/* Arrays of C struct's that can grow. Entries can be retrieved either by integer index, or by string key. */ /* Copyright (C) 1997 Andrew McCallum Written by: Andrew Kachites McCallum This file is part of the Bag-Of-Words Library, `libbow'. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation, version 2. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA */ #include #include int bow_sarray_default_capacity = 1024; /* Allocate, initialize and return a new sarray structure. */ bow_sarray * bow_sarray_new (int capacity, int entry_size, void (*free_func)()) { bow_sarray *ret; ret = malloc (sizeof (bow_sarray)); bow_sarray_init (ret, capacity, entry_size, free_func); return ret; } /* Initialize a newly allocated sarray structure. */ void bow_sarray_init (bow_sarray *sa, int capacity, int entry_size, void (*free_func)()) { if (capacity == 0) capacity = bow_sarray_default_capacity; sa->array = bow_array_new (capacity, entry_size, free_func); sa->i4k = bow_int4str_new (capacity); } /* Append a new entry to the array. Also make the entry accessible by the string KEYSTR. Returns the index of the new entry. */ int bow_sarray_add_entry_with_keystr (bow_sarray *sa, void *entry, const char *keystr) { int index, i; assert (keystr && keystr[0]); /* Make sure this key string is not already in the map. */ assert (bow_str2int_no_add (sa->i4k, keystr) == -1); index = bow_str2int (sa->i4k, keystr); i = bow_array_append (sa->array, entry); assert (index == i); return index; } /* Return a pointer to the entry at index INDEX. */ void * bow_sarray_entry_at_index (bow_sarray *sa, int index) { return bow_array_entry_at_index (sa->array, index); } /* Return a pointer to the entry associated with string KEYSTR. */ void * bow_sarray_entry_at_keystr (bow_sarray *sa, const char *keystr) { int index; index = bow_str2int_no_add (sa->i4k, keystr); if (index < 0) bow_error ("No entry for key string `%s'", keystr); return bow_array_entry_at_index (sa->array, index); } /* Return the string KEYSTR associated with the entry at index INDEX. */ const char * bow_sarray_keystr_at_index (bow_sarray *sa, int index) { return bow_int2str (sa->i4k, index); } /* Return the index of the entry associated with the string KEYSTR. */ int bow_sarray_index_at_keystr (bow_sarray *sa, const char *keystr) { return bow_str2int_no_add (sa->i4k, keystr); } /* Write the sarray SARRAY to the file-pointer FP, using the function WRITE_FUNC to write each of the entries in SARRAY. */ void bow_sarray_write (bow_sarray *sarray, int (*write_func)(void*,FILE*), FILE *fp) { bow_int4str_write (sarray->i4k, fp); bow_array_write (sarray->array, write_func, fp); } /* Return a new sarray, created by reading file-pointer FP, and using the function READ_FUNC to read each of the sarray entries. The returned sarray will have entry-freeing-function FREE_FUNC. */ bow_sarray * bow_sarray_new_from_data_fp (int (*read_func)(void*,FILE*), void (*free_func)(), FILE *fp) { bow_sarray *ret; ret = malloc (sizeof (bow_sarray)); ret->i4k = bow_int4str_new_from_fp (fp); ret->array = bow_array_new_from_data_fp (read_func, free_func, fp); return ret; } /* Free the memory held by the bow_sarray SA. */ void bow_sarray_free (bow_sarray *sa) { bow_array_free (sa->array); bow_int4str_free (sa->i4k); bow_free (sa); }