Mathc matrices/a37
Fonctions matricielles ex : cos(A)
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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 = rPsymmetric_mR(i_mR(RCA,RCA),99.);
double **SqrtA = i_mR(RCA,RCA);
double **EigsVector = i_mR(RCA,RCA);
double **T_EigsVector = i_mR(RCA,RCA);
double **EigsValue = i_mR(RCA,RCA);
double **f_EigsValue = i_mR(RCA,RCA);
double **T1 = i_mR(RCA,RCA);
clrscrn();
printf(" A :");
p_mR(A, S7,P0, C8);
eigs_V_mR(A,EigsVector);
transpose_mR(EigsVector,T_EigsVector);
/* EigsValue : T_EigsVector * A * EigsVector */
mul_mR(T_EigsVector,A,T1);
mul_mR(T1,EigsVector,EigsValue);
printf(" sqrt(A) = EigsVector * sqrt(EigsValue) * T_EigsVector\n");
f_eigs_mR(sqrt,EigsValue,f_EigsValue);
mul_mR(EigsVector,f_EigsValue,T1);
mul_mR(T1,T_EigsVector,SqrtA);
p_mR(SqrtA,S10,P4,C8);
printf(" A = sqrt(A) * sqrt(A)");
mul_mR(SqrtA,SqrtA,A);
p_mR(A, S7,P0, C8);
f_mR(A);
f_mR(SqrtA);
f_mR(EigsVector);
f_mR(T_EigsVector);
f_mR(EigsValue);
f_mR(f_EigsValue);
f_mR(T1);
}
/* ------------------------------------ */
int main(void)
{
time_t t;
srand(time(&t));
do
{
fun();
} while(stop_w());
return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */
sqrt(A) = V sqrt(EValue) T_V
Exemple de sortie écran :
/* ------------------------------------ */
A :
+7770 +40 -48 -71
+40 +8769 +20 -28
-48 +20 +555 -39
-71 -28 -39 +3663
sqrt(A) = EigsVector * sqrt(EigsValue) * T_EigsVector
+88.1450 +0.2200 -0.4321 -0.4787
+0.2200 +93.6424 +0.1708 -0.1804
-0.4321 +0.1708 +23.5492 -0.4660
-0.4787 -0.1804 -0.4660 +60.5188
A = sqrt(A) * sqrt(A)
+7770 +40 -48 -71
+40 +8769 +20 -28
-48 +20 +555 -39
-71 -28 -39 +3663
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