-odac -M0 -+rtmidi=virtual -dm0 ;DISABLE VIRTUAL MIDI FOR EXTERNAL MIDI CONTROL sr = 44100 ksmps = 10 nchnls = 2 0dbfs = 1 ;MAXIMUM SOUND INTENSITY LEVEL ;FLTK INTERFACE CODE;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; FLcolor 255, 255, 255, 0, 0, 0 FLpanel "Additive Synthesis Spectrum Sketching", 1300, 800, 0, 0 ;SWITCHES ON | OFF | TYPE | WIDTH | HEIGHT | X | Y | OPCODE | INS | STARTTIM | DUR p4 p5 p6 p7 p8 p9 p10 p11 p12 p13 p14 p15 p16 p17 p18 p19 p20 p21 p22 p23 p24 p25 p26 p27 p28 p29 p30 p31 p32 p33 gkFLTK_MIDI,ihFLTK_MIDI FLbutton "ON (FLTK) / OFF (MIDI)", 1, 0, 22, 340, 130, 900, 660, 0, 3, 0, 3600 FLsetColor2 255, 255, 50, ihFLTK_MIDI ;SET SECONDARY COLOUR TO YELLOW ix = 50 ;XY PANELS MINX | MAXX | MINY | MAXY | EXPX | EXPY | DISPX | DISPY | WIDTH | HEIGHT | X | Y gkx, gky, ihx, ihy FLjoy "", 0, 30, 1, 0, 0, 0, -1, -1, 1200, 300, ix, 0 ;SLIDERS MIN | MAX | EXP | TYPE | DISP | WIDTH | HEIGHT | X | Y iwidth = 40 itype = 2 iRatio = 1 ;COLOURS iblue = 250 ired = 0 #define FLTK_FOR_PARTIAL(COUNT) # FLcolor 255,255,iblue, ired, 255,255 gkPartAmp$COUNT, gihPartAmp$COUNT FLslider "$COUNT",0, 1, 0, itype, -1, iwidth, 245, ix, 300 gkRatio$COUNT, gihRatio$COUNT FLtext "", .125, 20, .01, 1, iwidth, 20, ix, 560 FLsetVal_i 1, gihPartAmp$COUNT FLsetVal_i iRatio, gihRatio$COUNT iRatio = iRatio + 1 iblue=iblue-8 ired=ired+8 ix = ix+iwidth # $FLTK_FOR_PARTIAL(1) $FLTK_FOR_PARTIAL(2) $FLTK_FOR_PARTIAL(3) $FLTK_FOR_PARTIAL(4) $FLTK_FOR_PARTIAL(5) $FLTK_FOR_PARTIAL(6) $FLTK_FOR_PARTIAL(7) $FLTK_FOR_PARTIAL(8) $FLTK_FOR_PARTIAL(9) $FLTK_FOR_PARTIAL(10) $FLTK_FOR_PARTIAL(11) $FLTK_FOR_PARTIAL(12) $FLTK_FOR_PARTIAL(13) $FLTK_FOR_PARTIAL(14) $FLTK_FOR_PARTIAL(15) $FLTK_FOR_PARTIAL(16) $FLTK_FOR_PARTIAL(17) $FLTK_FOR_PARTIAL(18) $FLTK_FOR_PARTIAL(19) $FLTK_FOR_PARTIAL(20) $FLTK_FOR_PARTIAL(21) $FLTK_FOR_PARTIAL(22) $FLTK_FOR_PARTIAL(23) $FLTK_FOR_PARTIAL(24) $FLTK_FOR_PARTIAL(25) $FLTK_FOR_PARTIAL(26) $FLTK_FOR_PARTIAL(27) $FLTK_FOR_PARTIAL(28) $FLTK_FOR_PARTIAL(29) $FLTK_FOR_PARTIAL(30) FLcolor 255, 255, 255, 0, 0, 0 ;TEXT BOXES TYPE | FONT | SIZE | WIDTH | HEIGHT | X | Y ih FLbox "Freq. Ratios", 1, 5, 12, 50, 30, 0, 560 ;VALUE DISPLAY BOXES WIDTH | HEIGHT | X | Y idamp FLvalue " ", 60, 20, 55, 625 idFundFrq FLvalue " ", 60, 20, 55, 675 idAmpPort FLvalue " ", 60, 20, 55, 725 idRatiosPort FLvalue " ", 60, 20, 55, 750 ;SLIDERS MIN | MAX | EXP | TYPE | DISP | WIDTH | HEIGHT | X | Y gkamp, ihamp FLslider "Amplitude", 0, 1, 0, 23, idamp, 490, 25, 55, 600 gkFundFrq, ihFundFrq FLslider "Fundemental Frequency", 4, 8000, -1, 23, idFundFrq, 490, 25, 55, 650 gkAmpPort, ihAmpPort FLslider "Amplitude/Fundemental Portamento", 0.01, 5, -1, 23, idAmpPort, 490, 25, 55, 700 gkRatiosPort, ihRatiosPort FLslider "Ratios Portamento", 0.01, 20, -1, 23, idRatiosPort, 490, 25, 55, 750 gkAttTim, ihAttTim FLslider "Attack Time", 0.001, 4, 0, 23, -1, 125, 15, 600, 670 gkRelTim, ihRelTim FLslider "Release Time", 0.001, 4, 0, 23, -1, 125, 15, 725, 670 gkRvbMix, ihRvbMix FLslider "Reverb Mix", 0, 1, 0, 23, -1, 250, 15, 600, 700 gkRvbFbl, ihRvbFbl FLslider "Reverb Time", 0.01, 1, -1, 23, -1, 250, 15, 600, 730 gkRvbLPF, ihRvbLPF FLslider "Reverb LPF", 20, 20000, -1, 23, -1, 250, 15, 600, 760 ;SWITCHES ON | OFF | TYPE | WIDTH | HEIGHT | X | Y | OPCODE | INS | STARTTIM | DUR gkHarmonicRatios,ihHarmonicRatios FLbutton "Harmonic Ratios", 1, 0, 21, 150, 30, 600,600, 0, 5, 0, 0.01 gkRandRatios,ihRandRatios FLbutton "Randomize Ratios", 1, 0, 21, 150, 30, 800,600, 0, 6, 0, 0.01 gkZeroAmps,ihZeroAmps FLbutton "Zero Amplitudes", 1, 0, 21, 150, 30, 1000,600, 0, 7, 0, 0.01 ;SET INITIAL VALUES OF FLTK VALUATORS FLsetVal_i 0.3, ihamp FLsetVal_i 100, ihFundFrq FLsetVal_i 0.02, ihAmpPort FLsetVal_i 0.2, ihRatiosPort FLsetVal_i 0, ihx FLsetVal_i 0, ihy FLsetVal_i 0.2, ihRvbMix FLsetVal_i 0.8, ihRvbFbl FLsetVal_i 8000, ihRvbLPF FLsetVal_i 0.01, ihAttTim FLsetVal_i 0.01, ihRelTim FLpanel_end ;END OF PANEL CONTENTS ;INSTRUCTIONS AND INFO PANEL FLpanel " ", 500, 420, 100, 100 ;TEXT BOXES TYPE | FONT | SIZE | WIDTH | HEIGHT | X | Y ih FLbox " additive synthesis - partial strength sketching ", 1, 5, 14, 490, 15, 5, 0 ih FLbox "-------------------------------------------------------------", 1, 5, 14, 490, 15, 5, 20 ih FLbox "One of the drawbacks of additive synthesis is the vast number", 1, 5, 14, 490, 15, 5, 40 ih FLbox "parameters that must be defined in the synthesis of a sound ", 1, 5, 14, 490, 15, 5, 60 ih FLbox "of any complexity. This can be a slow and unspontaneous ", 1, 5, 14, 490, 15, 5, 80 ih FLbox "process. ", 1, 5, 14, 490, 15, 5, 100 ih FLbox "This example suggests a method in which slider values for ", 1, 5, 14, 490, 15, 5, 120 ih FLbox "partial amplitudes can be sketched in sweeping movements of ", 1, 5, 14, 490, 15, 5, 140 ih FLbox "the mouse rather than having to be dragged up or down one by ", 1, 5, 14, 490, 15, 5, 160 ih FLbox "one. ", 1, 5, 14, 490, 15, 5, 180 ih FLbox "Sketching is done on the FLjoy panel at the top of the GUI. ", 1, 5, 14, 490, 15, 5, 200 ih FLbox "The sliders below this, display the current values for all ", 1, 5, 14, 490, 15, 5, 220 ih FLbox "partials but adjusting these sliders themselves will have no ", 1, 5, 14, 490, 15, 5, 240 ih FLbox "effect. ", 1, 5, 14, 490, 15, 5, 260 ih FLbox "This example makes extensive use of macros in order to ", 1, 5, 14, 490, 15, 5, 280 ih FLbox "avoid lengthy repetitions of code. ", 1, 5, 14, 490, 15, 5, 300 ih FLbox "Reverb is added and is adjustable and also portamento is ", 1, 5, 14, 490, 15, 5, 320 ih FLbox "independently adjustable for partial amplitudes, fundemental ", 1, 5, 14, 490, 15, 5, 340 ih FLbox "and frequency ratios. ", 1, 5, 14, 490, 15, 5, 360 ih FLbox "Frequency ratios can be randomized using the on-screen ", 1, 5, 14, 490, 15, 5, 380 ih FLbox "button. ", 1, 5, 14, 490, 15, 5, 400 FLpanel_end FLrun ;RUN THE WIDGET THREAD! gisine ftgen 0,0,4096,10,1 ;SINE WAVE giwaveform ftgen 0,0,32,-2,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1 ;TABLE THAT CONTAINS PARTIAL STRENGTHS. THIS WILL BE UPDATED BY MOVEMENTS ON THE X-Y PANEL gasend init 0 instr 1 ;SOUND GENERATING INSTRUMENT (MIDI) ioct octmidi ;READ OCT VALUE FROM MIDI INPUT iamp ampmidi 0.1 ;READ IN A NOTE VELOCITY VALUE FROM THE MIDI INPUT kamp = iamp * gkamp ;SET kamp TO MIDI KEY VELOCITY MULTIPLIED BY FLTK SLIDER VALUE gkamp ;PITCH BEND=========================================================================================================================================================== iSemitoneBendRange = 2 ;PITCH BEND RANGE IN SEMITONES (WILL BE DEFINED FURTHER LATER) - SUGGESTION - THIS COULD BE CONTROLLED BY AN FLTK COUNTER imin = 0 ;EQUILIBRIUM POSITION imax = iSemitoneBendRange * .0833333 ;MAX PITCH DISPLACEMENT (IN oct FORMAT) kbend pchbend imin, imax ;PITCH BEND VARIABLE (IN oct FORMAT) kFundFrq = cpsoct(ioct + kbend) ;===================================================================================================================================================================== kporttime linseg 0, 0.001, 1, 1, 1 ;CREATE A RAMPING UP VARIABLE TO PREVENT PORTAMENTO GLIDE UPON NOTE ONSET kAmpPort = kporttime * gkAmpPort ;VARIABLE THAT WILL BE USED FOR AMPLITUDE (AND FUNDEMENTAL) PORTAMENTO kRatiosPort = kporttime * gkRatiosPort;VARIABLE THAT WILL BE USED FOR AMPLITUDE (AND FUNDEMENTAL) PORTAMENTO kfund portk kFundFrq, kAmpPort ;APPLY PORTAMENTO TO FUNDEMENTAL SLIDER OUTPUT amix init 0 ; #define OSCILLATOR(COUNT) # kPartAmp$COUNT table $COUNT-1, giwaveform ;READ RELEVANT PARTIAL AMPLITUDE FROM TABLE kPartAmp$COUNT portk kPartAmp$COUNT , kAmpPort ;APPLY PORTAMENTO SMOOTHING TO CHANGES IN PARTIAL AMPLITUDE kRatio$COUNT portk gkRatio$COUNT, kRatiosPort ;READ RELEVANT PARTIAL RATIO apart$COUNT oscil kamp*(1-kPartAmp$COUNT), kfund+(kfund*(kRatio$COUNT-1)), gisine ;GENERATE AUDIO FOR PARTIAL amix = amix + apart$COUNT# ;ADD PARTIAL AUDIO TO CUMULATIVE AUDIO VARIABLE $OSCILLATOR(1) $OSCILLATOR(2) $OSCILLATOR(3) $OSCILLATOR(4) $OSCILLATOR(5) $OSCILLATOR(6) $OSCILLATOR(7) $OSCILLATOR(8) $OSCILLATOR(9) $OSCILLATOR(10) $OSCILLATOR(11) $OSCILLATOR(12) $OSCILLATOR(13) $OSCILLATOR(14) $OSCILLATOR(15) $OSCILLATOR(16) $OSCILLATOR(17) $OSCILLATOR(18) $OSCILLATOR(19) $OSCILLATOR(20) $OSCILLATOR(21) $OSCILLATOR(22) $OSCILLATOR(23) $OSCILLATOR(24) $OSCILLATOR(25) $OSCILLATOR(26) $OSCILLATOR(27) $OSCILLATOR(28) $OSCILLATOR(29) $OSCILLATOR(30) aenv linsegr 0, i(gkAttTim), 1, i(gkRelTim), 0 ;AMPLITUDE ENVELOPE amix = amix * aenv ;ANTI-CLICK ENVELOPE gasend = gasend + (amix * gkRvbMix) outs amix * (1 - gkRvbMix), amix * (1 - gkRvbMix) ;SEND DRY SIGNAL TO OUTPUTS clear amix endin instr 2 ;UPDATE SLIDERS kx = int(gkx) ;CONVERT X-AXIS VALUES TO INTEGERS ktrigger changed kx, gky ;GENERATE A TRIGGER (MOMENTARY '1') IF X OR Y AXIS VALUES CHANGE ; SCHEDKWHEN KTRIGGER, KMINTIM, KMAXNUM, KINSNUM, KWHEN, KDUR, p4, p5 schedkwhen ktrigger, 0, 0, 4, 0, 0, gkx, gky ;TRIGGER INSTRUMENT THAT UPDATES THE TABLE #define UPDATE_SLIDER(COUNT) #kPartAmp$COUNT table $COUNT-1, giwaveform ;READ RELEVANT PARTIAL AMPLITUDE FROM TABLE (DEPENDENT UPON Y LOCATION OF POINTER) FLsetVal ktrigger, kPartAmp$COUNT, gihPartAmp$COUNT # $UPDATE_SLIDER(1) $UPDATE_SLIDER(2) $UPDATE_SLIDER(3) $UPDATE_SLIDER(4) $UPDATE_SLIDER(5) $UPDATE_SLIDER(6) $UPDATE_SLIDER(7) $UPDATE_SLIDER(8) $UPDATE_SLIDER(9) $UPDATE_SLIDER(10) $UPDATE_SLIDER(11) $UPDATE_SLIDER(12) $UPDATE_SLIDER(13) $UPDATE_SLIDER(14) $UPDATE_SLIDER(15) $UPDATE_SLIDER(16) $UPDATE_SLIDER(17) $UPDATE_SLIDER(18) $UPDATE_SLIDER(19) $UPDATE_SLIDER(20) $UPDATE_SLIDER(21) $UPDATE_SLIDER(22) $UPDATE_SLIDER(23) $UPDATE_SLIDER(24) $UPDATE_SLIDER(25) $UPDATE_SLIDER(26) $UPDATE_SLIDER(27) $UPDATE_SLIDER(28) $UPDATE_SLIDER(29) $UPDATE_SLIDER(30) endin instr 3 ;SOUND GENERATING INSTRUMENT (FLTK) if gkFLTK_MIDI=0 then ;IF ON/OFF SWITCH IS OFF... turnoff ;TURN THIS INSTRUMENT OFF endif ;END OF CONDITIONAL BRANCHING kamp = gkamp * 0.1 ;SET kamp TO FLTK SLIDER VALUE gkamp kFundFrq = gkFundFrq ;SET FUNDEMENTAL TO FLTK SLIDER gkfund kporttime linseg 0, 0.001, 1, 1, 1 ;CREATE A RAMPING UP VARIABLE TO PREVENT PORTAMENTO GLIDE UPON NOTE ONSET kAmpPort = kporttime * gkAmpPort ;VARIABLE THAT WILL BE USED FOR AMPLITUDE (AND FUNDEMENTAL) PORTAMENTO kRatiosPort = kporttime * gkRatiosPort;VARIABLE THAT WILL BE USED FOR AMPLITUDE (AND FUNDEMENTAL) PORTAMENTO kfund portk kFundFrq, kAmpPort ;APPLY PORTAMENTO TO FUNDEMENTAL SLIDER OUTPUT amix init 0 ; #define OSCILLATOR(COUNT) # kPartAmp$COUNT table $COUNT-1, giwaveform ;READ RELEVANT PARTIAL AMPLITUDE FROM TABLE kPartAmp$COUNT portk kPartAmp$COUNT , kAmpPort ;APPLY PORTAMENTO SMOOTHING TO CHANGES IN PARTIAL AMPLITUDE kRatio$COUNT portk gkRatio$COUNT, kRatiosPort ;READ RELEVANT PARTIAL RATIO apart$COUNT oscil kamp*(1-kPartAmp$COUNT), kfund+(kfund*(kRatio$COUNT-1)), gisine ;GENERATE AUDIO FOR PARTIAL amix = amix + apart$COUNT# ;ADD PARTIAL AUDIO TO CUMULATIVE AUDIO VARIABLE $OSCILLATOR(1) $OSCILLATOR(2) $OSCILLATOR(3) $OSCILLATOR(4) $OSCILLATOR(5) $OSCILLATOR(6) $OSCILLATOR(7) $OSCILLATOR(8) $OSCILLATOR(9) $OSCILLATOR(10) $OSCILLATOR(11) $OSCILLATOR(12) $OSCILLATOR(13) $OSCILLATOR(14) $OSCILLATOR(15) $OSCILLATOR(16) $OSCILLATOR(17) $OSCILLATOR(18) $OSCILLATOR(19) $OSCILLATOR(20) $OSCILLATOR(21) $OSCILLATOR(22) $OSCILLATOR(23) $OSCILLATOR(24) $OSCILLATOR(25) $OSCILLATOR(26) $OSCILLATOR(27) $OSCILLATOR(28) $OSCILLATOR(29) $OSCILLATOR(30) aenv linsegr 0, i(gkAttTim), 1, i(gkRelTim), 0 ;AMPLITUDE ENVELOPE amix = amix * aenv ;ANTI-CLICK ENVELOPE gasend = gasend + (amix * gkRvbMix) outs amix * (1 - gkRvbMix), amix * (1 - gkRvbMix) ;SEND DRY SIGNAL TO OUTPUTS clear amix endin instr 4 ;UPDATE PARTIAL VALUE tableiw p5, p4, giwaveform ;UPDATE AMPLITUDE VALUE IN TABLE endin instr 5 ;HARMONIC RATIOS FLsetVal_i 1 , gihRatio1 FLsetVal_i 2 , gihRatio2 FLsetVal_i 3 , gihRatio3 FLsetVal_i 4 , gihRatio4 FLsetVal_i 5 , gihRatio5 FLsetVal_i 6 , gihRatio6 FLsetVal_i 7 , gihRatio7 FLsetVal_i 8 , gihRatio8 FLsetVal_i 9 , gihRatio9 FLsetVal_i 10, gihRatio10 FLsetVal_i 11, gihRatio11 FLsetVal_i 12, gihRatio12 FLsetVal_i 13, gihRatio13 FLsetVal_i 14, gihRatio14 FLsetVal_i 15, gihRatio15 FLsetVal_i 16, gihRatio16 FLsetVal_i 17, gihRatio17 FLsetVal_i 18, gihRatio18 FLsetVal_i 19, gihRatio19 FLsetVal_i 20, gihRatio20 FLsetVal_i 21, gihRatio21 FLsetVal_i 22, gihRatio22 FLsetVal_i 23, gihRatio23 FLsetVal_i 24, gihRatio24 FLsetVal_i 25, gihRatio25 FLsetVal_i 26, gihRatio26 FLsetVal_i 27, gihRatio27 FLsetVal_i 28, gihRatio28 FLsetVal_i 29, gihRatio29 FLsetVal_i 30, gihRatio30 endin instr 6 ;RANDOMIZE RATIOS #define RANDOMIZE_RATIO(COUNT) # iratio random 1,30 FLsetVal_i iratio, gihRatio$COUNT # $RANDOMIZE_RATIO(1) $RANDOMIZE_RATIO(2) $RANDOMIZE_RATIO(3) $RANDOMIZE_RATIO(4) $RANDOMIZE_RATIO(5) $RANDOMIZE_RATIO(6) $RANDOMIZE_RATIO(7) $RANDOMIZE_RATIO(8) $RANDOMIZE_RATIO(9) $RANDOMIZE_RATIO(10) $RANDOMIZE_RATIO(11) $RANDOMIZE_RATIO(12) $RANDOMIZE_RATIO(13) $RANDOMIZE_RATIO(14) $RANDOMIZE_RATIO(15) $RANDOMIZE_RATIO(16) $RANDOMIZE_RATIO(17) $RANDOMIZE_RATIO(18) $RANDOMIZE_RATIO(19) $RANDOMIZE_RATIO(20) $RANDOMIZE_RATIO(21) $RANDOMIZE_RATIO(22) $RANDOMIZE_RATIO(23) $RANDOMIZE_RATIO(24) $RANDOMIZE_RATIO(25) $RANDOMIZE_RATIO(26) $RANDOMIZE_RATIO(27) $RANDOMIZE_RATIO(28) $RANDOMIZE_RATIO(29) $RANDOMIZE_RATIO(30) endin instr 7 ;ZERO PARTIAL AMPLITUDES #define ZERO_AMPLITUDE(COUNT) # FLsetVal_i 1, gihPartAmp$COUNT tableiw 1, $COUNT, giwaveform ;UPDATE AMPLITUDE VALUE IN TABLE # $ZERO_AMPLITUDE(1) $ZERO_AMPLITUDE(2) $ZERO_AMPLITUDE(3) $ZERO_AMPLITUDE(4) $ZERO_AMPLITUDE(5) $ZERO_AMPLITUDE(6) $ZERO_AMPLITUDE(7) $ZERO_AMPLITUDE(8) $ZERO_AMPLITUDE(9) $ZERO_AMPLITUDE(10) $ZERO_AMPLITUDE(11) $ZERO_AMPLITUDE(12) $ZERO_AMPLITUDE(13) $ZERO_AMPLITUDE(14) $ZERO_AMPLITUDE(15) $ZERO_AMPLITUDE(16) $ZERO_AMPLITUDE(17) $ZERO_AMPLITUDE(18) $ZERO_AMPLITUDE(19) $ZERO_AMPLITUDE(20) $ZERO_AMPLITUDE(21) $ZERO_AMPLITUDE(22) $ZERO_AMPLITUDE(23) $ZERO_AMPLITUDE(24) $ZERO_AMPLITUDE(25) $ZERO_AMPLITUDE(26) $ZERO_AMPLITUDE(27) $ZERO_AMPLITUDE(28) $ZERO_AMPLITUDE(29) $ZERO_AMPLITUDE(30) endin instr 8 ;REVERB ;OUTPUTS OPCODE INPUTS |FEEDBACK|LPF_CUTPFF arvbL,arvbR reverbsc gasend, gasend, gkRvbFbl,gkRvbLPF ;CREATE A REVERBERATED SIGNAL outs arvbL, arvbR ;SEND AUDIO SIGNAL TO THE OUTPUTS clear gasend endin i 2 0 3600 ;INSTRUMENT 2 PLAYS FOR 1 HOUR i 8 0 3600 ;INSTRUMENT 8 PLAYS FOR 1 HOUR (REVERB) ;f 0 3600