Mathc complexes/03r
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c00a.c |
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/* ------------------------------------ */
/* Save as : c00a.c */
/* ------------------------------------ */
#include "w_a.h"
/* ------------------------------------ */
#define RCA RC3
#define CX C1
/* ------------------------------------ */
/* ------------------------------------ */
int main(void)
{
double a[RCA*(RCA*C2)]={
+3,1, -4,1, -2,1,
+5,2, -3,2, -0,2,
+6,3, -0,3, -3,3
};
double x_S[RCA*(CX*C2)]={
+5.00, +41.00,
-10.00, +30.00,
+2.00, +46.00
};
double **A = ca_A_mZ(a, i_mZ(RCA,RCA));
double **X_S = ca_A_mZ(x_S, i_mZ(RCA,CX));
double **AX_S = i_mZ(RCA,CX) ;
clrscrn();
printf(" In the Standard basis\n\n"
" Find the linear application T(x_S) = A*x_S \n\n"
" A : ");
p_mZ(A, S10,P2, S8,P2, C4);
printf(" x_S ");
p_mZ(X_S, S10,P2, S8,P2, C4);
printf(" T(x_S) = A*x_S");
p_mZ(mul_mZ(A,X_S,AX_S), S10,P2, S8,P2, C4);
stop();
f_mZ(A);
f_mZ(X_S);
f_mZ(AX_S);
return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */
Calculons T([x]) = A*[x] en base standard.
Exemple de sortie écran :
In the Standard basis
Find the linear application T(x_S) = A*x_S
A :
+3.00 +1.00i -4.00 +1.00i -2.00 +1.00i
+5.00 +2.00i -3.00 +2.00i +0.00 +2.00i
+6.00 +3.00i +0.00 +3.00i -3.00 +3.00i
x_S
+5.00 +41.00i
-10.00 +30.00i
+2.00 +46.00i
T(x_S) = A*x_S
-66.00 -92.00i
-179.00 +109.00i
-327.00 +99.00i
Press return to continue.