Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Following is the program I have written

#include <stdio.h>
#include<complex.h>
#include<math.h>

int main()
{   
unsigned char i,j,p,q;
complex arr[3][2]={{60 ,0},{80 ,-120},{100, -240}};
complex fabcr[3][1]={60+0i,-40-69.2820i,-50+86.6025i};
complex fa012[3][1], D[3][1],B[3][1],Vbal[3][1];
complex Vpol[3][2];
complex sum,l;
complex A[3][3]={{1  , 1 ,  1}, {1 ,-0.5+0.866i ,-0.5-0.866i}, {1 ,-0.5-0.866i, -0.5+0.866i}};
complex invA[3][3]=  {{0.3333 - 0.0000i ,  0.3333 + 0.0000i,   0.3333},          
                    {0.3333 ,-0.1667 - 0.2887i,  -0.1667 + 0.2887i},
                   { 0.3333 + 0.0000i , -0.1667 + 0.2887i , -0.1667 - 0.2887i}};
complex a=-0.5+0.866i;
//a^2 =-0.5-0.866i
printf("%f +i %f \n  %f %f",creal(a),cimag(a),cabs(a),(180/M_PI)*carg(a));
printf("\n line voltage fabcr \n\n");
for(i=0;i<3;i++)
{            
       for(j=0;j<1;j++)
            {
            printf( "%f +i %f ",creal(fabcr[i][j]),cimag(fabcr[i][j]));
            }
       printf("\n"); 
}
printf("\n A matrix \n\n");

for(i=0;i<3;i++)
{            
       for(j=0;j<3;j++)
            {
            printf( "%f +i %f ",creal(A[i][j]),cimag(A[i][j]));
            }
       printf("\n"); 
}
printf("\ninvA matrix\n\n");
for(i=0;i<3;i++)
{            
       for(j=0;j<3;j++)
            {
            printf( "%f +i %f ",creal(invA[i][j]),cimag(invA[i][j]));
            }
       printf("\n \n"); 
}

//matrix multiplication
for(p=0;p<3;p++)
    {
         sum=0;       
         for(q=0;q<3;q++)
         {
           l=fabcr[q][0]*A[p][q];
           sum=sum+l;

              }      
           printf("%f i %f \n", creal(sum),cimag(sum));   
          //fa012[p][1]=(1/3)*creal(sum)+i*(1/3)*cimag(sum); 
          fa012[p][0]=sum*0.33;

     }
    printf("\n symmetrical componenet fa012\n \n"); 
    for(p=0;p<3;p++)
    {
        printf("%f i %f \n", creal(fa012[p][0]),cimag(fa012[p][0]));
    }

D[0][0]=-fa012[0][0];
D[1][0]=0;
D[2][0]=-fa012[2][0];
printf("\n matrix D \n \n");
 for(p=0;p<3;p++)
    {
        printf("%f i %f \n", creal(D[p][0]),cimag(D[p][0]));
    }
printf("\n\nzero and negative sequence component in line voltage terms\n\n");
 for(p=0;p<3;p++)
    {
         sum=0;       
         for(q=0;q<3;q++)
         {
           l=D[q][0]*invA[p][q];
           sum=sum+l;

              }      
           printf("%f i %f \n", creal(sum),cimag(sum));   
          //fa012[p][1]=(1/3)*creal(sum)+i*(1/3)*cimag(sum); 
          B[p][0]=sum*3;

     }
printf("\n\nfinal balanced voltage \n\n")   ;  
for(p=0;p<3;p++)
    {
     Vbal[p][0]=fabcr[p][0]+B[p][0];
     printf("\n %f i %f \n %f %f \n", creal( Vbal[p][0]),cimag(Vbal[p][0]),cabs(Vbal[p][0]),(180/M_PI)*carg(Vbal[p][0])); 
      }

   printf("\n\n conversion to polar cordinates \n\n") ;
for(i=0;i<3;i++)
{            
    Vpol[i][0]= cabs(Vbal[i][0]);
    Vpol[i][1]= (180/M_PI)*carg(Vbal[i][1]);
    printf("%f  %f \n",Vpol[i][0],Vpol[i][1]  );    

}     

getch();
}

If I want to use this in keil it shows error. Please suggest how to do complex manipulations? I also copied complex.h and _mingw.h from devcpp include folder to keil/c51/inc folder.

share|improve this question

1 Answer 1

You need to do four things to make your program compile using Keil uVision:

  1. Add the switch --c99 to the compiler arguments. The reason is that armcc shipped with Keil uVision 4 uses C90 mode for *.c files as can be seen when calling armcc in a terminal without arguments:

    --c90 Switch to C mode (default for .c files)

  2. Change all the occurences of complex in your code to float complex or double complex as these are the names for complex data types in C99. Look also here, for example.

  3. The definitions of complex numbers like -0.5+0.866i do not work. Change these to -0.5+0.866*I.

  4. Make your own definition of PI as it is not defined in <math.h> which is shipped with armcc. You can do this using e.g.

    #define M_PI 3.1415926535897932384626433832795

After these steps the code will at least compile. However, there are a few more problems:

  1. You are using %f to output a complex value instead of a float in the line

    printf("%f %f \n",Vpol[i][0],Vpol[i][1] );

    As Vpol[i][0] is the the magnitude of a complex number and Vpol[i][1] its argument, you might as well output cabs(Vpol[i][0]) and creal(Vpol[i][1]).

    Of course, it would be even better to change the definition to float Vpol[3][2]; as you are only storing real values in this array.

  2. The function getch() might not be part of <stdio.h>, i.e. you possibly have to provide your own implementation before linking.

  3. (Not really a "problem"). The variable arr is never used.

Hope that helps!

#include <stdio.h>
#include <complex.h>
#include <math.h>

#define M_PI 3.1415926535897932384626433832795

int main()
{   
    unsigned char i,j,p,q;
    float complex fabcr[3][1] = {60+0*I,-40-69.2820*I,-50+86.6025*I};
    float complex fa012[3][1], D[3][1],B[3][1],Vbal[3][1];
    float Vpol[3][2];
    float complex sum,l;
    float complex A[3][3] = {{1, 1,            1}, 
                             {1, -0.5+0.866*I, -0.5-0.866*I}, 
                             {1, -0.5-0.866*I, -0.5+0.866*I}};
    float complex invA[3][3] 
        = {{0.3333 - 0.0000*I, 0.3333 + 0.0000*I,  0.3333},          
           {0.3333,            -0.1667 - 0.2887*I, -0.1667 + 0.2887*I},
           {0.3333 + 0.0000*I, -0.1667 + 0.2887*I, -0.1667 - 0.2887*I}};
    float complex a = -0.5+0.866*I;
    //a^2 =-0.5-0.866i
    printf("%f +i %f \n  %f %f", creal(a), cimag(a), 
                                 cabs(a), (180/M_PI) * carg(a));
    printf("\n line voltage fabcr \n\n");
    for(i=0; i<3; i++)
    {            
        for(j=0; j<1; j++)
        {
            printf( "%f +i %f ",creal(fabcr[i][j]),cimag(fabcr[i][j]));
        }
        printf("\n"); 
    }
    printf("\n A matrix \n\n");

    for(i=0; i<3; i++)
    {            
        for(j=0;j<3;j++)
        {
            printf( "%f +i %f ",creal(A[i][j]),cimag(A[i][j]));
        }
        printf("\n"); 
    }
    printf("\ninvA matrix\n\n");
    for(i=0; i<3; i++)
    {            
        for(j=0;j<3;j++)
        {
            printf( "%f +i %f ",creal(invA[i][j]),cimag(invA[i][j]));
        }
        printf("\n \n"); 
    }

    // matrix multiplication
    for(p=0; p<3; p++)
    {
        sum=0;       
        for(q=0; q<3; q++)
        {
            l=fabcr[q][0]*A[p][q];
            sum=sum+l;
        }      
        printf("%f i %f \n", creal(sum),cimag(sum));   
        // fa012[p][1]=(1/3)*creal(sum)+i*(1/3)*cimag(sum); 
        fa012[p][0]=sum*0.33;
    }
    printf("\n symmetrical component fa012\n \n"); 
    for(p=0; p<3; p++)
    {
        printf("%f i %f \n", creal(fa012[p][0]),cimag(fa012[p][0]));
    }

    D[0][0] = -fa012[0][0];
    D[1][0] = 0;
    D[2][0] = -fa012[2][0];
    printf("\n matrix D \n \n");
    for(p=0; p<3; p++)
    {
        printf("%f i %f \n", creal(D[p][0]),cimag(D[p][0]));
    }
    printf("\n\nzero and negative sequence component in line voltage terms\n\n");
    for(p=0; p<3; p++)
    {
        sum=0;       
        for(q=0; q<3; q++)
        {
            l=D[q][0]*invA[p][q];
            sum=sum+l;
        }      
        printf("%f i %f \n", creal(sum),cimag(sum));   
        //fa012[p][1]=(1/3)*creal(sum)+i*(1/3)*cimag(sum); 
        B[p][0]=sum*3;
    }
    printf("\n\nfinal balanced voltage \n\n")   ;  
    for(p=0; p<3; p++)
    {
        Vbal[p][0] = fabcr[p][0]+B[p][0];
        printf("\n %f i %f \n %f %f \n", 
               creal(Vbal[p][0]), cimag(Vbal[p][0]),
               cabs(Vbal[p][0]), (180/M_PI) * carg(Vbal[p][0])); 
    }

    printf("\n\n conversion to polar cordinates \n\n") ;
    for(i=0; i<3; i++)
    {            
        Vpol[i][0] = cabs(Vbal[i][0]);
        Vpol[i][1] = (180/M_PI) * carg(Vbal[i][1]);
        printf("%f  %f \n", Vpol[i][0], Vpol[i][1]);    
    }     
}
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.