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The bigger problem of your original code was (as pointed by Ildjarn) that Complex lack of operator<. I suppose that your Complex should be a little more complex (if you allow me the play on words). I propose the following solution were Complex derive from std::complex<double> and declare a friend operator< (). One of many operator< () ...


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using std::accumulate can get max of complex numbers simillar to Matlab max function: #include <iostream> #include <valarray> #include <complex> #include <algorithm> #include <numeric> typedef std::complex<double> Complex; typedef std::valarray <Complex > CArray; int main () { CArray y={{1, 2},{3, 4},{2,0},{7,...


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y is an array of valarrays, so you need to call max on each element in that array, not on the array itself (which of course has no member functions). std::complex is not a comparable type, so what does it mean to have a "highest" element? Update: Regarding your edit, I think I understand what you're after... For the highest index of the max (by real()) ...


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Here is the solution I could come up with (live runnable demo here) : #include <valarray> #include <complex> typedef std::complex<double> Complex; int main() { std::valarray<Complex> a(1024); std::valarray<double> b(1024); // Solution to problem 1 std::valarray<double> modulus(a.size()); auto mod = std::abs(...


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You will have to convert array to CArray type alias: http://coliru.stacked-crooked.com/a/20adde65619732f8 typedef std::complex<double> Complex; typedef std::valarray<Complex> CArray; void fft(CArray& x) { } int main() { float sx[] = {1,2,3,4}; float *x = sx; int sampleFrames = sizeof(sx)/sizeof(sx[0]); // Convert ...



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