#include <CalibCalorimetry/EcalLaserAnalyzer/interface/TFParams.h>
#include <malloc.h>
#include "TMatrixD.h"
#include "TMath.h"
#include <iostream>
#include <time.h>
Go to the source code of this file.
Defines | |
#define | dimin 10 |
#define | dimn 10 |
#define | nsamp 10 |
#define | ntrack 500 |
#define | plshdim 300 |
Functions | |
matrice | cree_mat (int n_lignes, int n_colonnes) |
matrice | cree_mat_prod (matrice A, matrice B) |
void | fill_mat (matrice A, matrice M) |
#define dimin 10 |
#define dimn 10 |
#define nsamp 10 |
Referenced by TFParams::fitpj().
#define ntrack 500 |
#define plshdim 300 |
matrice cree_mat | ( | int | n_lignes, |
int | n_colonnes | ||
) |
Definition at line 730 of file TFParams.cc.
References matrice::coeff, i, j, matrice::nb_colonnes, and matrice::nb_lignes.
Referenced by TFParams::fitpj().
{ int i,j; matrice M ; /* resultat de la creation */ M.nb_lignes = n_lignes ; M.nb_colonnes = n_colonnes ; M.coeff = (double**)malloc(M.nb_lignes*sizeof(double*)) ; for(i=0 ; i< M.nb_lignes; i++) M.coeff[i]=(double*)calloc(M.nb_colonnes,sizeof(double)); for(i=0 ; i< M.nb_lignes; i++) { for(j=0 ; j< M.nb_colonnes ; j++) { M.coeff[i][j] = 0. ; } } //printf(" creation de matrice ---> nlignes %d ncolonnes %d \n", // M.nb_lignes,M.nb_colonnes) ; return (M) ; }
Definition at line 710 of file TFParams.cc.
References matrice::coeff, i, j, matrice::nb_colonnes, and matrice::nb_lignes.
Referenced by TFParams::fitpj().
{ int i,j; matrice M ; /* resultat de la creation */ M.nb_lignes = A.nb_lignes ; M.nb_colonnes = B.nb_colonnes ; M.coeff = (double**)malloc(M.nb_lignes*sizeof(double*)) ; for(i=0 ; i< M.nb_lignes; i++) M.coeff[i]=(double*)calloc(M.nb_colonnes,sizeof(double)); for(i=0 ; i< M.nb_lignes; i++) { for(j=0 ; j< M.nb_colonnes ; j++) { M.coeff[i][j] = 0. ; } } //printf(" creation de matrice ----> nlignes %d ncolonnes %d \n", // M.nb_lignes,M.nb_colonnes) ; return (M) ; }
Definition at line 750 of file TFParams.cc.
References matrice::coeff, i, j, matrice::nb_colonnes, and matrice::nb_lignes.
{ int i,j; /* on remplit la matrice M avec la matrice A */ M.nb_lignes = A.nb_lignes ; M.nb_colonnes = A.nb_colonnes ; for(i=0 ; i< M.nb_lignes; i++) { for(j=0 ; j< M.nb_colonnes ; j++) { M.coeff[i][j] = A.coeff[i][j] ; printf("matrice remplie %e \n",M.coeff[i][j]) ; } } return ; }