hspell(3) Ivrix hspell(3)NAMEhspell - Hebrew spellchecker (C API)
SYNOPSIS
#include <hspell.h>
int hspell_init(struct dict_radix **dictp, int flags);
void hspell_uninit(struct dict_radix *dictp);
int hspell_check_word(struct dict_radix *dict, const char *word, int
*preflen);
void hspell_trycorrect(struct dict_radix *dict, const char *word,
struct corlist *cl);
int corlist_init(struct corlist *cl);
int corlist_free(struct corlist *cl);
int corlist_n(struct corlist *cl);
char *corlist_str(struct corlist *cl, int i);
int hspell_is_canonic_gimatria(const char *word);
typedef int hspell_word_split_callback_func(const char *word, const
char *baseword, int preflen, int prefspec);
int hspell_enum_splits(struct dict_radix *dict, const char *word,
hspell_word_split_callback_func *enumf);
void hspell_set_dictionary_path(const char *path);
const char *hspell_get_dictionary_path(void);
DESCRIPTION
This manual describes the C API of the Hspell Hebrew spellchecker.
Please refer to hspell(1) for a description of the Hspell project, its
spelling standard, and how it works.
The hspell_init() function must be called first to initialize the
Hspell library. It sets up some global structures (see CAVEATS section)
and then reads the necessary dictionary files (whose places are fixed
when the library is built). The 'dictp' parameter is a pointer to a
struct dict_radix* object, which is modified to point to a newly allo‐
cated dictionary. A typical hspell_init() call therefore looks like
struct dict_radix *dict;
hspell_init(&dict, flags);
Note that the (struct dict_radix*) type is an opaque pointer - the
library user has no access to the separate fields in this structure.
The 'flags' parameter can contain a bitwise or'ing of several flags
that modify Hspell's default behavior; Turning on HSPELL_OPT_HE_SHEELA
allows Hspell to recognize the interrogative He prefix (he ha-she'ela).
HSPELL_OPT_DEFAULT is a synonym for turning on no special flag, i.e.,
it evaluates to 0.
hspell_init() returns 0 on success, or negative numbers on errors. Cur‐
rently, the only error is -1, meaning the dictionary files could not be
read.
The hspell_uninit() function undoes the effects of hspell_init(), free‐
ing any memory that was allocated during initialization.
The hspell_check_word() function checks whether a certain word is a
correct Hebrew word (possibly with prefix particles attached in a syn‐
tacticly-correct manner). 1 is returned if the word is correct, or 0 if
it is incorrect.
The 'word' parameter should be a single Hebrew word, in the iso8859-8
encoding, possibly containing the ASCII quote or double-quote charac‐
ters (signifying the geresh and gershayim used in Hebrew for abbrevia‐
tions, acronyms, and a few foreign sounds). If the calling programs
works with other encodings, it must convert the word to iso8859-8
first. In particular cp1255 (the MS-Windows Hebrew encoding) extensions
to iso8859-8 like niqqud characters, geresh or gershayim, are currently
not recognized and must be removed from the word prior to calling
hspell_check_word().
Into the 'preflen' parameter, the function writes back the number of
characters it recognized as a prefix particle - the rest of the 'word'
is a stand-alone word. Because Hebrew words typically can be read in
several different ways, this feature (of getting just one prefix from
one possible reading) is usually not very useful, and it is likely to
be removed in a future version.
The hspell_enum_splits() function provides a way to get all possible
splitting of the given 'word' into an optional prefix particle and a
stand-alone word. For each possible (and legal, as some words cannot
accept certain prefixes) split, a user-defined callback function is
called. This callback function is given the whole word, the length of
the prefix, the stand-alone word, and a bitfield which describes what
types of words this prefix can get. Note that in some cases, a word
beginning with the letter waw gets this waw doubled before a prefix, so
sometimes strlen(word)!=strlen(baseword)+preflen.
The hspell_trycorrect() tries to find a list of possible corrections
for an incorrect word. Because in Hebrew the word density is high (a
random string of letters, especially if short, has a high probability
of being a correct word), this function attempts to try corrections
based on the assumption of a spelling error (replacement of letters
that sound alike, missing or spurious immot qri'a), not typo (slipped
finger on the keyboard, etc.) - see also CAVEATS.
hspell_trycorrect() returns the correction list into a structure of
type struct corlist. This structure must be first allocated with a
call to corlist_init() and subsequently freed with corlist_free(). The
corlist_n() macro returns the number of words held in an allocated
corlist, and corlist_str() returns the i'th word. Accordingly, here is
an example usage of hspell_trycorrect():
struct corlist cl;
printf ("Found misspelled word %s. Possible corrections:\n", w);
corlist_init (&cl);
hspell_trycorrect (dict, w, &cl);
for (i=0; i<corlist_n(&cl); i++) {
printf ("%s\n", corlist_str(&cl, i));
}
The hspell_is_canonic_gimatria() function checks whether the given word
is a canonic gimatria - i.e., the proper way to write in gimatria the
number it represents. The caller might want to accept canonic gimatria
as proper Hebrew words, even if hspell_check_word() previously reported
such word to be a non-existent word. hspell_is_canonic_gimatria()
returns the number represented as gimatria in 'word' if it is indeed
proper gimatria (in canonic form), or 0 otherwise.
hspell_init() normally reads the dictionary files from a path compiled
into the library. This makes sense when the library's code and the dic‐
tionaries are distributed together, but in some scenarios the library
user might want to use the Hspell dictionaries that are already present
on the system in an arbitrary path. The function hspell_set_dictio‐
nary_path() can be used to set this path, and should be used before
calling hspell_init(). The given path is that of the word list, and
other input files have that path with an appended prefix.
hspell_get_dictionary_path() can be used to find the current path. On
many installations, this defaults to
"/usr/local/share/hspell/hebrew.wgz".
LINKING
On most systems, the Hspell library is compiled to use the Zlib library
for reading the compressed dictionaries. Therefore, a program linking
with the Hspell library must also be linked with the Zlib library (usu‐
ally, by adding "-lz" to the compilation line).
Programs that use autoconf to search for the Hspell library, should
remember to tell AC_CHECK_LIB to also link with the -lz library when
checking for -lhspell.
CAVEATS
While the API described here has been stable for years, it may change
in the future. Users are encouraged to compare the values of the inte‐
ger macros HSPELL_VERSION_MAJOR and HSPELL_VERSION_MINOR to those
expected by the writer of the program. A third macro, HSPELL_VER‐
SION_EXTRA contains a string which can describe subrelease modifica‐
tions (e.g., beta versions).
The current Hspell C API is very low-level, in the sense that it leaves
the user to implement many features that some users take for granted
that a spell-checker should provide. For example it doesn't provide any
facilities for a user-defined personal dictionary. It also has separate
functions for checking valid Hebrew words and valid gimatria, and no
function to do both. It is assumed that the caller - a bigger spell-
checking library or word processor (for example), will already have
these facilities. If not, you may wish to look at the sources of
hspell(1) for an example implementation.
Currently there is no concept of separate Hspell "contexts" in an
application. Some of the context is now global for the entire applica‐
tion: currently, a single list of legal prefix-particles is kept, and
the dictionary read by hspell_init() is always read from the global
default place. This may be solved in a later version, e.g., by switch‐
ing to an API like:
context = hspell_new_context();
hspell_set_dictionary_path(context, "/some/path/hebrew.wgz");
hspell_init(context, flags);
...
hspell_check_word(context, word, preflenp);
Note that despite the global context mentioned above, after initializa‐
tion all functions described here are thread-safe, because they only
read the dictionary data, not write to it.
hspell_trycorrect() is not as powerful as it could have been, with
typos or certain kinds of spelling mistakes not giving useful correc‐
tion suggestions. Along with more types of corrections, hspell_trycor‐
rect() needs a better way to order the likelihood of the corrections,
as an unordered list of 100 corrections would be just as useful (or
rather, useless) as none.
In some cases of errors during hspell_init(), warning messages are
printed to the standard errors. This is a bad thing for a library to
do.
There are too many CAVEATS in this manual.
VERSION
The version of hspell described by this manual page is 1.1 (December
31, 2009)
COPYRIGHT
Copyright (C) 2000-2009, Nadav Har'El <nyh@math.technion.ac.il> and Dan
Kenigsberg <danken@cs.technion.ac.il>.
Hspell is free software, released under the GNU General Public License
(GPL). Note that not only the programs in the distribution, but also
the dictionary files and the generated word lists, are licensed under
the GPL. There is no warranty of any kind.
See the LICENSE file for more information and the exact license terms.
The latest version of this software can be found in
http://hspell.ivrix.org.il/
SEE ALSOhspell(1)Hspell 1.1 31 December 2009 hspell(3)