35 {
36 std::map<std::string, svm::SVM_TYPE> svmMap;
37
38 svmMap["C_SVC"]=svm::C_SVC;
39 svmMap["nu_SVC"]=svm::nu_SVC;
40 svmMap["one_class"]=svm::one_class;
41 svmMap["epsilon_SVR"]=svm::epsilon_SVR;
42 svmMap["nu_SVR"]=svm::nu_SVR;
43
44 std::map<std::string, svm::KERNEL_TYPE> kernelMap;
45
46 kernelMap["linear"]=svm::linear;
47 kernelMap["polynomial"]=svm::polynomial;
48 kernelMap["radial"]=svm::radial;
49 kernelMap["sigmoid;"]=svm::sigmoid;
50
51 unsigned short nclass=trainingFeatures.size();
52 unsigned int ntraining=0;
53 unsigned int ntest=0;
54 for(int iclass=0;iclass<nclass;++iclass){
55 ntraining+=m_nctraining[iclass];
56 ntest+=m_nctest[iclass];
57 }
58 if(ntest)
59 assert(!m_cv);
60 if(!m_cv)
61 assert(ntest);
62 unsigned short nFeatures=trainingFeatures[0][0].size();
63
65 param.svm_type = svmMap[m_svm_type];
66 param.kernel_type = kernelMap[m_kernel_type];
67 param.degree = m_kernel_degree;
68 param.gamma = (m_gamma>0)? m_gamma : 1.0/nFeatures;
69 param.coef0 = m_coef0;
70 param.nu = m_nu;
71 param.cache_size = m_cache;
72 param.C = m_ccost;
73 param.eps = m_epsilon_tol;
74 param.p = m_epsilon_loss;
75 param.shrinking = (m_shrinking)? 1 : 0;
76 param.probability = (m_prob_est)? 1 : 0;
77 param.nr_weight = 0;
78 param.weight_label = NULL;
79 param.weight = NULL;
80 param.verbose=(m_verbose>1)? true:false;
84
85 prob.l=ntraining;
86 prob.y = Malloc(double,prob.l);
87 prob.x = Malloc(
struct svm_node *,prob.l);
88 x_space = Malloc(
struct svm_node,(nFeatures+1)*ntraining);
89 unsigned long int spaceIndex=0;
90 int lIndex=0;
91 for(int iclass=0;iclass<nclass;++iclass){
92
93 for(int isample=0;isample<m_nctraining[iclass];++isample){
94 prob.x[lIndex]=&(x_space[spaceIndex]);
95 for(int ifeature=0;ifeature<nFeatures;++ifeature){
96 x_space[spaceIndex].index=ifeature+1;
97 x_space[spaceIndex].value=trainingFeatures[iclass][isample][ifeature];
98 ++spaceIndex;
99 }
100 x_space[spaceIndex++].index=-1;
101 prob.y[lIndex]=iclass;
102 ++lIndex;
103 }
104 }
105
106 assert(lIndex==prob.l);
107 if(m_verbose>2)
108 std::cout << "checking parameters" << std::endl;
109 svm_check_parameter(&prob,¶m);
110 if(m_verbose>2)
111 std::cout << "parameters ok, training" << std::endl;
112 svm=svm_train(&prob,¶m);
113 if(m_verbose>2)
114 std::cout << "SVM is now trained" << std::endl;
115
116 m_cm.clearResults();
117 if(m_cv>1){
118 double *target = Malloc(double,prob.l);
119 svm_cross_validation(&prob,¶m,m_cv,target);
120 assert(param.svm_type != EPSILON_SVR&¶m.svm_type != NU_SVR);
121 for(int i=0;i<prob.l;i++){
122 std::string refClassName=m_nameVector[prob.y[i]];
123 std::string className=m_nameVector[target[i]];
124 if(m_classValueMap.size())
125 m_cm.incrementResult(type2string<short>(m_classValueMap[refClassName]),type2string<short>(m_classValueMap[className]),1.0);
126 else
127 m_cm.incrementResult(m_cm.getClass(prob.y[i]),m_cm.getClass(target[i]),1.0);
128 }
129 free(target);
130 }
131 else{
133 std::vector<double> result(nclass);
134 x_test = Malloc(
struct svm_node,(nFeatures+1));
135 for(int iclass=0;iclass<nclass;++iclass){
136 for(int isample=0;isample<m_nctest[iclass];++isample){
137 for(int ifeature=0;ifeature<nFeatures;++ifeature){
138 x_test[ifeature].index=ifeature+1;
139 x_test[ifeature].value=trainingFeatures[iclass][m_nctraining[iclass]+isample][ifeature];
140 }
141 x_test[nFeatures].index=-1;
142 double predict_label=0;
143 assert(svm_check_probability_model(svm));
144 predict_label = svm_predict_probability(svm,x_test,&(result[0]));
145
146 std::string refClassName=m_nameVector[iclass];
147 std::string className=m_nameVector[static_cast<short>(predict_label)];
148 if(m_classValueMap.size())
149 m_cm.incrementResult(type2string<short>(m_classValueMap[refClassName]),type2string<short>(m_classValueMap[className]),1.0);
150 else
151 m_cm.incrementResult(refClassName,className,1.0);
152 }
153 }
154 free(x_test);
155 }
156 if(m_verbose>1)
157 std::cout << m_cm << std::endl;
158 assert(m_cm.nReference());
159
160
161
162
163
164
165
166
167
168
169
170
171
172 free(prob.y);
173 free(prob.x);
174 free(x_space);
175 svm_free_and_destroy_model(&(svm));
176
177 return(m_cm.kappa());
178}