Mathc matrices/04a
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c00a.c |
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/* ------------------------------------ */
/* Save as : c00a.c */
/* ------------------------------------ */
#include "v_a.h"
/* ------------------------------------ */
#define RCA RC4
/* ------------------------------------ */
/* ------------------------------------ */
void fun(void)
{
double a[RCA*RCA]={
+9.387051138013, +1.478424899325, +0.973685336456, -0.700350180421,
+1.478424899325, +9.614194406175, +0.773429774749, -1.033063523876,
+0.973685336456, +0.773429774749, +10.505111304292, +1.482769644746,
-0.700350180421, -1.033063523876, +1.482769644746, +10.493643151520
};
double v[RCA*RCA]={
+0.545516920109, -0.502145306797, -0.756196931416, -0.703339481002,
+0.544568195031, -0.586388346015, +0.647558469922, +0.704564811108,
+0.637068890180, +0.000000000000, +0.093990579046, +0.000000000000,
+0.000000000000, +0.635608998142, +0.000000000000, +0.094350418183
};
double **A = ca_A_mR(a, i_mR(RCA,RCA));
double **V = ca_A_mR(v, i_mR(RCA,RCA));
double **invV = invgj_mR(V, i_mR(RCA,RCA));
double **EValue = eigs_mR(A, i_mR(RCA, RCA));
double **T = i_mR(RCA,RCA);
clrscrn();
printf(" A :");
p_mR(A, S8,P5, C4);
printf(" V :");
p_mR(V, S9,P5, C4);
printf(" EValue = invV * A * V");
mul_mR(invV,A,T);
mul_mR(T,V,EValue);
p_mR(clean_eye_mR(EValue), S9,P5, C4);
printf(" A = V * EValue * invV");
mul_mR(V,EValue,T);
mul_mR(T,invV,A);
p_mR(A, S8,P5, C4);
stop();
f_mR(A);
f_mR(V);
f_mR(invV);
f_mR(T);
f_mR(EValue);
}
/* ------------------------------------ */
int main(void)
{
fun();
return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */
Vérifier les calculs
Exemple de sortie écran :
A :
+9.38705 +1.47842 +0.97369 -0.70035
+1.47842 +9.61419 +0.77343 -1.03306
+0.97369 +0.77343 +10.50511 +1.48277
-0.70035 -1.03306 +1.48277 +10.49364
V :
+0.54552 -0.50215 -0.75620 -0.70334
+0.54457 -0.58639 +0.64756 +0.70456
+0.63707 +0.00000 +0.09399 +0.00000
+0.00000 +0.63561 +0.00000 +0.09435
EValue = invV * A * V
+12.00000 +0.00000 +0.00000 +0.00000
+0.00000 +12.00000 +0.00000 +0.00000
+0.00000 +0.00000 +8.00000 +0.00000
+0.00000 +0.00000 +0.00000 +8.00000
A = V * EValue * invV
+9.38705 +1.47842 +0.97369 -0.70035
+1.47842 +9.61419 +0.77343 -1.03306
+0.97369 +0.77343 +10.50511 +1.48277
-0.70035 -1.03306 +1.48277 +10.49364
Press return to continue.