Mathc complexes/a118

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	`c00a.c`

/* ------------------------------------ */
/*  Save as :   c00a.c                  */
/* ------------------------------------ */
#include "w_a.h"
/* ------------------------------------ */
#define FACTOR_E     +1.E-2      
#define RCA           RC4  
#define Pn            3
/* ------------------------------------ */       
/* ------------------------------------ */
double f(
double x)
{  
        return(pow(x,1./Pn));
}
char  feq[] =  "x**1/Pn";
/* ------------------------------------ */
/* ------------------------------------ */
void fun(void)
{
double **A             = rcsymmetric_mRZ(i_mZ(RCA,RCA),99.);
double **A_Pn          =                 i_mZ(RCA,RCA);

double **EigsVector    =                 i_mZ(RCA,RCA);
double **T_EigsVector  =                 i_mZ(RCA,RCA);

double **EigsValue     =                 i_mZ(RCA,RCA);
double **f_EigsValue   =                 i_mZ(RCA,RCA);

double **T1            =                 i_mZ(RCA,RCA);

  clrscrn();
  printf(" A ");   
  p_mRZ(A, S8,P0, C6);   
 
  eigs_V_mZ(A,EigsVector,FACTOR_E);
  transpose_mZ(EigsVector,T_EigsVector);
      
/* EigsValue : T_EigsVector * A * EigsVector */
  mul_mZ(T_EigsVector,A,T1);
  mul_mZ(T1,EigsVector,EigsValue);     
  
  f_eigs_mZ(f,EigsValue,f_EigsValue);

//A == EigsVector * EigsValue * T_EigsVector       
  mul_mZ(EigsVector,f_EigsValue,T1);
  mul_mZ(T1,T_EigsVector,A_Pn); 
   
  printf(" A_Pn = A**(1/%d) = EigsVector * EigsValue**(1/%d)"
         " * T_EigsVector\n", Pn, Pn);
  p_mRZ(A_Pn,S10,P4,C6);     
  
  printf(" A = A_Pn**%d ",Pn);  
  p_mRZ(pow_mZ(Pn,A_Pn,T1), S8,P0, C6);   
   
  f_mZ(A);
  f_mZ(A_Pn);
    
  f_mZ(EigsVector);
  f_mZ(T_EigsVector);
  
  f_mZ(EigsValue);
  f_mZ(f_EigsValue);    
     
  f_mZ(T1);
}
/* ------------------------------------ */
int main(void)
{
time_t t;

  srand(time(&t));

do
{
  fun();

} while(stop_w());

  return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */

              A**(1/3) == V *  EValue**(1/3) * T_V

Exemple de sortie écran :

 ------------------------------------
 A 
   +3530    +6946    +4551    +1247 
   +6946   +15417   +11733    +6870 
   +4551   +11733   +10999    +9945 
   +1247    +6870    +9945   +19317 

 A_Pn = A**(1/3) = EigsVector * EigsValue**(1/3) * T_EigsVector

   +9.1381    +7.6805    +2.5368    -0.8878 
   +7.6805   +19.3141    +9.1352    +2.1710 
   +2.5368    +9.1352   +15.4858    +6.3291 
   -0.8878    +2.1710    +6.3291   +25.2532 

 A = A_Pn**3 
   +3530    +6946    +4551    +1247 
   +6946   +15417   +11733    +6870 
   +4551   +11733   +10999    +9945 
   +1247    +6870    +9945   +19317 


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