Clear Filters
Clear Filters

How do I print complex number a+ib upto 6 decimal place in a loop.

3 views (last 30 days)
sangeet sagar
sangeet sagar on 22 Mar 2018
Commented: Walter Roberson on 22 Mar 2018
I have a complex (double) matrix st_matrix containing numbers in the form of a+ib. Now I want to print the values in a text file.
for p=1:101; % 101 is the number of rows.
s= st_matrix(p,:);
count=fprintf(fid ,'%.12f%+.10fli' , real(s), imag(s));
count=fprintf(fid,'\n');
end
My Expected output should be like :
1.96034545799687e-05 + 0.000756105063919229i -8.32404312346182e-05 + 0.000565437183372445i -1.54903072995014e-05 + 0.000410916702926380i
1.95824745829973e-05 + 0.000756115973057457i -8.44930558128954e-05 + 0.000564346616515616i -1.66587028148237e-05 + 0.000410464815615681i
1.95614932804376e-05 + 0.000756126810264354i -8.57391651447123e-05 + 0.000563240328264741i -1.78231150975604e-05 + 0.000409974438469278i
1.95405106806012e-05 + 0.000756137575538325i -8.69787095451668e-05 + 0.000562118367246730i -1.89831071531749e-05 + 0.000409445723268375i
1.95195267918012e-05 + 0.000756148268877799i -8.82116401021374e-05 + 0.000560980783378047i -2.01382434159039e-05 + 0.000408878835146654i
But the above code gives output as :
0.000019603455-0.0000832404j -0.000015490307+0.0000488314j 0.000022704867+0.0000323502j
0.000019582475-0.0000844931j -0.000016658703+0.0000491398j 0.000022313754+0.0000310167j
0.000019561493-0.0000857392j -0.000017823115+0.0000494415j 0.000021904664+0.0000296515j
0.000019540511-0.0000869787j -0.000018983107+0.0000497374j 0.000021478198+0.0000282570j
You can see that the real part of next element becomes of the complex part of the previous element. Any help would be appreciated.

Sign in to answer this question.

Accepted Answer

Walter Roberson
Walter Roberson on 22 Mar 2018
count=fprintf(fid ,'%.12f%+.10fli' , [real(s), imag(s)].'); %transpose is important
  2 Comments
sangeet sagar
sangeet sagar on 22 Mar 2018
Sorry sir, but still same issue persists. I got the following out after editing from your code
0.000019603455-0.0000832404j -0.000015490307+0.0000488314j 0.000022704867+0.0000323502j
0.000019582475-0.0000844931j -0.000016658703+0.0000491398j 0.000022313754+0.0000310167j
0.000019561493-0.0000857392j -0.000017823115+0.0000494415j 0.000021904664+0.0000296515j
0.000019540511-0.0000869787j -0.000018983107+0.0000497374j 0.000021478198+0.0000282570j
Please observe that real part of (1,2) index becomex the complex part of (1,1) index.

Sign in to comment.

More Answers (0)

Categories

Find more on Image Arithmetic in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!