| version 1.43, 2008/12/05 22:54:44 |
version 1.171, 2011/09/19 08:34:45 |
|
|
| /* $Id$ */ |
/* $Id$ */ |
| /* |
/* |
| * Copyright (c) 2008 Kristaps Dzonsons <kristaps@kth.se> |
* Copyright (c) 2010, 2011 Kristaps Dzonsons <kristaps@bsd.lv> |
| |
* Copyright (c) 2010, 2011 Ingo Schwarze <schwarze@openbsd.org> |
| * |
* |
| * Permission to use, copy, modify, and distribute this software for any |
* Permission to use, copy, modify, and distribute this software for any |
| * purpose with or without fee is hereby granted, provided that the |
* purpose with or without fee is hereby granted, provided that the above |
| * above copyright notice and this permission notice appear in all |
* copyright notice and this permission notice appear in all copies. |
| * copies. |
|
| * |
* |
| * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL |
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES |
| * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED |
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF |
| * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE |
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR |
| * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL |
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES |
| * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR |
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN |
| * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER |
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF |
| * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR |
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. |
| * PERFORMANCE OF THIS SOFTWARE. |
|
| */ |
*/ |
| #include <sys/param.h> |
#ifdef HAVE_CONFIG_H |
| #include <sys/types.h> |
#include "config.h" |
| |
#endif |
| |
|
| #include <assert.h> |
#include <assert.h> |
| #include <ctype.h> |
#include <ctype.h> |
| #include <err.h> |
|
| #include <stdarg.h> |
|
| #include <stdlib.h> |
#include <stdlib.h> |
| #include <stdio.h> |
|
| #include <string.h> |
#include <string.h> |
| #include <time.h> |
|
| |
|
| #include "libmdocml.h" |
#include "mandoc.h" |
| #include "private.h" |
#include "libroff.h" |
| #include "roff.h" |
#include "libmandoc.h" |
| |
|
| /* FIXME: First letters of quoted-text interpreted in rofffindtok. */ |
/* Maximum number of nested if-else conditionals. */ |
| /* FIXME: `No' not implemented. */ |
#define RSTACK_MAX 128 |
| /* TODO: warn if Pp occurs before/after Sh etc. (see mdoc.samples). */ |
|
| /* TODO: warn about "X section only" macros. */ |
|
| /* TODO: warn about empty lists. */ |
|
| /* TODO: (warn) some sections need specific elements. */ |
|
| /* TODO: (warn) NAME section has particular order. */ |
|
| /* TODO: unify empty-content tags a la <br />. */ |
|
| /* TODO: macros with a set number of arguments? */ |
|
| /* TODO: validate Dt macro arguments. */ |
|
| /* FIXME: Bl -diag supposed to ignore callable children. */ |
|
| /* FIXME: Nm has newline when used in NAME section. */ |
|
| |
|
| struct roffnode { |
/* Maximum number of string expansions per line, to break infinite loops. */ |
| int tok; /* Token id. */ |
#define EXPAND_LIMIT 1000 |
| struct roffnode *parent; /* Parent (or NULL). */ |
|
| |
enum rofft { |
| |
ROFF_ad, |
| |
ROFF_am, |
| |
ROFF_ami, |
| |
ROFF_am1, |
| |
ROFF_de, |
| |
ROFF_dei, |
| |
ROFF_de1, |
| |
ROFF_ds, |
| |
ROFF_el, |
| |
ROFF_hy, |
| |
ROFF_ie, |
| |
ROFF_if, |
| |
ROFF_ig, |
| |
ROFF_it, |
| |
ROFF_ne, |
| |
ROFF_nh, |
| |
ROFF_nr, |
| |
ROFF_ns, |
| |
ROFF_ps, |
| |
ROFF_rm, |
| |
ROFF_so, |
| |
ROFF_ta, |
| |
ROFF_tr, |
| |
ROFF_TS, |
| |
ROFF_TE, |
| |
ROFF_T_, |
| |
ROFF_EQ, |
| |
ROFF_EN, |
| |
ROFF_cblock, |
| |
ROFF_ccond, |
| |
ROFF_USERDEF, |
| |
ROFF_MAX |
| }; |
}; |
| |
|
| struct rofftree { |
enum roffrule { |
| struct roffnode *last; /* Last parsed node. */ |
ROFFRULE_ALLOW, |
| char *cur; /* Line start. */ |
ROFFRULE_DENY |
| struct tm tm; /* `Dd' results. */ |
|
| char name[64]; /* `Nm' results. */ |
|
| char os[64]; /* `Os' results. */ |
|
| char title[64]; /* `Dt' results. */ |
|
| char section[64]; /* `Dt' results. */ |
|
| char volume[64]; /* `Dt' results. */ |
|
| int state; |
|
| #define ROFF_PRELUDE (1 << 1) /* In roff prelude. */ |
|
| #define ROFF_PRELUDE_Os (1 << 2) /* `Os' is parsed. */ |
|
| #define ROFF_PRELUDE_Dt (1 << 3) /* `Dt' is parsed. */ |
|
| #define ROFF_PRELUDE_Dd (1 << 4) /* `Dd' is parsed. */ |
|
| #define ROFF_BODY (1 << 5) /* In roff body. */ |
|
| struct roffcb cb; /* Callbacks. */ |
|
| void *arg; /* Callbacks' arg. */ |
|
| }; |
}; |
| |
|
| static struct roffnode *roffnode_new(int, struct rofftree *); |
/* |
| static void roffnode_free(struct rofftree *); |
* A single register entity. If "set" is zero, the value of the |
| static void roff_warn(const struct rofftree *, |
* register should be the default one, which is per-register. |
| const char *, char *, ...); |
* Registers are assumed to be unsigned ints for now. |
| static void roff_err(const struct rofftree *, |
*/ |
| const char *, char *, ...); |
struct reg { |
| static int roffpurgepunct(struct rofftree *, char **); |
int set; /* whether set or not */ |
| static int roffscan(int, const int *); |
unsigned int u; /* unsigned integer */ |
| static int rofffindtok(const char *); |
}; |
| static int rofffindarg(const char *); |
|
| static int rofffindcallable(const char *); |
|
| static int roffargs(const struct rofftree *, |
|
| int, char *, char **); |
|
| static int roffargok(int, int); |
|
| static int roffnextopt(const struct rofftree *, |
|
| int, char ***, char **); |
|
| static int roffparseopts(struct rofftree *, int, |
|
| char ***, int *, char **); |
|
| static int roffcall(struct rofftree *, int, char **); |
|
| static int roffparse(struct rofftree *, char *); |
|
| static int textparse(struct rofftree *, char *); |
|
| static int roffdata(struct rofftree *, int, char *); |
|
| static int roffspecial(struct rofftree *, int, char **); |
|
| static int roffsetname(struct rofftree *, char **); |
|
| static int roffgetname(struct rofftree *, char **, |
|
| const char *); |
|
| |
|
| #ifdef __linux__ |
/* |
| extern size_t strlcat(char *, const char *, size_t); |
* An incredibly-simple string buffer. |
| extern size_t strlcpy(char *, const char *, size_t); |
*/ |
| extern int vsnprintf(char *, size_t, |
struct roffstr { |
| const char *, va_list); |
char *p; /* nil-terminated buffer */ |
| extern char *strptime(const char *, const char *, |
size_t sz; /* saved strlen(p) */ |
| struct tm *); |
}; |
| #endif |
|
| |
|
| int |
/* |
| roff_free(struct rofftree *tree, int flush) |
* A key-value roffstr pair as part of a singly-linked list. |
| { |
*/ |
| int error, t; |
struct roffkv { |
| struct roffnode *n; |
struct roffstr key; |
| |
struct roffstr val; |
| |
struct roffkv *next; /* next in list */ |
| |
}; |
| |
|
| error = 0; |
struct roff { |
| |
struct mparse *parse; /* parse point */ |
| |
struct roffnode *last; /* leaf of stack */ |
| |
enum roffrule rstack[RSTACK_MAX]; /* stack of !`ie' rules */ |
| |
int rstackpos; /* position in rstack */ |
| |
struct reg regs[REG__MAX]; |
| |
struct roffkv *strtab; /* user-defined strings & macros */ |
| |
struct roffkv *xmbtab; /* multi-byte trans table (`tr') */ |
| |
struct roffstr *xtab; /* single-byte trans table (`tr') */ |
| |
const char *current_string; /* value of last called user macro */ |
| |
struct tbl_node *first_tbl; /* first table parsed */ |
| |
struct tbl_node *last_tbl; /* last table parsed */ |
| |
struct tbl_node *tbl; /* current table being parsed */ |
| |
struct eqn_node *last_eqn; /* last equation parsed */ |
| |
struct eqn_node *first_eqn; /* first equation parsed */ |
| |
struct eqn_node *eqn; /* current equation being parsed */ |
| |
}; |
| |
|
| if ( ! flush) |
struct roffnode { |
| goto end; |
enum rofft tok; /* type of node */ |
| |
struct roffnode *parent; /* up one in stack */ |
| |
int line; /* parse line */ |
| |
int col; /* parse col */ |
| |
char *name; /* node name, e.g. macro name */ |
| |
char *end; /* end-rules: custom token */ |
| |
int endspan; /* end-rules: next-line or infty */ |
| |
enum roffrule rule; /* current evaluation rule */ |
| |
}; |
| |
|
| error = 1; |
#define ROFF_ARGS struct roff *r, /* parse ctx */ \ |
| |
enum rofft tok, /* tok of macro */ \ |
| |
char **bufp, /* input buffer */ \ |
| |
size_t *szp, /* size of input buffer */ \ |
| |
int ln, /* parse line */ \ |
| |
int ppos, /* original pos in buffer */ \ |
| |
int pos, /* current pos in buffer */ \ |
| |
int *offs /* reset offset of buffer data */ |
| |
|
| if (ROFF_PRELUDE & tree->state) { |
typedef enum rofferr (*roffproc)(ROFF_ARGS); |
| roff_err(tree, NULL, "prelude never finished"); |
|
| goto end; |
|
| } |
|
| |
|
| for (n = tree->last; n; n = n->parent) { |
struct roffmac { |
| if (0 != tokens[n->tok].ctx) |
const char *name; /* macro name */ |
| continue; |
roffproc proc; /* process new macro */ |
| roff_err(tree, NULL, "closing explicit scope `%s'", |
roffproc text; /* process as child text of macro */ |
| toknames[n->tok]); |
roffproc sub; /* process as child of macro */ |
| goto end; |
int flags; |
| } |
#define ROFFMAC_STRUCT (1 << 0) /* always interpret */ |
| |
struct roffmac *next; |
| |
}; |
| |
|
| while (tree->last) { |
struct predef { |
| t = tree->last->tok; |
const char *name; /* predefined input name */ |
| if ( ! (*tokens[t].cb)(t, tree, NULL, ROFF_EXIT)) |
const char *str; /* replacement symbol */ |
| goto end; |
}; |
| } |
|
| |
|
| if ( ! (*tree->cb.rofftail)(tree->arg)) |
#define PREDEF(__name, __str) \ |
| goto end; |
{ (__name), (__str) }, |
| |
|
| error = 0; |
static enum rofft roffhash_find(const char *, size_t); |
| |
static void roffhash_init(void); |
| |
static void roffnode_cleanscope(struct roff *); |
| |
static void roffnode_pop(struct roff *); |
| |
static void roffnode_push(struct roff *, enum rofft, |
| |
const char *, int, int); |
| |
static enum rofferr roff_block(ROFF_ARGS); |
| |
static enum rofferr roff_block_text(ROFF_ARGS); |
| |
static enum rofferr roff_block_sub(ROFF_ARGS); |
| |
static enum rofferr roff_cblock(ROFF_ARGS); |
| |
static enum rofferr roff_ccond(ROFF_ARGS); |
| |
static enum rofferr roff_cond(ROFF_ARGS); |
| |
static enum rofferr roff_cond_text(ROFF_ARGS); |
| |
static enum rofferr roff_cond_sub(ROFF_ARGS); |
| |
static enum rofferr roff_ds(ROFF_ARGS); |
| |
static enum roffrule roff_evalcond(const char *, int *); |
| |
static void roff_free1(struct roff *); |
| |
static void roff_freestr(struct roffkv *); |
| |
static char *roff_getname(struct roff *, char **, int, int); |
| |
static const char *roff_getstrn(const struct roff *, |
| |
const char *, size_t); |
| |
static enum rofferr roff_line_ignore(ROFF_ARGS); |
| |
static enum rofferr roff_nr(ROFF_ARGS); |
| |
static void roff_openeqn(struct roff *, const char *, |
| |
int, int, const char *); |
| |
static enum rofft roff_parse(struct roff *, const char *, int *); |
| |
static enum rofferr roff_parsetext(char *); |
| |
static void roff_res(struct roff *, |
| |
char **, size_t *, int, int); |
| |
static enum rofferr roff_rm(ROFF_ARGS); |
| |
static void roff_setstr(struct roff *, |
| |
const char *, const char *, int); |
| |
static void roff_setstrn(struct roffkv **, const char *, |
| |
size_t, const char *, size_t, int); |
| |
static enum rofferr roff_so(ROFF_ARGS); |
| |
static enum rofferr roff_tr(ROFF_ARGS); |
| |
static enum rofferr roff_TE(ROFF_ARGS); |
| |
static enum rofferr roff_TS(ROFF_ARGS); |
| |
static enum rofferr roff_EQ(ROFF_ARGS); |
| |
static enum rofferr roff_EN(ROFF_ARGS); |
| |
static enum rofferr roff_T_(ROFF_ARGS); |
| |
static enum rofferr roff_userdef(ROFF_ARGS); |
| |
|
| end: |
/* See roffhash_find() */ |
| |
|
| while (tree->last) |
#define ASCII_HI 126 |
| roffnode_free(tree); |
#define ASCII_LO 33 |
| |
#define HASHWIDTH (ASCII_HI - ASCII_LO + 1) |
| |
|
| free(tree); |
static struct roffmac *hash[HASHWIDTH]; |
| |
|
| return(error ? 0 : 1); |
static struct roffmac roffs[ROFF_MAX] = { |
| } |
{ "ad", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "am", roff_block, roff_block_text, roff_block_sub, 0, NULL }, |
| |
{ "ami", roff_block, roff_block_text, roff_block_sub, 0, NULL }, |
| |
{ "am1", roff_block, roff_block_text, roff_block_sub, 0, NULL }, |
| |
{ "de", roff_block, roff_block_text, roff_block_sub, 0, NULL }, |
| |
{ "dei", roff_block, roff_block_text, roff_block_sub, 0, NULL }, |
| |
{ "de1", roff_block, roff_block_text, roff_block_sub, 0, NULL }, |
| |
{ "ds", roff_ds, NULL, NULL, 0, NULL }, |
| |
{ "el", roff_cond, roff_cond_text, roff_cond_sub, ROFFMAC_STRUCT, NULL }, |
| |
{ "hy", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "ie", roff_cond, roff_cond_text, roff_cond_sub, ROFFMAC_STRUCT, NULL }, |
| |
{ "if", roff_cond, roff_cond_text, roff_cond_sub, ROFFMAC_STRUCT, NULL }, |
| |
{ "ig", roff_block, roff_block_text, roff_block_sub, 0, NULL }, |
| |
{ "it", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "ne", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "nh", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "nr", roff_nr, NULL, NULL, 0, NULL }, |
| |
{ "ns", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "ps", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "rm", roff_rm, NULL, NULL, 0, NULL }, |
| |
{ "so", roff_so, NULL, NULL, 0, NULL }, |
| |
{ "ta", roff_line_ignore, NULL, NULL, 0, NULL }, |
| |
{ "tr", roff_tr, NULL, NULL, 0, NULL }, |
| |
{ "TS", roff_TS, NULL, NULL, 0, NULL }, |
| |
{ "TE", roff_TE, NULL, NULL, 0, NULL }, |
| |
{ "T&", roff_T_, NULL, NULL, 0, NULL }, |
| |
{ "EQ", roff_EQ, NULL, NULL, 0, NULL }, |
| |
{ "EN", roff_EN, NULL, NULL, 0, NULL }, |
| |
{ ".", roff_cblock, NULL, NULL, 0, NULL }, |
| |
{ "\\}", roff_ccond, NULL, NULL, 0, NULL }, |
| |
{ NULL, roff_userdef, NULL, NULL, 0, NULL }, |
| |
}; |
| |
|
| |
/* Array of injected predefined strings. */ |
| |
#define PREDEFS_MAX 38 |
| |
static const struct predef predefs[PREDEFS_MAX] = { |
| |
#include "predefs.in" |
| |
}; |
| |
|
| struct rofftree * |
/* See roffhash_find() */ |
| roff_alloc(const struct roffcb *cb, void *args) |
#define ROFF_HASH(p) (p[0] - ASCII_LO) |
| |
|
| |
static void |
| |
roffhash_init(void) |
| { |
{ |
| struct rofftree *tree; |
struct roffmac *n; |
| |
int buc, i; |
| |
|
| assert(args); |
for (i = 0; i < (int)ROFF_USERDEF; i++) { |
| assert(cb); |
assert(roffs[i].name[0] >= ASCII_LO); |
| |
assert(roffs[i].name[0] <= ASCII_HI); |
| |
|
| if (NULL == (tree = calloc(1, sizeof(struct rofftree)))) |
buc = ROFF_HASH(roffs[i].name); |
| err(1, "calloc"); |
|
| |
|
| tree->state = ROFF_PRELUDE; |
if (NULL != (n = hash[buc])) { |
| tree->arg = args; |
for ( ; n->next; n = n->next) |
| |
/* Do nothing. */ ; |
| |
n->next = &roffs[i]; |
| |
} else |
| |
hash[buc] = &roffs[i]; |
| |
} |
| |
} |
| |
|
| (void)memcpy(&tree->cb, cb, sizeof(struct roffcb)); |
/* |
| |
* Look up a roff token by its name. Returns ROFF_MAX if no macro by |
| |
* the nil-terminated string name could be found. |
| |
*/ |
| |
static enum rofft |
| |
roffhash_find(const char *p, size_t s) |
| |
{ |
| |
int buc; |
| |
struct roffmac *n; |
| |
|
| return(tree); |
/* |
| |
* libroff has an extremely simple hashtable, for the time |
| |
* being, which simply keys on the first character, which must |
| |
* be printable, then walks a chain. It works well enough until |
| |
* optimised. |
| |
*/ |
| |
|
| |
if (p[0] < ASCII_LO || p[0] > ASCII_HI) |
| |
return(ROFF_MAX); |
| |
|
| |
buc = ROFF_HASH(p); |
| |
|
| |
if (NULL == (n = hash[buc])) |
| |
return(ROFF_MAX); |
| |
for ( ; n; n = n->next) |
| |
if (0 == strncmp(n->name, p, s) && '\0' == n->name[(int)s]) |
| |
return((enum rofft)(n - roffs)); |
| |
|
| |
return(ROFF_MAX); |
| } |
} |
| |
|
| |
|
| int |
/* |
| roff_engine(struct rofftree *tree, char *buf) |
* Pop the current node off of the stack of roff instructions currently |
| |
* pending. |
| |
*/ |
| |
static void |
| |
roffnode_pop(struct roff *r) |
| { |
{ |
| |
struct roffnode *p; |
| |
|
| tree->cur = buf; |
assert(r->last); |
| assert(buf); |
p = r->last; |
| |
|
| if (0 == *buf) { |
r->last = r->last->parent; |
| roff_err(tree, buf, "blank line"); |
free(p->name); |
| return(0); |
free(p->end); |
| } else if ('.' != *buf) |
free(p); |
| return(textparse(tree, buf)); |
|
| |
|
| return(roffparse(tree, buf)); |
|
| } |
} |
| |
|
| |
|
| static int |
/* |
| textparse(struct rofftree *tree, char *buf) |
* Push a roff node onto the instruction stack. This must later be |
| |
* removed with roffnode_pop(). |
| |
*/ |
| |
static void |
| |
roffnode_push(struct roff *r, enum rofft tok, const char *name, |
| |
int line, int col) |
| { |
{ |
| char *bufp; |
struct roffnode *p; |
| |
|
| /* TODO: literal parsing. */ |
p = mandoc_calloc(1, sizeof(struct roffnode)); |
| |
p->tok = tok; |
| |
if (name) |
| |
p->name = mandoc_strdup(name); |
| |
p->parent = r->last; |
| |
p->line = line; |
| |
p->col = col; |
| |
p->rule = p->parent ? p->parent->rule : ROFFRULE_DENY; |
| |
|
| if ( ! (ROFF_BODY & tree->state)) { |
r->last = p; |
| roff_err(tree, buf, "data not in body"); |
} |
| return(0); |
|
| |
|
| |
static void |
| |
roff_free1(struct roff *r) |
| |
{ |
| |
struct tbl_node *t; |
| |
struct eqn_node *e; |
| |
int i; |
| |
|
| |
while (NULL != (t = r->first_tbl)) { |
| |
r->first_tbl = t->next; |
| |
tbl_free(t); |
| } |
} |
| |
|
| /* LINTED */ |
r->first_tbl = r->last_tbl = r->tbl = NULL; |
| while (*buf) { |
|
| while (*buf && isspace(*buf)) |
|
| buf++; |
|
| |
|
| if (0 == *buf) |
while (NULL != (e = r->first_eqn)) { |
| break; |
r->first_eqn = e->next; |
| |
eqn_free(e); |
| |
} |
| |
|
| bufp = buf++; |
r->first_eqn = r->last_eqn = r->eqn = NULL; |
| |
|
| while (*buf && ! isspace(*buf)) |
while (r->last) |
| buf++; |
roffnode_pop(r); |
| |
|
| if (0 != *buf) { |
roff_freestr(r->strtab); |
| *buf++ = 0; |
roff_freestr(r->xmbtab); |
| if ( ! roffdata(tree, 1, bufp)) |
|
| return(0); |
|
| continue; |
|
| } |
|
| |
|
| if ( ! roffdata(tree, 1, bufp)) |
r->strtab = r->xmbtab = NULL; |
| return(0); |
|
| break; |
|
| } |
|
| |
|
| return(1); |
if (r->xtab) |
| |
for (i = 0; i < 128; i++) |
| |
free(r->xtab[i].p); |
| |
|
| |
free(r->xtab); |
| |
r->xtab = NULL; |
| } |
} |
| |
|
| |
void |
| static int |
roff_reset(struct roff *r) |
| roffargs(const struct rofftree *tree, |
|
| int tok, char *buf, char **argv) |
|
| { |
{ |
| int i; |
int i; |
| char *p; |
|
| |
|
| assert(tok >= 0 && tok < ROFF_MAX); |
roff_free1(r); |
| assert('.' == *buf); |
|
| |
|
| p = buf; |
memset(&r->regs, 0, sizeof(struct reg) * REG__MAX); |
| |
|
| /* |
for (i = 0; i < PREDEFS_MAX; i++) |
| * This is an ugly little loop. It parses a line into |
roff_setstr(r, predefs[i].name, predefs[i].str, 0); |
| * space-delimited tokens. If a quote mark is encountered, a |
} |
| * token is alloted the entire quoted text. If whitespace is |
|
| * escaped, it's included in the prior alloted token. |
|
| */ |
|
| |
|
| /* LINTED */ |
|
| for (i = 0; *buf && i < ROFF_MAXLINEARG; i++) { |
|
| if ('\"' == *buf) { |
|
| argv[i] = ++buf; |
|
| while (*buf && '\"' != *buf) |
|
| buf++; |
|
| if (0 == *buf) { |
|
| roff_err(tree, argv[i], "unclosed " |
|
| "quote in argument " |
|
| "list for `%s'", |
|
| toknames[tok]); |
|
| return(0); |
|
| } |
|
| } else { |
|
| argv[i] = buf++; |
|
| while (*buf) { |
|
| if ( ! isspace(*buf)) { |
|
| buf++; |
|
| continue; |
|
| } |
|
| if (*(buf - 1) == '\\') { |
|
| buf++; |
|
| continue; |
|
| } |
|
| break; |
|
| } |
|
| if (0 == *buf) |
|
| continue; |
|
| } |
|
| *buf++ = 0; |
|
| while (*buf && isspace(*buf)) |
|
| buf++; |
|
| } |
|
| |
|
| assert(i > 0); |
void |
| if (ROFF_MAXLINEARG == i && *buf) { |
roff_free(struct roff *r) |
| roff_err(tree, p, "too many arguments for `%s'", toknames |
{ |
| [tok]); |
|
| return(0); |
|
| } |
|
| |
|
| argv[i] = NULL; |
roff_free1(r); |
| return(1); |
free(r); |
| } |
} |
| |
|
| |
|
| static int |
struct roff * |
| roffscan(int tok, const int *tokv) |
roff_alloc(struct mparse *parse) |
| { |
{ |
| |
struct roff *r; |
| |
int i; |
| |
|
| if (NULL == tokv) |
r = mandoc_calloc(1, sizeof(struct roff)); |
| return(1); |
r->parse = parse; |
| |
r->rstackpos = -1; |
| |
|
| |
roffhash_init(); |
| |
|
| for ( ; ROFF_MAX != *tokv; tokv++) |
for (i = 0; i < PREDEFS_MAX; i++) |
| if (tok == *tokv) |
roff_setstr(r, predefs[i].name, predefs[i].str, 0); |
| return(1); |
|
| |
|
| return(0); |
return(r); |
| } |
} |
| |
|
| |
/* |
| static int |
* Pre-filter each and every line for reserved words (one beginning with |
| roffparse(struct rofftree *tree, char *buf) |
* `\*', e.g., `\*(ab'). These must be handled before the actual line |
| |
* is processed. |
| |
* This also checks the syntax of regular escapes. |
| |
*/ |
| |
static void |
| |
roff_res(struct roff *r, char **bufp, size_t *szp, int ln, int pos) |
| { |
{ |
| int tok, t; |
enum mandoc_esc esc; |
| struct roffnode *n; |
const char *stesc; /* start of an escape sequence ('\\') */ |
| char *argv[ROFF_MAXLINEARG]; |
const char *stnam; /* start of the name, after "[(*" */ |
| char **argvp; |
const char *cp; /* end of the name, e.g. before ']' */ |
| |
const char *res; /* the string to be substituted */ |
| |
int i, maxl, expand_count; |
| |
size_t nsz; |
| |
char *n; |
| |
|
| if (0 != *buf && 0 != *(buf + 1) && 0 != *(buf + 2)) |
expand_count = 0; |
| if (0 == strncmp(buf, ".\\\"", 3)) |
|
| return(1); |
|
| |
|
| if (ROFF_MAX == (tok = rofffindtok(buf + 1))) { |
again: |
| roff_err(tree, buf + 1, "bogus line macro"); |
cp = *bufp + pos; |
| return(0); |
while (NULL != (cp = strchr(cp, '\\'))) { |
| } else if (NULL == tokens[tok].cb) { |
stesc = cp++; |
| roff_err(tree, buf + 1, "unsupported macro `%s'", |
|
| toknames[tok]); |
|
| return(0); |
|
| } |
|
| |
|
| assert(ROFF___ != tok); |
/* |
| if ( ! roffargs(tree, tok, buf, argv)) |
* The second character must be an asterisk. |
| return(0); |
* If it isn't, skip it anyway: It is escaped, |
| |
* so it can't start another escape sequence. |
| |
*/ |
| |
|
| argvp = (char **)argv; |
if ('\0' == *cp) |
| |
return; |
| |
|
| /* |
if ('*' != *cp) { |
| * Prelude macros break some assumptions, so branch now. |
res = cp; |
| */ |
esc = mandoc_escape(&cp, NULL, NULL); |
| |
if (ESCAPE_ERROR != esc) |
| if (ROFF_PRELUDE & tree->state) { |
continue; |
| assert(NULL == tree->last); |
cp = res; |
| return((*tokens[tok].cb)(tok, tree, argvp, ROFF_ENTER)); |
mandoc_msg |
| } |
(MANDOCERR_BADESCAPE, r->parse, |
| |
ln, (int)(stesc - *bufp), NULL); |
| |
return; |
| |
} |
| |
|
| assert(ROFF_BODY & tree->state); |
cp++; |
| |
|
| /* |
/* |
| * First check that our possible parents and parent's possible |
* The third character decides the length |
| * children are satisfied. |
* of the name of the string. |
| */ |
* Save a pointer to the name. |
| |
*/ |
| |
|
| if (tree->last && ! roffscan |
switch (*cp) { |
| (tree->last->tok, tokens[tok].parents)) { |
case ('\0'): |
| roff_err(tree, *argvp, "`%s' has invalid parent `%s'", |
return; |
| toknames[tok], |
case ('('): |
| toknames[tree->last->tok]); |
cp++; |
| return(0); |
maxl = 2; |
| } |
break; |
| |
case ('['): |
| |
cp++; |
| |
maxl = 0; |
| |
break; |
| |
default: |
| |
maxl = 1; |
| |
break; |
| |
} |
| |
stnam = cp; |
| |
|
| if (tree->last && ! roffscan |
/* Advance to the end of the name. */ |
| (tok, tokens[tree->last->tok].children)) { |
|
| roff_err(tree, *argvp, "`%s' is invalid child of `%s'", |
for (i = 0; 0 == maxl || i < maxl; i++, cp++) { |
| toknames[tok], |
if ('\0' == *cp) { |
| toknames[tree->last->tok]); |
mandoc_msg |
| return(0); |
(MANDOCERR_BADESCAPE, |
| |
r->parse, ln, |
| |
(int)(stesc - *bufp), NULL); |
| |
return; |
| |
} |
| |
if (0 == maxl && ']' == *cp) |
| |
break; |
| |
} |
| |
|
| |
/* |
| |
* Retrieve the replacement string; if it is |
| |
* undefined, resume searching for escapes. |
| |
*/ |
| |
|
| |
res = roff_getstrn(r, stnam, (size_t)i); |
| |
|
| |
if (NULL == res) { |
| |
mandoc_msg |
| |
(MANDOCERR_BADESCAPE, r->parse, |
| |
ln, (int)(stesc - *bufp), NULL); |
| |
res = ""; |
| |
} |
| |
|
| |
/* Replace the escape sequence by the string. */ |
| |
|
| |
pos = stesc - *bufp; |
| |
|
| |
nsz = *szp + strlen(res) + 1; |
| |
n = mandoc_malloc(nsz); |
| |
|
| |
strlcpy(n, *bufp, (size_t)(stesc - *bufp + 1)); |
| |
strlcat(n, res, nsz); |
| |
strlcat(n, cp + (maxl ? 0 : 1), nsz); |
| |
|
| |
free(*bufp); |
| |
|
| |
*bufp = n; |
| |
*szp = nsz; |
| |
|
| |
if (EXPAND_LIMIT >= ++expand_count) |
| |
goto again; |
| |
|
| |
/* Just leave the string unexpanded. */ |
| |
mandoc_msg(MANDOCERR_ROFFLOOP, r->parse, ln, pos, NULL); |
| |
return; |
| } |
} |
| |
} |
| |
|
| /* |
/* |
| * Branch if we're not a layout token. |
* Process text streams: convert all breakable hyphens into ASCII_HYPH. |
| */ |
*/ |
| |
static enum rofferr |
| |
roff_parsetext(char *p) |
| |
{ |
| |
size_t sz; |
| |
const char *start; |
| |
enum mandoc_esc esc; |
| |
|
| if (ROFF_LAYOUT != tokens[tok].type) |
start = p; |
| return((*tokens[tok].cb)(tok, tree, argvp, ROFF_ENTER)); |
|
| if (0 == tokens[tok].ctx) |
|
| return((*tokens[tok].cb)(tok, tree, argvp, ROFF_ENTER)); |
|
| |
|
| /* |
while ('\0' != *p) { |
| * First consider implicit-end tags, like as follows: |
sz = strcspn(p, "-\\"); |
| * .Sh SECTION 1 |
p += sz; |
| * .Sh SECTION 2 |
|
| * In this, we want to close the scope of the NAME section. If |
|
| * there's an intermediary implicit-end tag, such as |
|
| * .Sh SECTION 1 |
|
| * .Ss Subsection 1 |
|
| * .Sh SECTION 2 |
|
| * then it must be closed as well. |
|
| */ |
|
| |
|
| if (tok == tokens[tok].ctx) { |
if ('\0' == *p) |
| /* |
break; |
| * First search up to the point where we must close. |
|
| * If one doesn't exist, then we can open a new scope. |
|
| */ |
|
| |
|
| for (n = tree->last; n; n = n->parent) { |
if ('\\' == *p) { |
| assert(0 == tokens[n->tok].ctx || |
/* Skip over escapes. */ |
| n->tok == tokens[n->tok].ctx); |
p++; |
| if (n->tok == tok) |
esc = mandoc_escape |
| |
((const char **)&p, NULL, NULL); |
| |
if (ESCAPE_ERROR == esc) |
| break; |
break; |
| if (ROFF_SHALLOW & tokens[tok].flags) { |
continue; |
| n = NULL; |
} else if (p == start) { |
| break; |
p++; |
| } |
continue; |
| if (tokens[n->tok].ctx == n->tok) |
|
| continue; |
|
| roff_err(tree, *argv, "`%s' breaks `%s' scope", |
|
| toknames[tok], toknames[n->tok]); |
|
| return(0); |
|
| } |
} |
| |
|
| /* |
if (isalpha((unsigned char)p[-1]) && |
| * Create a new scope, as no previous one exists to |
isalpha((unsigned char)p[1])) |
| * close out. |
*p = ASCII_HYPH; |
| */ |
p++; |
| |
} |
| |
|
| if (NULL == n) |
return(ROFF_CONT); |
| return((*tokens[tok].cb)(tok, tree, argvp, ROFF_ENTER)); |
} |
| |
|
| /* |
enum rofferr |
| * Close out all intermediary scoped blocks, then hang |
roff_parseln(struct roff *r, int ln, char **bufp, |
| * the current scope from our predecessor's parent. |
size_t *szp, int pos, int *offs) |
| */ |
{ |
| |
enum rofft t; |
| |
enum rofferr e; |
| |
int ppos, ctl; |
| |
|
| do { |
/* |
| t = tree->last->tok; |
* Run the reserved-word filter only if we have some reserved |
| if ( ! (*tokens[t].cb)(t, tree, NULL, ROFF_EXIT)) |
* words to fill in. |
| return(0); |
*/ |
| } while (t != tok); |
|
| |
|
| return((*tokens[tok].cb)(tok, tree, argvp, ROFF_ENTER)); |
roff_res(r, bufp, szp, ln, pos); |
| } |
|
| |
|
| |
ppos = pos; |
| |
ctl = mandoc_getcontrol(*bufp, &pos); |
| |
|
| /* |
/* |
| * Now consider explicit-end tags, where we want to close back |
* First, if a scope is open and we're not a macro, pass the |
| * to a specific tag. Example: |
* text through the macro's filter. If a scope isn't open and |
| * .Bl |
* we're not a macro, just let it through. |
| * .It Item. |
* Finally, if there's an equation scope open, divert it into it |
| * .El |
* no matter our state. |
| * In this, the `El' tag closes out the scope of `Bl'. |
|
| */ |
*/ |
| |
|
| assert(tok != tokens[tok].ctx && 0 != tokens[tok].ctx); |
if (r->last && ! ctl) { |
| |
t = r->last->tok; |
| |
assert(roffs[t].text); |
| |
e = (*roffs[t].text) |
| |
(r, t, bufp, szp, ln, pos, pos, offs); |
| |
assert(ROFF_IGN == e || ROFF_CONT == e); |
| |
if (ROFF_CONT != e) |
| |
return(e); |
| |
if (r->eqn) |
| |
return(eqn_read(&r->eqn, ln, *bufp, pos, offs)); |
| |
if (r->tbl) |
| |
return(tbl_read(r->tbl, ln, *bufp, pos)); |
| |
return(roff_parsetext(*bufp + pos)); |
| |
} else if ( ! ctl) { |
| |
if (r->eqn) |
| |
return(eqn_read(&r->eqn, ln, *bufp, pos, offs)); |
| |
if (r->tbl) |
| |
return(tbl_read(r->tbl, ln, *bufp, pos)); |
| |
return(roff_parsetext(*bufp + pos)); |
| |
} else if (r->eqn) |
| |
return(eqn_read(&r->eqn, ln, *bufp, ppos, offs)); |
| |
|
| /* LINTED */ |
/* |
| for (n = tree->last; n; n = n->parent) |
* If a scope is open, go to the child handler for that macro, |
| if (n->tok != tokens[tok].ctx) { |
* as it may want to preprocess before doing anything with it. |
| if (n->tok == tokens[n->tok].ctx) |
* Don't do so if an equation is open. |
| continue; |
*/ |
| roff_err(tree, *argv, "`%s' breaks `%s' scope", |
|
| toknames[tok], toknames[n->tok]); |
|
| return(0); |
|
| } else |
|
| break; |
|
| |
|
| |
if (r->last) { |
| if (NULL == n) { |
t = r->last->tok; |
| roff_err(tree, *argv, "`%s' has no starting tag `%s'", |
assert(roffs[t].sub); |
| toknames[tok], |
return((*roffs[t].sub) |
| toknames[tokens[tok].ctx]); |
(r, t, bufp, szp, |
| return(0); |
ln, ppos, pos, offs)); |
| } |
} |
| |
|
| /* LINTED */ |
/* |
| do { |
* Lastly, as we've no scope open, try to look up and execute |
| t = tree->last->tok; |
* the new macro. If no macro is found, simply return and let |
| if ( ! (*tokens[t].cb)(t, tree, NULL, ROFF_EXIT)) |
* the compilers handle it. |
| return(0); |
*/ |
| } while (t != tokens[tok].ctx); |
|
| |
|
| return(1); |
if (ROFF_MAX == (t = roff_parse(r, *bufp, &pos))) |
| |
return(ROFF_CONT); |
| |
|
| |
assert(roffs[t].proc); |
| |
return((*roffs[t].proc) |
| |
(r, t, bufp, szp, |
| |
ln, ppos, pos, offs)); |
| } |
} |
| |
|
| |
|
| static int |
void |
| rofffindarg(const char *name) |
roff_endparse(struct roff *r) |
| { |
{ |
| size_t i; |
|
| |
|
| /* FIXME: use a table, this is slow but ok for now. */ |
if (r->last) |
| |
mandoc_msg(MANDOCERR_SCOPEEXIT, r->parse, |
| |
r->last->line, r->last->col, NULL); |
| |
|
| /* LINTED */ |
if (r->eqn) { |
| for (i = 0; i < ROFF_ARGMAX; i++) |
mandoc_msg(MANDOCERR_SCOPEEXIT, r->parse, |
| /* LINTED */ |
r->eqn->eqn.ln, r->eqn->eqn.pos, NULL); |
| if (0 == strcmp(name, tokargnames[i])) |
eqn_end(&r->eqn); |
| return((int)i); |
} |
| |
|
| return(ROFF_ARGMAX); |
if (r->tbl) { |
| |
mandoc_msg(MANDOCERR_SCOPEEXIT, r->parse, |
| |
r->tbl->line, r->tbl->pos, NULL); |
| |
tbl_end(&r->tbl); |
| |
} |
| } |
} |
| |
|
| |
/* |
| static int |
* Parse a roff node's type from the input buffer. This must be in the |
| rofffindtok(const char *buf) |
* form of ".foo xxx" in the usual way. |
| |
*/ |
| |
static enum rofft |
| |
roff_parse(struct roff *r, const char *buf, int *pos) |
| { |
{ |
| char token[4]; |
const char *mac; |
| int i; |
size_t maclen; |
| |
enum rofft t; |
| |
|
| for (i = 0; *buf && ! isspace(*buf) && i < 3; i++, buf++) |
if ('\0' == buf[*pos] || '"' == buf[*pos] || |
| token[i] = *buf; |
'\t' == buf[*pos] || ' ' == buf[*pos]) |
| |
|
| if (i == 3) |
|
| return(ROFF_MAX); |
return(ROFF_MAX); |
| |
|
| token[i] = 0; |
/* |
| |
* We stop the macro parse at an escape, tab, space, or nil. |
| |
* However, `\}' is also a valid macro, so make sure we don't |
| |
* clobber it by seeing the `\' as the end of token. |
| |
*/ |
| |
|
| /* FIXME: use a table, this is slow but ok for now. */ |
mac = buf + *pos; |
| |
maclen = strcspn(mac + 1, " \\\t\0") + 1; |
| |
|
| /* LINTED */ |
t = (r->current_string = roff_getstrn(r, mac, maclen)) |
| for (i = 0; i < ROFF_MAX; i++) |
? ROFF_USERDEF : roffhash_find(mac, maclen); |
| /* LINTED */ |
|
| if (0 == strcmp(toknames[i], token)) |
|
| return((int)i); |
|
| |
|
| return(ROFF_MAX); |
*pos += (int)maclen; |
| } |
|
| |
|
| |
while (buf[*pos] && ' ' == buf[*pos]) |
| |
(*pos)++; |
| |
|
| static int |
return(t); |
| roffispunct(const char *p) |
} |
| |
|
| |
/* ARGSUSED */ |
| |
static enum rofferr |
| |
roff_cblock(ROFF_ARGS) |
| { |
{ |
| |
|
| if (0 == *p) |
/* |
| return(0); |
* A block-close `..' should only be invoked as a child of an |
| if (0 != *(p + 1)) |
* ignore macro, otherwise raise a warning and just ignore it. |
| return(0); |
*/ |
| |
|
| switch (*p) { |
if (NULL == r->last) { |
| case('{'): |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| |
return(ROFF_IGN); |
| |
} |
| |
|
| |
switch (r->last->tok) { |
| |
case (ROFF_am): |
| /* FALLTHROUGH */ |
/* FALLTHROUGH */ |
| case('.'): |
case (ROFF_ami): |
| /* FALLTHROUGH */ |
/* FALLTHROUGH */ |
| case(','): |
case (ROFF_am1): |
| /* FALLTHROUGH */ |
/* FALLTHROUGH */ |
| case(';'): |
case (ROFF_de): |
| |
/* ROFF_de1 is remapped to ROFF_de in roff_block(). */ |
| /* FALLTHROUGH */ |
/* FALLTHROUGH */ |
| case(':'): |
case (ROFF_dei): |
| /* FALLTHROUGH */ |
/* FALLTHROUGH */ |
| case('?'): |
case (ROFF_ig): |
| /* FALLTHROUGH */ |
|
| case('!'): |
|
| /* FALLTHROUGH */ |
|
| case('('): |
|
| /* FALLTHROUGH */ |
|
| case(')'): |
|
| /* FALLTHROUGH */ |
|
| case('['): |
|
| /* FALLTHROUGH */ |
|
| case(']'): |
|
| /* FALLTHROUGH */ |
|
| case('}'): |
|
| return(1); |
|
| default: |
|
| break; |
break; |
| |
default: |
| |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| |
return(ROFF_IGN); |
| } |
} |
| |
|
| return(0); |
if ((*bufp)[pos]) |
| } |
mandoc_msg(MANDOCERR_ARGSLOST, r->parse, ln, pos, NULL); |
| |
|
| |
roffnode_pop(r); |
| |
roffnode_cleanscope(r); |
| |
return(ROFF_IGN); |
| |
|
| static int |
|
| rofffindcallable(const char *name) |
|
| { |
|
| int c; |
|
| |
|
| if (ROFF_MAX == (c = rofffindtok(name))) |
|
| return(ROFF_MAX); |
|
| assert(c >= 0 && c < ROFF_MAX); |
|
| return(ROFF_CALLABLE & tokens[c].flags ? c : ROFF_MAX); |
|
| } |
} |
| |
|
| |
|
| static struct roffnode * |
static void |
| roffnode_new(int tokid, struct rofftree *tree) |
roffnode_cleanscope(struct roff *r) |
| { |
{ |
| struct roffnode *p; |
|
| |
|
| if (NULL == (p = malloc(sizeof(struct roffnode)))) |
|
| err(1, "malloc"); |
|
| |
|
| p->tok = tokid; |
while (r->last) { |
| p->parent = tree->last; |
if (--r->last->endspan < 0) |
| tree->last = p; |
break; |
| |
roffnode_pop(r); |
| return(p); |
} |
| } |
} |
| |
|
| |
|
| static int |
/* ARGSUSED */ |
| roffargok(int tokid, int argid) |
static enum rofferr |
| |
roff_ccond(ROFF_ARGS) |
| { |
{ |
| const int *c; |
|
| |
|
| if (NULL == (c = tokens[tokid].args)) |
if (NULL == r->last) { |
| return(0); |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| |
return(ROFF_IGN); |
| |
} |
| |
|
| for ( ; ROFF_ARGMAX != *c; c++) |
switch (r->last->tok) { |
| if (argid == *c) |
case (ROFF_el): |
| return(1); |
/* FALLTHROUGH */ |
| |
case (ROFF_ie): |
| |
/* FALLTHROUGH */ |
| |
case (ROFF_if): |
| |
break; |
| |
default: |
| |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| |
return(ROFF_IGN); |
| |
} |
| |
|
| return(0); |
if (r->last->endspan > -1) { |
| |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| |
return(ROFF_IGN); |
| |
} |
| |
|
| |
if ((*bufp)[pos]) |
| |
mandoc_msg(MANDOCERR_ARGSLOST, r->parse, ln, pos, NULL); |
| |
|
| |
roffnode_pop(r); |
| |
roffnode_cleanscope(r); |
| |
return(ROFF_IGN); |
| } |
} |
| |
|
| |
|
| static void |
/* ARGSUSED */ |
| roffnode_free(struct rofftree *tree) |
static enum rofferr |
| |
roff_block(ROFF_ARGS) |
| { |
{ |
| struct roffnode *p; |
int sv; |
| |
size_t sz; |
| |
char *name; |
| |
|
| assert(tree->last); |
name = NULL; |
| |
|
| p = tree->last; |
if (ROFF_ig != tok) { |
| tree->last = tree->last->parent; |
if ('\0' == (*bufp)[pos]) { |
| free(p); |
mandoc_msg(MANDOCERR_NOARGS, r->parse, ln, ppos, NULL); |
| } |
return(ROFF_IGN); |
| |
} |
| |
|
| |
/* |
| |
* Re-write `de1', since we don't really care about |
| |
* groff's strange compatibility mode, into `de'. |
| |
*/ |
| |
|
| static int |
if (ROFF_de1 == tok) |
| roffspecial(struct rofftree *tree, int tok, char **ordp) |
tok = ROFF_de; |
| { |
if (ROFF_de == tok) |
| |
name = *bufp + pos; |
| |
else |
| |
mandoc_msg(MANDOCERR_REQUEST, r->parse, ln, ppos, |
| |
roffs[tok].name); |
| |
|
| return((*tree->cb.roffspecial)(tree->arg, tok, |
while ((*bufp)[pos] && ! isspace((unsigned char)(*bufp)[pos])) |
| tree->cur, ordp)); |
pos++; |
| } |
|
| |
|
| |
while (isspace((unsigned char)(*bufp)[pos])) |
| |
(*bufp)[pos++] = '\0'; |
| |
} |
| |
|
| static int |
roffnode_push(r, tok, name, ln, ppos); |
| roffcall(struct rofftree *tree, int tok, char **argv) |
|
| { |
|
| |
|
| if (NULL == tokens[tok].cb) { |
/* |
| roff_err(tree, *argv, "unsupported macro `%s'", |
* At the beginning of a `de' macro, clear the existing string |
| toknames[tok]); |
* with the same name, if there is one. New content will be |
| return(0); |
* added from roff_block_text() in multiline mode. |
| } |
*/ |
| if ( ! (*tokens[tok].cb)(tok, tree, argv, ROFF_ENTER)) |
|
| return(0); |
|
| return(1); |
|
| } |
|
| |
|
| |
if (ROFF_de == tok) |
| |
roff_setstr(r, name, "", 0); |
| |
|
| static int |
if ('\0' == (*bufp)[pos]) |
| roffnextopt(const struct rofftree *tree, int tok, |
return(ROFF_IGN); |
| char ***in, char **val) |
|
| { |
|
| char *arg, **argv; |
|
| int v; |
|
| |
|
| *val = NULL; |
/* If present, process the custom end-of-line marker. */ |
| argv = *in; |
|
| assert(argv); |
|
| |
|
| if (NULL == (arg = *argv)) |
sv = pos; |
| return(-1); |
while ((*bufp)[pos] && ! isspace((unsigned char)(*bufp)[pos])) |
| if ('-' != *arg) |
pos++; |
| return(-1); |
|
| |
|
| if (ROFF_ARGMAX == (v = rofffindarg(arg + 1))) { |
/* |
| roff_warn(tree, arg, "argument-like parameter `%s' to " |
* Note: groff does NOT like escape characters in the input. |
| "`%s'", arg, toknames[tok]); |
* Instead of detecting this, we're just going to let it fly and |
| return(-1); |
* to hell with it. |
| } |
*/ |
| |
|
| if ( ! roffargok(tok, v)) { |
|
| roff_warn(tree, arg, "invalid argument parameter `%s' to " |
|
| "`%s'", tokargnames[v], toknames[tok]); |
|
| return(-1); |
|
| } |
|
| |
|
| if ( ! (ROFF_VALUE & tokenargs[v])) |
|
| return(v); |
|
| |
|
| *in = ++argv; |
assert(pos > sv); |
| |
sz = (size_t)(pos - sv); |
| |
|
| if (NULL == *argv) { |
if (1 == sz && '.' == (*bufp)[sv]) |
| roff_err(tree, arg, "empty value of `%s' for `%s'", |
return(ROFF_IGN); |
| tokargnames[v], toknames[tok]); |
|
| return(ROFF_ARGMAX); |
|
| } |
|
| |
|
| return(v); |
r->last->end = mandoc_malloc(sz + 1); |
| |
|
| |
memcpy(r->last->end, *bufp + sv, sz); |
| |
r->last->end[(int)sz] = '\0'; |
| |
|
| |
if ((*bufp)[pos]) |
| |
mandoc_msg(MANDOCERR_ARGSLOST, r->parse, ln, pos, NULL); |
| |
|
| |
return(ROFF_IGN); |
| } |
} |
| |
|
| |
|
| static int |
/* ARGSUSED */ |
| roffpurgepunct(struct rofftree *tree, char **argv) |
static enum rofferr |
| |
roff_block_sub(ROFF_ARGS) |
| { |
{ |
| int i; |
enum rofft t; |
| |
int i, j; |
| |
|
| i = 0; |
/* |
| while (argv[i]) |
* First check whether a custom macro exists at this level. If |
| i++; |
* it does, then check against it. This is some of groff's |
| assert(i > 0); |
* stranger behaviours. If we encountered a custom end-scope |
| if ( ! roffispunct(argv[--i])) |
* tag and that tag also happens to be a "real" macro, then we |
| return(1); |
* need to try interpreting it again as a real macro. If it's |
| while (i >= 0 && roffispunct(argv[i])) |
* not, then return ignore. Else continue. |
| i--; |
*/ |
| i++; |
|
| |
|
| /* LINTED */ |
if (r->last->end) { |
| while (argv[i]) |
for (i = pos, j = 0; r->last->end[j]; j++, i++) |
| if ( ! roffdata(tree, 0, argv[i++])) |
if ((*bufp)[i] != r->last->end[j]) |
| return(0); |
break; |
| return(1); |
|
| } |
|
| |
|
| |
if ('\0' == r->last->end[j] && |
| |
('\0' == (*bufp)[i] || |
| |
' ' == (*bufp)[i] || |
| |
'\t' == (*bufp)[i])) { |
| |
roffnode_pop(r); |
| |
roffnode_cleanscope(r); |
| |
|
| static int |
while (' ' == (*bufp)[i] || '\t' == (*bufp)[i]) |
| roffparseopts(struct rofftree *tree, int tok, |
i++; |
| char ***args, int *argc, char **argv) |
|
| { |
|
| int i, c; |
|
| char *v; |
|
| |
|
| i = 0; |
pos = i; |
| |
if (ROFF_MAX != roff_parse(r, *bufp, &pos)) |
| |
return(ROFF_RERUN); |
| |
return(ROFF_IGN); |
| |
} |
| |
} |
| |
|
| while (-1 != (c = roffnextopt(tree, tok, args, &v))) { |
/* |
| if (ROFF_ARGMAX == c) |
* If we have no custom end-query or lookup failed, then try |
| return(0); |
* pulling it out of the hashtable. |
| |
*/ |
| |
|
| argc[i] = c; |
t = roff_parse(r, *bufp, &pos); |
| argv[i] = v; |
|
| i++; |
/* |
| *args = *args + 1; |
* Macros other than block-end are only significant |
| |
* in `de' blocks; elsewhere, simply throw them away. |
| |
*/ |
| |
if (ROFF_cblock != t) { |
| |
if (ROFF_de == tok) |
| |
roff_setstr(r, r->last->name, *bufp + ppos, 1); |
| |
return(ROFF_IGN); |
| } |
} |
| |
|
| argc[i] = ROFF_ARGMAX; |
assert(roffs[t].proc); |
| argv[i] = NULL; |
return((*roffs[t].proc)(r, t, bufp, szp, |
| return(1); |
ln, ppos, pos, offs)); |
| } |
} |
| |
|
| |
|
| static int |
/* ARGSUSED */ |
| roffdata(struct rofftree *tree, int space, char *buf) |
static enum rofferr |
| |
roff_block_text(ROFF_ARGS) |
| { |
{ |
| |
|
| if (0 == *buf) |
if (ROFF_de == tok) |
| return(1); |
roff_setstr(r, r->last->name, *bufp + pos, 1); |
| return((*tree->cb.roffdata)(tree->arg, |
|
| space != 0, tree->cur, buf)); |
return(ROFF_IGN); |
| } |
} |
| |
|
| |
|
| /* ARGSUSED */ |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roff_Dd(ROFFCALL_ARGS) |
roff_cond_sub(ROFF_ARGS) |
| { |
{ |
| time_t t; |
enum rofft t; |
| char *p, buf[32]; |
enum roffrule rr; |
| |
char *ep; |
| |
|
| if (ROFF_BODY & tree->state) { |
rr = r->last->rule; |
| assert( ! (ROFF_PRELUDE & tree->state)); |
roffnode_cleanscope(r); |
| assert(ROFF_PRELUDE_Dd & tree->state); |
|
| return(roff_text(tok, tree, argv, type)); |
|
| } |
|
| |
|
| assert(ROFF_PRELUDE & tree->state); |
/* |
| assert( ! (ROFF_BODY & tree->state)); |
* If the macro is unknown, first check if it contains a closing |
| |
* delimiter `\}'. If it does, close out our scope and return |
| |
* the currently-scoped rule (ignore or continue). Else, drop |
| |
* into the currently-scoped rule. |
| |
*/ |
| |
|
| if (ROFF_PRELUDE_Dd & tree->state) { |
if (ROFF_MAX == (t = roff_parse(r, *bufp, &pos))) { |
| roff_err(tree, *argv, "repeated `Dd' in prelude"); |
ep = &(*bufp)[pos]; |
| return(0); |
for ( ; NULL != (ep = strchr(ep, '\\')); ep++) { |
| } else if (ROFF_PRELUDE_Dt & tree->state) { |
ep++; |
| roff_err(tree, *argv, "out-of-order `Dd' in prelude"); |
if ('}' != *ep) |
| return(0); |
continue; |
| } |
|
| |
|
| assert(NULL == tree->last); |
/* |
| |
* Make the \} go away. |
| |
* This is a little haphazard, as it's not quite |
| |
* clear how nroff does this. |
| |
* If we're at the end of line, then just chop |
| |
* off the \} and resize the buffer. |
| |
* If we aren't, then conver it to spaces. |
| |
*/ |
| |
|
| argv++; |
if ('\0' == *(ep + 1)) { |
| |
*--ep = '\0'; |
| |
*szp -= 2; |
| |
} else |
| |
*(ep - 1) = *ep = ' '; |
| |
|
| if (0 == strcmp(*argv, "$Mdocdate$")) { |
roff_ccond(r, ROFF_ccond, bufp, szp, |
| t = time(NULL); |
ln, pos, pos + 2, offs); |
| if (NULL == localtime_r(&t, &tree->tm)) |
break; |
| err(1, "localtime_r"); |
|
| tree->state |= ROFF_PRELUDE_Dd; |
|
| return(1); |
|
| } |
|
| |
|
| /* Build this from Mdocdate or raw date. */ |
|
| |
|
| buf[0] = 0; |
|
| p = *argv; |
|
| |
|
| if (0 != strcmp(*argv, "$Mdocdate:")) { |
|
| while (*argv) { |
|
| if (strlcat(buf, *argv++, sizeof(buf)) |
|
| < sizeof(buf)) |
|
| continue; |
|
| roff_err(tree, p, "bad `Dd' date"); |
|
| return(0); |
|
| } |
} |
| if (strptime(buf, "%b%d,%Y", &tree->tm)) { |
return(ROFFRULE_DENY == rr ? ROFF_IGN : ROFF_CONT); |
| tree->state |= ROFF_PRELUDE_Dd; |
|
| return(1); |
|
| } |
|
| roff_err(tree, *argv, "bad `Dd' date"); |
|
| return(0); |
|
| } |
} |
| |
|
| argv++; |
/* |
| while (*argv && **argv != '$') { |
* A denied conditional must evaluate its children if and only |
| if (strlcat(buf, *argv++, sizeof(buf)) |
* if they're either structurally required (such as loops and |
| >= sizeof(buf)) { |
* conditionals) or a closing macro. |
| roff_err(tree, p, "bad `Dd' Mdocdate"); |
*/ |
| return(0); |
|
| } |
|
| if (strlcat(buf, " ", sizeof(buf)) |
|
| >= sizeof(buf)) { |
|
| roff_err(tree, p, "bad `Dd' Mdocdate"); |
|
| return(0); |
|
| } |
|
| } |
|
| if (NULL == *argv) { |
|
| roff_err(tree, p, "bad `Dd' Mdocdate"); |
|
| return(0); |
|
| } |
|
| |
|
| if (NULL == strptime(buf, "%b %d %Y", &tree->tm)) { |
if (ROFFRULE_DENY == rr) |
| roff_err(tree, *argv, "bad `Dd' Mdocdate"); |
if ( ! (ROFFMAC_STRUCT & roffs[t].flags)) |
| return(0); |
if (ROFF_ccond != t) |
| } |
return(ROFF_IGN); |
| |
|
| tree->state |= ROFF_PRELUDE_Dd; |
assert(roffs[t].proc); |
| return(1); |
return((*roffs[t].proc)(r, t, bufp, szp, |
| |
ln, ppos, pos, offs)); |
| } |
} |
| |
|
| |
|
| /* ARGSUSED */ |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roff_Dt(ROFFCALL_ARGS) |
roff_cond_text(ROFF_ARGS) |
| { |
{ |
| |
char *ep; |
| |
enum roffrule rr; |
| |
|
| if (ROFF_BODY & tree->state) { |
rr = r->last->rule; |
| assert( ! (ROFF_PRELUDE & tree->state)); |
roffnode_cleanscope(r); |
| assert(ROFF_PRELUDE_Dt & tree->state); |
|
| return(roff_text(tok, tree, argv, type)); |
|
| } |
|
| |
|
| assert(ROFF_PRELUDE & tree->state); |
ep = &(*bufp)[pos]; |
| assert( ! (ROFF_BODY & tree->state)); |
for ( ; NULL != (ep = strchr(ep, '\\')); ep++) { |
| |
ep++; |
| if ( ! (ROFF_PRELUDE_Dd & tree->state)) { |
if ('}' != *ep) |
| roff_err(tree, *argv, "out-of-order `Dt' in prelude"); |
continue; |
| return(0); |
*ep = '&'; |
| } else if (ROFF_PRELUDE_Dt & tree->state) { |
roff_ccond(r, ROFF_ccond, bufp, szp, |
| roff_err(tree, *argv, "repeated `Dt' in prelude"); |
ln, pos, pos + 2, offs); |
| return(0); |
|
| } |
} |
| |
return(ROFFRULE_DENY == rr ? ROFF_IGN : ROFF_CONT); |
| |
} |
| |
|
| argv++; |
static enum roffrule |
| if (NULL == *argv) { |
roff_evalcond(const char *v, int *pos) |
| roff_err(tree, *argv, "`Dt' needs document title"); |
{ |
| return(0); |
|
| } else if (strlcpy(tree->title, *argv, sizeof(tree->title)) |
|
| >= sizeof(tree->title)) { |
|
| roff_err(tree, *argv, "`Dt' document title too long"); |
|
| return(0); |
|
| } |
|
| |
|
| argv++; |
switch (v[*pos]) { |
| if (NULL == *argv) { |
case ('n'): |
| roff_err(tree, *argv, "`Dt' needs section"); |
(*pos)++; |
| return(0); |
return(ROFFRULE_ALLOW); |
| } else if (strlcpy(tree->section, *argv, sizeof(tree->section)) |
case ('e'): |
| >= sizeof(tree->section)) { |
/* FALLTHROUGH */ |
| roff_err(tree, *argv, "`Dt' section too long"); |
case ('o'): |
| return(0); |
/* FALLTHROUGH */ |
| |
case ('t'): |
| |
(*pos)++; |
| |
return(ROFFRULE_DENY); |
| |
default: |
| |
break; |
| } |
} |
| |
|
| argv++; |
while (v[*pos] && ' ' != v[*pos]) |
| if (NULL == *argv) { |
(*pos)++; |
| tree->volume[0] = 0; |
return(ROFFRULE_DENY); |
| } else if (strlcpy(tree->volume, *argv, sizeof(tree->volume)) |
} |
| >= sizeof(tree->volume)) { |
|
| roff_err(tree, *argv, "`Dt' volume too long"); |
|
| return(0); |
|
| } |
|
| |
|
| assert(NULL == tree->last); |
/* ARGSUSED */ |
| tree->state |= ROFF_PRELUDE_Dt; |
static enum rofferr |
| |
roff_line_ignore(ROFF_ARGS) |
| |
{ |
| |
|
| return(1); |
if (ROFF_it == tok) |
| |
mandoc_msg(MANDOCERR_REQUEST, r->parse, ln, ppos, "it"); |
| |
|
| |
return(ROFF_IGN); |
| } |
} |
| |
|
| |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roffgetname(struct rofftree *tree, char **ordp, const char *start) |
roff_cond(ROFF_ARGS) |
| { |
{ |
| if (0 == tree->name[0]) { |
int sv; |
| roff_err(tree, start, "`Nm' name not set"); |
enum roffrule rule; |
| return(0); |
|
| |
/* |
| |
* An `.el' has no conditional body: it will consume the value |
| |
* of the current rstack entry set in prior `ie' calls or |
| |
* defaults to DENY. |
| |
* |
| |
* If we're not an `el', however, then evaluate the conditional. |
| |
*/ |
| |
|
| |
rule = ROFF_el == tok ? |
| |
(r->rstackpos < 0 ? |
| |
ROFFRULE_DENY : r->rstack[r->rstackpos--]) : |
| |
roff_evalcond(*bufp, &pos); |
| |
|
| |
sv = pos; |
| |
while (' ' == (*bufp)[pos]) |
| |
pos++; |
| |
|
| |
/* |
| |
* Roff is weird. If we have just white-space after the |
| |
* conditional, it's considered the BODY and we exit without |
| |
* really doing anything. Warn about this. It's probably |
| |
* wrong. |
| |
*/ |
| |
|
| |
if ('\0' == (*bufp)[pos] && sv != pos) { |
| |
mandoc_msg(MANDOCERR_NOARGS, r->parse, ln, ppos, NULL); |
| |
return(ROFF_IGN); |
| } |
} |
| *ordp++ = tree->name; |
|
| *ordp = NULL; |
|
| return(1); |
|
| } |
|
| |
|
| |
roffnode_push(r, tok, NULL, ln, ppos); |
| |
|
| static int |
r->last->rule = rule; |
| roffsetname(struct rofftree *tree, char **ordp) |
|
| { |
|
| |
|
| assert(*ordp); |
|
| |
|
| /* FIXME: not all sections can set this. */ |
/* |
| |
* An if-else will put the NEGATION of the current evaluated |
| |
* conditional into the stack of rules. |
| |
*/ |
| |
|
| if (NULL != *(ordp + 1)) { |
if (ROFF_ie == tok) { |
| roff_err(tree, *ordp, "too many `Nm' args"); |
if (r->rstackpos == RSTACK_MAX - 1) { |
| return(0); |
mandoc_msg(MANDOCERR_MEM, |
| } |
r->parse, ln, ppos, NULL); |
| |
return(ROFF_ERR); |
| if (strlcpy(tree->name, *ordp, sizeof(tree->name)) |
} |
| >= sizeof(tree->name)) { |
r->rstack[++r->rstackpos] = |
| roff_err(tree, *ordp, "`Nm' arg too long"); |
ROFFRULE_DENY == r->last->rule ? |
| return(0); |
ROFFRULE_ALLOW : ROFFRULE_DENY; |
| } |
} |
| |
|
| return(1); |
/* If the parent has false as its rule, then so do we. */ |
| } |
|
| |
|
| |
if (r->last->parent && ROFFRULE_DENY == r->last->parent->rule) |
| |
r->last->rule = ROFFRULE_DENY; |
| |
|
| /* ARGSUSED */ |
/* |
| static int |
* Determine scope. If we're invoked with "\{" trailing the |
| roff_Sm(ROFFCALL_ARGS) |
* conditional, then we're in a multiline scope. Else our scope |
| { |
* expires on the next line. |
| char *morep[1], *p; |
*/ |
| |
|
| p = *argv++; |
r->last->endspan = 1; |
| |
|
| if (NULL == (morep[0] = *argv++)) { |
if ('\\' == (*bufp)[pos] && '{' == (*bufp)[pos + 1]) { |
| roff_err(tree, p, "`Sm' expects an argument"); |
r->last->endspan = -1; |
| return(0); |
pos += 2; |
| } else if (0 != strcmp(morep[0], "on") && |
} |
| 0 != strcmp(morep[0], "off")) { |
|
| roff_err(tree, p, "`Sm' has invalid argument"); |
|
| return(0); |
|
| } |
|
| |
|
| if (*argv) |
/* |
| roff_warn(tree, *argv, "`Sm' shouldn't have arguments"); |
* If there are no arguments on the line, the next-line scope is |
| |
* assumed. |
| |
*/ |
| |
|
| if ( ! roffspecial(tree, tok, morep)) |
if ('\0' == (*bufp)[pos]) |
| return(0); |
return(ROFF_IGN); |
| |
|
| while (*argv) |
/* Otherwise re-run the roff parser after recalculating. */ |
| if ( ! roffdata(tree, 1, *argv++)) |
|
| return(0); |
|
| |
|
| return(1); |
*offs = pos; |
| |
return(ROFF_RERUN); |
| } |
} |
| |
|
| |
|
| /* ARGSUSED */ |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roff_Ns(ROFFCALL_ARGS) |
roff_ds(ROFF_ARGS) |
| { |
{ |
| int j, c, first; |
char *name, *string; |
| char *morep[1]; |
|
| |
|
| first = (*argv++ == tree->cur); |
/* |
| morep[0] = NULL; |
* A symbol is named by the first word following the macro |
| |
* invocation up to a space. Its value is anything after the |
| |
* name's trailing whitespace and optional double-quote. Thus, |
| |
* |
| |
* [.ds foo "bar " ] |
| |
* |
| |
* will have `bar " ' as its value. |
| |
*/ |
| |
|
| if ( ! roffspecial(tree, tok, morep)) |
string = *bufp + pos; |
| return(0); |
name = roff_getname(r, &string, ln, pos); |
| |
if ('\0' == *name) |
| |
return(ROFF_IGN); |
| |
|
| while (*argv) { |
/* Read past initial double-quote. */ |
| if (ROFF_MAX != (c = rofffindcallable(*argv))) { |
if ('"' == *string) |
| if ( ! roffcall(tree, c, argv)) |
string++; |
| return(0); |
|
| break; |
|
| } |
|
| |
|
| if ( ! roffispunct(*argv)) { |
/* The rest is the value. */ |
| if ( ! roffdata(tree, 1, *argv++)) |
roff_setstr(r, name, string, 0); |
| return(0); |
return(ROFF_IGN); |
| continue; |
} |
| } |
|
| |
|
| for (j = 0; argv[j]; j++) |
int |
| if ( ! roffispunct(argv[j])) |
roff_regisset(const struct roff *r, enum regs reg) |
| break; |
{ |
| |
|
| if (argv[j]) { |
return(r->regs[(int)reg].set); |
| if ( ! roffdata(tree, 0, *argv++)) |
} |
| return(0); |
|
| continue; |
|
| } |
|
| |
|
| break; |
unsigned int |
| } |
roff_regget(const struct roff *r, enum regs reg) |
| |
{ |
| |
|
| if ( ! first) |
return(r->regs[(int)reg].u); |
| return(1); |
|
| |
|
| return(roffpurgepunct(tree, argv)); |
|
| } |
} |
| |
|
| |
void |
| |
roff_regunset(struct roff *r, enum regs reg) |
| |
{ |
| |
|
| |
r->regs[(int)reg].set = 0; |
| |
} |
| |
|
| /* ARGSUSED */ |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roff_Os(ROFFCALL_ARGS) |
roff_nr(ROFF_ARGS) |
| { |
{ |
| char *p; |
const char *key; |
| |
char *val; |
| |
int iv; |
| |
|
| if (ROFF_BODY & tree->state) { |
val = *bufp + pos; |
| assert( ! (ROFF_PRELUDE & tree->state)); |
key = roff_getname(r, &val, ln, pos); |
| assert(ROFF_PRELUDE_Os & tree->state); |
|
| return(roff_text(tok, tree, argv, type)); |
|
| } |
|
| |
|
| assert(ROFF_PRELUDE & tree->state); |
if (0 == strcmp(key, "nS")) { |
| if ( ! (ROFF_PRELUDE_Dt & tree->state) || |
r->regs[(int)REG_nS].set = 1; |
| ! (ROFF_PRELUDE_Dd & tree->state)) { |
if ((iv = mandoc_strntoi(val, strlen(val), 10)) >= 0) |
| roff_err(tree, *argv, "out-of-order `Os' in prelude"); |
r->regs[(int)REG_nS].u = (unsigned)iv; |
| return(0); |
else |
| |
r->regs[(int)REG_nS].u = 0u; |
| } |
} |
| |
|
| tree->os[0] = 0; |
return(ROFF_IGN); |
| |
} |
| |
|
| p = *++argv; |
/* ARGSUSED */ |
| |
static enum rofferr |
| |
roff_rm(ROFF_ARGS) |
| |
{ |
| |
const char *name; |
| |
char *cp; |
| |
|
| while (*argv) { |
cp = *bufp + pos; |
| if (strlcat(tree->os, *argv++, sizeof(tree->os)) |
while ('\0' != *cp) { |
| < sizeof(tree->os)) |
name = roff_getname(r, &cp, ln, (int)(cp - *bufp)); |
| continue; |
if ('\0' != *name) |
| roff_err(tree, p, "`Os' value too long"); |
roff_setstr(r, name, NULL, 0); |
| return(0); |
|
| } |
} |
| |
return(ROFF_IGN); |
| |
} |
| |
|
| if (0 == tree->os[0]) |
/* ARGSUSED */ |
| if (strlcpy(tree->os, "LOCAL", sizeof(tree->os)) |
static enum rofferr |
| >= sizeof(tree->os)) { |
roff_TE(ROFF_ARGS) |
| roff_err(tree, p, "`Os' value too long"); |
{ |
| return(0); |
|
| } |
|
| |
|
| tree->state |= ROFF_PRELUDE_Os; |
if (NULL == r->tbl) |
| tree->state &= ~ROFF_PRELUDE; |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| tree->state |= ROFF_BODY; |
else |
| |
tbl_end(&r->tbl); |
| |
|
| assert(NULL == tree->last); |
return(ROFF_IGN); |
| |
|
| return((*tree->cb.roffhead)(tree->arg, &tree->tm, |
|
| tree->os, tree->title, tree->section, |
|
| tree->volume)); |
|
| } |
} |
| |
|
| |
|
| /* ARGSUSED */ |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roff_layout(ROFFCALL_ARGS) |
roff_T_(ROFF_ARGS) |
| { |
{ |
| int i, c, argcp[ROFF_MAXLINEARG]; |
|
| char *argvp[ROFF_MAXLINEARG]; |
|
| |
|
| if (ROFF_PRELUDE & tree->state) { |
if (NULL == r->tbl) |
| roff_err(tree, *argv, "bad `%s' in prelude", |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| toknames[tok]); |
else |
| return(0); |
tbl_restart(ppos, ln, r->tbl); |
| } else if (ROFF_EXIT == type) { |
|
| roffnode_free(tree); |
|
| if ( ! (*tree->cb.roffblkbodyout)(tree->arg, tok)) |
|
| return(0); |
|
| return((*tree->cb.roffblkout)(tree->arg, tok)); |
|
| } |
|
| |
|
| assert( ! (ROFF_CALLABLE & tokens[tok].flags)); |
return(ROFF_IGN); |
| |
} |
| |
|
| ++argv; |
#if 0 |
| |
static int |
| |
roff_closeeqn(struct roff *r) |
| |
{ |
| |
|
| if ( ! roffparseopts(tree, tok, &argv, argcp, argvp)) |
return(r->eqn && ROFF_EQN == eqn_end(&r->eqn) ? 1 : 0); |
| return(0); |
} |
| if (NULL == roffnode_new(tok, tree)) |
#endif |
| return(0); |
|
| |
|
| /* |
static void |
| * Layouts have two parts: the layout body and header. The |
roff_openeqn(struct roff *r, const char *name, int line, |
| * layout header is the trailing text of the line macro, while |
int offs, const char *buf) |
| * the layout body is everything following until termination. |
{ |
| */ |
struct eqn_node *e; |
| |
int poff; |
| |
|
| if ( ! (*tree->cb.roffblkin)(tree->arg, tok, argcp, argvp)) |
assert(NULL == r->eqn); |
| return(0); |
e = eqn_alloc(name, offs, line, r->parse); |
| if (NULL == *argv) |
|
| return((*tree->cb.roffblkbodyin) |
|
| (tree->arg, tok, argcp, argvp)); |
|
| |
|
| if ( ! (*tree->cb.roffblkheadin)(tree->arg, tok, argcp, argvp)) |
if (r->last_eqn) |
| return(0); |
r->last_eqn->next = e; |
| |
else |
| |
r->first_eqn = r->last_eqn = e; |
| |
|
| /* |
r->eqn = r->last_eqn = e; |
| * If there are no parsable parts, then write remaining tokens |
|
| * into the layout header and exit. |
|
| */ |
|
| |
|
| if ( ! (ROFF_PARSED & tokens[tok].flags)) { |
if (buf) { |
| i = 0; |
poff = 0; |
| while (*argv) |
eqn_read(&r->eqn, line, buf, offs, &poff); |
| if ( ! roffdata(tree, i++, *argv++)) |
|
| return(0); |
|
| |
|
| if ( ! (*tree->cb.roffblkheadout)(tree->arg, tok)) |
|
| return(0); |
|
| return((*tree->cb.roffblkbodyin) |
|
| (tree->arg, tok, argcp, argvp)); |
|
| } |
} |
| |
} |
| |
|
| /* |
/* ARGSUSED */ |
| * Parsable elements may be in the header (or be the header, for |
static enum rofferr |
| * that matter). Follow the regular parsing rules for these. |
roff_EQ(ROFF_ARGS) |
| */ |
{ |
| |
|
| i = 0; |
roff_openeqn(r, *bufp + pos, ln, ppos, NULL); |
| while (*argv) { |
return(ROFF_IGN); |
| if (ROFF_MAX == (c = rofffindcallable(*argv))) { |
} |
| assert(tree->arg); |
|
| if ( ! roffdata(tree, i++, *argv++)) |
|
| return(0); |
|
| continue; |
|
| } |
|
| if ( ! roffcall(tree, c, argv)) |
|
| return(0); |
|
| break; |
|
| } |
|
| |
|
| /* |
/* ARGSUSED */ |
| * If there's trailing punctuation in the header, then write it |
static enum rofferr |
| * out now. Here we mimic the behaviour of a line-dominant text |
roff_EN(ROFF_ARGS) |
| * macro. |
{ |
| */ |
|
| |
|
| if (NULL == *argv) { |
mandoc_msg(MANDOCERR_NOSCOPE, r->parse, ln, ppos, NULL); |
| if ( ! (*tree->cb.roffblkheadout)(tree->arg, tok)) |
return(ROFF_IGN); |
| return(0); |
} |
| return((*tree->cb.roffblkbodyin) |
|
| (tree->arg, tok, argcp, argvp)); |
/* ARGSUSED */ |
| |
static enum rofferr |
| |
roff_TS(ROFF_ARGS) |
| |
{ |
| |
struct tbl_node *t; |
| |
|
| |
if (r->tbl) { |
| |
mandoc_msg(MANDOCERR_SCOPEBROKEN, r->parse, ln, ppos, NULL); |
| |
tbl_end(&r->tbl); |
| } |
} |
| |
|
| /* |
t = tbl_alloc(ppos, ln, r->parse); |
| * Expensive. Scan to the end of line then work backwards until |
|
| * a token isn't punctuation. |
|
| */ |
|
| |
|
| if ( ! roffpurgepunct(tree, argv)) |
if (r->last_tbl) |
| return(0); |
r->last_tbl->next = t; |
| |
else |
| |
r->first_tbl = r->last_tbl = t; |
| |
|
| if ( ! (*tree->cb.roffblkheadout)(tree->arg, tok)) |
r->tbl = r->last_tbl = t; |
| return(0); |
return(ROFF_IGN); |
| return((*tree->cb.roffblkbodyin) |
|
| (tree->arg, tok, argcp, argvp)); |
|
| } |
} |
| |
|
| |
|
| /* ARGSUSED */ |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roff_ordered(ROFFCALL_ARGS) |
roff_tr(ROFF_ARGS) |
| { |
{ |
| int i, first, c; |
const char *p, *first, *second; |
| char *ordp[ROFF_MAXLINEARG]; |
size_t fsz, ssz; |
| |
enum mandoc_esc esc; |
| |
|
| if (ROFF_PRELUDE & tree->state) { |
p = *bufp + pos; |
| roff_err(tree, *argv, "`%s' disallowed in prelude", |
|
| toknames[tok]); |
if ('\0' == *p) { |
| return(0); |
mandoc_msg(MANDOCERR_ARGCOUNT, r->parse, ln, ppos, NULL); |
| |
return(ROFF_IGN); |
| } |
} |
| |
|
| first = (*argv == tree->cur); |
while ('\0' != *p) { |
| argv++; |
fsz = ssz = 1; |
| |
|
| if (NULL == *argv) { |
first = p++; |
| switch (tok) { |
if ('\\' == *first) { |
| case (ROFF_Nm): |
esc = mandoc_escape(&p, NULL, NULL); |
| if ( ! roffgetname(tree, ordp, *(argv - 1))) |
if (ESCAPE_ERROR == esc) { |
| return(0); |
mandoc_msg |
| break; |
(MANDOCERR_BADESCAPE, r->parse, |
| default: |
ln, (int)(p - *bufp), NULL); |
| *ordp = NULL; |
return(ROFF_IGN); |
| break; |
} |
| |
fsz = (size_t)(p - first); |
| } |
} |
| |
|
| return(roffspecial(tree, tok, ordp)); |
second = p++; |
| } |
if ('\\' == *second) { |
| |
esc = mandoc_escape(&p, NULL, NULL); |
| |
if (ESCAPE_ERROR == esc) { |
| |
mandoc_msg |
| |
(MANDOCERR_BADESCAPE, r->parse, |
| |
ln, (int)(p - *bufp), NULL); |
| |
return(ROFF_IGN); |
| |
} |
| |
ssz = (size_t)(p - second); |
| |
} else if ('\0' == *second) { |
| |
mandoc_msg(MANDOCERR_ARGCOUNT, r->parse, |
| |
ln, (int)(p - *bufp), NULL); |
| |
second = " "; |
| |
p--; |
| |
} |
| |
|
| i = 0; |
if (fsz > 1) { |
| while (*argv && i < ROFF_MAXLINEARG) { |
roff_setstrn(&r->xmbtab, first, |
| c = rofffindcallable(*argv); |
fsz, second, ssz, 0); |
| |
|
| if (ROFF_MAX == c && ! roffispunct(*argv)) { |
|
| ordp[i++] = *argv++; |
|
| continue; |
continue; |
| } |
} |
| ordp[i] = NULL; |
|
| |
|
| if (ROFF_MAX == c) |
if (NULL == r->xtab) |
| break; |
r->xtab = mandoc_calloc |
| |
(128, sizeof(struct roffstr)); |
| |
|
| switch (tok) { |
free(r->xtab[(int)*first].p); |
| case (ROFF_Nm): |
r->xtab[(int)*first].p = mandoc_strndup(second, ssz); |
| if ( ! roffsetname(tree, ordp)) |
r->xtab[(int)*first].sz = ssz; |
| return(0); |
|
| break; |
|
| default: |
|
| break; |
|
| } |
|
| |
|
| if ( ! roffspecial(tree, tok, ordp)) |
|
| return(0); |
|
| |
|
| return(roffcall(tree, c, ordp)); |
|
| } |
} |
| |
|
| assert(i != ROFF_MAXLINEARG); |
return(ROFF_IGN); |
| ordp[i] = NULL; |
} |
| |
|
| switch (tok) { |
/* ARGSUSED */ |
| case (ROFF_Nm): |
static enum rofferr |
| if ( ! roffsetname(tree, ordp)) |
roff_so(ROFF_ARGS) |
| return(0); |
{ |
| break; |
char *name; |
| default: |
|
| break; |
|
| } |
|
| |
|
| if ( ! roffspecial(tree, tok, ordp)) |
mandoc_msg(MANDOCERR_SO, r->parse, ln, ppos, NULL); |
| return(0); |
|
| |
|
| /* FIXME: error if there's stuff after the punctuation. */ |
/* |
| |
* Handle `so'. Be EXTREMELY careful, as we shouldn't be |
| |
* opening anything that's not in our cwd or anything beneath |
| |
* it. Thus, explicitly disallow traversing up the file-system |
| |
* or using absolute paths. |
| |
*/ |
| |
|
| if ( ! first || NULL == *argv) |
name = *bufp + pos; |
| return(1); |
if ('/' == *name || strstr(name, "../") || strstr(name, "/..")) { |
| |
mandoc_msg(MANDOCERR_SOPATH, r->parse, ln, pos, NULL); |
| |
return(ROFF_ERR); |
| |
} |
| |
|
| return(roffpurgepunct(tree, argv)); |
*offs = pos; |
| |
return(ROFF_SO); |
| } |
} |
| |
|
| |
|
| /* ARGSUSED */ |
/* ARGSUSED */ |
| static int |
static enum rofferr |
| roff_text(ROFFCALL_ARGS) |
roff_userdef(ROFF_ARGS) |
| { |
{ |
| int i, j, first, c, argcp[ROFF_MAXLINEARG]; |
const char *arg[9]; |
| char *argvp[ROFF_MAXLINEARG]; |
char *cp, *n1, *n2; |
| |
int i; |
| |
|
| if (ROFF_PRELUDE & tree->state) { |
/* |
| roff_err(tree, *argv, "`%s' disallowed in prelude", |
* Collect pointers to macro argument strings |
| toknames[tok]); |
* and null-terminate them. |
| return(0); |
*/ |
| } |
cp = *bufp + pos; |
| |
for (i = 0; i < 9; i++) |
| |
arg[i] = '\0' == *cp ? "" : |
| |
mandoc_getarg(r->parse, &cp, ln, &pos); |
| |
|
| first = (*argv == tree->cur); |
/* |
| argv++; |
* Expand macro arguments. |
| |
*/ |
| |
*szp = 0; |
| |
n1 = cp = mandoc_strdup(r->current_string); |
| |
while (NULL != (cp = strstr(cp, "\\$"))) { |
| |
i = cp[2] - '1'; |
| |
if (0 > i || 8 < i) { |
| |
/* Not an argument invocation. */ |
| |
cp += 2; |
| |
continue; |
| |
} |
| |
|
| if ( ! roffparseopts(tree, tok, &argv, argcp, argvp)) |
*szp = strlen(n1) - 3 + strlen(arg[i]) + 1; |
| return(0); |
n2 = mandoc_malloc(*szp); |
| if ( ! (*tree->cb.roffin)(tree->arg, tok, argcp, argvp)) |
|
| return(0); |
|
| if (NULL == *argv) |
|
| return((*tree->cb.roffout)(tree->arg, tok)); |
|
| |
|
| if ( ! (ROFF_PARSED & tokens[tok].flags)) { |
strlcpy(n2, n1, (size_t)(cp - n1 + 1)); |
| i = 0; |
strlcat(n2, arg[i], *szp); |
| while (*argv) |
strlcat(n2, cp + 3, *szp); |
| if ( ! roffdata(tree, i++, *argv++)) |
|
| return(0); |
|
| |
|
| return((*tree->cb.roffout)(tree->arg, tok)); |
cp = n2 + (cp - n1); |
| |
free(n1); |
| |
n1 = n2; |
| } |
} |
| |
|
| /* |
/* |
| * Deal with punctuation. Ugly. Work ahead until we encounter |
* Replace the macro invocation |
| * terminating punctuation. If we encounter it and all |
* by the expanded macro. |
| * subsequent tokens are punctuation, then stop processing (the |
|
| * line-dominant macro will print these tokens after closure). |
|
| */ |
*/ |
| |
free(*bufp); |
| |
*bufp = n1; |
| |
if (0 == *szp) |
| |
*szp = strlen(*bufp) + 1; |
| |
|
| i = 0; |
return(*szp > 1 && '\n' == (*bufp)[(int)*szp - 2] ? |
| while (*argv) { |
ROFF_REPARSE : ROFF_APPEND); |
| if (ROFF_MAX != (c = rofffindcallable(*argv))) { |
} |
| if ( ! (ROFF_LSCOPE & tokens[tok].flags)) |
|
| if ( ! (*tree->cb.roffout)(tree->arg, tok)) |
|
| return(0); |
|
| |
|
| if ( ! roffcall(tree, c, argv)) |
|
| return(0); |
|
| |
|
| if (ROFF_LSCOPE & tokens[tok].flags) |
|
| if ( ! (*tree->cb.roffout)(tree->arg, tok)) |
|
| return(0); |
|
| |
|
| break; |
|
| } |
|
| |
|
| if ( ! roffispunct(*argv)) { |
static char * |
| if ( ! roffdata(tree, i++, *argv++)) |
roff_getname(struct roff *r, char **cpp, int ln, int pos) |
| return(0); |
{ |
| continue; |
char *name, *cp; |
| } |
|
| |
|
| i = 1; |
name = *cpp; |
| for (j = 0; argv[j]; j++) |
if ('\0' == *name) |
| if ( ! roffispunct(argv[j])) |
return(name); |
| break; |
|
| |
|
| if (argv[j]) { |
/* Read until end of name. */ |
| if ( ! roffdata(tree, 0, *argv++)) |
for (cp = name; '\0' != *cp && ' ' != *cp; cp++) { |
| return(0); |
if ('\\' != *cp) |
| continue; |
continue; |
| } |
cp++; |
| |
if ('\\' == *cp) |
| if ( ! (*tree->cb.roffout)(tree->arg, tok)) |
continue; |
| return(0); |
mandoc_msg(MANDOCERR_NAMESC, r->parse, ln, pos, NULL); |
| break; |
*cp = '\0'; |
| |
name = cp; |
| } |
} |
| |
|
| if (NULL == *argv) |
/* Nil-terminate name. */ |
| return((*tree->cb.roffout)(tree->arg, tok)); |
if ('\0' != *cp) |
| if ( ! first) |
*(cp++) = '\0'; |
| return(1); |
|
| |
|
| return(roffpurgepunct(tree, argv)); |
/* Read past spaces. */ |
| |
while (' ' == *cp) |
| |
cp++; |
| |
|
| |
*cpp = cp; |
| |
return(name); |
| } |
} |
| |
|
| |
/* |
| /* ARGSUSED */ |
* Store *string into the user-defined string called *name. |
| static int |
* In multiline mode, append to an existing entry and append '\n'; |
| roff_noop(ROFFCALL_ARGS) |
* else replace the existing entry, if there is one. |
| |
* To clear an existing entry, call with (*r, *name, NULL, 0). |
| |
*/ |
| |
static void |
| |
roff_setstr(struct roff *r, const char *name, const char *string, |
| |
int multiline) |
| { |
{ |
| |
|
| return(1); |
roff_setstrn(&r->strtab, name, strlen(name), string, |
| |
string ? strlen(string) : 0, multiline); |
| } |
} |
| |
|
| |
static void |
| /* ARGSUSED */ |
roff_setstrn(struct roffkv **r, const char *name, size_t namesz, |
| static int |
const char *string, size_t stringsz, int multiline) |
| roff_depr(ROFFCALL_ARGS) |
|
| { |
{ |
| |
struct roffkv *n; |
| |
char *c; |
| |
int i; |
| |
size_t oldch, newch; |
| |
|
| roff_err(tree, *argv, "`%s' is deprecated", toknames[tok]); |
/* Search for an existing string with the same name. */ |
| return(0); |
n = *r; |
| |
|
| |
while (n && strcmp(name, n->key.p)) |
| |
n = n->next; |
| |
|
| |
if (NULL == n) { |
| |
/* Create a new string table entry. */ |
| |
n = mandoc_malloc(sizeof(struct roffkv)); |
| |
n->key.p = mandoc_strndup(name, namesz); |
| |
n->key.sz = namesz; |
| |
n->val.p = NULL; |
| |
n->val.sz = 0; |
| |
n->next = *r; |
| |
*r = n; |
| |
} else if (0 == multiline) { |
| |
/* In multiline mode, append; else replace. */ |
| |
free(n->val.p); |
| |
n->val.p = NULL; |
| |
n->val.sz = 0; |
| |
} |
| |
|
| |
if (NULL == string) |
| |
return; |
| |
|
| |
/* |
| |
* One additional byte for the '\n' in multiline mode, |
| |
* and one for the terminating '\0'. |
| |
*/ |
| |
newch = stringsz + (multiline ? 2u : 1u); |
| |
|
| |
if (NULL == n->val.p) { |
| |
n->val.p = mandoc_malloc(newch); |
| |
*n->val.p = '\0'; |
| |
oldch = 0; |
| |
} else { |
| |
oldch = n->val.sz; |
| |
n->val.p = mandoc_realloc(n->val.p, oldch + newch); |
| |
} |
| |
|
| |
/* Skip existing content in the destination buffer. */ |
| |
c = n->val.p + (int)oldch; |
| |
|
| |
/* Append new content to the destination buffer. */ |
| |
i = 0; |
| |
while (i < (int)stringsz) { |
| |
/* |
| |
* Rudimentary roff copy mode: |
| |
* Handle escaped backslashes. |
| |
*/ |
| |
if ('\\' == string[i] && '\\' == string[i + 1]) |
| |
i++; |
| |
*c++ = string[i++]; |
| |
} |
| |
|
| |
/* Append terminating bytes. */ |
| |
if (multiline) |
| |
*c++ = '\n'; |
| |
|
| |
*c = '\0'; |
| |
n->val.sz = (int)(c - n->val.p); |
| } |
} |
| |
|
| |
static const char * |
| |
roff_getstrn(const struct roff *r, const char *name, size_t len) |
| |
{ |
| |
const struct roffkv *n; |
| |
|
| |
for (n = r->strtab; n; n = n->next) |
| |
if (0 == strncmp(name, n->key.p, len) && |
| |
'\0' == n->key.p[(int)len]) |
| |
return(n->val.p); |
| |
|
| |
return(NULL); |
| |
} |
| |
|
| static void |
static void |
| roff_warn(const struct rofftree *tree, const char *pos, char *fmt, ...) |
roff_freestr(struct roffkv *r) |
| { |
{ |
| va_list ap; |
struct roffkv *n, *nn; |
| char buf[128]; |
|
| |
|
| va_start(ap, fmt); |
for (n = r; n; n = nn) { |
| (void)vsnprintf(buf, sizeof(buf), fmt, ap); |
free(n->key.p); |
| va_end(ap); |
free(n->val.p); |
| |
nn = n->next; |
| |
free(n); |
| |
} |
| |
} |
| |
|
| (*tree->cb.roffmsg)(tree->arg, |
const struct tbl_span * |
| ROFF_WARN, tree->cur, pos, buf); |
roff_span(const struct roff *r) |
| |
{ |
| |
|
| |
return(r->tbl ? tbl_span(r->tbl) : NULL); |
| } |
} |
| |
|
| |
const struct eqn * |
| |
roff_eqn(const struct roff *r) |
| |
{ |
| |
|
| |
return(r->last_eqn ? &r->last_eqn->eqn : NULL); |
| |
} |
| |
|
| static void |
/* |
| roff_err(const struct rofftree *tree, const char *pos, char *fmt, ...) |
* Duplicate an input string, making the appropriate character |
| |
* conversations (as stipulated by `tr') along the way. |
| |
* Returns a heap-allocated string with all the replacements made. |
| |
*/ |
| |
char * |
| |
roff_strdup(const struct roff *r, const char *p) |
| { |
{ |
| va_list ap; |
const struct roffkv *cp; |
| char buf[128]; |
char *res; |
| |
const char *pp; |
| |
size_t ssz, sz; |
| |
enum mandoc_esc esc; |
| |
|
| va_start(ap, fmt); |
if (NULL == r->xmbtab && NULL == r->xtab) |
| (void)vsnprintf(buf, sizeof(buf), fmt, ap); |
return(mandoc_strdup(p)); |
| va_end(ap); |
else if ('\0' == *p) |
| |
return(mandoc_strdup("")); |
| |
|
| (*tree->cb.roffmsg)(tree->arg, |
/* |
| ROFF_ERROR, tree->cur, pos, buf); |
* Step through each character looking for term matches |
| } |
* (remember that a `tr' can be invoked with an escape, which is |
| |
* a glyph but the escape is multi-character). |
| |
* We only do this if the character hash has been initialised |
| |
* and the string is >0 length. |
| |
*/ |
| |
|
| |
res = NULL; |
| |
ssz = 0; |
| |
|
| |
while ('\0' != *p) { |
| |
if ('\\' != *p && r->xtab && r->xtab[(int)*p].p) { |
| |
sz = r->xtab[(int)*p].sz; |
| |
res = mandoc_realloc(res, ssz + sz + 1); |
| |
memcpy(res + ssz, r->xtab[(int)*p].p, sz); |
| |
ssz += sz; |
| |
p++; |
| |
continue; |
| |
} else if ('\\' != *p) { |
| |
res = mandoc_realloc(res, ssz + 2); |
| |
res[ssz++] = *p++; |
| |
continue; |
| |
} |
| |
|
| |
/* Search for term matches. */ |
| |
for (cp = r->xmbtab; cp; cp = cp->next) |
| |
if (0 == strncmp(p, cp->key.p, cp->key.sz)) |
| |
break; |
| |
|
| |
if (NULL != cp) { |
| |
/* |
| |
* A match has been found. |
| |
* Append the match to the array and move |
| |
* forward by its keysize. |
| |
*/ |
| |
res = mandoc_realloc |
| |
(res, ssz + cp->val.sz + 1); |
| |
memcpy(res + ssz, cp->val.p, cp->val.sz); |
| |
ssz += cp->val.sz; |
| |
p += (int)cp->key.sz; |
| |
continue; |
| |
} |
| |
|
| |
/* |
| |
* Handle escapes carefully: we need to copy |
| |
* over just the escape itself, or else we might |
| |
* do replacements within the escape itself. |
| |
* Make sure to pass along the bogus string. |
| |
*/ |
| |
pp = p++; |
| |
esc = mandoc_escape(&p, NULL, NULL); |
| |
if (ESCAPE_ERROR == esc) { |
| |
sz = strlen(pp); |
| |
res = mandoc_realloc(res, ssz + sz + 1); |
| |
memcpy(res + ssz, pp, sz); |
| |
break; |
| |
} |
| |
/* |
| |
* We bail out on bad escapes. |
| |
* No need to warn: we already did so when |
| |
* roff_res() was called. |
| |
*/ |
| |
sz = (int)(p - pp); |
| |
res = mandoc_realloc(res, ssz + sz + 1); |
| |
memcpy(res + ssz, pp, sz); |
| |
ssz += sz; |
| |
} |
| |
|
| |
res[(int)ssz] = '\0'; |
| |
return(res); |
| |
} |
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