Mathc matrices/e1500
Installer et compiler ces fichiers dans votre répertoire de travail.
gj00.c |
---|
/* ------------------------------------ */
/* Save as : gj00.c */
/* ------------------------------------ */
#include "v_a.h"
/* ------------------------------------ */
void fun(int r)
{
double **A = i_mR(r,r);
double **b = i_mR(r,C1);
double **Ab = i_Abr_Ac_bc_mR(r,r,C1);
/* i_Abr_Ac_bc_mR(R_Ab,C_A,C_b)); */
do
{
r_mR(A,999.);
printf(".");
}while(!det_R(A));
r_mR(b,999.);
c_A_b_Ab_mR(A,b,Ab);
clrscrn();
printf(" Copy/Past into the octave window.\n\n");
p_Octave_mR(Ab,"Ab",P0);
printf("\n rref(Ab,.00000000001)\n\n");
stop();
clrscrn();
gj_TP_mR(Ab);
printf(" gj_TP_mR(Ab) :\n");
p_mR(Ab,S10,P4,C7);
f_mR(Ab);
f_mR(b);
f_mR(A);
}
/* ------------------------------------ */
int main(void)
{
time_t t;
srand(time(&t));
do
{
fun(rp_I(R2)+R2);
} while(stop_w());
return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */
Nous allons étudier la résolution d'un système en utilisant l'algorithme de Total Pivoting. Ce fichier est le fichier de base.
Exemple de sortie écran :
------------------------------------
Copy/Past into the octave window.
Ab=[
+216,+444,+346,-369,-497;
-137,+36,-925,+896,+350;
-319,+776,+360,+206,+354;
+186,-19,+662,-29,+42]
rref(Ab,.00000000001)
Press return to continue.
gj_TP_mR(Ab) :
+1.00000 +0.00000 +0.00000 +0.00000 -1.11031
-0.00000 +1.00000 +0.00000 +0.00000 -0.35293
+0.00000 +0.00000 +1.00000 +0.00000 +0.39336
+0.00000 +0.00000 +0.00000 +1.00000 +0.64113
Press return to continue
Press X to stop