mandoc/apropos_db.c - diff

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Diff for /mandoc/Attic/apropos_db.c between version 1.29 and 1.30

version 1.29, 2012/03/23 05:07:35

version 1.30, 2012/03/24 00:31:55

Line 42

#include "apropos_db.h"

#include "mandoc.h"

struct rec {

#define RESFREE(_x) \

struct res res; /* resulting record info */

do { \

free((_x)->file); \

* Maintain a binary tree for checking the uniqueness of `rec'

free((_x)->cat); \

* when adding elements to the results array.

free((_x)->title); \

* Since the results array is dynamic, use offset in the array

free((_x)->arch); \

* instead of a pointer to the structure.

free((_x)->desc); \

free((_x)->matches); \

int lhs;

} while (/*CONSTCOND*/0)

int rhs;

int matched; /* expression is true */

int *matches; /* partial truth evaluations */

};

struct expr {

int regex; /* is regex? */

Line 73 struct type {

Line 69 struct type {

};

struct rectree {

struct rec *node; /* record array for dir tree */

struct res *node; /* record array for dir tree */

int len; /* length of record array */

};

Line 127 static int btree_read(const DBT *, const DBT *,

Line 123 static int btree_read(const DBT *, const DBT *,

uint64_t *, recno_t *, char **);

static int expreval(const struct expr *, int *);

static void exprexec(const struct expr *,

const char *, uint64_t, struct rec *);

const char *, uint64_t, struct res *);

static int exprmark(const struct expr *,

const char *, uint64_t, int *);

static struct expr *exprexpr(int, char *[], int *, int *, size_t *);

static struct expr *exprterm(char *, int);

static DB *index_open(void);

static int index_read(const DBT *, const DBT *, int,

const struct mchars *, struct rec *);

const struct mchars *, struct res *);

static void norm_string(const char *,

const struct mchars *, char **);

static size_t norm_utf8(unsigned int, char[7]);

static void recfree(struct rec *);

static int single_search(struct rectree *, const struct opts *,

const struct expr *, size_t terms,

struct mchars *, int);

Line 361 index_open(void)

Line 356 index_open(void)

static int

index_read(const DBT *key, const DBT *val, int index,

const struct mchars *mc, struct rec *rec)

const struct mchars *mc, struct res *rec)

{

size_t left;

char *np, *cp;

Line 381 index_read(const DBT *key, const DBT *val, int index,

Line 376 index_read(const DBT *key, const DBT *val, int index,

cp = val->data;

assert(sizeof(recno_t) == key->size);

memcpy(&rec->res.rec, key->data, key->size);

memcpy(&rec->rec, key->data, key->size);

rec->res.volume = index;

rec->volume = index;

if ('d' == (type = *cp++))

rec->res.type = RESTYPE_MDOC;

rec->type = RESTYPE_MDOC;

else if ('a' == type)

rec->res.type = RESTYPE_MAN;

rec->type = RESTYPE_MAN;

else if ('c' == type)

rec->res.type = RESTYPE_CAT;

rec->type = RESTYPE_CAT;

else

return(0);

left--;

INDEX_BREAD(rec->res.file);

INDEX_BREAD(rec->file);

INDEX_BREAD(rec->res.cat);

INDEX_BREAD(rec->cat);

INDEX_BREAD(rec->res.title);

INDEX_BREAD(rec->title);

INDEX_BREAD(rec->res.arch);

INDEX_BREAD(rec->arch);

INDEX_BREAD(rec->res.desc);

INDEX_BREAD(rec->desc);

return(1);

}

Line 411 index_read(const DBT *key, const DBT *val, int index,

Line 406 index_read(const DBT *key, const DBT *val, int index,

int

apropos_search(int pathsz, char **paths, const struct opts *opts,

const struct expr *expr, size_t terms, void *arg,

size_t *sz, struct res **resp,

void (*res)(struct res *, size_t, void *))

{

struct rectree tree;

struct mchars *mc;

struct res *ress;

int i, rc;

int i, mlen, rc;

memset(&tree, 0, sizeof(struct rectree));

rc = 0;

mc = mchars_alloc();

*sz = 0;

*resp = NULL;

* Main loop. Change into the directory containing manpage

Line 431 apropos_search(int pathsz, char **paths, const struct

Line 428 apropos_search(int pathsz, char **paths, const struct

for (i = 0; i < pathsz; i++) {

if (chdir(paths[i]))

continue;

if ( ! single_search(&tree, opts, expr, terms, mc, i))

if (single_search(&tree, opts, expr, terms, mc, i))

goto out;

continue;

resfree(tree.node, tree.len);

mchars_free(mc);

return(0);

}

(*res)(tree.node, tree.len, arg);

* Count matching files, transfer to a "clean" array, then feed

*sz = tree.len;

* them to the output handler.

*resp = tree.node;

for (mlen = i = 0; i < tree.len; i++)

if (tree.node[i].matched)

mlen++;

ress = mandoc_malloc(mlen * sizeof(struct res));

for (mlen = i = 0; i < tree.len; i++)

if (tree.node[i].matched)

memcpy(&ress[mlen++], &tree.node[i].res,

sizeof(struct res));

(*res)(ress, mlen, arg);

free(ress);

rc = 1;

out:

for (i = 0; i < tree.len; i++)

recfree(&tree.node[i]);

free(tree.node);

mchars_free(mc);

return(rc);

return(1);

}

static int

Line 473 single_search(struct rectree *tree, const struct opts

Line 452 single_search(struct rectree *tree, const struct opts

DBT key, val;

DB *btree, *idx;

char *buf;

struct rec *rs;

struct res *rs;

struct rec r;

struct res r;

uint64_t mask;

recno_t rec;

Line 485 single_search(struct rectree *tree, const struct opts

Line 464 single_search(struct rectree *tree, const struct opts

buf = NULL;

rs = tree->node;

memset(&r, 0, sizeof(struct rec));

memset(&r, 0, sizeof(struct res));

if (NULL == (btree = btree_open()))

return(1);

Line 513 single_search(struct rectree *tree, const struct opts

Line 492 single_search(struct rectree *tree, const struct opts

for (leaf = root; leaf >= 0; )

if (rec > rs[leaf].res.rec &&

if (rec > rs[leaf].rec &&

rs[leaf].rhs >= 0)

leaf = rs[leaf].rhs;

else if (rec < rs[leaf].res.rec &&

else if (rec < rs[leaf].rec &&

rs[leaf].lhs >= 0)

leaf = rs[leaf].lhs;

else

Line 528 single_search(struct rectree *tree, const struct opts

Line 507 single_search(struct rectree *tree, const struct opts

* try to evaluate it now and continue anyway.

if (leaf >= 0 && rs[leaf].res.rec == rec) {

if (leaf >= 0 && rs[leaf].rec == rec) {

if (0 == rs[leaf].matched)

exprexec(expr, buf, mask, &rs[leaf]);

continue;

Line 552 single_search(struct rectree *tree, const struct opts

Line 531 single_search(struct rectree *tree, const struct opts

/* XXX: this should be elsewhere, I guess? */

if (opts->cat && strcasecmp(opts->cat, r.res.cat))

if (opts->cat && strcasecmp(opts->cat, r.cat))

continue;

if (opts->arch && *r.res.arch)

if (opts->arch && *r.arch)

if (strcasecmp(opts->arch, r.res.arch))

if (strcasecmp(opts->arch, r.arch))

continue;

tree->node = rs = mandoc_realloc

(rs, (tree->len + 1) * sizeof(struct rec));

(rs, (tree->len + 1) * sizeof(struct res));

memcpy(&rs[tree->len], &r, sizeof(struct rec));

memcpy(&rs[tree->len], &r, sizeof(struct res));

memset(&r, 0, sizeof(struct rec));

memset(&r, 0, sizeof(struct res));

rs[tree->len].matches =

mandoc_calloc(terms, sizeof(int));

Line 572 single_search(struct rectree *tree, const struct opts

Line 551 single_search(struct rectree *tree, const struct opts

/* Append to our tree. */

if (leaf >= 0) {

if (rec > rs[leaf].res.rec)

if (rec > rs[leaf].rec)

rs[leaf].rhs = tree->len;

else

rs[leaf].lhs = tree->len;

Line 586 single_search(struct rectree *tree, const struct opts

Line 565 single_search(struct rectree *tree, const struct opts

(*idx->close)(idx);

free(buf);

recfree(&r);

RESFREE(&r);

return(1 == ch);

}

static void

void

recfree(struct rec *rec)

resfree(struct res *rec, size_t sz)

{

size_t i;

free(rec->res.file);

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

free(rec->res.cat);

RESFREE(&rec[i]);

free(rec->res.title);

free(rec);

free(rec->res.arch);

free(rec->res.desc);

free(rec->matches);

}

Line 891 expreval(const struct expr *p, int *ms)

Line 867 expreval(const struct expr *p, int *ms)

static void

exprexec(const struct expr *e, const char *cp,

uint64_t mask, struct rec *r)

uint64_t mask, struct res *r)

{

assert(0 == r->matched);

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