct mdoc_arg *args)

enum mdoct tok, struct mdoc_arg *args)

{

struct mdoc_node *p;

p = node_alloc(mdoc, line, pos, tok, MDOC_ELEM);

p = node_alloc(m, line, pos, tok, MDOC_ELEM);

if (NULL == p)

p->args = args;

return(0);

if (p->args)

if ((p->args = args))

(args->refcnt)++;

return(node_append(mdoc, p));

if ( ! node_append(m, p))

return(0);

m->next = MDOC_NEXT_CHILD;

return(1);

}

int

mdoc_word_alloc(struct mdoc *mdoc,

mdoc_word_alloc(struct mdoc *m, int line, int pos, const char *p)

int line, int pos, const char *word)

{

struct mdoc_node *p;

struct mdoc_node *n;

size_t sv, len;

p = node_alloc(mdoc, line, pos, -1, MDOC_TEXT);

len = strlen(p);

if (NULL == p)

n = node_alloc(m, line, pos, MDOC_MAX, MDOC_TEXT);

n->string = mandoc_malloc(len + 1);

sv = strlcpy(n->string, p, len + 1);

/* Prohibit truncation. */

assert(sv < len + 1);

if ( ! node_append(m, n))

return(0);

if (NULL == (p->string = strdup(word))) {

(void)verr(mdoc, EMALLOC);

m->next = MDOC_NEXT_SIBLING;

return(0);

return(1);

}

return(node_append(mdoc, p));

}

Line 530 mdoc_node_free(struct mdoc_node *p)

Line 574 mdoc_node_free(struct mdoc_node *p)

}

static void

mdoc_node_unlink(struct mdoc *m, struct mdoc_node *n)

{

/* Adjust siblings. */

if (n->prev)

n->prev->next = n->next;

if (n->next)

n->next->prev = n->prev;

/* Adjust parent. */

if (n->parent) {

n->parent->nchild--;

if (n->parent->child == n)

n->parent->child = n->prev ? n->prev : n->next;

}

/* Adjust parse point, if applicable. */

if (m && m->last == n) {

if (n->prev) {

m->last = n->prev;

m->next = MDOC_NEXT_SIBLING;

} else {

m->last = n->parent;

m->next = MDOC_NEXT_CHILD;

}

if (m && m->first == n)

m->first = NULL;

}

void

mdoc_node_freelist(struct mdoc_node *p)

mdoc_node_delete(struct mdoc *m, struct mdoc_node *p)

{

if (p->child)

while (p->child) {

mdoc_node_freelist(p->child);

assert(p->nchild);

if (p->next)

mdoc_node_delete(m, p->child);

mdoc_node_freelist(p->next);

}

assert(0 == p->nchild);

mdoc_node_unlink(m, p);

mdoc_node_free(p);

}

Line 548 mdoc_node_freelist(struct mdoc_node *p)

Line 630 mdoc_node_freelist(struct mdoc_node *p)

* control character.

static int

parsetext(struct mdoc *m, int line, char *buf)

mdoc_ptext(struct mdoc *m, int line, char *buf)

{

int i;

if (SEC_PROLOGUE == m->lastnamed)

/* Ignore bogus comments. */

return(perr(m, line, 0, ETEXTPROL));

if (0 == buf[0] && ! (MDOC_LITERAL & m->flags))

if ('\\' == buf[0] && '.' == buf[1] && '\"' == buf[2])

return(perr(m, line, 0, ENOBLANK));

return(mdoc_pwarn(m, line, 0, EBADCOMMENT));

/* No text before an initial macro. */

if (SEC_NONE == m->lastnamed)

return(mdoc_perr(m, line, 0, ETEXTPROL));

/* Literal just gets pulled in as-is. */

if (MDOC_LITERAL & m->flags)

return(mdoc_word_alloc(m, line, 0, buf));

/* Check for a blank line, which may also consist of spaces. */

for (i = 0; ' ' == buf[i]; i++)

/* Skip to first non-space. */ ;

if ('\0' == buf[i]) {

if ( ! mdoc_pwarn(m, line, 0, ENOBLANK))

return(0);

* Insert a `Pp' in the case of a blank line. Technically,

* blank lines aren't allowed, but enough manuals assume this

* behaviour that we want to work around it.

if ( ! mdoc_elem_alloc(m, line, 0, MDOC_Pp, NULL))

return(0);

m->next = MDOC_NEXT_SIBLING;

return(1);

}

* Warn if the last un-escaped character is whitespace. Then

* strip away the remaining spaces (tabs stay!).

i = (int)strlen(buf);

assert(i);

if (' ' == buf[i - 1] || '\t' == buf[i - 1]) {

if (i > 1 && '\\' != buf[i - 2])

if ( ! mdoc_pwarn(m, line, i - 1, ETAILWS))

return(0);

for (--i; i && ' ' == buf[i]; i--)

/* Spin back to non-space. */ ;

/* Jump ahead of escaped whitespace. */

i += '\\' == buf[i] ? 2 : 1;

buf[i] = '\0';

}

/* Allocate the whole word. */

if ( ! mdoc_word_alloc(m, line, 0, buf))

return(0);

m->next = MDOC_NEXT_SIBLING;

* End-of-sentence check. If the last character is an unescaped

* EOS character, then flag the node as being the end of a

* sentence. The front-end will know how to interpret this.

/* FIXME: chain of close delims. */

assert(i);

if (mandoc_eos(buf, (size_t)i))

m->last->flags |= MDOC_EOS;

return(1);

}

Line 569 static int

Line 718 static int

macrowarn(struct mdoc *m, int ln, const char *buf)

{

if ( ! (MDOC_IGN_MACRO & m->pflags))

return(mdoc_perr(m, ln, 1,

return(mdoc_verr(m, ln, 0, "unknown macro: %s%s",

"unknown macro: %s%s",

buf, strlen(buf) > 3 ? "..." : ""));

return(mdoc_pwarn(m, ln, 1, WARN_SYNTAX,

return(mdoc_vwarn(m, ln, 0, "unknown macro: %s%s",

"unknown macro: %s%s",

buf, strlen(buf) > 3 ? "..." : ""));

}

* Parse a macro line, that is, a line beginning with the control

* character.

int

parsemacro(struct mdoc *m, int ln, char *buf)

mdoc_pmacro(struct mdoc *m, int ln, char *buf)

{

int i, c;

enum mdoct tok;

char mac[5];

int i, j, sv;

char mac[5];

/* Comments and empties are quickly ignored. */

/* Empty lines are ignored. */

if (0 == buf[1])

if ('\0' == buf[1])

return(1);

if (' ' == buf[1]) {

i = 1;

i = 2;

/* Accept whitespace after the initial control char. */

if (' ' == buf[i]) {

i++;

while (buf[i] && ' ' == buf[i])

i++;

if (0 == buf[i])

if ('\0' == buf[i])

return(1);

return(perr(m, ln, 1, ESPACE));

}

if (buf[1] && '\\' == buf[1])

sv = i;

if (buf[2] && '\"' == buf[2])

return(1);

/* Copy the first word into a nil-terminated buffer. */

for (i = 1; i < 5; i++) {

for (j = 0; j < 4; j++, i++) {

if (0 == (mac[i - 1] = buf[i]))

if ('\0' == (mac[j] = buf[i]))

break;

else if (' ' == buf[i])

break;

/* Check for invalid characters. */

if (isgraph((u_char)buf[i]))

continue;

return(mdoc_perr(m, ln, i, EPRINT));

}

mac[i - 1] = 0;

mac[j] = 0;

if (i == 5 || i <= 2) {

if (j == 4 || j < 2) {

if ( ! macrowarn(m, ln, mac))

goto err;

return(1);

}

if (MDOC_MAX == (c = mdoc_hash_find(m->htab, mac))) {

if (MDOC_MAX == (tok = mdoc_hash_find(mac))) {

if ( ! macrowarn(m, ln, mac))

goto err;

return(1);

Line 635 parsemacro(struct mdoc *m, int ln, char *buf)

Line 789 parsemacro(struct mdoc *m, int ln, char *buf)

while (buf[i] && ' ' == buf[i])

i++;

/* Begin recursive parse sequence. */

* Trailing whitespace. Note that tabs are allowed to be passed

* into the parser as "text", so we only warn about spaces here.

if ( ! mdoc_macro(m, c, ln, 1, &i, buf))

if ('\0' == buf[i] && ' ' == buf[i - 1])

if ( ! mdoc_pwarn(m, ln, i - 1, ETAILWS))

goto err;

* Begin recursive parse sequence. Since we're at the start of

* the line, we don't need to do callable/parseable checks.

if ( ! mdoc_macro(m, tok, ln, sv, &i, buf))

goto err;

return(1);

Line 647 err: /* Error out. */

Line 812 err: /* Error out. */

m->flags |= MDOC_HALT;

return(0);

}

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