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annotate toolboxes/FullBNT-1.0.7/KPMstats/parzenC.c @ 0:cc4b1211e677 tip

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initial commit to HG from Changeset: 646 (e263d8a21543) added further path and more save "camirversion.m"
author Daniel Wolff
date Fri, 19 Aug 2016 13:07:06 +0200
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Daniel@0 1 /* C mex version of parzen.m
Daniel@0 2 [B,B2] = parzen(feat, mu, Sigma, Nproto);
Daniel@0 3 */
Daniel@0 4 #include "mex.h"
Daniel@0 5 #include <stdio.h>
Daniel@0 6 #include <math.h>
Daniel@0 7
Daniel@0 8 #define PI 3.141592654
Daniel@0 9
Daniel@0 10 void mexFunction(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[]){
Daniel@0 11 int D, M, Q, T, d, m, q, t;
Daniel@0 12 double *data, *mu, *SigmaPtr, *N, Sigma;
Daniel@0 13 double *B, *dist, *B2, tmp;
Daniel@0 14 const int* dim_mu;
Daniel@0 15 double const1, const2, sum_m, sum_d, diff;
Daniel@0 16 int Dt, DMq, Dm, MQt, Mq;
Daniel@0 17 int dims_B2[3];
Daniel@0 18
Daniel@0 19 int ndim_mu, i, save_B2;
Daniel@0 20
Daniel@0 21 data = mxGetPr(prhs[0]);
Daniel@0 22 mu = mxGetPr(prhs[1]);
Daniel@0 23 SigmaPtr = mxGetPr(prhs[2]);
Daniel@0 24 Sigma = *SigmaPtr;
Daniel@0 25 N = mxGetPr(prhs[3]);
Daniel@0 26
Daniel@0 27 D = mxGetM(prhs[0]);
Daniel@0 28 T = mxGetN(prhs[0]);
Daniel@0 29
Daniel@0 30 ndim_mu = mxGetNumberOfDimensions(prhs[1]);
Daniel@0 31 dim_mu = mxGetDimensions(prhs[1]);
Daniel@0 32 D = dim_mu[0];
Daniel@0 33 M = dim_mu[1];
Daniel@0 34 /* printf("parzenC: nlhs=%d, D=%d, M=%d, T=%d\n", nlhs, D, M, T); */
Daniel@0 35
Daniel@0 36 /* If mu is mu(d,m,o,p), then [d M Q] = size(mu) in matlab sets Q=o*p,
Daniel@0 37 i.e.. the size of all conditioning variabeles */
Daniel@0 38 Q = 1;
Daniel@0 39 for (i = 2; i < ndim_mu; i++) {
Daniel@0 40 /* printf("dim_mu[%d]=%d\n", i, dim_mu[i]); */
Daniel@0 41 Q = Q*dim_mu[i];
Daniel@0 42 }
Daniel@0 43
Daniel@0 44 /* M = max(N) */
Daniel@0 45 M = -1000000;
Daniel@0 46 for (i=0; i < Q; i++) {
Daniel@0 47 /* printf("N[%d]=%d\n", i, (int) N[i]); */
Daniel@0 48 if (N[i] > M) {
Daniel@0 49 M = (int) N[i];
Daniel@0 50 }
Daniel@0 51 }
Daniel@0 52
Daniel@0 53 /* printf("parzenC: nlhs=%d, D=%d, Q=%d, M=%d, T=%d\n", nlhs, D, Q, M, T); */
Daniel@0 54
Daniel@0 55 plhs[0] = mxCreateDoubleMatrix(Q,T, mxREAL);
Daniel@0 56 B = mxGetPr(plhs[0]);
Daniel@0 57
Daniel@0 58 if (nlhs >= 2)
Daniel@0 59 save_B2 = 1;
Daniel@0 60 else
Daniel@0 61 save_B2 = 0;
Daniel@0 62
Daniel@0 63 if (save_B2) {
Daniel@0 64 /* printf("parzenC saving B2\n"); */
Daniel@0 65 /*plhs[1] = mxCreateDoubleMatrix(M*Q*T,1, mxREAL);*/
Daniel@0 66 dims_B2[0] = M;
Daniel@0 67 dims_B2[1] = Q;
Daniel@0 68 dims_B2[2] = T;
Daniel@0 69 plhs[1] = mxCreateNumericArray(3, dims_B2, mxDOUBLE_CLASS, mxREAL);
Daniel@0 70 B2 = mxGetPr(plhs[1]);
Daniel@0 71 } else {
Daniel@0 72 /* printf("parzenC not saving B2\n"); */
Daniel@0 73 }
Daniel@0 74 /*
Daniel@0 75 plhs[2] = mxCreateDoubleMatrix(M*Q*T,1, mxREAL);
Daniel@0 76 dist = mxGetPr(plhs[2]);
Daniel@0 77 */
Daniel@0 78 const1 = pow(2*PI*Sigma, -D/2.0);
Daniel@0 79 const2 = -(1/(2*Sigma));
Daniel@0 80
Daniel@0 81 for (t=0; t < T; t++) {
Daniel@0 82 /* printf("t=%d!\n",t); */
Daniel@0 83 Dt = D*t;
Daniel@0 84 MQt = M*Q*t;
Daniel@0 85 for (q=0; q < Q; q++) {
Daniel@0 86 sum_m = 0;
Daniel@0 87 DMq = D*M*q;
Daniel@0 88 Mq = M*q;
Daniel@0 89
Daniel@0 90 for (m=0; m < (int)N[q]; m++) {
Daniel@0 91 sum_d = 0;
Daniel@0 92 Dm = D*m;
Daniel@0 93 for (d=0; d < D; d++) {
Daniel@0 94 /* diff = data(d,t) - mu(d,m,q) */
Daniel@0 95 /*diff = data[d + D*t] - mu[d + D*m + D*M*q]; */
Daniel@0 96 diff = data[d + Dt] - mu[d + Dm + DMq];
Daniel@0 97 sum_d = sum_d + diff*diff;
Daniel@0 98 }
Daniel@0 99 /* dist[m,q,t] = dist[m + M*q + M*Q*t] = dist[m + Mq + MQt] = sum_d */
Daniel@0 100 tmp = const1 * exp(const2*sum_d);
Daniel@0 101 sum_m = sum_m + tmp;
Daniel@0 102 if (save_B2)
Daniel@0 103 B2[m + Mq + MQt] = tmp;
Daniel@0 104 }
Daniel@0 105
Daniel@0 106 if (N[q]>0) {
Daniel@0 107 B[q + Q*t] = (1.0/N[q]) * sum_m;
Daniel@0 108 } else {
Daniel@0 109 B[q + Q*t] = 0.0;
Daniel@0 110 }
Daniel@0 111 }
Daniel@0 112 }
Daniel@0 113 }
Daniel@0 114
Daniel@0 115
Daniel@0 116