Mathc complexes/a135
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c00b.c |
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/* ------------------------------------ */
/* Save as : c00a.c */
/* ------------------------------------ */
#include "w_a.h"
/* ------------------------------------ */
void AplsB(int r)
{
double **A = i_mZ(r,r);
double **B = i_mZ(r,r);
double **T = i_mZ(r,r);
r_commute2_mZ(A,B,9);
clrscrn();
printf(" A : ");
p_mZ(A,S5,P3,S5,P3,C6);
printf(" B : ");
p_mZ(B,S5,P3,S5,P3,C6);
stop();
clrscrn();
printf(" AB : ");
p_mZ(mul_mZ(A,B,T),S5,P9,S5,P9,C6);
printf(" BA : ");
p_mZ(mul_mZ(B,A,T),S5,P9,S5,P9,C6);
f_mZ(A);
f_mZ(B);
f_mZ(T);
}
/* ------------------------------------ */
void hello(void)
{
printf("\n ");
printf("\n Two commutative matrices ");
printf("\n **************** \n");
printf("\n ");
printf("\n ");
printf("\n \n");
stop();
}
/* ------------------------------------ */
int main(void)
{
time_t t;
srand(time(&t));
hello();
do
{
AplsB(RC3);
} while(stop_w());
return 0;
}
/* ------------------------------------ */
Exemple de sortie écran :
---------------------------------------
A :
+0.021-0.058i -0.167+0.579i +0.291-0.035i
-0.521-0.108i +0.819+0.311i +0.166+0.004i
+0.359+0.889i +0.606-0.101i +0.798-0.252i
B :
+0.796+0.032i +0.091-0.316i -0.159+0.019i
+0.284+0.059i +0.360-0.170i -0.091-0.002i
-0.196-0.485i -0.331+0.055i +0.371+0.138i
Press return to continue.
---------------------------------------
AB :
-0.137204867-0.025416958i -0.072911473+0.252462463i +0.127060202-0.015377914i
-0.227127280-0.046970730i +0.210983133+0.135546061i +0.072383946+0.001553184i
+0.156671185+0.387661650i +0.264346514-0.044004928i +0.201956386-0.110129104i
BA :
-0.137204867-0.025416958i -0.072911473+0.252462463i +0.127060202-0.015377914i
-0.227127280-0.046970730i +0.210983133+0.135546061i +0.072383946+0.001553184i
+0.156671185+0.387661650i +0.264346514-0.044004928i +0.201956386-0.110129104i
Press return to continue
Press X to stop