mandoc/makewhatis.c - diff

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Up to [cvsweb.bsd.lv] / mandoc

Diff for /mandoc/Attic/makewhatis.c between version 1.2 and 1.6

version 1.2, 2011/05/15 02:47:17

version 1.6, 2011/06/21 14:16:05

Line 42

#define MANDOC_BUFSZ BUFSIZ

#define MANDOC_FLAGS O_CREAT|O_TRUNC|O_RDWR

enum type {

/* Bit-fields. See makewhatis.1. */

MANDOC_NONE = 0,

MANDOC_NAME,

#define TYPE_NAME 0x01

MANDOC_FUNCTION,

#define TYPE_FUNCTION 0x02

MANDOC_UTILITY,

#define TYPE_UTILITY 0x04

MANDOC_INCLUDES,

#define TYPE_INCLUDES 0x08

MANDOC_VARIABLE,

#define TYPE_VARIABLE 0x10

MANDOC_STANDARD,

#define TYPE_STANDARD 0x20

MANDOC_AUTHOR,

#define TYPE_AUTHOR 0x40

MANDOC_CONFIG

#define TYPE_CONFIG 0x80

#define TYPE_DESC 0x100

/* Buffer for storing growable data. */

struct buf {

char *cp;

size_t len;

size_t size;

};

#define MAN_ARGS DB *db, \

#define MAN_ARGS DB *hash, \

const char *dbn, \

struct buf *buf, \

DBT *key, size_t *ksz, \

struct buf *dbuf, \

DBT *val, \

DBT *rval, size_t *rsz, \

const struct man_node *n

#define MDOC_ARGS DB *db, \

#define MDOC_ARGS DB *hash, \

const char *dbn, \

struct buf *buf, \

DBT *key, size_t *ksz, \

struct buf *dbuf, \

DBT *val, \

const struct mdoc_node *n, \

DBT *rval, size_t *rsz, \

const struct mdoc_meta *m

const struct mdoc_node *n

static void dbt_append(DBT *, size_t *, const char *);

static void buf_append(struct buf *, const char *);

static void dbt_appendb(DBT *, size_t *,

static void buf_appendb(struct buf *,

const void *, size_t);

static void dbt_init(DBT *, size_t *);

static void dbt_put(DB *, const char *, DBT *, DBT *);

static void usage(void);

static void hash_put(DB *, const struct buf *, int);

static void pman(DB *, const char *, DBT *, size_t *,

DBT *, DBT *, size_t *, struct man *);

static int pman_node(MAN_ARGS);

static void pmdoc(DB *, const char *, DBT *, size_t *,

DBT *, DBT *, size_t *, struct mdoc *);

static void pmdoc_node(MDOC_ARGS);

static void pmdoc_An(MDOC_ARGS);

static void pmdoc_Cd(MDOC_ARGS);

Line 89 static void pmdoc_Nd(MDOC_ARGS);

static void pmdoc_Nm(MDOC_ARGS);

static void pmdoc_St(MDOC_ARGS);

static void pmdoc_Vt(MDOC_ARGS);

static void usage(void);

typedef void (*pmdoc_nf)(MDOC_ARGS);

static const char *progname;

static const pmdoc_nf mdocs[MDOC_MAX] = {

NULL, /* Ap */

NULL, /* Dd */

Line 219 static const pmdoc_nf mdocs[MDOC_MAX] = {

Line 218 static const pmdoc_nf mdocs[MDOC_MAX] = {

NULL, /* Ta */

};

static const char *progname;

int

main(int argc, char *argv[])

{

Line 233 main(int argc, char *argv[])

Line 234 main(int argc, char *argv[])

char ibuf[MAXPATHLEN], /* index fname */

ibbuf[MAXPATHLEN], /* index backup fname */

fbuf[MAXPATHLEN], /* btree fname */

fbbuf[MAXPATHLEN]; /* btree backup fname */

fbbuf[MAXPATHLEN], /* btree backup fname */

int ch;

vbuf[8]; /* stringified record number */

int ch, seq;

DB *idx, /* index database */

*db; /* keyword database */

*db, /* keyword database */

DBT rkey, rval, /* recno entries */

*hash; /* temporary keyword hashtable */

key, val; /* persistent keyword entries */

DBT key, val;

size_t sv,

size_t sv, rsz;

ksz, rsz; /* entry buffer size */

char vbuf[8]; /* stringified record number */

BTREEINFO info; /* btree configuration */

recno_t rec; /* current record number */

struct buf buf, /* keyword buffer */

dbuf; /* description buffer */

extern int optind;

extern char *optarg;

Line 302 main(int argc, char *argv[])

Line 304 main(int argc, char *argv[])

* For the keyword database, open a BTREE database that allows

* duplicates. For the index database, use a standard RECNO

* duplicates.

* database type.

* For the index database, use a standard RECNO database type.

* For the temporary keyword hashtable, use the HASH database

* type.

hash = dbopen(NULL, MANDOC_FLAGS, 0644, DB_HASH, NULL);

if (NULL == hash) {

perror("hash");

exit((int)MANDOCLEVEL_SYSERR);

}

memset(&info, 0, sizeof(BTREEINFO));

info.flags = R_DUP;

db = dbopen(fbbuf, MANDOC_FLAGS, 0644, DB_BTREE, &info);

if (NULL == db) {

perror(fbbuf);

(*hash->close)(hash);

exit((int)MANDOCLEVEL_SYSERR);

}

Line 320 main(int argc, char *argv[])

Line 331 main(int argc, char *argv[])

if (NULL == db) {

perror(ibbuf);

(*db->close)(db);

(*hash->close)(hash);

exit((int)MANDOCLEVEL_SYSERR);

}

Line 332 main(int argc, char *argv[])

Line 344 main(int argc, char *argv[])

mp = mparse_alloc(MPARSE_AUTO, MANDOCLEVEL_FATAL, NULL, NULL);

memset(&key, 0, sizeof(DBT));

rec = 1;

memset(&val, 0, sizeof(DBT));

rsz = 0;

memset(&rkey, 0, sizeof(DBT));

memset(&rval, 0, sizeof(DBT));

val.size = sizeof(vbuf);

memset(&buf, 0, sizeof(struct buf));

val.data = vbuf;

memset(&dbuf, 0, sizeof(struct buf));

rkey.size = sizeof(recno_t);

rec = 1;

buf.size = dbuf.size = MANDOC_BUFSZ;

ksz = rsz = 0;

buf.cp = mandoc_malloc(buf.size);

dbuf.cp = mandoc_malloc(dbuf.size);

while (NULL != (fn = *argv++)) {

mparse_reset(mp);

Line 378 main(int argc, char *argv[])

Line 389 main(int argc, char *argv[])

* going to write a nil byte in its place.

dbt_init(&rval, &rsz);

dbuf.len = 0;

dbt_appendb(&rval, &rsz, fn, strlen(fn) + 1);

buf_appendb(&dbuf, fn, strlen(fn) + 1);

dbt_appendb(&rval, &rsz, msec, strlen(msec) + 1);

buf_appendb(&dbuf, msec, strlen(msec) + 1);

dbt_appendb(&rval, &rsz, mtitle, strlen(mtitle) + 1);

buf_appendb(&dbuf, mtitle, strlen(mtitle) + 1);

dbt_appendb(&rval, &rsz, arch ? arch : "",

buf_appendb(&dbuf, arch ? arch : "",

arch ? strlen(arch) + 1 : 1);

sv = rval.size;

sv = dbuf.len;

/* Fix the record number in the btree value. */

memset(val.data, 0, sizeof(uint32_t));

memcpy(val.data + 4, &rec, sizeof(uint32_t));

if (mdoc)

pmdoc(db, fbbuf, &key, &ksz,

pmdoc_node(hash, &buf, &dbuf,

&val, &rval, &rsz, mdoc);

mdoc_node(mdoc), mdoc_meta(mdoc));

else

pman(db, fbbuf, &key, &ksz,

pman_node(hash, &buf, &dbuf, man_node(man));

&val, &rval, &rsz, man);

* Copy from the in-memory hashtable of pending keywords

* into the database.

memset(vbuf, 0, sizeof(uint32_t));

memcpy(vbuf + 4, &rec, sizeof(uint32_t));

seq = R_FIRST;

while (0 == (ch = (*hash->seq)(hash, &key, &val, seq))) {

memcpy(vbuf, val.data, sizeof(uint32_t));

val.size = sizeof(vbuf);

val.data = vbuf;

dbt_put(db, fbbuf, &key, &val);

if ((*hash->del)(hash, &key, 0) < 0) {

perror("hash");

exit((int)MANDOCLEVEL_SYSERR);

}

seq = R_NEXT;

}

if (ch < 0) {

perror("hash");

exit((int)MANDOCLEVEL_SYSERR);

}

* Apply this to the index. If we haven't had a

* Apply to the index. If we haven't had a description

* description set, put an empty one in now.

* set, put an empty one in now.

if (rval.size == sv)

if (dbuf.len == sv)

dbt_appendb(&rval, &rsz, "", 1);

buf_appendb(&dbuf, "", 1);

rkey.data = &rec;

key.data = &rec;

dbt_put(idx, ibbuf, &rkey, &rval);

key.size = sizeof(recno_t);

printf("Indexed: %s\n", fn);

val.data = dbuf.cp;

val.size = dbuf.len;

dbt_put(idx, ibbuf, &key, &val);

rec++;

}

(*db->close)(db);

(*idx->close)(idx);

(*hash->close)(hash);

mparse_free(mp);

free(key.data);

free(buf.cp);

free(rval.data);

free(dbuf.cp);

/* Atomically replace the file with our temporary one. */

Line 433 main(int argc, char *argv[])

Line 471 main(int argc, char *argv[])

}

* Initialise the stored database key whose data buffer is shared

* Grow the buffer (if necessary) and copy in a binary string.

* between uses (as the key must sometimes be constructed from an array

* of

static void

dbt_init(DBT *key, size_t *ksz)

buf_appendb(struct buf *buf, const void *cp, size_t sz)

{

if (0 == *ksz) {

assert(0 == key->size);

assert(NULL == key->data);

key->data = mandoc_malloc(MANDOC_BUFSZ);

*ksz = MANDOC_BUFSZ;

}

key->size = 0;

}

* Append a binary value to a database entry. This can be invoked

* multiple times; the buffer is automatically resized.

static void

dbt_appendb(DBT *key, size_t *ksz, const void *cp, size_t sz)

{

assert(key->data);

/* Overshoot by MANDOC_BUFSZ. */

while (key->size + sz >= *ksz) {

while (buf->len + sz >= buf->size) {

*ksz = key->size + sz + MANDOC_BUFSZ;

buf->size = buf->len + sz + MANDOC_BUFSZ;

key->data = mandoc_realloc(key->data, *ksz);

buf->cp = mandoc_realloc(buf->cp, buf->size);

}

memcpy(key->data + (int)key->size, cp, sz);

memcpy(buf->cp + (int)buf->len, cp, sz);

key->size += sz;

buf->len += sz;

}

* Append a nil-terminated string to the database entry. This can be

* Append a nil-terminated string to the buffer.

* invoked multiple times. The database entry will be nil-terminated as

* This can be invoked multiple times.

* well; if invoked multiple times, a space is put between strings.

* The buffer string will be nil-terminated.

* If invoked multiple times, a space is put between strings.

static void

dbt_append(DBT *key, size_t *ksz, const char *cp)

buf_append(struct buf *buf, const char *cp)

{

size_t sz;

if (0 == (sz = strlen(cp)))

return;

assert(key->data);

if (buf->len)

buf->cp[(int)buf->len - 1] = ' ';

if (key->size)

buf_appendb(buf, cp, sz + 1);

((char *)key->data)[(int)key->size - 1] = ' ';

dbt_appendb(key, ksz, cp, sz + 1);

}

/* ARGSUSED */

static void

pmdoc_An(MDOC_ARGS)

{

uint32_t fl;

if (SEC_AUTHORS != n->sec)

return;

for (n = n->child; n; n = n->next)

if (MDOC_TEXT == n->type)

dbt_append(key, ksz, n->string);

buf_append(buf, n->string);

fl = (uint32_t)MANDOC_AUTHOR;

hash_put(hash, buf, TYPE_AUTHOR);

memcpy(val->data, &fl, 4);

}

/* ARGSUSED */

static void

pmdoc_Fd(MDOC_ARGS)

{

uint32_t fl;

const char *start, *end;

size_t sz;

Line 550 pmdoc_Fd(MDOC_ARGS)

Line 562 pmdoc_Fd(MDOC_ARGS)

end--;

assert(end >= start);

dbt_appendb(key, ksz, start, (size_t)(end - start + 1));

dbt_appendb(key, ksz, "", 1);

fl = (uint32_t)MANDOC_INCLUDES;

buf_appendb(buf, start, (size_t)(end - start + 1));

memcpy(val->data, &fl, 4);

buf_appendb(buf, "", 1);

hash_put(hash, buf, TYPE_INCLUDES);

}

/* ARGSUSED */

static void

pmdoc_Cd(MDOC_ARGS)

{

uint32_t fl;

if (SEC_SYNOPSIS != n->sec)

return;

for (n = n->child; n; n = n->next)

if (MDOC_TEXT == n->type)

dbt_append(key, ksz, n->string);

buf_append(buf, n->string);

fl = (uint32_t)MANDOC_CONFIG;

hash_put(hash, buf, TYPE_CONFIG);

memcpy(val->data, &fl, 4);

}

/* ARGSUSED */

static void

pmdoc_In(MDOC_ARGS)

{

uint32_t fl;

if (SEC_SYNOPSIS != n->sec)

return;

if (NULL == n->child || MDOC_TEXT != n->child->type)

return;

dbt_append(key, ksz, n->child->string);

buf_append(buf, n->child->string);

fl = (uint32_t)MANDOC_INCLUDES;

hash_put(hash, buf, TYPE_INCLUDES);

memcpy(val->data, &fl, 4);

}

/* ARGSUSED */

static void

pmdoc_Fn(MDOC_ARGS)

{

uint32_t fl;

const char *cp;

if (SEC_SYNOPSIS != n->sec)

Line 613 pmdoc_Fn(MDOC_ARGS)

Line 620 pmdoc_Fn(MDOC_ARGS)

while ('*' == *cp)

cp++;

dbt_append(key, ksz, cp);

buf_append(buf, cp);

fl = (uint32_t)MANDOC_FUNCTION;

hash_put(hash, buf, TYPE_FUNCTION);

memcpy(val->data, &fl, 4);

}

/* ARGSUSED */

static void

pmdoc_St(MDOC_ARGS)

{

uint32_t fl;

if (SEC_STANDARDS != n->sec)

return;

if (NULL == n->child || MDOC_TEXT != n->child->type)

return;

dbt_append(key, ksz, n->child->string);

buf_append(buf, n->child->string);

fl = (uint32_t)MANDOC_STANDARD;

hash_put(hash, buf, TYPE_STANDARD);

memcpy(val->data, &fl, 4);

}

/* ARGSUSED */

static void

pmdoc_Vt(MDOC_ARGS)

{

uint32_t fl;

const char *start;

size_t sz;

Line 667 pmdoc_Vt(MDOC_ARGS)

Line 670 pmdoc_Vt(MDOC_ARGS)

if (0 == sz)

return;

dbt_appendb(key, ksz, start, sz);

buf_appendb(buf, start, sz);

dbt_appendb(key, ksz, "", 1);

buf_appendb(buf, "", 1);

hash_put(hash, buf, TYPE_VARIABLE);

fl = (uint32_t)MANDOC_VARIABLE;

memcpy(val->data, &fl, 4);

}

/* ARGSUSED */

static void

pmdoc_Fo(MDOC_ARGS)

{

uint32_t fl;

if (SEC_SYNOPSIS != n->sec || MDOC_HEAD != n->type)

return;

if (NULL == n->child || MDOC_TEXT != n->child->type)

return;

dbt_append(key, ksz, n->child->string);

buf_append(buf, n->child->string);

fl = (uint32_t)MANDOC_FUNCTION;

hash_put(hash, buf, TYPE_FUNCTION);

memcpy(val->data, &fl, 4);

}

Line 696 static void

Line 695 static void

pmdoc_Nd(MDOC_ARGS)

{

int first;

size_t sz;

for (first = 1, n = n->child; n; n = n->next) {

if (MDOC_TEXT != n->type)

continue;

if (first)

dbt_appendb(rval, rsz, n->string, strlen(n->string) + 1);

if (first) {

else

sz = strlen(n->string) + 1;

dbt_append(rval, rsz, n->string);

buf_appendb(dbuf, n->string, sz);

buf_appendb(buf, n->string, sz);

} else {

buf_append(dbuf, n->string);

buf_append(buf, n->string);

}

first = 0;

}

hash_put(hash, buf, TYPE_DESC);

}

/* ARGSUSED */

static void

pmdoc_Nm(MDOC_ARGS)

{

uint32_t fl;

if (SEC_NAME == n->sec) {

for (n = n->child; n; n = n->next) {

for (n = n->child; n; n = n->next)

if (MDOC_TEXT != n->type)

if (MDOC_TEXT == n->type)

continue;

buf_append(buf, n->string);

dbt_append(key, ksz, n->string);

hash_put(hash, buf, TYPE_NAME);

}

fl = (uint32_t)MANDOC_NAME;

memcpy(val->data, &fl, 4);

return;

} else if (SEC_SYNOPSIS != n->sec || MDOC_HEAD != n->type)

return;

for (n = n->child; n; n = n->next) {

if (NULL == n->child)

if (MDOC_TEXT != n->type)

buf_append(buf, m->name);

continue;

dbt_append(key, ksz, n->string);

}

fl = (uint32_t)MANDOC_UTILITY;

for (n = n->child; n; n = n->next)

memcpy(val->data, &fl, 4);

if (MDOC_TEXT == n->type)

buf_append(buf, n->string);

hash_put(hash, buf, TYPE_UTILITY);

}

static void

hash_put(DB *db, const struct buf *buf, int mask)

{

DBT key, val;

int rc;

key.data = buf->cp;

if ((key.size = buf->len) < 2)

return;

if ((rc = (*db->get)(db, &key, &val, 0)) < 0) {

perror("hash");

exit((int)MANDOCLEVEL_SYSERR);

} else if (0 == rc)

mask |= *(int *)val.data;

val.data = &mask;

val.size = sizeof(int);

/*fprintf(stderr, "Hashing: [%s] (0x%x)\n",

(char *)key.data, mask);*/

if ((rc = (*db->put)(db, &key, &val, 0)) < 0) {

perror("hash");

exit((int)MANDOCLEVEL_SYSERR);

}

static void

dbt_put(DB *db, const char *dbn, DBT *key, DBT *val)

{

if (0 == key->size)

return;

assert(key->data);

assert(key->size);

assert(val->size);

assert(val->data);

if (0 == (*db->put)(db, key, val, 0))

return;

Line 779 pmdoc_node(MDOC_ARGS)

Line 811 pmdoc_node(MDOC_ARGS)

if (NULL == mdocs[n->tok])

break;

dbt_init(key, ksz);

buf->len = 0;

(*mdocs[n->tok])(hash, buf, dbuf, n, m);

(*mdocs[n->tok])(db, dbn, key, ksz, val, rval, rsz, n);

dbt_put(db, dbn, key, val);

break;

default:

break;

}

pmdoc_node(db, dbn, key, ksz, val, rval, rsz, n->child);

pmdoc_node(hash, buf, dbuf, n->child, m);

pmdoc_node(db, dbn, key, ksz, val, rval, rsz, n->next);

pmdoc_node(hash, buf, dbuf, n->next, m);

}

static int

Line 798 pman_node(MAN_ARGS)

Line 828 pman_node(MAN_ARGS)

const struct man_node *head, *body;

const char *start, *sv;

size_t sz;

uint32_t fl;

if (NULL == n)

return(0);

Line 821 pman_node(MAN_ARGS)

Line 850 pman_node(MAN_ARGS)

NULL != (body = body->child) &&

MAN_TEXT == body->type) {

fl = (uint32_t)MANDOC_NAME;

memcpy(val->data, &fl, 4);

assert(body->string);

start = sv = body->string;

Line 842 pman_node(MAN_ARGS)

Line 868 pman_node(MAN_ARGS)

if ('\0' == start[(int)sz])

break;

dbt_init(key, ksz);

buf->len = 0;

dbt_appendb(key, ksz, start, sz);

buf_appendb(buf, start, sz);

dbt_appendb(key, ksz, "", 1);

buf_appendb(buf, "", 1);

dbt_put(db, dbn, key, val);

hash_put(hash, buf, TYPE_NAME);

if (' ' == start[(int)sz]) {

start += (int)sz + 1;

Line 860 pman_node(MAN_ARGS)

Line 886 pman_node(MAN_ARGS)

}

if (sv == start) {

dbt_init(key, ksz);

buf->len = 0;

dbt_append(key, ksz, start);

buf_append(buf, start);

return(1);

}

Line 880 pman_node(MAN_ARGS)

Line 906 pman_node(MAN_ARGS)

while (' ' == *start)

start++;

dbt_appendb(rval, rsz, start, strlen(start) + 1);

sz = strlen(start) + 1;

buf_appendb(dbuf, start, sz);

buf_appendb(buf, start, sz);

}

if (pman_node(db, dbn, key, ksz, val, rval, rsz, n->child))

if (pman_node(hash, buf, dbuf, n->child))

return(1);

if (pman_node(db, dbn, key, ksz, val, rval, rsz, n->next))

if (pman_node(hash, buf, dbuf, n->next))

return(1);

return(0);

}

static void

pman(DB *db, const char *dbn, DBT *key, size_t *ksz,

DBT *val, DBT *rval, size_t *rsz, struct man *m)

{

pman_node(db, dbn, key, ksz, val, rval, rsz, man_node(m));

}

static void

pmdoc(DB *db, const char *dbn, DBT *key, size_t *ksz,

DBT *val, DBT *rval, size_t *rsz, struct mdoc *m)

{

pmdoc_node(db, dbn, key, ksz, val, rval, rsz, mdoc_node(m));

}

static void

usage(void)

{

fprintf(stderr, "usage: %s "

fprintf(stderr, "usage: %s [-d path] [file...]\n", progname);

"[-d path] "

"[file...]\n",

progname);

}

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