Mathc complexes/a238
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c00a.c |
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/* ------------------------------------ */
/* Save as : c00a.c */
/* ------------------------------------ */
#include "w_a.h"
/* ------------------------------------ */
/* ------------------------------------ */
#define RCQ RC3
/* ------------------------------------ */
/* ------------------------------------ */
void fun(void)
{
double **Q = r_Q_mZ(i_mZ(RCQ,RCQ), 9);
double **u[RCQ];
int c,c2;
/* ------------------------------------ */
/* ------------------------------------ */
for(c=C0; c<csize_Z(Q); c++)
{
u[c] = i_mZ(RCQ,C1);
c_c_mZ(Q,(c+C1),u[c],C1); }
/* ------------------------------------ */
/* ------------------------------------ */
clrscrn();
printf(" Orthonormal bases :\n\n");
for(c=C0; c<csize_Z(Q); c++)
{
printf(" u[%d] :",c);
p_mZ(u[c],S5,P4,S5,P4,C6);
}
stop();
/* ------------------------------------ */
/* ------------------------------------ */
clrscrn();
printf(" <u,u> = ||u||^2\n"
" (<u,u>)^(1/2) = ||u|| \n\n");
for(c=C0; c<csize_Z(Q); c++)
printf(" ||u[%d]|| = %.4f :\n",c,norm_Z(u[c]));
printf(" \n\n\n"
" <u,v> = v^t u\n\n");
for(c=C0; c<csize_Z(Q); c++)
for(c2=C0; c2<csize_Z(Q); c2++)
if(c!=c2)
{
printf(" <u[%d],u[%d]> = ",c,c2);
p_Z(dot_Z(u[c],u[c2]),S3,P0,S3,P0);
printf("\n"); }
/* ------------------------------------ */
/* ------------------------------------ */
for(c=C0; c<csize_Z(Q); c++)
f_mZ(u[c]);
f_mZ(Q);
}
/* ------------------------------------ */
int main(void)
{
time_t t;
srand(time(&t));
do
{
fun();
} while(stop_w());
return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */
Exemple de sortie écran :
------------------------------------
Orthonormal bases :
u[0] :
-0.2808-0.4493i
-0.4493-0.4493i
+0.4493-0.3370i
u[1] :
+0.3100-0.0535i
+0.0210+0.6517i
+0.6582-0.2063i
u[2] :
-0.0936+0.7820i
+0.2059-0.3586i
+0.3739-0.2625i
Press return to continue.
------------------------------------
<u,u> = ||u||^2
(<u,u>)^(1/2) = ||u||
||u[0]|| = 1.0000 :
||u[1]|| = 1.0000 :
||u[2]|| = 1.0000 :
<u,v> = v^t u
<u[0],u[1]> = +0 +0i
<u[0],u[2]> = +0 -0i
<u[1],u[0]> = +0 -0i
<u[1],u[2]> = -0 -0i
<u[2],u[0]> = +0 +0i
<u[2],u[1]> = -0 +0i
Press return to continue
Press X return to stop