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robustlib.cpp @ 1379

Revision 1379, 7.1 kB (checked in by sindj, 13 years ago)
Prepracovani integrace v robustlib.cpp, zjednoduseni, zesymetrizovani. Nevim jestli funguje, nutno overit a vyzkouset testovani hypotez a integraci na jednicku (u normalizacnich faktoru).JS

Line
1	#include "robustlib.h"
2
3
4	double polyhedron::triangulate(bool should_integrate)
5	{
6	for(set<simplex*>::iterator t_ref = triangulation.begin();t_ref!=triangulation.end();t_ref++)
7	{
8	delete (*t_ref);
9	}
10	triangulation.clear();
11
12	if(should_integrate)
13	{
14	((toprow *)this)->probability = 0.0;
15	}
16
17	if(vertices.size()==1)
18	{
19	simplex* vert_simplex = new simplex((vertex*)this);
20
21	triangulation.insert(vert_simplex);
22	}
23
24	for(list<polyhedron*>::iterator child_ref = children.begin();child_ref!=children.end();child_ref++)
25	{
26	for(set<simplex>::iterator s_ref = (child_ref)->triangulation.begin();s_ref!=(*child_ref)->triangulation.end();s_ref++)
27	{
28	simplex* new_simplex = new simplex((*s_ref)->vertices);
29
30	pair<set<vertex>::iterator,bool> ret_val = new_simplex->vertices.insert(vertices.begin());
31
32	if(ret_val.second == true)
33	{
34	double cur_prob = 0;
35
36	/*
37	if(should_integrate&&new_simplex->vertices.size()!=3)
38	{
39	cout << "Error: Wrong vertex count for integration!";
40	}
41	*/
42
43	if(should_integrate)
44	{
45	cur_prob = ((toprow *)this)->integrate_simplex(new_simplex, 'S');
46
47	((toprow *)this)->probability += cur_prob;
48	}
49
50	triangulation.insert(new_simplex);
51	}
52	else
53	{
54	delete new_simplex;
55	}
56	}
57	}
58
59	if(should_integrate)
60	{
61	return ((toprow *)this)->probability;
62	}
63	else
64	{
65	return 0.0;
66	}
67
68	/*
69	for(list<polyhedron*>::iterator child_ref = children.begin();child_ref!=children.end();child_ref++)
70	{
71	for(list<set<vertex>>::iterator t_ref = (child_ref)->triangulation.begin();t_ref!=(*child_ref)->triangulation.end();t_ref++)
72	{
73	set<vertex*> new_simplex;
74	new_simplex.insert((t_ref).begin(),(t_ref).end());
75
76	for(set<vertex>::iterator suitable_vert_ref = vertices.begin();suitable_vert_ref<(t_ref).begin();suitable_vert_ref++)
77	{
78	set<vertex*> suitable_simplex;
79	suitable_simplex.insert(new_simplex.begin(),new_simplex.end());
80
81	suitable_simplex.insert(*suitable_vert_ref);
82
83	triangulation.push_back(suitable_simplex);
84
85	if(should_integrate)
86	{
87	((toprow )this)->probability += ((toprow )this)->integrate_simplex(suitable_simplex, 'S');
88	}
89	}
90	}
91	}*/
92	}
93
94
95	double toprow::integrate_simplex(simplex* simplex, char c)
96	{
97	// cout << ((toprow*)this)->condition << endl;
98	int sigma_order = ((toprow*)this)->condition_order-simplex->vertices.size()-1;
99
100	// cout << "C:" << condition_order << " N:" << my_emlig->number_of_parameters << " C+N:" << condition_order-my_emlig->number_of_parameters << endl;
101	// pause(0.1);
102
103	if(sigma_order >= 0)
104	{
105
106	//cout << endl;
107	//cout << ((toprow*)this)->condition << endl;
108	//cout << "C:" << condition_order+2 << " N:" << my_emlig->number_of_parameters << " C+N:" << condition_order-my_emlig->number_of_parameters+2 << endl;
109
110
111	emlig* current_emlig;
112	simplex->clear_gammas();
113	simplex->probability = 0;
114
115	if(this->my_emlig!=NULL)
116	{
117	current_emlig = this->my_emlig;
118	}
119	else
120	{
121	throw exception("The statistic of the polyhedron you are trying to integrate over doesn't belong to any emlig!");
122	}
123
124	toprow* as_toprow = (toprow*)this;
125
126	int dimension = simplex->vertices.size()-1;
127
128	mat jacobian(dimension,dimension);
129
130	map<double,int> as;
131	vertex* base_vertex = *simplex->vertices.begin();
132
133	int row_count = 0;
134	for(set<vertex*>::iterator vert_ref = simplex->vertices.begin(); vert_ref!=simplex->vertices.end();vert_ref++)
135	{
136	if(vert_ref!=simplex->vertices.begin())
137	{
138	vec relative_coords = (*vert_ref)->get_coordinates()-base_vertex->get_coordinates();
139	jacobian.set_row(row_count-1,relative_coords);
140	}
141
142	vec extended_coords = (*vert_ref)->get_coordinates();
143	extended_coords.ins(0,-1);
144
145	double a = extended_coords*as_toprow->condition_sum;
146	if(a<current_emlig->min_ll)
147	{
148	current_emlig->minimal_vertex = (*vert_ref);
149	current_emlig->min_ll = a;
150	}
151
152	//cout << "a0:" << a_0 << " a0 coords:" << base_vertex->get_coordinates() << " am:" << a_m << " am coords:" << (*vert_ref)->get_coordinates() << endl;
153
154	// cout << "Absolute coords:(V" << row_count << ")" << (*vert_ref)->get_coordinates() << endl;
155	//cout << "Relative coords:(V" << row_count << ")" << relative_coords << endl;
156
157	pair<map<double,int>::iterator,bool> returned = as.insert(pair<double,int>(a,1));
158	if(returned.second == false)
159	{
160	(*returned.first).second++;
161	}
162
163	row_count++;
164	}
165
166	/*
167	int as_count = 1;
168	for(map<double,int>::iterator as_ref = as.begin();as_ref!=as.end();as_ref++)
169	{
170	cout << "a_" << as_count << ": " << (*as_ref).first << " ";
171	as_count++;
172	}
173	*/
174
175	vector<double> gamma_facs;
176	// cout << jacobian << endl;
177	double det_jacobian = abs(det(jacobian));
178	for(map<double,int>::iterator a_ref = as.begin();a_ref!=as.end();a_ref++)
179	{
180	double k_multiplier = 1;
181
182	int a_order = (*a_ref).second;
183	current_emlig->set_correction_factors(a_order-1);
184
185	vector<double> factors;
186	for(map<double,int>::iterator a2_ref = as.begin();a2_ref!=as.end();a2_ref++)
187	{
188	if(a2_ref!=a_ref)
189	{
190	for(int k = 0;k<(*a2_ref).second;k++)
191	{
192	factors.push_back((a2_ref).first-(a_ref).first);
193	}
194
195	k_multiplier /= pow((a2_ref).first-(a_ref).first,(*a2_ref).second);
196	}
197	}
198
199	double bracket_combination = 0;
200
201	for(int k = 0;k < a_order;k++)
202	{
203	if(k==gamma_facs.size())
204	{
205	gamma_facs.push_back(0.0);
206	}
207
208	double factor_multiplier = pow((double)-1,k)/pow((*a_ref).first,sigma_order-k);//pow((double)-1,k+1)
209
210	if(k!=0)
211	{
212	ivec control_vec = ivec();
213	control_vec.ins(0,my_emlig->number_of_parameters-a_order+1);
214	for(multiset<my_ivec>::iterator combi_ref = this->my_emlig->correction_factors[k-1].begin();combi_ref!=this->my_emlig->correction_factors[k-1].upper_bound(my_ivec(control_vec));combi_ref++)
215	{
216	double bracket_factor = 1/fact(a_order-1-k);
217
218	for(int j = 0;j<(*combi_ref).size();j++)
219	{
220	//cout << "Factor vector:" << (*combi_ref) << endl;
221
222	bracket_factor /= factors[(*combi_ref)[j]-1];
223	}
224
225	double value = bracket_factorfactor_multiplierk_multiplier;
226
227	simplex->insert_gamma(k,value,(*a_ref).first);
228	gamma_facs[k] += value;
229	}
230	}
231	else
232	{
233	double value = k_multiplier*factor_multiplier/fact(a_order-1);
234
235	simplex->insert_gamma(0,value,(*a_ref).first);
236	gamma_facs[k] += value;
237	}
238	}
239	}
240
241	double int_value = 0;
242	int gamma_size = (int)gamma_facs.size();
243	if(sigma_order-gamma_size>=0)
244	{
245	for(int k = 0;k<gamma_size;k++)
246	{
247	int_value += det_jacobianfact(sigma_order-gamma_size+k)/fact(jacobian.rows())gamma_facs[k]/pow(2.0,sigma_order);
248	}
249	}
250	else
251	{
252	int_value = -1;
253	}
254
255	simplex->probability = int_value;
256	//cout << "Probability:" << int_value << endl;
257	return int_value;
258	}
259	else
260	{
261	cout << "Improper probability density." << endl;
262	return 0.0;
263	}
264	}

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