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/*
* libpinyin
* Library to deal with pinyin.
*
* Copyright (C) 2011 Peng Wu <alexepico@gmail.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <locale.h>
#include "pinyin_internal.h"
#include "k_mixture_model.h"
void print_help(){
printf("Usage: merge_k_mixture_model [--result-file <RESULT_FILENAME>]\n");
printf(" {<SOURCE_FILENAME>}+\n");
}
static bool merge_two_phrase_array( /* in */ FlexibleBigramPhraseArray first,
/* in */ FlexibleBigramPhraseArray second,
/* out */ FlexibleBigramPhraseArray & merged ){
/* avoid to do empty merge. */
assert( NULL != first && NULL != second && NULL != merged );
/* merge two arrays. */
guint first_index, second_index = first_index = 0;
KMixtureModelArrayItemWithToken * first_item,
* second_item = first_item = NULL;
while ( first_index < first->len && second_index < second->len ){
first_item = &g_array_index(first, KMixtureModelArrayItemWithToken,
first_index);
second_item = &g_array_index(second, KMixtureModelArrayItemWithToken,
second_index);
if ( first_item->m_token > second_item->m_token ) {
g_array_append_val(merged, *second_item);
second_index ++;
} else if ( first_item->m_token < second_item->m_token ) {
g_array_append_val(merged, *first_item);
first_index ++;
} else /* first_item->m_token == second_item->m_token */ {
KMixtureModelArrayItemWithToken merged_item;
memset(&merged_item, 0, sizeof(KMixtureModelArrayItemWithToken));
merged_item.m_token = first_item->m_token;/* same as second_item */
merged_item.m_item.m_WC = first_item->m_item.m_WC +
second_item->m_item.m_WC;
/* merged_item.m_item.m_T = first_item->m_item.m_T +
second_item->m_item.m_T; */
merged_item.m_item.m_N_n_0 = first_item->m_item.m_N_n_0 +
second_item->m_item.m_N_n_0;
merged_item.m_item.m_n_1 = first_item->m_item.m_n_1 +
second_item->m_item.m_n_1;
merged_item.m_item.m_Mr = std_lite::max(first_item->m_item.m_Mr,
second_item->m_item.m_Mr);
g_array_append_val(merged, merged_item);
first_index ++; second_index ++;
}
}
/* add remained items. */
while ( first_index < first->len ){
first_item = &g_array_index(first, KMixtureModelArrayItemWithToken,
first_index);
g_array_append_val(merged, *first_item);
first_index++;
}
while ( second_index < second->len ){
second_item = &g_array_index(second, KMixtureModelArrayItemWithToken,
second_index);
g_array_append_val(merged, *second_item);
second_index++;
}
return true;
}
static bool merge_magic_header( /* in & out */ KMixtureModelBigram * target,
/* in */ KMixtureModelBigram * new_one ){
KMixtureModelMagicHeader target_magic_header;
KMixtureModelMagicHeader new_magic_header;
KMixtureModelMagicHeader merged_magic_header;
memset(&merged_magic_header, 0, sizeof(KMixtureModelMagicHeader));
if (!target->get_magic_header(target_magic_header)) {
memset(&target_magic_header, 0, sizeof(KMixtureModelMagicHeader));
}
assert(new_one->get_magic_header(new_magic_header));
if ( target_magic_header.m_WC + new_magic_header.m_WC <
std_lite::max( target_magic_header.m_WC, new_magic_header.m_WC ) ){
fprintf(stderr, "the m_WC integer in magic header overflows.\n");
return false;
}
if ( target_magic_header.m_total_freq + new_magic_header.m_total_freq <
std_lite::max( target_magic_header.m_total_freq,
new_magic_header.m_total_freq ) ){
fprintf(stderr, "the m_total_freq in magic header overflows.\n");
return false;
}
merged_magic_header.m_WC = target_magic_header.m_WC +
new_magic_header.m_WC;
merged_magic_header.m_N = target_magic_header.m_N +
new_magic_header.m_N;
merged_magic_header.m_total_freq = target_magic_header.m_total_freq +
new_magic_header.m_total_freq;
assert(target->set_magic_header(merged_magic_header));
return true;
}
static bool merge_array_items( /* in & out */ KMixtureModelBigram * target,
/* in */ KMixtureModelBigram * new_one ){
GArray * new_items = g_array_new(FALSE, FALSE, sizeof(phrase_token_t));
new_one->get_all_items(new_items);
for ( size_t i = 0; i < new_items->len; ++i ){
phrase_token_t * token = &g_array_index(new_items, phrase_token_t, i);
KMixtureModelSingleGram * target_single_gram = NULL;
KMixtureModelSingleGram * new_single_gram = NULL;
assert(new_one->load(*token, new_single_gram));
bool exists_in_target = target->load(*token, target_single_gram);
if ( !exists_in_target ){
target->store(*token, new_single_gram);
delete new_single_gram;
continue;
}
/* word count in array header in parallel with array items */
KMixtureModelArrayHeader target_array_header;
KMixtureModelArrayHeader new_array_header;
KMixtureModelArrayHeader merged_array_header;
assert(new_one->get_array_header(*token, new_array_header));
assert(target->get_array_header(*token, target_array_header));
memset(&merged_array_header, 0, sizeof(KMixtureModelArrayHeader));
merged_array_header.m_WC = target_array_header.m_WC +
new_array_header.m_WC;
merged_array_header.m_freq = target_array_header.m_freq +
new_array_header.m_freq;
/* end of word count in array header computing. */
assert(NULL != target_single_gram);
KMixtureModelSingleGram * merged_single_gram =
new KMixtureModelSingleGram;
FlexibleBigramPhraseArray target_array =
g_array_new(FALSE, FALSE, sizeof(KMixtureModelArrayItemWithToken));
target_single_gram->retrieve_all(target_array);
FlexibleBigramPhraseArray new_array =
g_array_new(FALSE, FALSE, sizeof(KMixtureModelArrayItemWithToken));
new_single_gram->retrieve_all(new_array);
FlexibleBigramPhraseArray merged_array =
g_array_new(FALSE, FALSE, sizeof(KMixtureModelArrayItemWithToken));
assert(merge_two_phrase_array(target_array, new_array, merged_array));
g_array_free(target_array, TRUE);
g_array_free(new_array, TRUE);
delete target_single_gram; delete new_single_gram;
for ( size_t m = 0; m < merged_array->len; ++m ){
KMixtureModelArrayItemWithToken * item =
&g_array_index(merged_array,
KMixtureModelArrayItemWithToken, m);
merged_single_gram->insert_array_item(item->m_token, item->m_item);
}
assert(merged_single_gram->set_array_header(merged_array_header));
assert(target->store(*token, merged_single_gram));
delete merged_single_gram;
g_array_free(merged_array, TRUE);
}
g_array_free(new_items, TRUE);
return true;
}
bool merge_two_k_mixture_model( /* in & out */ KMixtureModelBigram * target,
/* in */ KMixtureModelBigram * new_one ){
assert(NULL != target);
assert(NULL != new_one);
return merge_array_items(target, new_one) &&
merge_magic_header(target, new_one);
}
int main(int argc, char * argv[]){
int i = 1;
const char * result_filename = NULL;
setlocale(LC_ALL, "");
while (i < argc) {
if ( strcmp("--help", argv[i]) == 0 ){
print_help();
exit(0);
} else if ( strcmp("--result-file", argv[i]) == 0 ){
if ( ++i >= argc ){
print_help();
exit(EINVAL);
}
result_filename = argv[i];
} else {
break;
}
++i;
}
KMixtureModelBigram target(K_MIXTURE_MODEL_MAGIC_NUMBER);
target.attach(result_filename, ATTACH_READWRITE|ATTACH_CREATE);
while ( i < argc ){
const char * new_filename = argv[i];
KMixtureModelBigram new_one(K_MIXTURE_MODEL_MAGIC_NUMBER);
new_one.attach(new_filename, ATTACH_READONLY);
if ( !merge_two_k_mixture_model(&target, &new_one) )
exit(EOVERFLOW);
++i;
}
return 0;
}
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