Mathc complexes/029
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c00a.c |
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/* ------------------------------------ */
/* Save as : c00a.c */
/* ------------------------------------ */
#include "w_a.h"
/* ------------------------------------ */
#define FACTOR_E +1.E-5
#define RCA RC4
#define EVALUE RC1
/* ------------------------------------ */
/* ------------------------------------ */
void fun(void)
{
double a[RCA*(RCA*C2)] ={
+25072, +0, +21293,-4811, +5386,-6531, +11975,-5847,
+21293,+4811, +30848, +0, -1526,-1774, +13478,-6658,
+5386,+6531, -1526,+1774, +20007, +0, +7542,-1322,
+11975,+5847, +13478,+6658, +7542,+1322, +21250, +0 };
double **A = ca_A_mZ(a, i_mZ(RCA,RCA));
double **sA = smul_mZ(FACTOR_E, A, i_mZ(RCA,RCA));
double **EValue = eigs_mZ( sA, i_mZ(RCA,RCA));
double **V = i_mZ(RCA,RCA);
double **Ide = eye_mZ( i_mZ(RCA,RCA));
double **zIde = i_mZ(RCA,RCA);
double **sAmnszIde = i_mZ(RCA,RCA);
double **Ab = i_Abr_Ac_bc_mZ(RCA,RCA,C1);
double **b = i_mZ( RCA,C1);
double **Ab_free = i_Abr_Ac_bc_mZ(RCA,RCA,C2);
double **b_free = i_mZ( RCA,C2);
clrscrn();
printf(" A :");
p_mZ(A, S8,P0, S6,P0, C4);
zmul_mZ(i_Z(EValue[EVALUE][C1],EValue[EVALUE][C2]),Ide,zIde);
MmnsD_mZ(sA,zIde,sAmnszIde);
c_A_b_Ab_mZ(sAmnszIde,b,Ab);
GJ_PP_FreeV_mZ(Ab,Ab_free,b_free);
c_c_mZ(b_free,C2,V,EVALUE);
Normalize_mZ(V);
printf(" V%d :",EVALUE);
p_mZ(V, S9,P5, S8,P5, C4);
printf("\n\n\n\n\n\n\n\n");
stop();
f_mZ(A);
f_mZ(V);
f_mZ(EValue);
f_mZ(Ide);
f_mZ(zIde);
f_mZ(sAmnszIde);
f_mZ(sA);
f_mZ(Ab);
f_mZ(b);
f_mZ(Ab_free);
f_mZ(b_free);
}
/* ------------------------------------ */
int main(void)
{
fun();
return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */
Calculer un vecteur propre : Permet de calculer le vecteur propre pour la valeur propre "EVALUE".
Exemple de sortie écran :
A :
+25072 +0i +21293 -4811i +5386 -6531i +11975 -5847i
+21293 +4811i +30848 +0i -1526 -1774i +13478 -6658i
+5386 +6531i -1526 +1774i +20007 +0i +7542 -1322i
+11975 +5847i +13478 +6658i +7542 +1322i +21250 +0i
V1 :
+0.48972-0.32491i -nan -nani -nan -nani -nan -nani
+0.58126-0.25956i -nan -nani -nan -nani -nan -nani
+0.18661+0.05423i -nan -nani -nan -nani -nan -nani
+0.46001-0.00000i -nan -nani -nan -nani -nan -nani
Les nan correspondent à la normalisation d'un vecteur nul.
Press return to continue.