Using fprintf for complex numbers

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Savannah Roemer
Savannah Roemer on 27 Aug 2019
Commented: Walter Roberson on 30 Nov 2024
Hi, I have
Z1= sqrt(3) * exp((pi*i)/4)
Z2= 2 * exp((pi*i)/6)
Z3= sqrt(3) * exp((3*pi*i)/4)
Z4= 2 * exp(pi*i)
Z5= 2 * exp(-pi*i)
And I would like something like
Real Complex
Z1 1.2247 + 1.2247i
Z2 1.7321 + 1.0000i
Z3 -1.2247 + 1.2247i
Z4 -2.0000 + 0.0000i
Z5 -2.0000 - 0.0000i
Using fprintf, I would think...
Thanks for your help!

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Accepted Answer

KALYAN ACHARJYA
KALYAN ACHARJYA on 27 Aug 2019
Edited: KALYAN ACHARJYA on 27 Aug 2019
One Way:
Z1= sqrt(3) * exp((pi*i)/4)
fprintf('%f + %fi',real(Z1),imag(Z1))
More:
Z1= sqrt(3) * exp((pi*i)/4);
Z2= 2 * exp((pi*i)/6);
Z3= sqrt(3) * exp((3*pi*i)/4);
Z4= 2 * exp(pi*i);
Z5= 2 * exp(-pi*i);
disp(' Real Complex')
fprintf('\nZ1 %.4f + %.4fi',real(Z1),imag(Z1));
fprintf('\nZ2 %.4f + %.4fi',real(Z2),imag(Z2));
fprintf('\nZ3 %.4f + %.4fi',real(Z3),imag(Z3));
fprintf('\nZ4 %.4f + %.4fi',real(Z4),imag(Z4));
fprintf('\nZ5 %.4f + %.4fi',real(Z5),imag(Z5));
Result:
678.png
  2 Comments
Savannah Roemer
Savannah Roemer on 27 Aug 2019
You're the real MVP!
Thanks so much!
S
KALYAN ACHARJYA
KALYAN ACHARJYA on 27 Aug 2019
No Savannah, those MPVs are my Guru here.. continually they are teaching me .
Specially @Walter Roberson, @Image Analyst @Madhan @Jan .and...many more....
Anyway thanks for your kind words!

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More Answers (2)

Adam Danz
Adam Danz on 24 Nov 2023
Edited: Adam Danz on 24 Nov 2023
Ran in:
Another alternative is to use num2str which supports conversion of complex numbers to strings.
a = -2*sqrt(-3)+5/3
a = 1.6667 - 3.4641i
num2str(a)
ans = '1.6667-3.4641i'
num2str(a, 2) % specify precision
ans = '1.7-3.5i'
You would enter this as a string in fprintf
ijstr = num2str(a,3);
fprintf('%s %s', 'Z1', ijstr)
Z1 1.67-3.46i
Note that this method may return strings in undesired formats such as,
num2str(160, 2)
ans = '1.6e+02'
  5 Comments
Show 3 older comments
marcel hendrix
marcel hendrix on 30 Nov 2024
Thanks, I was on the verge of submitting a bug report...
Processing matrix arguments by column has another surprise: if one prints a matrix to a file for subsequent processing in another program, the matrix will look transposed to the post-processor. I can say from experience that this bug (in the post-processor and caused by the reverse side of the keyboard) can be very hard to find ...
Walter Roberson
Walter Roberson on 30 Nov 2024
Ran in:
Note that you can avoid the c{:} step if you pass compose a string scalar format instead of a character vector format.
p = [ 9.542130347090435e-01 + 1.371703909876786e-01i
9.542130347090435e-01 - 1.371703909876786e-01i ];
c = compose("%s", num2str(p,10))
c = 2x1 string array
"0.9542130347+0.137170391i" "0.9542130347-0.137170391i"
fprintf('%s\n', c)
0.9542130347+0.137170391i 0.9542130347-0.137170391i
And that leads to the more compact
fprintf('%s\n', compose("%s", num2str(p,10)))
0.9542130347+0.137170391i 0.9542130347-0.137170391i

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Walter Roberson
Walter Roberson on 27 Aug 2019
Edited: Walter Roberson on 27 Aug 2019
fprintf() always ignores imaginary components of numbers. You need to ask to output the real() and imaginary() components separately,
fprintf('%2s %7.4f %+7.4fi\n', 'Z1', real(Z1), imag(Z1))

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