xscans — Fast scanned synthesis waveform and the wavetable generator.
Plugin opcode in scansyn.
Experimental version of scans Allows much larger matrices and is faster and smaller but removes some (unused?) flexibility. If liked, it will replace the older opcode as it is syntax compatible but extended.
ifntraj -- table containing the scanning trajectory. This is a series of numbers that contains addresses of masses. The order of these addresses is used as the scan path. It should not contain values greater than the number of masses, or negative numbers. See the introduction to the scanned synthesis section
id -- If positive, the ID of the opcode. This will be used to point the scanning opcode to the proper waveform maker. If this value is negative, the absolute of this value is the wavetable on which to write the waveshape. That wavetable can be used later from an other opcode to generate sound. The initial contents of this table will be destroyed.
iorder (optional, default=0) -- order of interpolation used internally. It can take any value in the range 1 to 4, and defaults to 4, which is quartic interpolation. The setting of 2 is quadratic and 1 is linear. The higher numbers are slower, but not necessarily better.
kamp -- output amplitude. Note that the resulting amplitude is also dependent on instantaneous value in the wavetable. This number is effectively the scaling factor of the wavetable.
kfreq -- frequency of the scan rate
Here is an example of the xscans opcode. Play xscans.csd
Example 1343. Example of the xscans opcode.
See the sections Real-time Audio and Command Line Flags for more information on using command line flags.
<CsoundSynthesizer> <CsOptions> ; Select audio/midi flags here according to platform -odac ;;;realtime audio out ;-iadc ;;;uncomment -iadc if realtime audio input is needed too ; For Non-realtime ouput leave only the line below: ; -o xscans.wav -W ;;; for file output any platform </CsOptions> <CsInstruments> sr = 44100 ksmps = 32 nchnls = 2 0dbfs = 1 ;the matrices can be found in /manual/examples instr 1 ; Plain scanned syntnesis a0 = 0 xscanu 1, .01, 6, 2, "128,8-cylinder.XmatrxT", 4, 5, 2, .1, .1, -.01, .1, .5, 0, 0, a0, 0, 0 a1 xscans .7, cpspch(p4), 7, 0, 1 outs a1, a1 endin instr 2 ; Scan synthesis with audio injection and dual scan paths ; tap the mic or sing to inject audio into the resonators a0,aa ins a0 = a0/.8 xscanu 1, .01, 6, 2, "128,8-grid.XmatrxT", 14, 5, 2, .01, .05, -.05, .1, .5, 0, 0, a0, 0, 0 a1 xscans .5, cpspch(7.00), 7, 0, 1 a2 xscans .5, cpspch(7.001), 77, 0, 1 outs a1+a2,a1+a2 endin instr 3 ; Vibrating structure with audio injection ; Tap the MIC - to inject audio into the resonators a0,aa ins a0 = a0/.8 xscanu 1, .01, 6, 2, "128-stringcircular.XmatrxT", 14, 5, 2, .01, .05, -.05, .25, .75, 0, 0, a0, 0, 1 endin instr 4 ; Modulated scanners i1 bexprnd 5 i2 bexprnd 1 ko oscil i1, i2, 9 ka1 oscili .5, .15*8, p7 ka2 oscili .5, .15*8, p8 kf oscili 1, .15, p4 kf = 2^(kf/12)*p6*440+ko a1 xscans p9*ka1, kf+i1, 777, 1, 1 a2 xscans p9*ka2, (kf+i1)*2.1, 77, 1, 1 outs a1+a2, a1+a2 endin </CsInstruments> <CsScore> ; Initial condition f1 0 128 7 0 64 1 64 0 ; Masses f2 0 128 -7 1 128 1 ; Centering force f4 0 128 -7 0 128 2 f14 0 128 -7 2 64 0 64 2 ; Damping f5 0 128 -7 1 128 1 ; Initial velocity f6 0 128 -7 -.0 128 .0 ; Trajectories f7 0 128 -5 .001 128 128 f777 0 128 -23 "128-stringcircular" ;?? f77 0 128 -23 "128-spiral-8,16,128,2,1over2.traj" ; Sine f9 0 16384 10 1 ; Pitch tables f100 0 1024 -7 +3 128 +3 128 -2 128 -2 128 +0 128 +0 128 -4 128 -4 128 +3 f101 0 1024 -7 -2 128 -2 128 -2 128 -2 128 -5 128 -5 128 -4 128 -4 128 -2 f102 0 1024 -7 +3 128 +3 128 +2 128 +2 128 +0 128 +0 128 +0 128 +0 128 +3 f103 0 1024 -7 +7 128 +7 128 +5 128 +5 128 +3 128 +3 128 +3 128 +3 128 +7 ; Amplitude tables f200 0 1024 7 1 128 0 128 0 127 0 1 1 128 0 128 0 127 0 1 1 128 0 127 0 1 1 f201 0 1024 7 0 127 0 1 1 127 0 1 1 128 0 127 0 1 1 127 0 1 1 128 0 127 0 1 1 127 0 1 1 f202 0 1024 7 1 127 0 1 1 127 0 1 1 127 0 1 1 127 0 1 1 127 0 1 1 127 0 1 1 127 0 1 1 127 0 1 f203 0 1024 7 1 1024 0 ;---------------------------------- ; Note list i1 0 10 6.00 s i2 1 10 s i3 1 23 i4 1 23 101 1 .5 200 202 1.5 i4 . . 102 0 .5 200 201 1 i4 . . 103 0 .5 200 201 1 i4 . . 100 0 .25 200 200 2 e </CsScore> </CsoundSynthesizer>
For similar examples, see the documentation on scans
More information on Scanned Synthesis (as well as several other matrices) is available on the Scanned Synthesis page at cSounds.com.
Also an article on these opcodes: http://www.csounds.com/stevenyi/scanned/yi_scannedSynthesis.html , written by Steven Yi