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ali_solution.cxx

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Last change on this file was 16766, checked in by westram, 7 years ago
reintegrates 'gcc' into 'trunk' mostly cosmetics changes adds: log:branches/gcc@16655,16741:16743,16752:16765
Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 16.4 KB

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1	// =============================================================== //
2	// //
3	// File : ali_solution.cxx //
4	// Purpose : //
5	// //
6	// Institute of Microbiology (Technical University Munich) //
7	// http://www.arb-home.de/ //
8	// //
9	// =============================================================== //
10
11	#include "ali_solution.hxx"
12
13
14	// ----------------
15	// ALI_MAP
16
17	ALI_MAP::ALI_MAP(unsigned long first_seq, unsigned long last_seq,
18	unsigned long first_ref, unsigned long last_ref)
19	{
20	unsigned long l;
21
22	insert_counter = 0;
23	first_seq_base = first_seq;
24	last_seq_base = last_seq;
25	first_ref_base = first_ref;
26	last_ref_base = last_ref;
27
28	mapping = (long **) CALLOC((unsigned int) (last_seq_base - first_seq_base + 1), sizeof(long));
29	inserted = (unsigned char **) CALLOC((unsigned int) ((last_seq_base - first_seq_base)/8) + 1, sizeof(unsigned char));
30	undefined = (unsigned char **) CALLOC((unsigned int) ((last_seq_base - first_seq_base)/8) + 1, sizeof(unsigned char));
31
32	ali_out_of_memory_if(!mapping \|\| !inserted \|\| !undefined);
33
34	for (l = 0; l < (last_seq_base - first_seq_base)/8 + 1; l++)
35	(*undefined)[l] = 0xff;
36	}
37
38	ALI_MAP::ALI_MAP(ALI_MAP *map) {
39	unsigned long l;
40
41	first_seq_base = map->first_seq_base;
42	last_seq_base = map->last_seq_base;
43	first_ref_base = map->first_ref_base;
44	last_ref_base = map->last_ref_base;
45
46	mapping = (long **) CALLOC((unsigned int) (last_seq_base - first_seq_base + 1), sizeof(long));
47	inserted = (unsigned char **) CALLOC((unsigned int) ((last_seq_base - first_seq_base) / 8) + 1, sizeof(unsigned char));
48	undefined = (unsigned char **) CALLOC((unsigned int) ((last_seq_base - first_seq_base) / 8) + 1, sizeof(unsigned char));
49
50	ali_out_of_memory_if(!mapping \|\| !inserted \|\| !undefined);
51
52	for (l = 0; l < last_seq_base - first_seq_base + 1; l++) {
53	if (l < (last_seq_base - first_seq_base)/8 + 1) {
54	(inserted)[l] = (map->inserted)[l];
55	(undefined)[l] = (map->undefined)[l];
56	}
57	(mapping)[l] = (map->mapping)[l];
58	}
59	}
60
61	int ALI_MAP::is_konsistent() {
62	unsigned long i;
63
64	for (i = 1; i <= last_seq_base - first_seq_base; i++)
65	if ((mapping)[i-1] >= (mapping)[i])
66	return 0;
67
68	return 1;
69	}
70
71	ALI_SEQUENCE ALI_MAP::sequence(ALI_NORM_SEQUENCE ref_seq) {
72	int ins_counter;
73	int begin_flag = 0, undefined_flag;
74	unsigned long map_pos, seq_pos;
75	unsigned char seq, seq_buffer;
76
77	seq_buffer = (unsigned char *) CALLOC((unsigned int)
78	(last_ref_base - first_ref_base + insert_counter + 1),
79	sizeof(unsigned char));
80
81	ali_out_of_memory_if(!seq_buffer);
82
83	seq = seq_buffer;
84	seq_pos = 0;
85	undefined_flag = 0;
86	ins_counter = 0;
87	for (map_pos = 0; map_pos <= last_seq_base - first_seq_base; map_pos++) {
88	if (!undefined_flag)
89	begin_flag = ref_seq->is_begin(first_seq_base + map_pos);
90	if (!(((*undefined)[map_pos/8]>>(7-(map_pos%8))) & 0x01)) {
91	for (; seq_pos < (unsigned long)((*mapping)[map_pos] + ins_counter); seq_pos++) {
92	if (begin_flag)
93	*seq++ = ALI_DOT_CODE;
94	else
95	*seq++ = ALI_GAP_CODE;
96	}
97	*seq++ = ref_seq->base(first_seq_base + map_pos);
98	seq_pos++;
99	undefined_flag = 0;
100	}
101	else {
102	undefined_flag = 1;
103	}
104	if ((*inserted)[map_pos/8]>>(7-(map_pos%8)) & 0x01)
105	ins_counter++;
106	}
107
108	begin_flag = ref_seq->is_begin(first_seq_base + map_pos);
109	for (; seq_pos <= last_ref_base - first_ref_base + ins_counter; seq_pos++) {
110	if (begin_flag)
111	*seq++ = ALI_DOT_CODE;
112	else
113	*seq++ = ALI_GAP_CODE;
114	}
115
116	return new ALI_SEQUENCE(ref_seq->name(), seq_buffer,
117	last_ref_base - first_ref_base + insert_counter + 1);
118	}
119
120	ALI_SEQUENCE ALI_MAP::sequence_without_inserts(ALI_NORM_SEQUENCE ref_seq) {
121	int begin_flag = 0, undefined_flag;
122	unsigned long map_pos, seq_pos;
123	unsigned char seq, seq_buffer;
124
125	seq_buffer = (unsigned char *) CALLOC((unsigned int) (last_ref_base - first_ref_base + 1), sizeof(unsigned char));
126	ali_out_of_memory_if(!seq_buffer);
127
128	seq = seq_buffer;
129	seq_pos = 0;
130	undefined_flag = 0;
131	for (map_pos = 0; map_pos <= last_seq_base - first_seq_base; map_pos++) {
132	if (!undefined_flag)
133	begin_flag = ref_seq->is_begin(first_seq_base + map_pos);
134	if (!((*undefined)[map_pos/8]>>(7-(map_pos%8)) & 0x01) &&
135	!((*inserted)[map_pos/8]>>(7-(map_pos%8)) & 0x01)) {
136	for (; seq_pos < (unsigned long)((*mapping)[map_pos]); seq_pos++) {
137	if (begin_flag)
138	*seq++ = ALI_DOT_CODE;
139	else
140	*seq++ = ALI_GAP_CODE;
141	}
142	*seq++ = ref_seq->base(first_seq_base + map_pos);
143	seq_pos++;
144	undefined_flag = 0;
145	}
146	else
147	undefined_flag = 1;
148	}
149
150	begin_flag = ref_seq->is_begin(first_seq_base + map_pos);
151	for (; seq_pos <= last_ref_base - first_ref_base; seq_pos++) {
152	if (begin_flag)
153	*seq++ = ALI_DOT_CODE;
154	else
155	*seq++ = ALI_GAP_CODE;
156	}
157
158	return new ALI_SEQUENCE(ref_seq->name(), seq_buffer,
159	last_ref_base - first_ref_base + 1);
160	}
161
162	ALI_MAP *ALI_MAP::inverse_without_inserts() {
163	unsigned long map_pos;
164	ALI_MAP *inv_map;
165
166	inv_map = new ALI_MAP(first_ref_base, last_ref_base,
167	first_seq_base, last_seq_base);
168
169	for (map_pos = 0; map_pos <= last_seq_base - first_seq_base; map_pos++) {
170	if (!((*undefined)[map_pos/8]>>(7-(map_pos%8)) & 0x01) &&
171	!((*inserted)[map_pos/8]>>(7-(map_pos%8)) & 0x01)) {
172	inv_map->set(first_ref_base + (*mapping)[map_pos],
173	map_pos);
174	}
175	}
176
177	return inv_map;
178	}
179
180	char *ALI_MAP::insert_marker() {
181	int ins_counter;
182	unsigned long map_pos, seq_pos;
183	char seq, seq_buffer;
184
185	seq_buffer = (char *) CALLOC((last_ref_base - first_ref_base + insert_counter + 2),
186	sizeof(char));
187
188	seq = seq_buffer;
189	seq_pos = 0;
190	ins_counter = 0;
191	for (map_pos = 0; map_pos <= last_seq_base - first_seq_base; map_pos++) {
192	if (!(((*undefined)[map_pos/8]>>(7-(map_pos%8))) & 0x01)) {
193	for (; seq_pos < (unsigned long)((*mapping)[map_pos] + ins_counter); seq_pos++) {
194	*seq++ = '.';
195	}
196	if ((*inserted)[map_pos/8]>>(7-(map_pos%8)) & 0x01)
197	*seq++ = 'X';
198	else
199	*seq++ = '.';
200	seq_pos++;
201	}
202	if ((*inserted)[map_pos/8]>>(7-(map_pos%8)) & 0x01)
203	ins_counter++;
204	}
205
206	for (; seq_pos <= last_ref_base - first_ref_base + ins_counter; seq_pos++) {
207	*seq++ = '.';
208	}
209
210	*seq = '\0';
211
212	return seq_buffer;
213	}
214
215	// -------------------------
216	// ALI_SUB_SOLUTION
217
218	ALI_SUB_SOLUTION::ALI_SUB_SOLUTION(ALI_SUB_SOLUTION *solution) {
219	ALI_MAP *map;
220	ALI_TLIST<ALI_MAP > list;
221
222	profile = solution->profile;
223
224	if (!solution->map_list.is_empty()) {
225	list = &solution->map_list;
226	map = new ALI_MAP(list->first());
227	map_list.append_end(map);
228	while (list->has_next()) {
229	map = new ALI_MAP(list->next());
230	map_list.append_end(map);
231	}
232	}
233	}
234
235	ALI_SUB_SOLUTION::~ALI_SUB_SOLUTION() {
236	ALI_MAP *map;
237
238	if (!map_list.is_empty()) {
239	map = map_list.first();
240	delete map;
241	while (map_list.has_next()) {
242	map = map_list.next();
243	delete map;
244	}
245	}
246	}
247
248	int ALI_SUB_SOLUTION::free_area(
249	unsigned long start, unsigned long end,
250	unsigned long start_ref, unsigned long end_ref,
251	unsigned long area_number)
252	{
253	ALI_MAP *map;
254	unsigned long last_of_prev, last_of_prev_ref;
255	unsigned long area_number_akt;
256
257	if (map_list.is_empty()) {
258	if (area_number > 0)
259	return 0;
260	*start = 0;
261	*end = profile->sequence_length() - 1;
262	*start_ref = 0;
263	*end_ref = profile->length() - 1;
264	return 1;
265	}
266
267	area_number_akt = 0;
268	map = map_list.first();
269	if (map->first_base() > 0 &&
270	map->first_reference_base() > 0) {
271	if (area_number_akt == area_number) {
272	*start = 0;
273	*end = map->first_base() - 1;
274	*start_ref = 0;
275	*end_ref = map->first_reference_base() - 1;
276	return 1;
277	}
278	area_number_akt++;
279	}
280
281	last_of_prev = map->last_base();
282	last_of_prev_ref = map->last_reference_base();
283	while (map_list.has_next()) {
284	map = map_list.next();
285	if (map->first_base() > last_of_prev + 1) {
286	if (area_number_akt == area_number) {
287	*start = last_of_prev + 1;
288	*end = map->first_base() - 1;
289	*start_ref = last_of_prev_ref + 1;
290	*end_ref = map->first_reference_base() - 1;
291	return 1;
292	}
293	area_number_akt++;
294	}
295	last_of_prev = map->last_base();
296	last_of_prev_ref = map->last_reference_base();
297	}
298
299	if (map->last_base() < profile->sequence_length() - 1 &&
300	area_number_akt == area_number) {
301	*start = map->last_base() + 1;
302	*end = profile->sequence_length() - 1;
303	*start_ref = map->last_reference_base() + 1;
304	*end_ref = profile->length() - 1;
305	return 1;
306	}
307
308	return 0;
309	}
310
311	unsigned long ALI_SUB_SOLUTION::number_of_free_areas() {
312	ALI_MAP *map;
313	unsigned long last_of_prev;
314	unsigned long counter;
315
316	if (map_list.is_empty())
317	return 1;
318
319	counter = 0;
320	map = map_list.first();
321	if (map->first_base() > 0 && map->first_reference_base() > 0)
322	counter++;
323
324	last_of_prev = map->last_base();
325	while (map_list.has_next()) {
326	map = map_list.next();
327	if (map->first_base() > last_of_prev + 1)
328	counter++;
329	last_of_prev = map->last_base();
330	}
331
332	if (map->last_base() < profile->sequence_length() - 1)
333	counter++;
334
335	return counter;
336	}
337
338
339	int ALI_SUB_SOLUTION::is_konsistent(ALI_MAP *in_map) {
340	ALI_MAP *map;
341	unsigned long last_of_prev, last_of_prev_ref;
342
343	if (map_list.is_empty()) {
344	if (in_map->last_base() < profile->sequence_length() &&
345	in_map->last_reference_base() < profile->length())
346	return 1;
347	return 0;
348	}
349
350	map = map_list.first();
351	if (in_map->last_base() < map->first_base() &&
352	in_map->last_reference_base() < map->first_reference_base()) {
353	return 1;
354	}
355
356	last_of_prev = map->last_base();
357	last_of_prev_ref = map->last_reference_base();
358	while (map_list.has_next()) {
359	map = map_list.next();
360	if (last_of_prev < in_map->first_base() &&
361	in_map->last_base() < map->first_base() &&
362	last_of_prev_ref < in_map->first_reference_base() &&
363	in_map->last_reference_base() < map->first_reference_base()) {
364	return 1;
365	}
366	last_of_prev = map->last_base();
367	last_of_prev_ref = map->last_reference_base();
368	}
369
370	if (map->last_base() < in_map->first_base() &&
371	in_map->last_base() < profile->sequence_length() &&
372	map->last_reference_base() < in_map->first_base() &&
373	in_map->last_base() < profile->length()) {
374	return 1;
375	}
376
377	return 0;
378	}
379
380	int ALI_SUB_SOLUTION::insert(ALI_MAP *in_map) {
381	ALI_MAP *map;
382	unsigned long last_of_prev, last_of_prev_ref;
383
384	if (map_list.is_empty()) {
385	if (in_map->last_base() < profile->sequence_length() &&
386	in_map->last_reference_base() < profile->length()) {
387	map_list.append_end(in_map);
388	return 1;
389	}
390	return 0;
391	}
392
393	map = map_list.first();
394	if (in_map->last_base() < map->first_base() &&
395	in_map->last_reference_base() < map->first_reference_base()) {
396	map_list.insert_bevor(in_map);
397	return 1;
398	}
399
400	last_of_prev = map->last_base();
401	last_of_prev_ref = map->last_reference_base();
402	while (map_list.has_next()) {
403	map = map_list.next();
404	if (last_of_prev < in_map->first_base() &&
405	in_map->last_base() < map->first_base() &&
406	last_of_prev_ref < in_map->first_reference_base() &&
407	in_map->last_reference_base() < map->first_reference_base()) {
408	map_list.insert_bevor(in_map);
409	return 1;
410	}
411	last_of_prev = map->last_base();
412	last_of_prev_ref = map->last_reference_base();
413	}
414
415	if (map->last_base() < in_map->first_base() &&
416	in_map->last_base() < profile->sequence_length() &&
417	map->last_reference_base() < in_map->first_reference_base() &&
418	in_map->last_reference_base() < profile->length()) {
419	map_list.append_end(in_map);
420	return 1;
421	}
422
423	return 0;
424	}
425
426	int ALI_SUB_SOLUTION::delete_map(ALI_MAP *del_map) {
427	ALI_MAP *map;
428
429	if (map_list.is_empty())
430	return 0;
431
432	map = map_list.first();
433	if (map == del_map) {
434	map_list.delete_element();
435	return 1;
436	}
437
438	while (map_list.has_next()) {
439	map = map_list.next();
440	if (map == del_map) {
441	map_list.delete_element();
442	return 1;
443	}
444	}
445
446	return 0;
447	}
448
449	ALI_MAP *ALI_SUB_SOLUTION::make_one_map() {
450	ALI_MAP map, new_map;
451	unsigned long i;
452	unsigned long last_pos;
453	unsigned long first_base_of_first, first_reference_of_first;
454	unsigned long last_base_of_last, last_reference_of_last;
455
456	// check if maps are closed
457	if (map_list.is_empty())
458	return NULp;
459
460	map = map_list.first();
461	first_base_of_first = map->first_base();
462	first_reference_of_first = map->first_reference_base();
463	last_base_of_last = map->last_base();
464	last_reference_of_last = map->last_reference_base();
465
466	while (map_list.has_next()) {
467	map = map_list.next();
468	if (last_base_of_last != map->first_base() - 1 \|\|
469	last_reference_of_last != map->first_reference_base() - 1)
470	ali_fatal_error("maps are not compact",
471	"ALI_SUB_SOLUTION::make_one_map()");
472	last_base_of_last = map->last_base();
473	last_reference_of_last = map->last_reference_base();
474	}
475
476	new_map = new ALI_MAP(first_base_of_first, last_base_of_last,
477	first_reference_of_first, last_reference_of_last);
478
479	map = map_list.first();
480	do {
481	last_pos = 0;
482	for (i = map->first_base(); i <= map->last_base(); i++) {
483	if (map->is_undefined(i))
484	ali_fatal_error("Unexpected value",
485	"ALI_SUB_SOLUTION::make_one_map()");
486	if ((unsigned long)(map->position(i)) < last_pos)
487	ali_fatal_error("Inconsistent positions",
488	"ALI_SUB_SOLUTION::make_one_map()");
489	last_pos = map->position(i);
490
491	if (map->is_inserted(i))
492	new_map->set(i, map->first_reference_base() +
493	map->position(i) - first_reference_of_first, 1);
494	else
495	new_map->set(i, map->first_reference_base() +
496	map->position(i) - first_reference_of_first, 0);
497	}
498
499	if (map_list.has_next())
500	map = map_list.next();
501	else
502	map = NULp;
503	} while (map);
504
505	return new_map;
506	}
507
508	void ALI_SUB_SOLUTION::print() {
509	ALI_MAP *map;
510
511	printf("ALI_SUB_SOLUTION:\n");
512	if (!map_list.is_empty()) {
513	map = map_list.first();
514	printf("(%ld to %ld) -> (%ld to %ld)\n",
515	map->first_base(), map->last_base(),
516	map->first_reference_base(), map->last_reference_base());
517	while (map_list.has_next()) {
518	map = map_list.next();
519	printf("(%ld to %ld) -> (%ld to %ld)\n",
520	map->first_base(), map->last_base(),
521	map->first_reference_base(), map->last_reference_base());
522	}
523	}
524	}
525

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