rect2pol — Rectangular to polar format conversion.
kout[] -- output array containing the complex-valued magnitude-phase output. It will be created if it does not exist.
kin[] -- input array containing the complex-valued real-imaginary input.
Here is an example of the rect2pol opcode. Play rect2pol.csd
Example 892. Example of the rect2pol opcode.
See the sections Real-time Audio and Command Line Flags for more information on using command line flags.
<CsoundSynthesizer> <CsOptions> -d -o dac </CsOptions> <CsInstruments> /* ksmps needs to be an integer div of hopsize */ ksmps = 64 instr 1 ihopsize = 256 ; hopsize ifftsize = 1024 ; FFT size iolaps = ifftsize/ihopsize ; overlaps ibw = sr/ifftsize ; bin bandwidth kcnt init 0 ; counting vars krow init 0 kOla[] init ifftsize ; overlap-add buffer kIn[] init ifftsize ; input buffer kOut[][] init iolaps, ifftsize ; output buffers a1 diskin2 "fox.wav",1,0,1 ; audio input /* every hopsize samples */ if kcnt == ihopsize then /* window and take FFT */ kWin[] window kIn,krow*ihopsize kSpec[] rfft kWin kSpec rect2pol kSpec /* reduce mags between high and low freqs */ ilow = 0 ihigh = 1000 ki = int(ilow/ibw) until ki >= int(ihigh/ibw) do kSpec[ki] = kSpec[ki]*0.1 ki += 2 od kSpec pol2rect kSpec /* IFFT + window */ kRow[] rifft kSpec kWin window kRow, krow*ihopsize /* place it on out buffer */ kOut setrow kWin, krow /* zero the ola buffer */ kOla = 0 /* overlap-add */ ki = 0 until ki == iolaps do kRow getrow kOut, ki kOla = kOla + kRow ki += 1 od /* update counters */ krow = (krow+1)%iolaps kcnt = 0 endif /* shift audio in/out of buffers */ kIn shiftin a1 a2 shiftout kOla out a2/iolaps /* increment counter */ kcnt += ksmps endin </CsInstruments> <CsScore> i1 0 10 </CsScore> </CsoundSynthesizer>