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source: tags/arb-6.0/MULTI_PROBE/MP_probe.cxx

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Last change on this file was 11571, checked in by westram, 12 years ago
silence some clang warnings
Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 9.4 KB

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1	// ============================================================= //
2	// //
3	// File : MP_probe.cxx //
4	// Purpose : //
5	// //
6	// Institute of Microbiology (Technical University Munich) //
7	// http://www.arb-home.de/ //
8	// //
9	// ============================================================= //
10
11	#include "MP_probe.hxx"
12	#include "MP_externs.hxx"
13	#include "MultiProbe.hxx"
14
15	#include <aw_window.hxx>
16	#include <aw_msg.hxx>
17	#include <aw_select.hxx>
18	#include <arb_progress.h>
19
20	#include <ctime>
21
22	void ProbeValuation::evolution() {
23	long n = 0;
24	for (int i=0; i<size_sonden_array; i++) { // Mismatche (=duplikate) aufsummieren, um Groesse von Pool zu bestimmen.
25	n += mismatch_array[i]+1;
26	}
27
28	long moeglichkeiten = k_aus_n(mp_gl_awars.no_of_probes, n);
29	double avg_fit = 0.0;
30	if (moeglichkeiten <= MAXINITPOPULATION) {
31	act_generation->calcFitness(false, avg_fit);
32	}
33	else {
34	// assumption: genetic algorithm needs about 1/3 of attempts (compared with brute force)
35	long max_generation = moeglichkeiten/(3*MAXPOPULATION)-1;
36	if (max_generation<1) max_generation = 1;
37
38	arb_progress progress(max_generation);
39	MP_aborted(0, 0.0, 0.0, 0.0, progress);
40
41	do { // genetic algorithm loop
42	bool aborted = act_generation->calcFitness(true, avg_fit);
43	if (aborted) break;
44
45	avg_fit = act_generation->get_avg_fit();
46	#if defined(DEBUG)
47	printf("Generation %i: avg_fit=%f\n", act_generation->get_generation(), avg_fit);
48	#endif
49
50	if (avg_fit == 0) {
51	aw_message("Please choose better Probes!");
52	break;
53	}
54	child_generation = act_generation->create_next_generation();
55	delete act_generation; act_generation = NULL;
56
57	child_generation->check_for_results();
58
59	act_generation = child_generation;
60	progress.inc();
61	}
62	while (act_generation->get_generation() <= max_generation);
63	progress.done();
64	}
65	if (act_generation) act_generation->check_for_results();
66	}
67
68	void ProbeValuation::insert_in_result_list(probe_combi_statistic *pcs) // pcs darf nur eingetragen werden, wenn es nicht schon vorhanden ist
69	{
70	char *new_list_string;
71	char *misms;
72	char *probe_string;
73	char temp_misms[3];
74	int probe_len = 0;
75	char buf[25];
76	char ecoli_pos[40], temp_ecol[10];
77	int buf_len, i;
78
79	result_struct *rs = new result_struct;
80	result_struct *elem;
81
82	memset(rs, 0, sizeof(result_struct));
83	memset(ecoli_pos, 0, 40);
84
85	for (i=0; i<mp_gl_awars.no_of_probes; i++)
86	probe_len += strlen(sondenarray[pcs->get_probe_combi(i)->probe_index]) + 1; // 1 fuer space bzw. 0-Zeichen
87
88	misms = new char[2*mp_gl_awars.no_of_probes+1];
89	probe_string = new char[probe_len+1];
90
91	probe_string[0] = misms[0] = 0;
92	for (i=0; i<mp_gl_awars.no_of_probes; i++)
93	{
94	if (i>0)
95	{
96	strcat(misms, " ");
97	strcat(probe_string, " ");
98	}
99
100
101	sprintf(temp_misms, "%1d", pcs->get_probe_combi(i)->allowed_mismatches);
102	strcat(misms, temp_misms);
103	sprintf(temp_ecol, "%6d ", pcs->get_probe_combi(i)->e_coli_pos);
104	strcat(ecoli_pos, temp_ecol);
105	strcat(probe_string, sondenarray[pcs->get_probe_combi(i)->probe_index]);
106	}
107
108	ecoli_pos[strlen(ecoli_pos)-1] = 0;
109
110	new_list_string = new char[21+
111	probe_len+
112	2*mp_gl_awars.no_of_probes+2+
113	2*strlen(SEPARATOR) + strlen(ecoli_pos)+
114	1]; // 1 fuer 0-Zeichen
115
116	sprintf(buf, "%f", pcs->get_fitness());
117	buf_len = strlen(buf);
118	for (i=0; i<20-buf_len; i++)
119	strcat(buf, " ");
120
121	sprintf(new_list_string, "%20s%s%s%s%s%s%s", buf, SEPARATOR, misms, SEPARATOR, ecoli_pos, SEPARATOR, probe_string);
122	delete [] misms;
123	delete [] probe_string;
124
125	rs->ps = pcs->duplicate();
126	rs->view_string = new_list_string;
127	elem = computation_result_list->get_first();
128	if (! elem)
129	computation_result_list->insert_as_first(rs);
130	else
131	{
132	while (elem) // Liste ist sortiert von groesster Fitness bis kleinster Fitness
133	{
134	if (strcmp(elem->view_string, new_list_string) == 0)
135	{
136	delete [] new_list_string;
137	delete rs->ps;
138	delete rs;
139	return;
140	}
141
142	if (pcs->get_fitness() > elem->ps->get_fitness())
143	{
144	computation_result_list->insert_before_current(rs);
145	break;
146	}
147
148	elem = computation_result_list->get_next();
149	}
150
151	if (!elem)
152	computation_result_list->insert_as_last(rs);
153	}
154
155
156
157	result_probes_list->clear();
158
159	elem = computation_result_list->get_first();
160	while (elem)
161	{
162	result_probes_list->insert(elem->view_string, elem->view_string);
163	elem = computation_result_list->get_next();
164	}
165
166	result_probes_list->insert_default("", "");
167	result_probes_list->update();
168	}
169
170	void ProbeValuation::init_valuation()
171	{
172	int i, j, k, counter = 0;
173	probe *temp_probe;
174	char *ptr;
175
176	if (new_pt_server)
177	{
178	new_pt_server = false;
179
180	if (mp_main->get_stc())
181	delete mp_main->get_stc();
182
183	mp_main->set_stc(new ST_Container(MAXSONDENHASHSIZE));
184	}
185
186	if (pt_server_different)
187	{
188	mp_main->set_stc(NULL);
189	new_pt_server = true;
190	return;
191	}
192
193	AW_selection_list_iterator selentry(selected_list);
194
195	if (max_init_pop_combis < MAXINITPOPULATION) {
196	for (i=0; i<size_sonden_array; i++) // generierung eines pools, in dem jede Sonde nur einmal pro Mismatch
197	{ // vorkommt, damit alle moeglichen Kombinationen deterministisch
198	const char *ptr2 = selentry.get_value();
199	++selentry;
200
201	for (j=0; j<=mismatch_array[i]; j++) // generiert werden koennen.
202	{
203	temp_probe = new probe;
204	temp_probe->probe_index = i;
205	temp_probe->allowed_mismatches = j;
206	temp_probe->e_coli_pos = atoi(ptr = MP_get_comment(3, ptr2));
207	free(ptr);
208
209	probe_pool[counter++] = temp_probe;
210	}
211	}
212	pool_length = counter;
213	}
214	else {
215	for (i=0; i<size_sonden_array; i++)
216	{ // Generierung eines Pools, in dem die Wahrscheinlichkeiten fuer die Erfassung
217	const char *ptr2 = selentry.get_value();
218	++selentry;
219
220	for (j=0; j<=mismatch_array[i]; j++) // der Sonden schon eingearbeitet sind. DIe WS werden vom Benutzer fuer jedE
221	{ // einzelne Sonde bestimmt
222	for (k=0; k < bewertungarray[i]; k++)
223	{
224	temp_probe = new probe;
225	temp_probe->probe_index = i;
226	temp_probe->allowed_mismatches = j;
227	temp_probe->e_coli_pos = atoi(ptr = MP_get_comment(3, ptr2));
228	free(ptr);
229
230	probe_pool[counter++] = temp_probe;
231	}
232	}
233	}
234	}
235
236	act_generation->init_valuation();
237	evolution();
238
239	mp_main->get_mp_window()->get_result_window()->activate();
240	}
241
242
243
244	ProbeValuation::ProbeValuation(char *sonden_array, int no_of_sonden, int bewertung, int *mismatch) {
245	memset((void*)this, 0, sizeof(ProbeValuation)); // @@@ potentially dangerous (overwrites vtable pointer!)
246
247	sondenarray = sonden_array;
248	bewertungarray = bewertung;
249	size_sonden_array = no_of_sonden;
250	mismatch_array = mismatch;
251
252	computation_result_list = new List<result_struct>;
253
254	for (int i=0; i<size_sonden_array; i++) // Mismatche (=duplikate) aufsummieren, um Groesse von Pool zu bestimmen.
255	{
256	max_init_pop_combis += mismatch[i]+1;
257	pool_length += (mismatch_array[i]+1) * bewertungarray[i];
258	}
259
260	max_init_pop_combis = k_aus_n(mp_gl_awars.no_of_probes, max_init_pop_combis);
261
262	if (max_init_pop_combis > MAXINITPOPULATION) // Ausgangspopulationsgroesse ist limitiert
263	max_init_pop_combis = MAXINITPOPULATION;
264
265	probe_pool = new probe*[pool_length];
266	memset(probe_pool, 0, pool_length * sizeof(probe*)); // Struktur mit 0 initialisieren.
267
268	}
269
270
271	ProbeValuation::~ProbeValuation()
272	{
273	int i;
274	result_struct *elem;
275
276	for (i=0; i<size_sonden_array; i++) free(sondenarray[i]);
277	for (i=0; i<pool_length; i++) delete probe_pool[i];
278
279	elem = computation_result_list->get_first();
280	while (elem) {
281	computation_result_list->remove_first();
282	delete [] elem->view_string;
283	delete elem;
284	elem = computation_result_list->get_first();
285	}
286
287	delete computation_result_list;
288
289	if (act_generation == child_generation) delete act_generation;
290	else {
291	delete act_generation;
292	delete child_generation;
293	}
294
295	delete [] sondenarray;
296	delete [] bewertungarray;
297	delete [] mismatch_array;
298	delete [] probe_pool;
299	}
300

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