I understand the complex output of a DFT contains both "amplitude" and "phase" information at discrete frequencies.
Amplitude[n] = sqrt((r[n]*r[n]) + (i[n]*i[n])) Phase[n] = (atan2(i[n],r[n])) Frequency[n] = n * (sample_rate / (fft_input_length / 2))
It seems that I should be able to use the frequency, amplitude, and phase information to calculate the amplitude of each output bin as if the input at the corresponding frequency had a zero-phase alignment in the FFT input. But I am drawing a blank.
Hmm, digging deeper into my problem I discovered that the imaginary potion of the FFT output is always 0.0 regardless of the input. So I am guessing my code is flawed or the algorithm is not what I need.