|
123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543544545546547548549550551552553554555556557558559560561562563564565566567568569570571572573574575576577578579580581582583584585586587588589590591592593594595596597598599600601602603604605606607608609610611612613614615616617618619620621622623624625626627628629630631632633634635636637638639640641642643644645646647648649650651652653654655656657658659660661662663664665666667668669670671672673674675676677678679680681682683684685686687688689690691692693694695696697698699700701702703704705706707708709710711712713714715716717718719720721722723724725726727728729730731732733734735736737738739740741742743744745746747748749750751752753754755756757758759760761762763764765766767768769770771772773774775776777778779780781782783784785786787788789790791792793794795796797798799800801802803804805806807808809810811812813814815816817818819820821822823824825826827828829830831832833834835836837838839840841842843844845846847848849850851852853854855856857858859860861862863864865866867868869870871872873874875876877878879880881882883884885886887888889890891892893894895896897898899900901902903904905906907908909910911912913914915916917918919920921922923924925926927928929930931932933934935936937938939940941942943944945946947948949950951952953954955956957958959960961962963964965966967968969970971972973974975976977978979980981982983984985986987988989990991992993994995996997998999100010011002100310041005100610071008100910101011101210131014101510161017101810191020102110221023102410251026102710281029103010311032103310341035103610371038103910401041104210431044104510461047104810491050105110521053105410551056105710581059106010611062106310641065106610671068106910701071107210731074107510761077107810791080108110821083108410851086108710881089109010911092109310941095109610971098109911001101110211031104110511061107110811091110111111121113111411151116111711181119112011211122112311241125112611271128112911301131113211331134113511361137113811391140114111421143114411451146114711481149115011511152115311541155115611571158115911601161116211631164116511661167116811691170117111721173117411751176117711781179118011811182118311841185118611871188118911901191119211931194119511961197119811991200120112021203120412051206120712081209121012111212121312141215121612171218121912201221122212231224122512261227122812291230123112321233123412351236123712381239124012411242124312441245124612471248124912501251125212531254125512561257125812591260126112621263126412651266126712681269127012711272127312741275127612771278127912801281128212831284128512861287128812891290129112921293129412951296129712981299130013011302130313041305130613071308130913101311131213131314131513161317131813191320132113221323132413251326132713281329133013311332133313341335133613371338133913401341134213431344134513461347134813491350135113521353135413551356135713581359136013611362136313641365136613671368136913701371137213731374137513761377137813791380138113821383138413851386138713881389139013911392139313941395139613971398139914001401140214031404140514061407140814091410141114121413141414151416141714181419142014211422142314241425142614271428142914301431143214331434143514361437143814391440144114421443144414451446144714481449145014511452145314541455145614571458145914601461146214631464146514661467146814691470147114721473147414751476147714781479148014811482148314841485148614871488148914901491149214931494149514961497149814991500150115021503150415051506150715081509151015111512151315141515151615171518151915201521152215231524152515261527152815291530153115321533153415351536153715381539154015411542154315441545154615471548154915501551155215531554155515561557155815591560156115621563156415651566156715681569157015711572157315741575157615771578157915801581158215831584158515861587158815891590159115921593159415951596159715981599160016011602160316041605160616071608160916101611161216131614161516161617161816191620162116221623162416251626162716281629163016311632163316341635163616371638163916401641164216431644164516461647164816491650165116521653165416551656165716581659166016611662166316641665166616671668166916701671167216731674167516761677167816791680168116821683168416851686168716881689169016911692169316941695169616971698169917001701170217031704170517061707170817091710171117121713171417151716171717181719172017211722172317241725172617271728172917301731173217331734173517361737173817391740174117421743174417451746174717481749175017511752175317541755175617571758175917601761176217631764176517661767176817691770177117721773177417751776177717781779178017811782178317841785178617871788178917901791179217931794179517961797179817991800180118021803180418051806180718081809181018111812181318141815181618171818181918201821182218231824182518261827182818291830183118321833183418351836183718381839184018411842184318441845184618471848184918501851185218531854185518561857185818591860186118621863186418651866186718681869187018711872187318741875187618771878187918801881188218831884188518861887188818891890189118921893189418951896189718981899190019011902190319041905190619071908190919101911191219131914191519161917191819191920192119221923192419251926192719281929193019311932193319341935193619371938193919401941194219431944194519461947194819491950195119521953195419551956195719581959196019611962196319641965196619671968196919701971197219731974197519761977197819791980198119821983198419851986198719881989199019911992199319941995199619971998199920002001200220032004200520062007200820092010201120122013201420152016201720182019202020212022202320242025202620272028202920302031203220332034203520362037203820392040204120422043204420452046204720482049205020512052205320542055205620572058205920602061206220632064206520662067206820692070207120722073207420752076207720782079208020812082208320842085208620872088208920902091209220932094209520962097209820992100210121022103210421052106210721082109211021112112211321142115211621172118211921202121212221232124212521262127212821292130213121322133213421352136213721382139214021412142214321442145214621472148214921502151215221532154215521562157215821592160216121622163216421652166216721682169217021712172217321742175217621772178217921802181218221832184218521862187218821892190219121922193219421952196219721982199220022012202220322042205220622072208220922102211221222132214221522162217221822192220222122222223222422252226222722282229223022312232223322342235223622372238223922402241224222432244224522462247224822492250225122522253225422552256225722582259226022612262226322642265226622672268226922702271227222732274227522762277227822792280228122822283228422852286228722882289229022912292229322942295229622972298229923002301230223032304230523062307230823092310231123122313231423152316231723182319232023212322232323242325232623272328232923302331233223332334233523362337233823392340234123422343234423452346234723482349235023512352235323542355235623572358235923602361236223632364236523662367236823692370237123722373237423752376237723782379238023812382238323842385238623872388238923902391239223932394239523962397239823992400240124022403240424052406240724082409241024112412241324142415241624172418241924202421242224232424242524262427242824292430243124322433243424352436243724382439244024412442244324442445244624472448244924502451245224532454245524562457245824592460246124622463246424652466246724682469247024712472247324742475247624772478247924802481248224832484248524862487248824892490249124922493249424952496249724982499250025012502250325042505250625072508250925102511251225132514251525162517251825192520252125222523252425252526252725282529253025312532253325342535253625372538253925402541254225432544254525462547254825492550255125522553255425552556255725582559256025612562256325642565256625672568256925702571257225732574257525762577257825792580258125822583258425852586258725882589259025912592259325942595259625972598259926002601260226032604260526062607260826092610261126122613261426152616261726182619262026212622262326242625262626272628262926302631263226332634263526362637263826392640264126422643264426452646264726482649265026512652265326542655265626572658265926602661266226632664266526662667266826692670267126722673267426752676267726782679268026812682268326842685268626872688268926902691269226932694269526962697269826992700270127022703270427052706270727082709271027112712271327142715271627172718271927202721272227232724272527262727272827292730273127322733273427352736273727382739274027412742274327442745274627472748274927502751275227532754275527562757275827592760276127622763276427652766276727682769277027712772277327742775277627772778277927802781278227832784278527862787278827892790279127922793279427952796279727982799280028012802280328042805280628072808280928102811281228132814281528162817281828192820282128222823282428252826282728282829283028312832283328342835283628372838283928402841284228432844284528462847284828492850285128522853285428552856285728582859286028612862286328642865286628672868286928702871287228732874287528762877287828792880288128822883288428852886288728882889289028912892289328942895289628972898289929002901290229032904290529062907290829092910291129122913291429152916291729182919292029212922292329242925292629272928292929302931293229332934293529362937293829392940294129422943294429452946294729482949295029512952295329542955295629572958295929602961296229632964296529662967296829692970297129722973297429752976297729782979298029812982298329842985298629872988298929902991299229932994299529962997299829993000300130023003300430053006300730083009301030113012301330143015301630173018301930203021302230233024302530263027302830293030303130323033303430353036303730383039304030413042304330443045304630473048304930503051305230533054305530563057305830593060306130623063306430653066306730683069307030713072307330743075307630773078307930803081308230833084308530863087308830893090309130923093309430953096309730983099310031013102310331043105310631073108310931103111311231133114311531163117311831193120312131223123312431253126312731283129313031313132313331343135313631373138313931403141314231433144314531463147314831493150315131523153315431553156315731583159316031613162316331643165316631673168316931703171317231733174317531763177317831793180318131823183318431853186318731883189319031913192319331943195319631973198319932003201320232033204320532063207320832093210321132123213321432153216321732183219322032213222322332243225322632273228322932303231323232333234323532363237323832393240324132423243324432453246324732483249325032513252325332543255325632573258325932603261326232633264326532663267326832693270327132723273327432753276327732783279328032813282328332843285328632873288328932903291329232933294329532963297329832993300330133023303330433053306330733083309331033113312331333143315331633173318331933203321332233233324332533263327332833293330333133323333333433353336333733383339334033413342334333443345334633473348334933503351335233533354335533563357335833593360336133623363336433653366336733683369337033713372337333743375337633773378337933803381338233833384338533863387338833893390339133923393339433953396339733983399340034013402340334043405340634073408340934103411341234133414341534163417341834193420342134223423342434253426342734283429343034313432343334343435343634373438343934403441344234433444344534463447344834493450345134523453345434553456345734583459346034613462346334643465346634673468346934703471347234733474347534763477347834793480348134823483348434853486348734883489349034913492349334943495349634973498349935003501350235033504350535063507350835093510351135123513351435153516351735183519352035213522352335243525352635273528352935303531353235333534353535363537353835393540354135423543354435453546354735483549355035513552355335543555355635573558355935603561356235633564356535663567356835693570357135723573357435753576357735783579358035813582358335843585358635873588358935903591359235933594359535963597359835993600360136023603360436053606360736083609361036113612361336143615361636173618361936203621362236233624362536263627362836293630363136323633363436353636363736383639364036413642364336443645364636473648364936503651365236533654365536563657365836593660366136623663366436653666366736683669367036713672367336743675367636773678367936803681368236833684368536863687368836893690369136923693369436953696369736983699370037013702370337043705370637073708370937103711371237133714371537163717371837193720372137223723372437253726372737283729373037313732373337343735373637373738373937403741374237433744374537463747374837493750375137523753375437553756375737583759376037613762376337643765376637673768376937703771377237733774377537763777377837793780378137823783 |
- # clm-ins.rb -- CLM instruments translated to Snd/Ruby
-
- # Translator: Michael Scholz <mi-scholz@users.sourceforge.net>
- # Created: 03/09/16 01:27:09
- # Changed: 14/11/28 02:16:54
-
- # Instruments work with
- # with_sound (CLM (sample2file gens) and Snd)
- # with_dac (dac output, except at least for fullmix)
- #
- # Tested with Snd 15.x and Ruby 2.x.x
-
- # pluck reson
- # vox cellon
- # fofins jl_reverb
- # fm_trumpet gran_synth
- # pqw_vox touch_tone
- # stereo_flute spectra
- # fm_bell two_tab
- # fm_insect lbj_piano
- # fm_drum resflt
- # gong scratch
- # attract pins
- # pqw zc
- # tubebell zn
- # wurley za
- # rhodey clm_expsrc exp_snd
- # hammondoid expfil
- # metal graph_eq
- # drone anoi
- # canter fullmix
- # nrev grani
- #
- # class Ssb_fm < Musgen
- # initialize(freq)
- # inspect
- # to_s
- # run_func(val1, val2)
- # ssb_fm(modsig)
-
- # bes_fm(start, dur, freq, amp, ratio, index)
- #
- # make_ssb_fm(freq)
- # ssb_fm?(obj)
- # ssb_fm(gen, modsig)
- #
- # class Fm2 < Musgen
- # initialize(f1, f2, f3, f4, p1, p2, p3, p4)
- # inspect
- # to_s
- # run_func(val1, val2)
- # fm2(index)
- #
- # make_fm2(f1, f2, f3, f4, p1, p2, p3, p4)
- # fm2?(obj)
- # fm2(gen, index)
-
- # comments from clm-ins.scm
-
- $now = 0.0
-
- require "ws"
- require "spectr"
- require "env"
- include Math
- with_silence do
- require "matrix"
- end
-
- def normalize_partials(partials)
- sum = 0.0
- parts = partials.dup
- len = parts.length
- 1.step(len - 1, 2) do |i|
- sum += parts[i].abs
- end
- 1.step(len - 1, 2) do |i|
- parts[i] /= sum
- end
- parts
- end unless defined? normalize_partials
-
- # violin is defined as an example in ws.rb
- def violin_test(start = 0.0, dur = 1.0)
- violin(start, dur, 440, 0.5)
- $now = start + dur + 0.2
- end
-
- require "v"
-
- # fm_violin is defined in v.rb
- def fm_violin_test(start = 0.0, dur = 1.0)
- fm_violin(start, dur, 440, 0.5)
- $now = start + dur + 0.2
- end
-
- # PLUCK
- #
- # The Karplus-Strong algorithm as extended by David Jaffe and Julius
- # Smith -- see Jaffe and Smith, "Extensions of the Karplus-Strong
- # Plucked-String Algorithm" CMJ vol 7 no 2 Summer 1983, reprinted in
- # "The Music Machine". translated from CLM's pluck.ins
- add_help(:pluck,
- "pluck(start, dur, freq, amp, weighting, lossfact) \
- Implements the Jaffe-Smith plucked string physical model.
- WEIGHTING is the ratio of the once-delayed to the twice-delayed samples. \
- It defaults to 0.5=shortest decay.
- Anything other than 0.5 = longer decay. \
- Must be between 0 and less than 1.0.
- LOSSFACT can be used to shorten decays. \
- Most useful values are between 0.8 and 1.0. pluck(0, 1, 330, 0.3, 0.95, 0.95)")
- def pluck(start, dur, freq, amp, weighting = 0.5, lossfact = 0.9)
- get_optimum_c = lambda do |s, o, p|
- pa = (1.0 / o) * atan2(s * sin(o), (1.0 - s) + s * cos(o))
- tmp_int = (p - pa).floor
- pc = p - pa - tmp_int
- until pc >= 0.1
- tmp_int -= 1
- pc += 1.0
- end
- [tmp_int, (sin(o) - sin(o * pc)) / sin(o + o * pc)]
- end
- tune_it = lambda do |f, s1|
- p = @srate / f
- s = s1.zero? ? 0.5 : s1
- o = hz2radians(f)
- t1, c1 = get_optimum_c.call(s, o, p)
- t2, c2 = get_optimum_c.call(1.0 - s, o, p)
- if s != 0.5 and c1.abs < c2.abs
- [1.0 - s, c1, t1]
- else
- [s, c2, t2]
- end
- end
- wt0, c, dlen = tune_it.call(freq, weighting)
- lf = lossfact.zero? ? 1.0 : [1.0, lossfact].min
- wt = wt0.zero? ? 0.5 : [1.0, wt0].min
- tab = make_vct(dlen)
- # get initial waveform in "tab" -- here we can introduce 0's to
- # simulate different pick positions, and so on -- see the CMJ
- # article for numerous extensions. The normal case is to load it
- # with white noise (between -1 and 1).
- allp = make_one_zero(lf * (1.0 - wt), lf * wt)
- feedb = make_one_zero(c, 1.0) # or feedb = make_one_zero(1.0, c)
- dlen.times do |i|
- tab[i] = 1.0 - random(2.0)
- end
- run_instrument(start, dur) do
- val = tab.clm_cycle
- tab[tab.clm_cycle_index] = (1.0 - c) * one_zero(feedb, one_zero(allp, val))
- amp * val
- end
- end
-
- def pluck_test(start = 0.0, dur = 1.0)
- pluck(start, dur, 330, 0.3, 0.95, 0.95)
- $now = start + dur + 0.2
- end
-
- # formant center frequencies for a male speaker (vox and pqw_vox)
- Formants = {
- :I => [390, 1990, 2550], :E => [530, 1840, 2480], :AE => [660, 1720, 2410],
- :UH => [520, 1190, 2390], :A => [730, 1090, 2440], :OW => [570, 840, 2410],
- :U => [440, 1020, 2240], :OO => [300, 870, 2240], :ER => [490, 1350, 1690],
- :W => [300, 610, 2200], :LL => [380, 880, 2575], :R => [420, 1300, 1600],
- :Y => [300, 2200, 3065], :EE => [260, 3500, 3800], :LH => [280, 1450, 1600],
- :L => [300, 1300, 3000], :I2 => [350, 2300, 3340], :B => [200, 800, 1750],
- :D => [300, 1700, 2600], :G => [250, 1350, 2000], :M => [280, 900, 2200],
- :N => [280, 1700, 2600], :NG => [280, 2300, 2750], :P => [300, 800, 1750],
- :T => [200, 1700, 2600], :K => [350, 1350, 2000], :F => [175, 900, 4400],
- :TH => [200, 1400, 2200], :S => [200, 1300, 2500], :SH => [200, 1800, 2000],
- :V => [175, 1100, 2400], :THE => [200, 1600, 2200], :Z => [200, 1300, 2500],
- :ZH => [175, 1800, 2000], :ZZ => [900, 2400, 3800], :VV => [565, 1045, 2400]}
-
- # MLBVOI
- #
- # translation from MUS10 of Marc LeBrun's waveshaping voice instrument
- # (using FM here) this version translated (and simplified slightly)
- # from CLM's mlbvoi.ins
- def vox(start, dur, freq, amp, ampfun, freqfun, freqscl, voxfun, index, vibscl)
- f1 = []
- f2 = []
- f3 = []
- (voxfun.length - 1).step(1, -2) do |i|
- phon = Formants[voxfun[i]]
- x = voxfun[i - 1]
- f1.unshift(phon[0])
- f1.unshift(x)
- f2.unshift(phon[1])
- f2.unshift(x)
- f3.unshift(phon[2])
- f3.unshift(x)
- end
- car_os = make_oscil(:frequency, 0)
- of0 = make_oscil(:frequency, 0)
- of1 = make_oscil(:frequency, 0)
- of2 = make_oscil(:frequency, 0)
- of3 = make_oscil(:frequency, 0)
- of4 = make_oscil(:frequency, 0)
- of5 = make_oscil(:frequency, 0)
- ampf = make_env(:envelope, ampfun, :scaler, amp, :duration, dur)
- frmf1 = make_env(:envelope, f1, :duration, dur)
- frmf2 = make_env(:envelope, f2, :duration, dur)
- frmf3 = make_env(:envelope, f3, :duration, dur)
- freqf = make_env(:envelope, freqfun, :duration, dur, :scaler, freqscl * freq, :offset, freq)
- per_vib = make_triangle_wave(:frequency, 6, :amplitude, freq * vibscl)
- ran_vib = make_rand_interp(:frequency, 20, :amplitude, freq * 0.01)
- run_instrument(start, dur) do
- frq = env(freqf) + triangle_wave(per_vib) + rand_interp(ran_vib)
- car = index * oscil(car_os, hz2radians(frq))
- frm = env(frmf1)
- frm0 = frm / frq.to_f
- frm_int = frm0.floor
- if frm_int.even?
- frq0 = hz2radians(frm_int * frq)
- frq1 = hz2radians((frm_int + 1) * frq)
- amp1 = frm0 - frm_int
- amp0 = 1.0 - amp1
- else
- frq1 = hz2radians(frm_int * frq)
- frq0 = hz2radians((frm_int + 1) * frq)
- amp0 = frm0 - frm_int
- amp1 = 1.0 - amp0
- end
- frm = env(frmf2)
- frm0 = frm / frq.to_f
- frm_int = frm0.floor
- if frm_int.even?
- frq2 = hz2radians(frm_int * frq)
- frq3 = hz2radians((frm_int + 1) * frq)
- amp3 = frm0 - frm_int
- amp2 = 1.0 - amp3
- else
- frq3 = hz2radians(frm_int * frq)
- frq2 = hz2radians((frm_int + 1) * frq)
- amp2 = frm0 - frm_int
- amp3 = 1.0 - amp2
- end
- frm = env(frmf3)
- frm0 = frm / frq.to_f
- frm_int = frm0.floor
- if frm_int.even?
- frq4 = hz2radians(frm_int * frq)
- frq5 = hz2radians((frm_int + 1) * frq)
- amp5 = frm0 - frm_int
- amp4 = 1.0 - amp5
- else
- frq5 = hz2radians(frm_int * frq)
- frq4 = hz2radians((frm_int + 1) * frq)
- amp4 = frm0 - frm_int
- amp5 = 1.0 - amp4
- end
- env(ampf) * (0.8 * (amp0 * oscil(of0, frq0 + 0.2 * car) +
- amp1 * oscil(of1, frq1 + 0.2 * car)) +
- 0.15 * (amp2 * oscil(of2, frq2 + 0.5 * car) +
- amp3 * oscil(of3, frq3 + 0.5 * car)) +
- 0.05 * (amp4 * oscil(of4, frq4 + car) +
- amp5 * oscil(of5, frq5 + car)))
- end
- end
-
- def vox_test(start = 0.0, dur = 1.0)
- amp_env = [0, 0, 25, 1, 75, 1, 100, 0]
- frq_env = [0, 0, 5, 0.5, 10, 0, 100, 1]
- examp1 = [0, :E, 25, :AE, 35, :ER, 65, :ER, 75, :I, 100, :UH]
- examp2 = [0, :I, 5, :OW, 10, :I, 50, :AE, 100, :OO]
-
- $now = start
- vox($now, dur, 170, 0.4, amp_env, frq_env, 0.1, examp1, 0.05, 0.1)
- $now += dur + 0.2
- vox($now, dur, 300, 0.4, amp_env, frq_env, 0.1, examp2, 0.02, 0.1)
- $now += dur + 0.2
- vox($now, 5, 600, 0.4, amp_env, frq_env, 0.1, examp2, 0.01, 0.1)
- $now += 5.0 + 0.2
- end
-
- # FOF example
- add_help(:fofins,
- "fofins(beg, dur, frq, amp, vib, f0, a0, f1, a1, \
- f2, a2, ae=[0, 0, 25, 1, 75, 1, 100, 0]) \
- Produces FOF synthesis: \
- fofins(0, 1, 270, 0.2, 0.001, 730, 0.6, 1090, 0.3, 2440, 0.1)")
- def fofins(start, dur, frq, amp, vib, f0, a0, f1, a1, f2, a2,
- ae = [0, 0, 25, 1, 75, 1, 100,0])
- ampf = make_env(:envelope, ae, :scaler, amp, :duration, dur)
- frq0 = hz2radians(f0)
- frq1 = hz2radians(f1)
- frq2 = hz2radians(f2)
- foflen = @srate == 22050.0 ? 100 : 200
- vibr = make_oscil(:frequency, 6)
- win_freq = TWO_PI / foflen
- wt0 = make_wave_train(:size, foflen, :frequency, frq)
- foftab = mus_data(wt0)
- foflen.times do |i|
- foftab[i] = (a0 * sin(i * frq0) + a1 * sin(i * frq1) +
- a2 * sin(i * frq2)) * 0.5 * (1.0 - cos(i * win_freq))
- end
- run_instrument(start, dur) do
- env(ampf) * wave_train(wt0, vib * oscil(vibr))
- end
- end
-
- def fofins_test(start = 0.0, dur = 1.0)
- fofins(start, dur, 270, 0.2, 0.001, 730, 0.6, 1090, 0.3, 2440, 0.1)
- $now = start + dur + 0.2
- end
-
- # FM TRUMPET
- #
- # Dexter Morrill's FM-trumpet: from CMJ feb 77 p51
- def fm_trumpet(start, dur, *args)
- frq1, frq2, amp1, amp2, ampatt1, ampdec1, ampatt2, ampdec2 = nil
- modfrq1, modind11, modind12, modfrq2, modind21, modind22 = nil
- rvibamp, rvibfrq, vibamp, vibfrq, vibatt, vibdec = nil
- frqskw, frqatt, ampenv1, ampenv2 = nil
- indenv1, indenv2, degree, distance, reverb_amount = nil
- optkey(args, binding,
- [:frq1, 250.0],
- [:frq2, 1500.0],
- [:amp1, 0.5],
- [:amp2, 0.1],
- [:ampatt1, 0.03],
- [:ampdec1, 0.35],
- [:ampatt2, 0.03],
- [:ampdec2, 0.3],
- [:modfrq1, 250.0],
- [:modind11, 0.0],
- [:modind12, 2.66],
- [:modfrq2, 250.0],
- [:modind21, 0.0],
- [:modind22, 1.8],
- [:rvibamp, 0.007],
- [:rvibfrq, 125.0],
- [:vibamp, 0.007],
- [:vibfrq, 7.0],
- [:vibatt, 0.6],
- [:vibdec, 0.2],
- [:frqskw, 0.03],
- [:frqatt, 0.06],
- [:ampenv1, [0, 0, 25, 1, 75, 0.9, 100, 0]],
- [:ampenv2, [0, 0, 25, 1, 75, 0.9, 100, 0]],
- [:indenv1, [0, 0, 25, 1, 75, 0.9, 100, 0]],
- [:indenv2, [0, 0, 25, 1, 75, 0.9, 100, 0]],
- [:degree, 0.0],
- [:distance, 1.0],
- [:reverb_amount, 0.005])
- dur = dur.to_f
- per_vib_f = make_env(:envelope,
- stretch_envelope([0, 1, 25, 0.1, 75, 0, 100, 0],
- 25,
- [100 * (vibatt / dur), 45].min,
- 75,
- [100 * (1.0 - vibdec / dur), 55].max),
- :scaler, vibamp, :duration, dur)
-
- ran_vib = make_rand_interp(:frequency, rvibfrq, :amplitude, rvibamp)
- per_vib = make_oscil(:frequency, vibfrq)
- dec_01 = [75, 100 * (1.0 - 0.01 / dur)].max
- frq_f = make_env(:envelope,
- stretch_envelope([0, 0, 25, 1, 75, 1, 100, 0],
- 25,
- [25, 100 * (frqatt / dur)].min,
- 75,
- dec_01),
- :scaler, frqskw, :duration, dur)
- ampattpt1 = [25, 100 * (ampatt1 / dur)].min
- ampdecpt1 = [75, 100 * (1.0 - ampdec1 / dur)].max
- ampattpt2 = [25, 100 * (ampatt2 / dur)].min
- ampdecpt2 = [75, 100 * (1.0 - ampdec2 / dur)].max
- mod1_f = make_env(:envelope,
- stretch_envelope(indenv1, 25, ampattpt1, 75, dec_01),
- :scaler, modfrq1 * (modind12 - modind11), :duration, dur)
- mod1 = make_oscil(:frequency, 0.0)
- car1 = make_oscil(:frequency, 0.0)
- # set frequency to zero here because it is handled multiplicatively below
- car1_f = make_env(:envelope,
- stretch_envelope(ampenv1, 25, ampattpt1, 75, ampdecpt1),
- :scaler, amp1, :duration, dur)
- mod2_f = make_env(:envelope,
- stretch_envelope(indenv2, 25, ampattpt2, 75, dec_01),
- :scaler, modfrq2 * (modind22 - modind21), :duration, dur)
- mod2 = make_oscil(:frequency, 0.0)
- car2 = make_oscil(:frequency, 0.0)
- car2_f = make_env(:envelope,
- stretch_envelope(ampenv2, 25, ampattpt2, 75, ampdecpt2),
- :scaler, amp2, :duration, dur)
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, reverb_amount) do
- frq_change = hz2radians((1.0 +
- rand_interp(ran_vib)) *
- (1.0 + env(per_vib_f) *
- oscil(per_vib)) *
- (1.0 + env(frq_f)))
- env(car1_f) *
- oscil(car1, frq_change *
- (frq1 + env(mod1_f) * oscil(mod1, modfrq1 * frq_change))) +
- env(car2_f) *
- oscil(car2, frq_change *
- (frq2 + env(mod2_f) * oscil(mod2, modfrq2 * frq_change)))
- end
- end
-
- def fm_trumpet_test(start = 0.0, dur = 1.0)
- fm_trumpet(start, dur)
- $now = start + dur + 0.2
- end
-
- # PQWVOX
- #
- # translation of CLM pqwvox.ins (itself translated from MUS10 of MLB's
- # waveshaping voice instrument (using phase quadrature waveshaping))
- add_help(:pqw_vox,
- "pqw_vox(start, dur, freq, spacing_freq, \
- amp, ampfun, freqfun, freqscl, phonemes, formant_amps, formant_shapes) \
- Produces vocal sounds using phase quadrature waveshaping.")
- def pqw_vox(start, dur, freq, spacing_freq, amp, ampfun, freqfun, freqscl,
- phonemes, formant_amps, formant_shapes)
- vox_fun = lambda do |phons, which, newenv|
- # make an envelope from which entry of phoneme data referred to by phons
- if phons.empty?
- newenv
- else
- vox_fun.call(phons[2..-1],
- which, newenv + [phons[0], Formants[phons[1]][which]])
- end
- end
- car_sin = make_oscil(:frequency, 0.0)
- car_cos = make_oscil(:frequency, 0.0, :initial_phase, HALF_PI)
- frq_ratio = spacing_freq / freq.to_f
- fs = formant_amps.length
- sin_evens = Array.new(fs)
- cos_evens = Array.new(fs)
- sin_odds = Array.new(fs)
- cos_odds = Array.new(fs)
- amps = Array.new(fs)
- frmfs = Array.new(fs)
- sin_coeffs = Array.new(fs)
- cos_coeffs = Array.new(fs)
- ampf = make_env(:envelope, ampfun, :scaler, amp, :duration, dur)
- freqf = make_env(:envelope, freqfun, :scaler, freqscl * freq,
- :duration, dur, :offset, freq)
- per_vib = make_triangle_wave(:frequency, 6.0, :amplitude, freq * 0.1)
- ran_vib = make_rand_interp(:frequency, 20.0, :amplitude, freq * 0.05)
- fs.times do |i|
- sin_evens[i] = make_oscil(:frequency, 0.0)
- sin_odds[i] = make_oscil(:frequency, 0.0)
- cos_evens[i] = make_oscil(:frequency, 0.0, :initial_phase, HALF_PI)
- cos_odds[i] = make_oscil(:frequency, 0.0, :initial_phase, HALF_PI)
- amps[i] = formant_amps[i]
- shape = normalize_partials(formant_shapes[i])
- cos_coeffs[i] = partials2polynomial(shape, 1)
- sin_coeffs[i] = partials2polynomial(shape, 0)
- frmfs[i] = make_env(:envelope, vox_fun.call(phonemes, i, []),
- :duration, dur)
- end
- run_instrument(start, dur) do
- frq = env(freqf) + triangle_wave(per_vib) + rand_interp(ran_vib)
- frqscl = hz2radians(frq * frq_ratio)
- carsin = oscil(car_sin, frqscl)
- carcos = oscil(car_cos, frqscl)
- sum = 0.0
- fs.times do |j|
- frm = env(frmfs[j])
- frm0 = frm / frq
- frm_int = frm0.floor
- if frm_int.even?
- even_freq = hz2radians(frm_int * frq)
- odd_freq = hz2radians((frm_int + 1.0) * frq)
- odd_amp = frm0 - frm_int
- even_amp = 1.0 - odd_amp
- else
- odd_freq = hz2radians(frm_int * frq)
- even_freq = hz2radians((frm_int + 1.0) * frq)
- even_amp = frm0 - frm_int
- odd_amp = 1.0 - even_amp
- end
- fax = polynomial(cos_coeffs[j], carcos)
- yfax = carsin * polynomial(sin_coeffs[j], carcos)
- sum = sum + amps[j] *
- (even_amp * (yfax * oscil(sin_evens[j], even_freq) -
- fax * oscil(cos_evens[j], even_freq)) +
- odd_amp * (yfax * oscil(sin_odds[j], odd_freq) -
- fax * oscil(cos_odds[j], odd_freq)))
- end
- env(ampf) * sum
- end
- end
-
- def pqw_vox_test(start = 0.0, dur = 1.0)
- ampfun = [0, 0, 50, 1, 100, 0]
- freqfun = [0, 0, 100, 0]
- freqramp = [0, 0, 100, 1]
- sh1 = [[1, 1, 2, 0.5],
- [1, 0.5, 2, 0.5, 3, 1],
- [1, 1, 4, 0.5]]
- sh2 = [[1, 1, 2, 0.5],
- [1, 1, 2, 0.5, 3, 0.2, 4, 0.1],
- [1, 1, 3, 0.1, 4, 0.5]]
- sh3 = [[1, 1, 2, 0.5],
- [1, 1, 4, 0.1],
- [1, 1, 2, 0.1, 4, 0.05]]
- sh4 = [[1, 1, 2, 0.5, 3, 0.1, 4, 0.01],
- [1, 1, 4, 0.1],
- [1, 1, 2, 0.1, 4, 0.05]]
-
- $now = start
- pqw_vox($now, dur, 300, 300, 0.5, ampfun, freqfun, 0.0,
- [0, :L, 100, :L], [0.33, 0.33, 0.33], sh1)
- $now += dur + 0.2
- pqw_vox($now, dur, 200, 200, 0.1, ampfun, freqramp, 0.1,
- [0, :UH, 100, :ER], [0.8, 0.15, 0.05], sh2)
- $now += dur + 0.2
- pqw_vox($now, dur, 100, 314, 0.1, ampfun, freqramp, 0.1,
- [0, :UH, 100, :ER], [0.8, 0.15, 0.05], sh2)
- $now += dur + 0.2
- pqw_vox($now, dur, 200, 314, 0.1, ampfun, freqramp, 0.01,
- [0, :UH, 100, :ER], [0.8, 0.15, 0.05], sh3)
- $now += dur + 0.2
- pqw_vox($now, dur, 100, 414, 0.2, ampfun, freqramp, 0.01,
- [0, :OW, 50, :E, 100, :ER], [0.8, 0.15, 0.05], sh4)
- $now += dur + 0.2
- end
-
- # STEREO-FLUTE
- # slightly simplified [MS]
- add_help(:stereo_flute,
- "stereo_flute(start, dur, freq, flow, *key_args)
- :flow_envelope = [0, 1, 100, 1]
- :decay = 0.01
- :noise = 0.0356
- :embouchure_size = 0.5
- :fbk_scl1 = 0.5
- :fbk_scl2 = 0.55
- :out_scl = 1.0
- :a0 = 0.7
- :b1 = -0.3
- :vib_rate = 5
- :vib_amount = 0.03
- :ran_rate = 5
- :ran_amount = 0.03
- is a physical model of a flute: \
- stereo_flute(0, 1, 440, 0.55, :flow_envelope, [0, 0, 1, 1, 2, 1, 3, 0])")
- def stereo_flute(start, dur, freq, flow, *args)
- flow_envelope, decay, noise, embouchure_size = nil
- fbk_scl1, fbk_scl2, out_scl = nil
- a0, b1, vib_rate, vib_amount, ran_rate, ran_amount = nil
- optkey(args, binding,
- [:flow_envelope, [0, 1, 100, 1]],
- [:decay, 0.01], # additional time for instrument to decay
- [:noise, 0.0356],
- [:embouchure_size, 0.5],
- [:fbk_scl1, 0.5], # these two are crucial for good results
- [:fbk_scl2, 0.55],
- [:out_scl, 1.0],
- [:a0, 0.7], # filter coefficients
- [:b1, -0.3],
- [:vib_rate, 5],
- [:vib_amount, 0.03],
- [:ran_rate, 5],
- [:ran_amount, 0.03])
- flowf = make_env(:envelope, flow_envelope, :scaler, flow,
- :length, seconds2samples(dur - decay))
- periodic_vib = make_oscil(:frequency, vib_rate)
- ran_vib = make_rand_interp(:frequency, ran_rate)
- breath = make_rand(:frequency, @srate / 2.0, :amplitude, 1)
- period_samples = (@srate / freq).floor
- embouchure_samples = (embouchure_size * period_samples).floor
- embouchure = make_delay(embouchure_samples, :initial_element, 0.0)
- bore = make_delay(period_samples)
- reflection_lp_filter = make_one_pole(a0, b1)
- out_sig = current_diff = previous_out_sig = previous_dc_blocked_a = 0.0
- run_instrument(start, dur) do
- delay_sig = delay(bore, out_sig)
- emb_sig = delay(embouchure, current_diff)
- current_flow = vib_amount * oscil(periodic_vib) +
- ran_amount * rand_interp(ran_vib) + env(flowf)
- current_diff = (current_flow + noise * current_flow * rand(breath)) +
- fbk_scl1 * delay_sig
- current_exitation = emb_sig - emb_sig * emb_sig * emb_sig
- out_sig = one_pole(reflection_lp_filter,
- current_exitation + fbk_scl2 * delay_sig)
- # NB the DC blocker is not in the cicuit. It is applied to the
- # out_sig but the result is not fed back into the system.
- dc_blocked_a = (out_sig - previous_out_sig) + 0.995 * previous_dc_blocked_a
- previous_out_sig = out_sig
- previous_dc_blocked_a = dc_blocked_a
- out_scl * dc_blocked_a
- end
- end
-
- def flute_test(start = 0.0, dur = 1.0)
- stereo_flute(start, dur, 440, 0.55, :flow_envelope, [0, 0, 1, 1, 2, 1, 3, 0])
- $now = start + dur + 0.2
- end
-
- # FM-BELL
- add_help(:fm_bell,
- "fm_bell(startime, dur, frequency, amplitude, \
- amp-env=[...], index_env=[...], index=1.0) \
- Mixes in one fm bell note." )
- def fm_bell(start, dur, freq, amp,
- amp_env = [0, 0, 0.1, 1, 10, 0.6, 25, 0.3,
- 50, 0.15, 90, 0.1, 100, 0],
- index_env = [0, 1, 2, 1.1, 25, 0.75, 75, 0.5, 100, 0.2],
- index = 1.0)
- fm_ind1 = hz2radians(32.0 * freq)
- fm_ind2 = hz2radians(4.0 * (8.0 - freq / 50.0))
- fm_ind3 = fm_ind2 * 0.705 * (1.4 - freq / 250.0)
- fm_ind4 = hz2radians(32.0 * (20.0 - freq / 20.0))
- mod1 = make_oscil(:frequency, freq * 2.0)
- mod2 = make_oscil(:frequency, freq * 1.41)
- mod3 = make_oscil(:frequency, freq * 2.82)
- mod4 = make_oscil(:frequency, freq * 2.4)
- car1 = make_oscil(:frequency, freq)
- car2 = make_oscil(:frequency, freq)
- car3 = make_oscil(:frequency, freq * 2.4)
- indf = make_env(:envelope, index_env, :scaler, index, :duration, dur)
- ampf = make_env(:envelope, amp_env, :scaler, amp, :duration, dur)
- run_instrument(start, dur) do
- fmenv = env(indf)
- env(ampf) *
- (oscil(car1, fmenv * fm_ind1 * oscil(mod1)) +
- 0.15 *
- oscil(car2, fmenv * (fm_ind2 * oscil(mod2) + fm_ind3 * oscil(mod3))) +
- 0.15 *
- oscil(car3, fmenv * fm_ind4 * oscil(mod4)))
- end
- end
-
- def fm_bell_test(start = 0.0, dur = 1.0)
- fm_bell(start, dur, 440, 0.5)
- $now = start + dur + 0.2
- end
-
- # FM-INSECT
- def fm_insect(start, dur, freq, amp, amp_env,
- mod_freq, mod_skew, mod_freq_env, mod_index, mod_index_env,
- fm_index, fm_ratio, *args)
- degree, distance, reverb_amount = nil
- optkey(args, binding,
- [:degree, 0.0],
- [:distance, 1.0],
- [:reverb_amount, 0.005])
- carrier = make_oscil(:frequency, freq)
- fm1_osc = make_oscil(:frequency, mod_freq)
- fm2_osc = make_oscil(:frequency, fm_ratio * freq)
- ampf = make_env(:envelope, amp_env, :scaler, amp, :duration, dur)
- indf = make_env(:envelope, mod_index_env,
- :scaler, hz2radians(mod_index),
- :duration, dur)
- modfrqf = make_env(:envelope, mod_freq_env,
- :scaler, hz2radians(mod_skew),
- :duration, dur)
- fm2_amp = hz2radians(fm_index * fm_ratio * freq)
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, reverb_amount) do
- garble_in = env(indf) * oscil(fm1_osc, env(modfrqf))
- garble_out = fm2_amp * oscil(fm2_osc, garble_in)
- env(ampf) * oscil(carrier, garble_out + garble_in)
- end
- end
-
- def fm_insect_test(start = 0.0, dur = 1.0)
- locust = [0, 0, 40, 1, 95, 1, 100, 0.5]
- bug_hi = [0, 1, 25, 0.7, 75, 0.78, 100, 1]
- amp = [0, 0, 25, 1, 75, 0.7, 100, 0]
-
- $now = start
- fm_insect($now + 0.000, 1.699, 4142.627, 0.015, amp, 60, -16.707,
- locust, 500.866, bug_hi, 0.346, 0.5)
- fm_insect($now + 0.195, 0.233, 4126.284, 0.030, amp, 60, -12.142,
- locust, 649.490, bug_hi, 0.407, 0.5)
- fm_insect($now + 0.217, 2.057, 3930.258, 0.045, amp, 60, -3.011,
- locust, 562.087, bug_hi, 0.591, 0.5)
- fm_insect($now + 2.100, 1.500, 900.627, 0.060, amp, 40, -16.707,
- locust, 300.866, bug_hi, 0.346, 0.5)
- fm_insect($now + 3.000, 1.500, 900.627, 0.060, amp, 40, -16.707,
- locust, 300.866, bug_hi, 0.046, 0.5)
- fm_insect($now + 3.450, 1.500, 900.627, 0.090, amp, 40, -16.707,
- locust, 300.866, bug_hi, 0.006, 0.5)
- fm_insect($now + 3.950, 1.500, 900.627, 0.120, amp, 40, -10.707,
- locust, 300.866, bug_hi, 0.346, 0.5)
- fm_insect($now + 4.300, 1.500, 900.627, 0.090, amp, 40, -20.707,
- locust, 300.866, bug_hi, 0.246, 0.5)
- $now += 6.0
- end
-
- # FM-DRUM
- #
- # Jan Mattox's fm drum:
- def fm_drum(start, dur, freq, amp, index, high = false,
- degree = 0.0, distance = 1.0, rev_amount = 0.01)
- casrat = high ? 8.525 : 3.515
- fmrat = high ? 3.414 : 1.414
- glsf = make_env(:envelope, [0, 0, 25, 0, 75, 1, 100, 1],
- :scaler, high ? hz2radians(66) : 0.0, :duration, dur)
- ampfun = [0, 0, 3, 0.05, 5, 0.2, 7, 0.8, 8, 0.95,
- 10, 1.0, 12, 0.95, 20, 0.3, 30, 0.1, 100, 0]
- atdrpt = 100 * (high ? 0.01 : 0.015) / dur
- ampf = make_env(:envelope,
- stretch_envelope(ampfun, 10, atdrpt, 15,
- [atdrpt + 1,
- 100 - 100 * ((dur - 0.2) / dur)].max),
- :scaler, amp, :duration, dur)
- indxfun = [0, 0, 5, 0.014, 10, 0.033, 15, 0.061, 20, 0.099,
- 25, 0.153, 30, 0.228, 35, 0.332, 40, 0.477,
- 45, 0.681, 50, 0.964, 55, 0.681, 60, 0.478, 65, 0.332,
- 70, 0.228, 75, 0.153, 80, 0.099, 85, 0.061,
- 90, 0.033, 95, 0.0141, 100, 0]
- indxpt = 100 - 100 * ((dur - 0.1) / dur)
- divindxf = stretch_envelope(indxfun, 50, atdrpt, 65, indxpt)
- indxf = make_env(:envelope, divindxf, :duration, dur,
- :scaler, [hz2radians(index * fmrat * freq), PI].min)
- mindxf = make_env(:envelope, divindxf, :duration, dur,
- :scaler, [hz2radians(index * casrat * freq), PI].min)
- devf = make_env(:envelope,
- stretch_envelope(ampfun, 10, atdrpt, 90,
- [atdrpt + 1,
- 100 - 100 * ((dur - 0.05) / dur)].max),
- :scaler, [hz2radians(7000), PI].min, :duration, dur)
- rn = make_rand(:frequency, 7000, :amplitude, 1)
- carrier = make_oscil(:frequency, freq)
- fmosc = make_oscil(:frequency, freq * fmrat)
- cascade = make_oscil(:frequency, freq * casrat)
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, rev_amount) do
- gls = env(glsf)
- env(ampf) *
- oscil(carrier,
- gls +
- env(indxf) *
- oscil(fmosc,
- gls * fmrat +
- env(mindxf) * oscil(cascade,
- gls * casrat +
- env(devf) * rand(rn))))
- end
- end
-
- def fm_drum_test(start = 0.0, dur = 1.0)
- $now = start
- fm_drum($now, dur, 55, 0.3, 5, false)
- $now += dur + 0.2
- fm_drum($now, dur, 66, 0.3, 4, true)
- $now += dur + 0.2
- end
-
- # FM-GONG
- #
- # Paul Weineke's gong.
- def gong(start, dur, freq, amp, *args)
- degree, distance, reverb_amount = nil
- optkey(args, binding,
- [:degree, 0.0],
- [:distance, 1.0],
- [:reverb_amount, 0.005])
- mfq1 = freq * 1.16
- mfq2 = freq * 3.14
- mfq3 = freq * 1.005
- indx01 = hz2radians(0.01 * mfq1)
- indx11 = hz2radians(0.30 * mfq1)
- indx02 = hz2radians(0.01 * mfq2)
- indx12 = hz2radians(0.38 * mfq2)
- indx03 = hz2radians(0.01 * mfq3)
- indx13 = hz2radians(0.50 * mfq3)
- atpt = 5
- atdur = 100 * (0.002 / dur)
- expf = [0, 0, 3, 1, 15, 0.5, 27, 0.25, 50, 0.1, 100, 0]
- rise = [0, 0, 15, 0.3, 30, 1.0, 75, 0.5, 100, 0]
- fmup = [0, 0, 75, 1.0, 98, 1.0, 100, 0]
- fmdwn = [0, 0, 2, 1.0, 100, 0]
- ampfun = make_env(:envelope, stretch_envelope(expf, atpt, atdur),
- :scaler, amp, :duration, dur)
- indxfun1 = make_env(:envelope, fmup, :scaler, indx11 - indx01,
- :duration, dur, :offset, indx01)
- indxfun2 = make_env(:envelope, fmdwn, :scaler, indx12 - indx02,
- :duration, dur, :offset, indx02)
- indxfun3 = make_env(:envelope, rise, :scaler, indx13 - indx03,
- :duration, dur, :offset, indx03)
- carrier = make_oscil(:frequency, freq)
- mod1 = make_oscil(:frequency, mfq1)
- mod2 = make_oscil(:frequency, mfq2)
- mod3 = make_oscil(:frequency, mfq3)
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, reverb_amount) do
- env(ampfun) *
- oscil(carrier,
- env(indxfun1) * oscil(mod1) +
- env(indxfun2) * oscil(mod2) +
- env(indxfun3) * oscil(mod3))
- end
- end
-
- def gong_test(start = 0.0, dur = 1.0)
- gong(start, dur, 261.61, 0.6)
- $now = start + dur + 0.2
- end
-
- # ATTRACT
- #
- # by James McCartney, from CMJ vol 21 no 3 p 6
- def attract(start, dur, amp, c)
- a = b = 0.2
- dt = 0.04
- scale = (0.5 * amp) / c
- x = -1.0
- y = z = 0.0
- run_instrument(start, dur) do
- x1 = x - dt * (y + z)
- y = y + dt * (x + a * y)
- z = z + dt * ((b + x * z) - c * z)
- x = x1
- scale * x
- end
- end
-
- def attract_test(start = 0.0, dur = 1.0)
- attract(start, dur, 0.5, 2.0)
- $now = start + dur + 0.2
- end
-
- # PQW
- #
- # phase-quadrature waveshaping used to create asymmetric (i.e. single
- # side-band) spectra. The basic idea here is a variant of sin x sin y
- # - cos x cos y = cos (x + y)
- def pqw(start, dur, spacing_freq, carrier_freq,
- amp, ampfun, indexfun, partials, *args)
- degree, distance, reverb_amount = nil
- optkey(args, binding,
- [:degree, 0.0],
- [:distance, 1.0],
- [:reverb_amount, 0.005])
- normalized_partials = normalize_partials(partials)
- spacing_cos = make_oscil(:frequency, spacing_freq, :initial_phase, HALF_PI)
- spacing_sin = make_oscil(:frequency, spacing_freq)
- carrier_cos = make_oscil(:frequency, carrier_freq, :initial_phase, HALF_PI)
- carrier_sin = make_oscil(:frequency, carrier_freq)
- sin_coeffs = partials2polynomial(normalized_partials, 0)
- cos_coeffs = partials2polynomial(normalized_partials, 1)
- amp_env = make_env(:envelope, ampfun, :scaler, amp, :duration, dur)
- ind_env = make_env(:envelope, indexfun, :duration, dur)
- r = carrier_freq / spacing_freq.to_f
- tr = make_triangle_wave(:frequency, 5,
- :amplitude, hz2radians(0.005 * spacing_freq))
- rn = make_rand_interp(:frequency, 12,
- :amplitude, hz2radians(0.005 * spacing_freq))
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, reverb_amount) do
- vib = triangle_wave(tr) + rand_interp(rn)
- ax = [1.0, env(ind_env)].min * oscil(spacing_cos, vib)
- fax = polynomial(cos_coeffs, ax)
- yfax = oscil(spacing_sin, vib) * polynomial(sin_coeffs, ax)
- env(amp_env) *
- (oscil(carrier_sin, vib * r) * yfax -
- oscil(carrier_cos, vib * r) * fax)
- end
- end
-
- def pqw_test(start = 0.0, dur = 1.0)
- pqw(start, dur, 200, 1000, 0.2,
- [0, 0, 25, 1, 100, 0], [0, 1, 100, 0], [2, 0.1, 3, 0.3, 6, 0.5])
- $now = start + dur + 0.2
- # to see the asymmetric spectrum most clearly, set the index function
- # above to [0, 1, 100, 1]
- end
-
- # taken from Perry Cook's stkv1.tar.Z (Synthesis Toolkit), but I was
- # in a bit of a hurry and may not have made slavishly accurate
- # translations. Please let me (bil@ccrma.stanford.edu) know of any
- # serious (non-envelope) errors.
- #
- # from Perry Cook's TubeBell.cpp
- def tubebell(start, dur, freq, amp, base = 32.0)
- osc0 = make_oscil(freq * 0.995)
- osc1 = make_oscil(freq * 0.995 * 1.414)
- osc2 = make_oscil(freq * 1.005)
- osc3 = make_oscil(freq * 1.414)
- ampenv1 = make_env(:envelope, [0, 0, 0.005, 1, dur, 0],
- :base, base, :duration, dur)
- ampenv2 = make_env(:envelope, [0, 0, 0.001, 1, dur, 0],
- :base, 2 * base, :duration, dur)
- ampmod = make_oscil(:frequency, 2.0)
- g0 = 0.5 * amp * 0.707
- g1 = 0.203
- g2 = 0.5 * amp
- g3 = 0.144
- run_instrument(start, dur) do
- (0.007 *
- oscil(ampmod) + 0.993) *
- (g0 * env(ampenv1) * oscil(osc0, g1 * oscil(osc1)) +
- g2 * env(ampenv2) * oscil(osc2, g3 * oscil(osc3)))
- end
- end
-
- def tubebell_test(start = 0.0, dur = 1.0)
- tubebell(start, dur, 440, 0.2, 32)
- $now = start + dur + 0.2
- end
-
- # from Perry Cook's Wurley.cpp
- def wurley(start, dur, freq, amp)
- osc0 = make_oscil(freq)
- osc1 = make_oscil(freq * 4.0)
- osc2 = make_oscil(510.0)
- osc3 = make_oscil(510.0)
- ampmod = make_oscil(:frequency, 8.0)
- g0 = 0.5 * amp
- g1 = 0.307
- g2 = 0.5 * amp * 0.307
- g3 = 0.117
- dur = [dur, 0.3].max
- ampenv = make_env(:envelope, [0, 0, 1, 1, 9, 1, 10, 0], :duration, dur)
- indenv = make_env(:envelope, [0, 0, 0.001, 1, 0.15, 0, dur, 0],
- :duration, dur)
- resenv = make_env(:envelope, [0, 0, 0.001, 1, 0.25, 0, dur, 0],
- :duration, dur)
- run_instrument(start, dur) do
- env(ampenv) *
- (1.0 + 0.007 * oscil(ampmod)) *
- (g0 * oscil(osc0, g1 * oscil(osc1)) +
- env(resenv) * g2 * oscil(osc2, g3 * env(indenv) * oscil(osc3)))
- end
- end
-
- def wurley_test(start = 0.0, dur = 1.0)
- wurley(start, dur, 440, 0.2)
- $now = start + dur + 0.2
- end
-
- # from Perry Cook's Rhodey.cpp
- def rhodey(start, dur, freq, amp, base = 0.5)
- osc0 = make_oscil(freq)
- osc1 = make_oscil(freq * 0.5)
- osc2 = make_oscil(freq)
- osc3 = make_oscil(freq * 15.0)
- dur = [dur, 0.3].max
- ampenv1 = make_env(:envelope, [0, 0, 0.005, 1, dur, 0],
- :base, base, :duration, dur)
- ampenv2 = make_env(:envelope, [0, 0, 0.001, 1, dur, 0],
- :base, base * 1.5, :duration, dur)
- ampenv3 = make_env(:envelope, [0, 0, 0.001, 1, 0.25, 0, dur, 0],
- :base, base * 4, :duration, dur)
- g0 = 0.5 * amp
- g1 = 0.535
- g2 = 0.5 * amp
- g3 = 0.109
- run_instrument(start, dur) do
- g0 * env(ampenv1) * oscil(osc0, g1 * oscil(osc1)) +
- g2 * env(ampenv2) * oscil(osc2, env(ampenv3) * g3 * oscil(osc3))
- end
- end
-
- def rhodey_test(start = 0.0, dur = 1.0)
- rhodey(start, dur, 440, 0.2, 0.5)
- $now = start + dur + 0.2
- end
-
- # from Perry Cook's BeeThree.cpp
- def hammondoid(start, dur, freq, amp)
- osc0 = make_oscil(freq * 0.999)
- osc1 = make_oscil(freq * 1.997)
- osc2 = make_oscil(freq * 3.006)
- osc3 = make_oscil(freq * 6.009)
- dur = [dur, 0.1].max
- ampenv1 = make_env(:envelope, [0, 0, 0.005, 1, dur - 0.008, 1, dur, 0],
- :duration, dur)
- ampenv2 = make_env(:envelope, [0, 0, 0.005, 1, dur, 0], :duration, dur)
- g0 = 0.25 * 0.75 * amp
- g1 = 0.25 * 0.75 * amp
- g2 = 0.5 * amp
- g3 = 0.5 * 0.75 * amp
- run_instrument(start, dur) do
- env(ampenv1) *
- (g0 * oscil(osc0) +
- g1 * oscil(osc1) +
- g2 * oscil(osc2)) +
- env(ampenv2) * g3 * oscil(osc3)
- end
- end
-
- def hammondoid_test(start = 0.0, dur = 1.0)
- hammondoid(start, dur, 440, 0.2)
- $now = start + dur + 0.2
- end
-
- # from Perry Cook's HeavyMtl.cpp
- def metal(start, dur, freq, amp)
- osc0 = make_oscil(freq)
- osc1 = make_oscil(freq * 4.0 * 0.999)
- osc2 = make_oscil(freq * 3.0 * 1.001)
- osc3 = make_oscil(freq * 0.5 * 1.002)
- dur = [dur, 0.1].max
- ampenv0 = make_env(:envelope, [0, 0, 0.001, 1, dur - 0.002, 1, dur, 0],
- :duration, dur)
- ampenv1 = make_env(:envelope, [0, 0, 0.001, 1, dur - 0.011, 1, dur, 0],
- :duration, dur)
- ampenv2 = make_env(:envelope, [0, 0, 0.01, 1, dur - 0.015, 1, dur, 0],
- :duration, dur)
- ampenv3 = make_env(:envelope, [0, 0, 0.03, 1, dur - 0.04, 1, dur, 0],
- :duration, dur)
- g0 = 0.615 * amp
- g1 = 0.202
- g2 = 0.574
- g3 = 0.116
- run_instrument(start, dur) do
- g0 *
- env(ampenv0) *
- oscil(osc0,
- g1 * env(ampenv1) * oscil(osc1, g2 * env(ampenv2) * oscil(osc2)) +
- g3 * env(ampenv3) * oscil(osc3))
- end
- end
-
- def metal_test(start = 0.0, dur = 1.0)
- metal(start, dur, 440, 0.2)
- $now = start + dur + 0.2
- end
-
- # DRONE
- def drone(start, dur, freq, amp, ampfun, synth,
- ampat, ampdc, amtrev, deg, dis, rvibamt, rvibfreq)
- waveform = partials2wave(synth)
- amp *= 0.25
- s = make_table_lookup(:frequency, freq, :wave, waveform)
- amp_env = make_env(:envelope,
- stretch_envelope(ampfun, 25, 100 * (ampat / dur.to_f), 75,
- 100 - 100 * (ampdc / dur.to_f)),
- :scaler, amp, :duration, dur)
- ran_vib = make_rand(:frequency, rvibfreq,
- :amplitude, hz2radians(rvibamt * freq))
- run_instrument(start, dur,
- :distance, dis,
- :degree, deg,
- :reverb_amount, amtrev) do
- env(amp_env) * table_lookup(s, rand(ran_vib).abs)
- end
- end
-
- # CANTER
- def canter(start, dur, pitch, amp, deg, dis, pcrev,
- ampfun, ranfun, skewfun, skewpc,
- ranpc, ranfreq, indexfun, atdr, dcdr,
- ampfun1, indfun1, fmtfun1,
- ampfun2, indfun2, fmtfun2,
- ampfun3, indfun3, fmtfun3,
- ampfun4, indfun4, fmtfun4)
- amp *= 0.25
- dur = dur.to_f
- pitch = pitch.to_f
- rangetop = 910.0
- rangebot = 400.0
- k = (100 * (log(pitch / rangebot) / log(rangetop / rangebot))).floor
- mfq = pitch
- atpt = 100 * (atdr / dur)
- dcpt = 100 - 100 * (dcdr / dur)
- lfmt1 = envelope_interp(k, fmtfun1)
- harm1 = (0.5 + lfmt1 / pitch).floor
- dev11 = hz2radians(envelope_interp(k, indfun1) * mfq)
- dev01 = dev11 * 0.5
- lamp1 = envelope_interp(k, ampfun1) * amp * (1 - (harm1 - lfmt1 / pitch).abs)
- lfmt2 = envelope_interp(k, fmtfun2)
- harm2 = (0.5 + lfmt2 / pitch).floor
- dev12 = hz2radians(envelope_interp(k, indfun2) * mfq)
- dev02 = dev12 * 0.5
- lamp2 = envelope_interp(k, ampfun2) * amp * (1 - (harm2 - lfmt2 / pitch).abs)
- lfmt3 = envelope_interp(k, fmtfun3)
- harm3 = (0.5 + lfmt3 / pitch).floor
- dev13 = hz2radians(envelope_interp(k, indfun3) * mfq)
- dev03 = dev13 * 0.5
- lamp3 = envelope_interp(k, ampfun3) * amp * (1 - (harm3 - lfmt3 / pitch).abs)
- lfmt4 = envelope_interp(k, fmtfun4)
- harm4 = (0.5 + lfmt4 / pitch).floor
- dev14 = hz2radians(envelope_interp(k, indfun4) * mfq)
- dev04 = dev14 * 0.5
- lamp4 = envelope_interp(k, ampfun4) * amp * (1 - (harm4 - lfmt4 / pitch).abs)
- tampfun = make_env(:envelope, stretch_envelope(ampfun, 25, atpt, 75, dcpt),
- :duration, dur)
- tskwfun = make_env(:envelope, stretch_envelope(skewfun, 25, atpt, 75, dcpt),
- :scaler, hz2radians(pitch * skewpc.to_f), :duration, dur)
- tranfun = make_env(:envelope, stretch_envelope(ranfun, 25, atpt, 75, dcpt),
- :duration, dur)
- tidxfun = make_env(:envelope, stretch_envelope(indexfun, 25, atpt, 75, dcpt),
- :duration, dur)
- modgen = make_oscil(:frequency, pitch)
- gen1 = make_oscil(:frequency, pitch * harm1)
- gen2 = make_oscil(:frequency, pitch * harm2)
- gen3 = make_oscil(:frequency, pitch * harm3)
- gen4 = make_oscil(:frequency, pitch * harm4)
- ranvib = make_rand(:frequency, ranfreq, :amplitude, hz2radians(ranpc * pitch))
- run_instrument(start, dur,
- :degree, deg,
- :distance, dis,
- :reverb_amount, pcrev) do
- frqval = env(tskwfun) + env(tranfun) * rand(ranvib)
- modval = oscil(modgen, frqval)
- ampval = env(tampfun)
- indval = env(tidxfun)
- lamp1 *
- ampval *
- oscil(gen1, ((dev01 + indval * dev11) * modval + frqval) * harm1) +
- lamp2 *
- ampval *
- oscil(gen2, ((dev02 + indval * dev12) * modval + frqval) * harm2) +
- lamp3 *
- ampval *
- oscil(gen3, ((dev03 + indval * dev13) * modval + frqval) * harm3) +
- lamp4 *
- ampval *
- oscil(gen4, ((dev04 + indval * dev14) * modval + frqval) * harm4)
- end
- end
-
- # NREV (the most popular Samson box reverb)
- #
- # reverb_factor controls the length of the decay -- it should not
- # exceed (/ 1.0 .823)
- # lp_coeff controls the strength of the low pass filter inserted
- # in the feedback loop
- # volume can be used to boost the reverb output
- def nrev(*args)
- reverb_factor, lp_coeff, volume = nil
- optkey(args, binding,
- [:reverb_factor, 1.09],
- [:lp_coeff, 0.7],
- [:volume, 1.0])
- next_prime = lambda do |val|
- if val.prime?
- val
- else
- next_prime.call(val + 2)
- end
- end
- srscale = @srate / 25641
- dly_len = [1433, 1601, 1867, 2053, 2251, 2399,
- 347, 113, 37, 59, 53, 43, 37, 29, 19]
- dly_len.map! do |x|
- val = (x * srscale).round
- val += 1 if val.even?
- next_prime.call(val)
- end
- comb1 = make_comb(0.822 * reverb_factor, dly_len[0])
- comb2 = make_comb(0.802 * reverb_factor, dly_len[1])
- comb3 = make_comb(0.773 * reverb_factor, dly_len[2])
- comb4 = make_comb(0.753 * reverb_factor, dly_len[3])
- comb5 = make_comb(0.753 * reverb_factor, dly_len[4])
- comb6 = make_comb(0.733 * reverb_factor, dly_len[5])
- low = make_one_pole(lp_coeff, lp_coeff - 1.0)
- chan2 = (@channels > 1)
- chan4 = (@channels == 4)
- allpass1 = make_all_pass(-0.7, 0.7, dly_len[6])
- allpass2 = make_all_pass(-0.7, 0.7, dly_len[7])
- allpass3 = make_all_pass(-0.7, 0.7, dly_len[8])
- allpass4 = make_all_pass(-0.7, 0.7, dly_len[9]) # 10 for quad
- allpass5 = make_all_pass(-0.7, 0.7, dly_len[11])
- allpass6 = (chan2 ? make_all_pass(-0.7, 0.7, dly_len[12]) : nil)
- allpass7 = (chan4 ? make_all_pass(-0.7, 0.7, dly_len[13]) : nil)
- allpass8 = (chan4 ? make_all_pass(-0.7, 0.7, dly_len[14]) : nil)
- out_frample = Vct.new(@channels, 0.0)
- run_reverb() do |val, i|
- rev = volume * val
- outrev = all_pass(allpass4,
- one_pole(low,
- all_pass(allpass3,
- all_pass(allpass2,
- all_pass(allpass1,
- comb(comb1, rev) +
- comb(comb2, rev) +
- comb(comb3, rev) +
- comb(comb4, rev) +
- comb(comb5, rev) +
- comb(comb6, rev))))))
- out_frample[0] = all_pass(allpass5, outrev)
- if chan2
- out_frample[1] = all_pass(allpass6, outrev)
- end
- if chan4
- out_frample[2] = all_pass(allpass7, outrev)
- out_frample[3] = all_pass(allpass8, outrev)
- end
- out_frample
- end
- end
-
- def drone_canter_test(start = 0.0, dur = 1.0)
- fmt1 = [0, 1200, 100, 1000]
- fmt2 = [0, 2250, 100, 1800]
- fmt3 = [0, 4500, 100, 4500]
- fmt4 = [0, 6750, 100, 8100]
- amp1 = [0, 0.67, 100, 0.7]
- amp2 = [0, 0.95, 100, 0.95]
- amp3 = [0, 0.28, 100, 0.33]
- amp4 = [0, 0.14, 100, 0.15]
- ind1 = [0, 0.75, 100, 0.65]
- ind2 = [0, 0.75, 100, 0.75]
- ind3 = [0, 1, 100, 1]
- ind4 = [0, 1, 100, 1]
- skwf = [0, 0, 100, 0]
- ampf = [0, 0, 25, 1, 75, 1, 100, 0]
- ranf = [0, 0.5, 100, 0.5]
- index = [0, 1, 100, 1]
- solid = [0, 0, 5, 1, 95, 1, 100, 0]
- bassdr2 = [0.5, 0.06, 1, 0.62, 1.5, 0.07, 2, 0.6, 2.5, 0.08, 3, 0.56,
- 4, 0.24, 5, 0.98, 6, 0.53, 7, 0.16, 8, 0.33, 9, 0.62, 10, 0.12,
- 12, 0.14, 14, 0.86, 16, 0.12, 23, 0.14, 24, 0.17]
- tenordr = [0.3, 0.04, 1, 0.81, 2, 0.27, 3, 0.2, 4, 0.21, 5, 0.18,
- 6, 0.35, 7, 0.03, 8, 0.07, 9, 0.02, 10, 0.025, 11, 0.035]
-
- $now = start
- drone($now, 4, 115, 0.125, solid, bassdr2, 0.1, 0.5, 0.03, 45, 1, 0.01, 10)
- drone($now, 4, 229, 0.125, solid, tenordr, 0.1, 0.5, 0.03, 45, 1, 0.01, 11)
- drone($now, 4, 229.5, 0.125, solid, tenordr, 0.1, 0.5, 0.03, 45, 1, 0.01, 9)
- canter($now, 2.100, 918.000, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 2.100, 0.300, 688.500, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 2.400, 0.040, 826.200, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 2.440, 0.560, 459.000, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.000, 0.040, 408.000, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.040, 0.040, 619.650, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.080, 0.040, 408.000, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.120, 0.040, 688.500, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.160, 0.290, 459.000, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.450, 0.150, 516.375, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.600, 0.040, 826.200, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.640, 0.040, 573.750, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.680, 0.040, 619.650, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.720, 0.180, 573.750, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.900, 0.040, 688.500, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- canter($now + 3.940, 0.260, 459.000, 0.175, 45.0, 1, 0.05,
- ampf, ranf, skwf, 0.050, 0.01, 10, index, 0.005, 0.005,
- amp1, ind1, fmt1, amp2, ind2, fmt2, amp3, ind3, fmt3, amp4, ind4, fmt4)
- $now += 4.4
- end
-
- # RESON
- def reson(start, dur, pitch, amp, numformants,
- indxfun, skewfun, pcskew, skewat, skewdc,
- vibfreq, vibpc, ranvibfreq, ranvibpc,
- degree, distance, rev_amount, data)
- # data is a list of lists of form
- # [ampf, resonfrq, resonamp, ampat, ampdc, dev0, dev1, indxat, indxdc]
- dur = dur.to_f
- pitch = pitch.to_f
- modulator = make_oscil(:frequency, pitch)
- carriers = Array.new(numformants)
- ampfs = Array.new(numformants)
- indfs = Array.new(numformants)
- c_rats = Array.new(numformants)
- frqf = make_env(:envelope,
- stretch_envelope(skewfun, 25, 100 * (skewat / dur), 75,
- 100 - (100 * (skewdc / dur))),
- :scaler, hz2radians(pcskew * pitch), :duration, dur)
- pervib = make_triangle_wave(:frequency, vibfreq,
- :amplitude, hz2radians(vibpc * pitch))
- ranvib = make_rand_interp(:frequency, ranvibfreq,
- :amplitude, hz2radians(ranvibpc * pitch))
- totalamp = 0.0
- numformants.times do |i|
- totalamp += data[i][2]
- end
- numformants.times do |i|
- frmdat = data[i]
- ampf = frmdat[0]
- freq = frmdat[1]
- rfamp = frmdat[2]
- ampat = 100 * (frmdat[3] / dur)
- ampdc = 100 - 100 * (frmdat[4] / dur)
- dev0 = hz2radians(frmdat[5] * freq)
- dev1 = hz2radians(frmdat[6] * freq)
- indxat = 100 * (frmdat[7] / dur)
- indxdc = 100 - 100 * (frmdat[8] / dur)
- harm = (freq / pitch).round
- rsamp = 1.0 - (harm - freq / pitch).abs
- cfq = pitch * harm
- ampat = 25 if ampat.zero?
- ampdc = 75 if ampdc.zero?
- indxat = 25 if indxat.zero?
- indxdc = 75 if indxdc.zero?
- indfs[i] = make_env(:envelope,
- stretch_envelope(indxfun, 25, indxat, 75, indxdc),
- :scaler, dev1 - dev0,
- :offset, dev0,
- :duration, dur)
- ampfs[i] = make_env(:envelope,
- stretch_envelope(ampf, 25, ampat, 75, ampdc),
- :scaler, rsamp * amp * (rfamp / totalamp),
- :duration, dur)
- c_rats[i] = harm
- carriers[i] = make_oscil(:frequency, cfq)
- end
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, rev_amount) do
- vib = triangle_wave(pervib) + rand_interp(ranvib) + env(frqf)
- modsig = oscil(modulator, vib)
- outsum = 0.0
- numformants.times do |j|
- outsum += env(ampfs[j]) *
- oscil(carriers[j],
- vib * c_rats[j] +
- env(indfs[j]) * modsig)
- end
- outsum
- end
- end
-
- def reson_test(start = 0.0, dur = 1.0)
- data = [[[0, 0, 100, 1], 1200, 0.5, 0.1, 0.1, 0, 1.0, 0.1, 0.1],
- [[0, 1, 100, 0], 2400, 0.5, 0.1, 0.1, 0, 1.0, 0.1, 0.1]]
-
- reson(start, dur, 440, 0.5, 2, [0, 0, 100, 1], [0, 0, 100, 1],
- 0.1, 0.1, 0.1, 5, 0.01, 5, 0.01, 0, 1.0, 0.01, data)
- $now = start + dur + 0.2
- end
-
- # STK's feedback-fm instrument named CelloN in Sambox-land
- def cellon(start, dur, pitch0, amp, ampfun, betafun,
- beta0, beta1, betaat, betadc, ampat, ampdc, dis, pcrev, deg, pitch1,
- glissfun = [0, 0, 100, 0], glissat = 0.0, glissdc = 0.0,
- pvibfreq = 0.0, pvibpc = 0.0,
- pvibfun = [0, 1, 100, 1], pvibat = 0.0, pvibdc = 0.0,
- rvibfreq = 0.0, rvibpc = 0.0, rvibfun = [0, 1, 100, 1])
-
- pit1 = pitch1.zero? ? pitch0 : pitch1
- car = make_oscil(:frequency, pitch0)
- low = make_one_zero(0.5, -0.5)
- fmosc = make_oscil(:frequency, pitch0)
- fm = 0.0
- dur = dur.to_f
- pitch0 = pitch0.to_f
- pvib = make_triangle_wave(:frequency, pvibfreq, :amplitude, 1.0)
- rvib = make_rand_interp(:frequency, rvibfreq, :amplitude, 1.0)
- ampap = (ampat > 0.0 ? (100 * (ampat / dur)) : 25)
- ampdp = (ampdc > 0.0 ? (100 * (1.0 - ampdc / dur)) : 75)
- glsap = (glissat > 0.0 ? (100 * (glissat / dur)) : 25)
- glsdp = (glissdc > 0.0 ? (100 * (1.0 - glissdc / dur)) : 75)
- betap = (betaat > 0.0 ? (100 * (betaat / dur)) : 25)
- betdp = (betadc > 0.0 ? (100 * (1.0 - betadc / dur)) : 75)
- pvbap = (pvibat > 0.0 ? (100 * (pvibat / dur)) : 25)
- pvbdp = (pvibdc > 0.0 ? (100 * (1.0 - pvibdc / dur)) : 75)
- pvibenv = make_env(:envelope,
- stretch_envelope(pvibfun, 25, pvbap, 75, pvbdp),
- :scaler, hz2radians(pvibpc * pitch0),
- :duration, dur)
- rvibenv = make_env(:envelope, stretch_envelope(rvibfun),
- :duration, dur,
- :scaler, hz2radians(rvibpc * pitch0))
- glisenv = make_env(:envelope,
- stretch_envelope(glissfun, 25, glsap, 75, glsdp),
- :scaler, hz2radians(pit1 - pitch0),
- :duration, dur)
- amplenv = make_env(:envelope, stretch_envelope(ampfun, 25, ampap, 75, ampdp),
- :scaler, amp,
- :duration, dur)
- betaenv = make_env(:envelope, stretch_envelope(betafun, 25, betap, 75, betdp),
- :scaler, beta1 - beta0,
- :offset, beta0,
- :duration, dur)
- run_instrument(start, dur,
- :degree, deg,
- :distance, dis,
- :reverb_amount, pcrev) do
- vib = env(pvibenv) * triangle_wave(pvib) +
- env(rvibenv) * rand_interp(rvib) +
- env(glisenv)
- fm = one_zero(low, env(betaenv) * oscil(fmosc, fm + vib))
- env(amplenv) * oscil(car, fm + vib)
- end
- end
-
- def cellon_test(start = 0.0, dur = 1.0)
- cellon(start, dur, 220, 0.5,
- [0, 0, 25, 1, 75, 1, 100, 0], # ampfun
- [0, 0, 25, 1, 75, 1, 100, 0], # betafun
- 0.75, 1.0, 0, 0, 0, 0, 1, 0, 0, 220,
- [0, 0, 25, 1, 75, 1, 100, 0], # glissfun
- 0, 0, 0, 0,
- [0, 0, 100, 0], # pvibfun
- 0, 0, 0, 0,
- [0, 0, 100, 0]) # rvibfun
- $now = start + dur + 0.2
- end
-
- # JL-REVERB
- def jl_reverb(*args)
- allpass1 = make_all_pass(-0.7, 0.7, 2111)
- allpass2 = make_all_pass(-0.7, 0.7, 673)
- allpass3 = make_all_pass(-0.7, 0.7, 223)
- comb1 = make_comb(0.742, 9601)
- comb2 = make_comb(0.733, 10007)
- comb3 = make_comb(0.715, 10799)
- comb4 = make_comb(0.697, 11597)
- outdel1 = make_delay((0.013 * @srate).round)
- outdel2 = (@channels > 1 ? make_delay((0.011 * @srate).round) : false)
- out_frample = Vct.new(@channels, 0.0)
- run_reverb() do |ho, i|
- allpass_sum = all_pass(allpass3, all_pass(allpass2, all_pass(allpass1, ho)))
- comb_sum = (comb(comb1, allpass_sum) + comb(comb2, allpass_sum) +
- comb(comb3, allpass_sum) + comb(comb4, allpass_sum))
- out_frample[0] = delay(outdel1, comb_sum)
- if outdel2
- out_frample[1] = delay(outdel2, comb_sum)
- end
- out_frample
- end
- end
-
- # GRAN-SYNTH
- def gran_synth(start, dur, freq, grain_dur, interval, amp)
- grain_env = make_env(:envelope, [0, 0, 25, 1, 75, 1, 100, 0],
- :duration, grain_dur)
- carrier = make_oscil(:frequency, freq)
- grain_size = ([grain_dur, interval].max * @srate).ceil
- grains = make_wave_train(:size, grain_size, :frequency, 1.0 / interval)
- grain = mus_data(grains)
- grain_size.times do |i|
- grain[i] = env(grain_env) * oscil(carrier)
- end
- run_instrument(start, dur) do
- amp * wave_train(grains)
- end
- end
-
- def gran_synth_test(start = 0.0, dur = 1.0)
- gran_synth(start, dur, 100, 0.0189, 0.02, 0.4)
- $now = start + dur + 0.2
- end
-
- # TOUCH-TONE
- def touch_tone(start, number)
- touch_tab_1 = [0, 697, 697, 697, 770, 770, 770, 852, 852, 852, 941, 941, 941]
- touch_tab_2 = [0, 1209, 1336, 1477, 1209, 1336,
- 1477, 1209, 1336, 1477, 1209, 1336, 1477]
- number.length.times do |i|
- k = number[i]
- ii = if k.kind_of?(Numeric)
- k.zero? ? 11 : k
- else
- k == ?* ? 10 : 12
- end
- frq1 = make_oscil(:frequency, touch_tab_1[ii])
- frq2 = make_oscil(:frequency, touch_tab_2[ii])
- run_instrument(start + i * 0.3, 0.2) do
- 0.25 * (oscil(frq1) + oscil(frq2))
- end
- end
- end
-
- def touch_tone_test(start = 0.0, dur = 1.0)
- touch_tone(start, [4, 8, 3, 4, 6, 2, 1])
- $now = start + dur * 7 + 0.2 # 7 digits
- end
-
- # SPECTRA
- def spectra(start, dur, freq, amp,
- partials = [1, 1, 2, 0.5],
- amp_envelope = [0, 0, 50, 1, 100, 0],
- vibrato_amplitude = 0.005,
- vibrato_speed = 5.0,
- degree = 0.0,
- distance = 1.0,
- rev_amount = 0.005)
- waveform = partials2wave(partials)
- frq = hz2radians(freq)
- s = make_table_lookup(:frequency, freq, :wave, waveform)
- amp_env = make_env(:envelope, amp_envelope, :scaler, amp, :duration, dur)
- per_vib = make_triangle_wave(:frequency, vibrato_speed,
- :amplitude, vibrato_amplitude * frq)
- ran_vib = make_rand_interp(:frequency, vibrato_speed + 1.0,
- :amplitude, vibrato_amplitude * frq)
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, rev_amount) do
- env(amp_env) *
- table_lookup(s, triangle_wave(per_vib) + rand_interp(ran_vib))
- end
- end
-
- def spectra_test(start = 0.0, dur = 1.0)
- spectra(start, dur, 440.0, 0.8, P_a4,
- [0, 0, 1, 1, 5, 0.9, 12, 0.5, 25, 0.25, 100, 0])
- $now = start + dur + 0.2
- end
-
- # TWO-TAB
- #
- # interpolate between two waveforms (this could be extended to
- # implement all the various wavetable-based synthesis techniques).
- def two_tab(start, dur, freq, amp,
- partial_1 = [1.0, 1.0, 2.0, 0.5],
- partial_2 = [1.0, 0.0, 3.0, 1.0],
- amp_envelope = [0, 0, 50, 1, 100, 0],
- interp_func = [0, 1, 100, 0],
- vibrato_amplitude = 0.005,
- vibrato_speed = 5.0,
- degree = 0.0,
- distance = 1.0,
- rev_amount = 0.005)
- waveform_1 = partials2wave(partial_1)
- waveform_2 = partials2wave(partial_2)
- frq = hz2radians(freq)
- s_1 = make_table_lookup(:frequency, freq, :wave, waveform_1)
- s_2 = make_table_lookup(:frequency, freq, :wave, waveform_2)
- amp_env = make_env(:envelope, amp_envelope, :scaler, amp, :duration, dur)
- interp_env = make_env(:envelope, interp_func, :duration, dur)
- per_vib = make_triangle_wave(:frequency, vibrato_speed,
- :amplitude, vibrato_amplitude * frq)
- ran_vib = make_rand_interp(:frequency, vibrato_speed + 1.0,
- :amplitude, vibrato_amplitude * frq)
- run_instrument(start, dur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, rev_amount) do
- vib = triangle_wave(per_vib) + rand_interp(ran_vib)
- intrp = env(interp_env)
- env(amp_env) *
- (intrp * table_lookup(s_1, vib) +
- (1.0 - intrp) * table_lookup(s_2, vib))
- end
- end
-
- def two_tab_test(start = 0.0, dur = 1.0)
- two_tab(start, dur, 440, 0.5)
- $now = start + dur + 0.2
- end
-
- # LBJ-PIANO
- $clm_piano_attack_duration = 0.04
- $clm_piano_release_duration = 0.2
- $clm_db_drop_per_second = -10.0
-
- Piano_Spectra = [[1.97, 0.0326, 2.99, 0.0086, 3.95, 0.0163, 4.97,
- 0.0178, 5.98, 0.0177, 6.95, 0.0315, 8.02, 0.0001, 8.94, 0.0076,
- 9.96, 0.0134, 10.99, 0.0284, 11.98, 0.0229, 13.02, 0.0229, 13.89,
- 0.0010, 15.06, 0.0090, 16.00, 0.0003, 17.08, 0.0078, 18.16, 0.0064,
- 19.18, 0.0129, 20.21, 0.0085, 21.27, 0.0225, 22.32, 0.0061, 23.41,
- 0.0102, 24.48, 0.0005, 25.56, 0.0016, 26.64, 0.0018, 27.70, 0.0113,
- 28.80, 0.0111, 29.91, 0.0158, 31.06, 0.0093, 32.17, 0.0017, 33.32,
- 0.0002, 34.42, 0.0018, 35.59, 0.0027, 36.74, 0.0055, 37.90, 0.0037,
- 39.06, 0.0064, 40.25, 0.0033, 41.47, 0.0014, 42.53, 0.0004, 43.89,
- 0.0010, 45.12, 0.0039, 46.33, 0.0039, 47.64, 0.0009, 48.88, 0.0016,
- 50.13, 0.0006, 51.37, 0.0010, 52.70, 0.0002, 54.00, 0.0004, 55.30,
- 0.0008, 56.60, 0.0025, 57.96, 0.0010, 59.30, 0.0012, 60.67, 0.0011,
- 61.99, 0.0003, 62.86, 0.0001, 64.36, 0.0005, 64.86, 0.0001, 66.26,
- 0.0004, 67.70, 0.0006, 68.94, 0.0002, 70.10, 0.0001, 70.58, 0.0002,
- 72.01, 0.0007, 73.53, 0.0006, 75.00, 0.0002, 77.03, 0.0005, 78.00,
- 0.0002, 79.57, 0.0006, 81.16, 0.0005, 82.70, 0.0005, 84.22, 0.0003,
- 85.41, 0.0002, 87.46, 0.0001, 90.30, 0.0001, 94.02, 0.0001, 95.26,
- 0.0002, 109.39, 0.0003],
- [1.98, 0.0194, 2.99, 0.0210, 3.97, 0.0276, 4.96, 0.0297, 5.96, 0.0158,
- 6.99, 0.0207, 8.01, 0.0009, 9.00, 0.0101, 10.00, 0.0297, 11.01,
- 0.0289, 12.02, 0.0211, 13.04, 0.0127, 14.07, 0.0061, 15.08, 0.0174,
- 16.13, 0.0009, 17.12, 0.0093, 18.16, 0.0117, 19.21, 0.0122, 20.29,
- 0.0108, 21.30, 0.0077, 22.38, 0.0132, 23.46, 0.0073, 24.14, 0.0002,
- 25.58, 0.0026, 26.69, 0.0035, 27.77, 0.0053, 28.88, 0.0024, 30.08,
- 0.0027, 31.13, 0.0075, 32.24, 0.0027, 33.36, 0.0004, 34.42, 0.0004,
- 35.64, 0.0019, 36.78, 0.0037, 38.10, 0.0009, 39.11, 0.0027, 40.32,
- 0.0010, 41.51, 0.0013, 42.66, 0.0019, 43.87, 0.0007, 45.13, 0.0017,
- 46.35, 0.0019, 47.65, 0.0021, 48.89, 0.0014, 50.18, 0.0023, 51.42,
- 0.0015, 52.73, 0.0002, 54.00, 0.0005, 55.34, 0.0006, 56.60, 0.0010,
- 57.96, 0.0016, 58.86, 0.0005, 59.30, 0.0004, 60.75, 0.0005, 62.22,
- 0.0003, 63.55, 0.0005, 64.82, 0.0003, 66.24, 0.0003, 67.63, 0.0011,
- 69.09, 0.0007, 70.52, 0.0004, 72.00, 0.0005, 73.50, 0.0008, 74.95,
- 0.0003, 77.13, 0.0013, 78.02, 0.0002, 79.48, 0.0004, 82.59, 0.0004,
- 84.10, 0.0003],
- [2.00, 0.0313, 2.99, 0.0109, 4.00, 0.0215, 5.00, 0.0242, 5.98, 0.0355,
- 7.01, 0.0132, 8.01, 0.0009, 9.01, 0.0071, 10.00, 0.0258, 11.03,
- 0.0221, 12.02, 0.0056, 13.06, 0.0196, 14.05, 0.0160, 15.11, 0.0107,
- 16.11, 0.0003, 17.14, 0.0111, 18.21, 0.0085, 19.23, 0.0010, 20.28,
- 0.0048, 21.31, 0.0128, 22.36, 0.0051, 23.41, 0.0041, 24.05, 0.0006,
- 25.54, 0.0019, 26.62, 0.0028, 27.72, 0.0034, 28.82, 0.0062, 29.89,
- 0.0039, 30.98, 0.0058, 32.08, 0.0011, 33.21, 0.0002, 34.37, 0.0008,
- 35.46, 0.0018, 36.62, 0.0036, 37.77, 0.0018, 38.92, 0.0042, 40.07,
- 0.0037, 41.23, 0.0011, 42.67, 0.0003, 43.65, 0.0018, 44.68, 0.0025,
- 45.99, 0.0044, 47.21, 0.0051, 48.40, 0.0044, 49.67, 0.0005, 50.88,
- 0.0019, 52.15, 0.0003, 53.42, 0.0008, 54.69, 0.0010, 55.98, 0.0005,
- 57.26, 0.0013, 58.53, 0.0027, 59.83, 0.0011, 61.21, 0.0027, 62.54,
- 0.0003, 63.78, 0.0003, 65.20, 0.0001, 66.60, 0.0006, 67.98, 0.0008,
- 69.37, 0.0019, 70.73, 0.0007, 72.14, 0.0004, 73.62, 0.0002, 74.40,
- 0.0003, 76.52, 0.0006, 77.97, 0.0002, 79.49, 0.0004, 80.77, 0.0003,
- 81.00, 0.0001, 82.47, 0.0005, 83.97, 0.0001, 87.27, 0.0002],
- [2.00, 0.0257, 2.99, 0.0142, 3.97, 0.0202, 4.95, 0.0148, 5.95, 0.0420,
- 6.95, 0.0037, 7.94, 0.0004, 8.94, 0.0172, 9.95, 0.0191, 10.96, 0.0115,
- 11.97, 0.0059, 12.98, 0.0140, 14.00, 0.0178, 15.03, 0.0121, 16.09,
- 0.0002, 17.07, 0.0066, 18.08, 0.0033, 19.15, 0.0022, 20.18, 0.0057,
- 21.22, 0.0077, 22.29, 0.0037, 23.33, 0.0066, 24.97, 0.0002, 25.49,
- 0.0019, 26.55, 0.0042, 27.61, 0.0043, 28.73, 0.0038, 29.81, 0.0084,
- 30.91, 0.0040, 32.03, 0.0025, 33.14, 0.0005, 34.26, 0.0003, 35.38,
- 0.0019, 36.56, 0.0037, 37.68, 0.0049, 38.86, 0.0036, 40.11, 0.0011,
- 41.28, 0.0008, 42.50, 0.0004, 43.60, 0.0002, 44.74, 0.0022, 45.99,
- 0.0050, 47.20, 0.0009, 48.40, 0.0036, 49.68, 0.0004, 50.92, 0.0009,
- 52.17, 0.0005, 53.46, 0.0007, 54.76, 0.0006, 56.06, 0.0005, 57.34,
- 0.0011, 58.67, 0.0005, 59.95, 0.0015, 61.37, 0.0008, 62.72, 0.0004,
- 65.42, 0.0009, 66.96, 0.0003, 68.18, 0.0003, 69.78, 0.0003, 71.21,
- 0.0004, 72.45, 0.0002, 74.22, 0.0003, 75.44, 0.0001, 76.53, 0.0003,
- 78.31, 0.0004, 79.83, 0.0003, 80.16, 0.0001, 81.33, 0.0003, 82.44,
- 0.0001, 83.17, 0.0002, 84.81, 0.0003, 85.97, 0.0003, 89.08, 0.0001,
- 90.70, 0.0002, 92.30, 0.0002, 95.59, 0.0002, 97.22, 0.0003, 98.86,
- 0.0001, 108.37, 0.0001, 125.54, 0.0001],
- [1.99, 0.0650, 3.03, 0.0040, 4.03, 0.0059, 5.02, 0.0090, 5.97, 0.0227,
- 6.98, 0.0050, 8.04, 0.0020, 9.00, 0.0082, 9.96, 0.0078, 11.01, 0.0056,
- 12.01, 0.0095, 13.02, 0.0050, 14.04, 0.0093, 15.08, 0.0064, 16.14,
- 0.0017, 17.06, 0.0020, 18.10, 0.0025, 19.14, 0.0023, 20.18, 0.0015,
- 21.24, 0.0032, 22.29, 0.0029, 23.32, 0.0014, 24.37, 0.0005, 25.43,
- 0.0030, 26.50, 0.0022, 27.60, 0.0027, 28.64, 0.0024, 29.76, 0.0035,
- 30.81, 0.0136, 31.96, 0.0025, 33.02, 0.0003, 34.13, 0.0005, 35.25,
- 0.0007, 36.40, 0.0014, 37.51, 0.0020, 38.64, 0.0012, 39.80, 0.0019,
- 40.97, 0.0004, 42.09, 0.0003, 43.24, 0.0003, 44.48, 0.0002, 45.65,
- 0.0024, 46.86, 0.0005, 48.07, 0.0013, 49.27, 0.0008, 50.49, 0.0006,
- 52.95, 0.0001, 54.23, 0.0005, 55.45, 0.0004, 56.73, 0.0001, 58.03,
- 0.0003, 59.29, 0.0002, 60.59, 0.0003, 62.04, 0.0002, 65.89, 0.0002,
- 67.23, 0.0002, 68.61, 0.0002, 69.97, 0.0004, 71.36, 0.0005, 85.42,
- 0.0001],
- [1.98, 0.0256, 2.96, 0.0158, 3.95, 0.0310, 4.94, 0.0411, 5.95, 0.0238,
- 6.94, 0.0152, 7.93, 0.0011, 8.95, 0.0185, 9.92, 0.0166, 10.93, 0.0306,
- 11.94, 0.0258, 12.96, 0.0202, 13.97, 0.0403, 14.95, 0.0228, 15.93,
- 0.0005, 17.01, 0.0072, 18.02, 0.0034, 19.06, 0.0028, 20.08, 0.0124,
- 21.13, 0.0137, 22.16, 0.0102, 23.19, 0.0058, 23.90, 0.0013, 25.30,
- 0.0039, 26.36, 0.0039, 27.41, 0.0025, 28.47, 0.0071, 29.64, 0.0031,
- 30.60, 0.0027, 31.71, 0.0021, 32.84, 0.0003, 33.82, 0.0002, 35.07,
- 0.0019, 36.09, 0.0054, 37.20, 0.0038, 38.33, 0.0024, 39.47, 0.0055,
- 40.55, 0.0016, 41.77, 0.0006, 42.95, 0.0002, 43.27, 0.0018, 44.03,
- 0.0006, 45.25, 0.0019, 46.36, 0.0033, 47.50, 0.0024, 48.87, 0.0012,
- 50.03, 0.0016, 51.09, 0.0004, 53.52, 0.0017, 54.74, 0.0012, 56.17,
- 0.0003, 57.40, 0.0011, 58.42, 0.0020, 59.70, 0.0007, 61.29, 0.0008,
- 62.56, 0.0003, 63.48, 0.0002, 64.83, 0.0002, 66.12, 0.0012, 67.46,
- 0.0017, 68.81, 0.0003, 69.13, 0.0003, 70.53, 0.0002, 71.84, 0.0001,
- 73.28, 0.0002, 75.52, 0.0010, 76.96, 0.0005, 77.93, 0.0003, 78.32,
- 0.0003, 79.73, 0.0003, 81.69, 0.0002, 82.52, 0.0001, 84.01, 0.0001,
- 84.61, 0.0002, 86.88, 0.0001, 88.36, 0.0002, 89.85, 0.0002, 91.35,
- 0.0003, 92.86, 0.0002, 93.40, 0.0001, 105.28, 0.0002, 106.22, 0.0002,
- 107.45, 0.0001, 108.70, 0.0003, 122.08, 0.0002],
- [1.97, 0.0264, 2.97, 0.0211, 3.98, 0.0234, 4.98, 0.0307, 5.96, 0.0085,
- 6.94, 0.0140, 7.93, 0.0005, 8.96, 0.0112, 9.96, 0.0209, 10.98, 0.0194,
- 11.98, 0.0154, 12.99, 0.0274, 13.99, 0.0127, 15.01, 0.0101, 15.99,
- 0.0002, 17.04, 0.0011, 18.08, 0.0032, 19.14, 0.0028, 20.12, 0.0054,
- 21.20, 0.0053, 22.13, 0.0028, 23.22, 0.0030, 24.32, 0.0006, 25.24,
- 0.0004, 26.43, 0.0028, 27.53, 0.0048, 28.52, 0.0039, 29.54, 0.0047,
- 30.73, 0.0044, 31.82, 0.0007, 32.94, 0.0008, 34.04, 0.0012, 35.13,
- 0.0018, 36.29, 0.0007, 37.35, 0.0075, 38.51, 0.0045, 39.66, 0.0014,
- 40.90, 0.0004, 41.90, 0.0002, 43.08, 0.0002, 44.24, 0.0017, 45.36,
- 0.0013, 46.68, 0.0020, 47.79, 0.0015, 48.98, 0.0010, 50.21, 0.0012,
- 51.34, 0.0001, 53.82, 0.0003, 55.09, 0.0004, 56.23, 0.0005, 57.53,
- 0.0004, 58.79, 0.0005, 59.30, 0.0002, 60.03, 0.0002, 61.40, 0.0003,
- 62.84, 0.0001, 66.64, 0.0001, 67.97, 0.0001, 69.33, 0.0001, 70.68,
- 0.0001, 73.57, 0.0002, 75.76, 0.0002, 76.45, 0.0001, 79.27, 0.0001,
- 80.44, 0.0002, 81.87, 0.0002],
- [2.00, 0.0311, 2.99, 0.0086, 3.99, 0.0266, 4.97, 0.0123, 5.98, 0.0235,
- 6.97, 0.0161, 7.97, 0.0008, 8.96, 0.0088, 9.96, 0.0621, 10.99, 0.0080,
- 11.99, 0.0034, 12.99, 0.0300, 14.03, 0.0228, 15.04, 0.0105, 16.03,
- 0.0004, 17.06, 0.0036, 18.09, 0.0094, 18.95, 0.0009, 20.17, 0.0071,
- 21.21, 0.0161, 22.25, 0.0106, 23.28, 0.0104, 24.33, 0.0008, 25.38,
- 0.0030, 26.46, 0.0035, 27.50, 0.0026, 28.59, 0.0028, 29.66, 0.0128,
- 30.75, 0.0139, 31.81, 0.0038, 32.93, 0.0006, 34.04, 0.0004, 35.16,
- 0.0005, 36.25, 0.0023, 37.35, 0.0012, 38.46, 0.0021, 39.59, 0.0035,
- 40.71, 0.0006, 41.86, 0.0007, 42.42, 0.0001, 43.46, 0.0003, 44.17,
- 0.0032, 45.29, 0.0013, 46.57, 0.0004, 47.72, 0.0011, 48.79, 0.0005,
- 50.11, 0.0005, 51.29, 0.0003, 52.47, 0.0002, 53.68, 0.0004, 55.02,
- 0.0005, 56.18, 0.0003, 57.41, 0.0003, 58.75, 0.0007, 59.33, 0.0009,
- 60.00, 0.0004, 61.34, 0.0001, 64.97, 0.0003, 65.20, 0.0002, 66.48,
- 0.0002, 67.83, 0.0002, 68.90, 0.0003, 70.25, 0.0003, 71.59, 0.0002,
- 73.68, 0.0001, 75.92, 0.0001, 77.08, 0.0002, 78.45, 0.0002, 81.56,
- 0.0002, 82.99, 0.0001, 88.39, 0.0001],
- [0.97, 0.0059, 1.98, 0.0212, 2.99, 0.0153, 3.99, 0.0227, 4.96, 0.0215,
- 5.97, 0.0153, 6.98, 0.0085, 7.98, 0.0007, 8.97, 0.0179, 9.98, 0.0512,
- 10.98, 0.0322, 12.00, 0.0098, 13.02, 0.0186, 14.00, 0.0099, 15.05,
- 0.0109, 15.88, 0.0011, 17.07, 0.0076, 18.11, 0.0071, 19.12, 0.0045,
- 20.16, 0.0038, 21.23, 0.0213, 22.27, 0.0332, 23.34, 0.0082, 24.34,
- 0.0014, 25.42, 0.0024, 26.47, 0.0012, 27.54, 0.0014, 28.60, 0.0024,
- 29.72, 0.0026, 30.10, 0.0008, 31.91, 0.0021, 32.13, 0.0011, 33.02,
- 0.0007, 34.09, 0.0014, 35.17, 0.0007, 36.27, 0.0024, 37.39, 0.0029,
- 38.58, 0.0014, 39.65, 0.0017, 40.95, 0.0012, 41.97, 0.0004, 42.43,
- 0.0002, 43.49, 0.0001, 44.31, 0.0012, 45.42, 0.0031, 46.62, 0.0017,
- 47.82, 0.0013, 49.14, 0.0013, 50.18, 0.0010, 51.54, 0.0003, 53.90,
- 0.0006, 55.06, 0.0010, 56.31, 0.0003, 57.63, 0.0001, 59.02, 0.0003,
- 60.09, 0.0004, 60.35, 0.0004, 61.62, 0.0009, 63.97, 0.0001, 65.19,
- 0.0001, 65.54, 0.0002, 66.92, 0.0002, 67.94, 0.0002, 69.17, 0.0003,
- 69.60, 0.0004, 70.88, 0.0002, 72.24, 0.0002, 76.12, 0.0001, 78.94,
- 0.0001, 81.75, 0.0001, 82.06, 0.0001, 83.53, 0.0001, 90.29, 0.0002,
- 91.75, 0.0001, 92.09, 0.0002, 93.28, 0.0001, 97.07, 0.0001],
- [1.98, 0.0159, 2.98, 0.1008, 3.98, 0.0365, 4.98, 0.0133, 5.97, 0.0101,
- 6.97, 0.0115, 7.97, 0.0007, 8.99, 0.0349, 10.01, 0.0342, 11.01,
- 0.0236, 12.00, 0.0041, 13.02, 0.0114, 14.05, 0.0137, 15.06, 0.0100,
- 16.05, 0.0007, 17.04, 0.0009, 18.12, 0.0077, 19.15, 0.0023, 20.12,
- 0.0017, 21.24, 0.0113, 22.26, 0.0126, 23.30, 0.0093, 24.36, 0.0007,
- 25.43, 0.0007, 26.47, 0.0009, 27.55, 0.0013, 28.59, 0.0025, 29.61,
- 0.0010, 30.77, 0.0021, 31.86, 0.0023, 32.96, 0.0003, 34.03, 0.0007,
- 35.06, 0.0005, 36.20, 0.0006, 37.34, 0.0006, 38.36, 0.0009, 39.60,
- 0.0016, 40.69, 0.0005, 41.77, 0.0002, 42.92, 0.0002, 44.02, 0.0003,
- 45.24, 0.0006, 46.33, 0.0004, 47.50, 0.0007, 48.71, 0.0007, 49.87,
- 0.0002, 51.27, 0.0002, 53.42, 0.0003, 55.88, 0.0003, 57.10, 0.0004,
- 58.34, 0.0002, 59.86, 0.0003, 61.13, 0.0003, 67.18, 0.0001, 68.50,
- 0.0001, 71.17, 0.0001, 83.91, 0.0001, 90.55, 0.0001],
- [0.98, 0.0099, 2.00, 0.0181, 2.99, 0.0353, 3.98, 0.0285, 4.97, 0.0514,
- 5.96, 0.0402, 6.96, 0.0015, 7.98, 0.0012, 8.98, 0.0175, 9.98, 0.0264,
- 10.98, 0.0392, 11.98, 0.0236, 13.00, 0.0153, 14.04, 0.0049, 15.00,
- 0.0089, 16.01, 0.0001, 17.03, 0.0106, 18.03, 0.0028, 19.05, 0.0024,
- 20.08, 0.0040, 21.11, 0.0103, 22.12, 0.0104, 23.20, 0.0017, 24.19,
- 0.0008, 25.20, 0.0007, 26.24, 0.0011, 27.36, 0.0009, 27.97, 0.0030,
- 29.40, 0.0044, 30.37, 0.0019, 31.59, 0.0017, 32.65, 0.0008, 33.59,
- 0.0005, 34.79, 0.0009, 35.75, 0.0027, 36.88, 0.0035, 37.93, 0.0039,
- 39.00, 0.0031, 40.08, 0.0025, 41.16, 0.0010, 43.25, 0.0004, 44.52,
- 0.0012, 45.62, 0.0023, 45.85, 0.0012, 47.00, 0.0006, 47.87, 0.0008,
- 48.99, 0.0003, 50.48, 0.0003, 51.62, 0.0001, 52.43, 0.0001, 53.56,
- 0.0002, 54.76, 0.0002, 56.04, 0.0002, 56.68, 0.0006, 57.10, 0.0003,
- 58.28, 0.0005, 59.47, 0.0003, 59.96, 0.0002, 60.67, 0.0001, 63.08,
- 0.0002, 64.29, 0.0002, 66.72, 0.0001, 67.97, 0.0001, 68.65, 0.0001,
- 70.43, 0.0001, 79.38, 0.0001, 80.39, 0.0001, 82.39, 0.0001],
- [1.00, 0.0765, 1.99, 0.0151, 2.99, 0.0500, 3.99, 0.0197, 5.00, 0.0260,
- 6.00, 0.0145, 6.98, 0.0128, 7.97, 0.0004, 8.98, 0.0158, 9.99, 0.0265,
- 11.02, 0.0290, 12.02, 0.0053, 13.03, 0.0242, 14.03, 0.0103, 15.06,
- 0.0054, 16.04, 0.0006, 17.08, 0.0008, 18.10, 0.0058, 19.16, 0.0011,
- 20.16, 0.0055, 21.18, 0.0040, 22.20, 0.0019, 23.22, 0.0014, 24.05,
- 0.0005, 25.31, 0.0019, 26.38, 0.0018, 27.44, 0.0022, 28.45, 0.0024,
- 29.57, 0.0073, 30.58, 0.0032, 31.66, 0.0071, 32.73, 0.0015, 33.85,
- 0.0005, 34.96, 0.0003, 36.00, 0.0020, 37.11, 0.0018, 38.18, 0.0055,
- 39.23, 0.0006, 40.33, 0.0004, 41.52, 0.0003, 43.41, 0.0028, 45.05,
- 0.0003, 45.99, 0.0002, 47.07, 0.0003, 48.52, 0.0002, 49.48, 0.0003,
- 50.63, 0.0003, 51.81, 0.0002, 54.05, 0.0002, 55.24, 0.0001, 56.62,
- 0.0001, 57.81, 0.0004, 59.16, 0.0013, 60.23, 0.0003, 66.44, 0.0001,
- 68.99, 0.0004, 75.49, 0.0001, 87.56, 0.0004],
- [0.98, 0.0629, 1.99, 0.0232, 2.98, 0.0217, 4.00, 0.0396, 4.98, 0.0171,
- 5.97, 0.0098, 6.99, 0.0167, 7.99, 0.0003, 8.98, 0.0192, 9.98, 0.0266,
- 10.99, 0.0256, 12.01, 0.0061, 13.02, 0.0135, 14.02, 0.0062, 15.05,
- 0.0158, 16.06, 0.0018, 17.08, 0.0101, 18.09, 0.0053, 19.11, 0.0074,
- 20.13, 0.0020, 21.17, 0.0052, 22.22, 0.0077, 23.24, 0.0035, 24.00,
- 0.0009, 25.32, 0.0016, 26.40, 0.0022, 27.43, 0.0005, 28.55, 0.0026,
- 29.60, 0.0026, 30.65, 0.0010, 31.67, 0.0019, 32.77, 0.0008, 33.81,
- 0.0003, 34.91, 0.0003, 36.01, 0.0005, 37.11, 0.0010, 38.20, 0.0014,
- 39.29, 0.0039, 40.43, 0.0012, 41.50, 0.0006, 43.38, 0.0017, 43.75,
- 0.0002, 44.94, 0.0005, 46.13, 0.0002, 47.11, 0.0003, 48.28, 0.0005,
- 48.42, 0.0005, 49.44, 0.0003, 50.76, 0.0004, 51.93, 0.0002, 54.15,
- 0.0003, 55.31, 0.0005, 55.50, 0.0003, 56.98, 0.0003, 57.90, 0.0004,
- 60.33, 0.0002, 61.39, 0.0001, 61.59, 0.0001, 65.09, 0.0002, 66.34,
- 0.0001, 68.85, 0.0001, 70.42, 0.0002, 71.72, 0.0001, 73.05, 0.0003,
- 79.65, 0.0001, 85.28, 0.0002, 93.52, 0.0001],
- [1.02, 0.0185, 1.99, 0.0525, 2.98, 0.0613, 3.99, 0.0415, 4.98, 0.0109,
- 5.97, 0.0248, 6.99, 0.0102, 7.98, 0.0005, 8.98, 0.0124, 9.99, 0.0103,
- 10.99, 0.0124, 12.00, 0.0016, 13.01, 0.0029, 14.03, 0.0211, 15.04,
- 0.0128, 16.07, 0.0021, 17.09, 0.0009, 18.09, 0.0043, 19.14, 0.0022,
- 20.13, 0.0016, 21.20, 0.0045, 22.21, 0.0088, 23.26, 0.0046, 24.29,
- 0.0013, 25.35, 0.0009, 26.39, 0.0028, 27.49, 0.0009, 28.51, 0.0006,
- 29.58, 0.0012, 30.70, 0.0010, 31.74, 0.0019, 32.75, 0.0002, 33.85,
- 0.0001, 34.95, 0.0005, 36.02, 0.0003, 37.16, 0.0009, 38.25, 0.0018,
- 39.35, 0.0008, 40.54, 0.0004, 41.61, 0.0002, 43.40, 0.0004, 43.74,
- 0.0003, 45.05, 0.0001, 46.11, 0.0003, 47.40, 0.0002, 48.36, 0.0004,
- 49.55, 0.0004, 50.72, 0.0002, 52.00, 0.0001, 55.58, 0.0002, 57.02,
- 0.0001, 57.98, 0.0002, 59.13, 0.0003, 61.56, 0.0001, 66.56, 0.0001,
- 87.65, 0.0002],
- [1.00, 0.0473, 1.99, 0.0506, 2.99, 0.0982, 3.99, 0.0654, 5.00, 0.0196,
- 5.99, 0.0094, 6.99, 0.0118, 7.93, 0.0001, 8.99, 0.0057, 10.01, 0.0285,
- 11.01, 0.0142, 12.03, 0.0032, 13.03, 0.0056, 14.06, 0.0064, 15.06,
- 0.0059, 16.11, 0.0005, 17.09, 0.0033, 18.14, 0.0027, 19.15, 0.0014,
- 20.17, 0.0010, 21.21, 0.0059, 22.26, 0.0043, 23.31, 0.0031, 24.31,
- 0.0018, 25.33, 0.0009, 26.41, 0.0005, 27.47, 0.0015, 28.53, 0.0015,
- 29.58, 0.0041, 30.65, 0.0025, 31.73, 0.0011, 32.83, 0.0010, 34.98,
- 0.0003, 36.07, 0.0009, 37.23, 0.0001, 38.26, 0.0020, 39.41, 0.0014,
- 40.53, 0.0005, 41.40, 0.0003, 42.80, 0.0002, 43.48, 0.0028, 43.93,
- 0.0001, 45.03, 0.0003, 46.18, 0.0007, 47.41, 0.0001, 48.57, 0.0002,
- 49.67, 0.0001, 50.83, 0.0002, 54.39, 0.0001, 55.58, 0.0002, 57.97,
- 0.0005, 58.11, 0.0002, 59.21, 0.0001, 60.42, 0.0002, 61.66, 0.0001],
- [1.00, 0.0503, 2.00, 0.0963, 2.99, 0.1304, 3.99, 0.0218, 4.98, 0.0041,
- 5.98, 0.0292, 6.98, 0.0482, 7.99, 0.0005, 8.99, 0.0280, 10.00, 0.0237,
- 11.00, 0.0152, 12.02, 0.0036, 12.95, 0.0022, 14.06, 0.0111, 15.07,
- 0.0196, 16.08, 0.0016, 17.11, 0.0044, 18.13, 0.0073, 19.17, 0.0055,
- 20.19, 0.0028, 21.20, 0.0012, 22.27, 0.0068, 23.30, 0.0036, 24.35,
- 0.0012, 25.35, 0.0002, 26.46, 0.0005, 27.47, 0.0005, 28.59, 0.0009,
- 29.65, 0.0021, 30.70, 0.0020, 31.78, 0.0012, 32.89, 0.0010, 35.06,
- 0.0005, 36.16, 0.0008, 37.27, 0.0010, 38.36, 0.0010, 39.47, 0.0014,
- 40.58, 0.0004, 41.43, 0.0007, 41.82, 0.0003, 43.48, 0.0008, 44.53,
- 0.0001, 45.25, 0.0003, 46.43, 0.0002, 47.46, 0.0002, 48.76, 0.0005,
- 49.95, 0.0004, 50.96, 0.0002, 51.12, 0.0002, 52.33, 0.0001, 54.75,
- 0.0001, 55.75, 0.0002, 56.90, 0.0002, 58.17, 0.0002, 59.40, 0.0004,
- 60.62, 0.0002, 65.65, 0.0001, 66.91, 0.0002, 69.91, 0.0001, 71.25,
- 0.0002],
- [1.00, 0.1243, 1.98, 0.1611, 3.00, 0.0698, 3.98, 0.0390, 5.00, 0.0138,
- 5.99, 0.0154, 7.01, 0.0287, 8.01, 0.0014, 9.01, 0.0049, 10.00, 0.0144,
- 11.01, 0.0055, 12.05, 0.0052, 13.01, 0.0011, 14.05, 0.0118, 15.07,
- 0.0154, 16.12, 0.0028, 17.14, 0.0061, 18.25, 0.0007, 19.22, 0.0020,
- 20.24, 0.0011, 21.27, 0.0029, 22.30, 0.0046, 23.34, 0.0049, 24.35,
- 0.0004, 25.45, 0.0003, 26.47, 0.0007, 27.59, 0.0008, 28.16, 0.0009,
- 29.12, 0.0002, 29.81, 0.0006, 30.81, 0.0009, 31.95, 0.0004, 33.00,
- 0.0011, 34.12, 0.0005, 35.18, 0.0003, 36.30, 0.0008, 37.38, 0.0003,
- 38.55, 0.0003, 39.64, 0.0006, 40.77, 0.0007, 41.52, 0.0006, 41.89,
- 0.0006, 43.04, 0.0011, 43.60, 0.0009, 44.31, 0.0002, 45.68, 0.0002,
- 46.56, 0.0003, 47.60, 0.0001, 48.83, 0.0006, 50.01, 0.0003, 51.27,
- 0.0003, 56.04, 0.0005, 57.21, 0.0003, 58.56, 0.0004, 59.83, 0.0003,
- 61.05, 0.0001, 62.20, 0.0001, 67.37, 0.0002, 76.53, 0.0001],
- [0.99, 0.0222, 1.99, 0.0678, 2.99, 0.0683, 4.00, 0.0191, 5.00, 0.0119,
- 6.01, 0.0232, 6.98, 0.0336, 7.99, 0.0082, 9.01, 0.0201, 10.01, 0.0189,
- 11.01, 0.0041, 12.01, 0.0053, 13.05, 0.0154, 14.04, 0.0159, 15.06,
- 0.0092, 16.11, 0.0038, 17.12, 0.0014, 18.15, 0.0091, 19.16, 0.0006,
- 20.30, 0.0012, 21.25, 0.0061, 22.28, 0.0099, 23.34, 0.0028, 24.38,
- 0.0012, 25.43, 0.0016, 26.49, 0.0048, 27.55, 0.0025, 28.62, 0.0015,
- 29.71, 0.0032, 30.78, 0.0077, 31.88, 0.0011, 32.97, 0.0007, 34.08,
- 0.0006, 35.16, 0.0008, 36.28, 0.0004, 37.41, 0.0006, 38.54, 0.0005,
- 39.62, 0.0002, 40.80, 0.0003, 41.93, 0.0001, 43.06, 0.0002, 44.21,
- 0.0003, 45.38, 0.0002, 46.54, 0.0007, 47.78, 0.0003, 48.95, 0.0004,
- 50.10, 0.0003, 51.37, 0.0002, 53.79, 0.0003, 56.20, 0.0001, 58.71,
- 0.0002, 66.47, 0.0003],
- [1.01, 0.0241, 1.99, 0.1011, 2.98, 0.0938, 3.98, 0.0081, 4.99, 0.0062,
- 5.99, 0.0291, 6.99, 0.0676, 7.59, 0.0004, 8.98, 0.0127, 9.99, 0.0112,
- 10.99, 0.0142, 12.00, 0.0029, 13.02, 0.0071, 14.02, 0.0184, 15.03,
- 0.0064, 16.07, 0.0010, 17.09, 0.0011, 18.11, 0.0010, 19.15, 0.0060,
- 20.19, 0.0019, 21.24, 0.0025, 22.29, 0.0013, 23.31, 0.0050, 25.41,
- 0.0030, 26.50, 0.0018, 27.53, 0.0006, 28.63, 0.0012, 29.66, 0.0013,
- 30.77, 0.0020, 31.84, 0.0006, 34.04, 0.0001, 35.14, 0.0001, 36.32,
- 0.0004, 37.41, 0.0007, 38.53, 0.0007, 39.67, 0.0009, 40.85, 0.0003,
- 45.49, 0.0002, 46.65, 0.0001, 47.81, 0.0004, 49.01, 0.0002, 53.91,
- 0.0002, 55.14, 0.0002, 57.69, 0.0002],
- [1.00, 0.0326, 2.00, 0.1066, 2.99, 0.1015, 4.00, 0.0210, 4.97, 0.0170,
- 5.99, 0.0813, 6.98, 0.0820, 7.96, 0.0011, 8.99, 0.0248, 10.03, 0.0107,
- 11.01, 0.0126, 12.01, 0.0027, 13.01, 0.0233, 14.04, 0.0151, 15.05,
- 0.0071, 16.04, 0.0002, 17.10, 0.0061, 18.12, 0.0059, 19.15, 0.0087,
- 20.23, 0.0005, 21.25, 0.0040, 22.30, 0.0032, 23.35, 0.0004, 24.40,
- 0.0001, 25.45, 0.0030, 26.54, 0.0022, 27.60, 0.0003, 28.70, 0.0009,
- 29.80, 0.0029, 30.85, 0.0006, 31.97, 0.0006, 34.19, 0.0004, 35.30,
- 0.0003, 36.43, 0.0007, 37.56, 0.0005, 38.68, 0.0019, 39.88, 0.0013,
- 41.00, 0.0003, 43.35, 0.0003, 44.51, 0.0002, 45.68, 0.0006, 46.93,
- 0.0010, 48.11, 0.0006, 49.29, 0.0003, 55.58, 0.0002],
- [0.98, 0.0113, 1.99, 0.0967, 3.00, 0.0719, 3.98, 0.0345, 4.98, 0.0121,
- 6.00, 0.0621, 7.00, 0.0137, 7.98, 0.0006, 9.01, 0.0314, 10.01, 0.0171,
- 11.02, 0.0060, 12.03, 0.0024, 13.05, 0.0077, 14.07, 0.0040, 15.12,
- 0.0032, 16.13, 0.0004, 17.15, 0.0011, 18.20, 0.0028, 19.18, 0.0003,
- 20.26, 0.0003, 21.31, 0.0025, 22.35, 0.0021, 23.39, 0.0005, 25.55,
- 0.0002, 26.62, 0.0014, 27.70, 0.0003, 28.78, 0.0005, 29.90, 0.0030,
- 31.01, 0.0011, 32.12, 0.0005, 34.31, 0.0001, 35.50, 0.0002, 36.62,
- 0.0002, 37.76, 0.0005, 38.85, 0.0002, 40.09, 0.0004, 43.60, 0.0001,
- 44.73, 0.0002, 46.02, 0.0002, 47.25, 0.0004, 48.44, 0.0004],
- [0.99, 0.0156, 1.98, 0.0846, 2.98, 0.0178, 3.98, 0.0367, 4.98, 0.0448,
- 5.98, 0.0113, 6.99, 0.0189, 8.00, 0.0011, 9.01, 0.0247, 10.02, 0.0089,
- 11.01, 0.0184, 12.03, 0.0105, 13.00, 0.0039, 14.07, 0.0116, 15.09,
- 0.0078, 16.13, 0.0008, 17.14, 0.0064, 18.19, 0.0029, 19.22, 0.0028,
- 20.25, 0.0017, 21.32, 0.0043, 22.37, 0.0055, 23.42, 0.0034, 24.48,
- 0.0004, 25.54, 0.0002, 26.61, 0.0017, 27.70, 0.0011, 28.80, 0.0002,
- 29.89, 0.0019, 30.97, 0.0028, 32.09, 0.0007, 34.30, 0.0002, 35.44,
- 0.0003, 36.55, 0.0001, 37.69, 0.0004, 38.93, 0.0002, 40.05, 0.0005,
- 41.20, 0.0005, 42.37, 0.0002, 43.54, 0.0003, 44.73, 0.0001, 45.95,
- 0.0002, 47.16, 0.0001, 48.43, 0.0005, 49.65, 0.0004, 55.90, 0.0002,
- 59.81, 0.0004],
- [1.01, 0.0280, 2.00, 0.0708, 2.99, 0.0182, 3.99, 0.0248, 4.98, 0.0245,
- 5.98, 0.0279, 6.98, 0.0437, 7.99, 0.0065, 8.99, 0.0299, 10.00, 0.0073,
- 10.99, 0.0011, 12.03, 0.0122, 13.03, 0.0028, 14.08, 0.0044, 15.11,
- 0.0097, 16.15, 0.0010, 17.17, 0.0025, 18.19, 0.0017, 19.24, 0.0008,
- 20.28, 0.0040, 21.32, 0.0024, 22.38, 0.0008, 23.46, 0.0032, 24.52,
- 0.0010, 25.59, 0.0008, 26.68, 0.0009, 27.76, 0.0012, 28.88, 0.0003,
- 29.95, 0.0005, 31.05, 0.0017, 32.14, 0.0002, 33.29, 0.0003, 37.88,
- 0.0002, 39.03, 0.0002, 40.19, 0.0004, 41.37, 0.0003, 43.74, 0.0002,
- 46.20, 0.0001, 48.68, 0.0001, 49.93, 0.0001, 51.19, 0.0002],
- [1.00, 0.0225, 1.99, 0.0921, 2.98, 0.0933, 3.99, 0.0365, 4.99, 0.0100,
- 5.98, 0.0213, 6.98, 0.0049, 7.98, 0.0041, 8.98, 0.0090, 9.99, 0.0068,
- 11.01, 0.0040, 12.03, 0.0086, 13.02, 0.0015, 14.04, 0.0071, 15.09,
- 0.0082, 16.14, 0.0011, 17.15, 0.0014, 18.18, 0.0010, 19.26, 0.0013,
- 20.26, 0.0005, 21.33, 0.0006, 22.36, 0.0011, 23.46, 0.0016, 24.52,
- 0.0004, 25.59, 0.0002, 26.70, 0.0006, 27.78, 0.0007, 28.87, 0.0002,
- 30.03, 0.0008, 31.14, 0.0010, 32.24, 0.0006, 33.37, 0.0002, 35.67,
- 0.0003, 37.99, 0.0004, 39.17, 0.0004, 40.35, 0.0005, 41.53, 0.0001,
- 46.42, 0.0001],
- [1.00, 0.0465, 1.99, 0.0976, 2.98, 0.0678, 4.00, 0.0727, 4.99, 0.0305,
- 5.98, 0.0210, 6.98, 0.0227, 8.00, 0.0085, 9.01, 0.0183, 10.02, 0.0258,
- 11.05, 0.0003, 12.06, 0.0061, 13.05, 0.0021, 14.10, 0.0089, 15.12,
- 0.0077, 16.16, 0.0016, 17.21, 0.0061, 18.23, 0.0011, 19.29, 0.0031,
- 20.36, 0.0031, 21.41, 0.0007, 22.48, 0.0013, 23.55, 0.0020, 24.64,
- 0.0004, 25.74, 0.0005, 26.81, 0.0006, 27.95, 0.0006, 29.03, 0.0001,
- 30.22, 0.0010, 31.30, 0.0004, 32.48, 0.0001, 33.60, 0.0002, 38.30,
- 0.0003],
- [1.00, 0.0674, 1.99, 0.0841, 2.98, 0.0920, 3.99, 0.0328, 4.99, 0.0368,
- 5.98, 0.0206, 6.99, 0.0246, 8.01, 0.0048, 9.01, 0.0218, 10.03, 0.0155,
- 11.05, 0.0048, 12.06, 0.0077, 13.00, 0.0020, 14.10, 0.0083, 15.15,
- 0.0084, 16.18, 0.0015, 17.22, 0.0039, 18.27, 0.0032, 19.34, 0.0026,
- 20.40, 0.0012, 21.47, 0.0009, 22.54, 0.0008, 23.62, 0.0016, 24.71,
- 0.0005, 25.82, 0.0004, 26.91, 0.0002, 28.03, 0.0008, 29.17, 0.0002,
- 30.32, 0.0028, 31.45, 0.0004, 32.61, 0.0005, 33.77, 0.0001, 36.14,
- 0.0003, 37.32, 0.0002, 38.54, 0.0005, 39.75, 0.0002, 42.23, 0.0002,
- 48.65, 0.0001],
- [1.01, 0.0423, 1.99, 0.0240, 2.98, 0.0517, 4.00, 0.0493, 5.00, 0.0324,
- 6.00, 0.0094, 6.99, 0.0449, 7.99, 0.0050, 9.00, 0.0197, 10.03, 0.0132,
- 11.03, 0.0009, 12.07, 0.0017, 13.08, 0.0023, 14.12, 0.0094, 15.16,
- 0.0071, 16.21, 0.0020, 17.25, 0.0005, 18.30, 0.0027, 19.04, 0.0004,
- 20.43, 0.0022, 21.51, 0.0002, 22.59, 0.0006, 23.72, 0.0018, 24.80,
- 0.0002, 25.88, 0.0002, 27.03, 0.0002, 28.09, 0.0006, 29.31, 0.0002,
- 30.46, 0.0004, 31.61, 0.0007, 32.78, 0.0005, 33.95, 0.0001, 36.34,
- 0.0002, 37.56, 0.0001, 38.80, 0.0001, 40.02, 0.0001, 44.14, 0.0001],
- [1.00, 0.0669, 1.99, 0.0909, 2.99, 0.0410, 3.98, 0.0292, 4.98, 0.0259,
- 5.98, 0.0148, 6.98, 0.0319, 7.99, 0.0076, 9.01, 0.0056, 10.02, 0.0206,
- 11.04, 0.0032, 12.05, 0.0085, 13.08, 0.0040, 14.12, 0.0037, 15.16,
- 0.0030, 16.20, 0.0013, 17.24, 0.0021, 18.30, 0.0010, 19.36, 0.0015,
- 20.44, 0.0013, 21.50, 0.0009, 22.60, 0.0015, 23.69, 0.0014, 24.80,
- 0.0006, 25.87, 0.0002, 27.02, 0.0006, 28.12, 0.0002, 29.28, 0.0003,
- 30.43, 0.0002, 31.59, 0.0007, 32.79, 0.0001, 35.14, 0.0001, 37.57,
- 0.0001, 40.03, 0.0002, 41.28, 0.0004, 44.10, 0.0001],
- [0.99, 0.0421, 1.99, 0.1541, 2.98, 0.0596, 3.98, 0.0309, 4.98, 0.0301,
- 5.99, 0.0103, 7.00, 0.0240, 8.01, 0.0073, 9.01, 0.0222, 10.04, 0.0140,
- 11.05, 0.0033, 12.08, 0.0045, 13.13, 0.0009, 14.13, 0.0015, 15.21,
- 0.0026, 16.24, 0.0003, 17.30, 0.0004, 18.35, 0.0010, 19.39, 0.0003,
- 20.50, 0.0015, 21.57, 0.0003, 22.68, 0.0011, 23.80, 0.0005, 24.90,
- 0.0008, 26.02, 0.0002, 27.16, 0.0001, 28.30, 0.0006, 29.48, 0.0002,
- 31.81, 0.0005, 33.00, 0.0003, 34.21, 0.0001, 37.89, 0.0001],
- [0.99, 0.0389, 2.00, 0.2095, 3.00, 0.0835, 3.99, 0.0289, 5.00, 0.0578,
- 5.99, 0.0363, 7.01, 0.0387, 8.01, 0.0056, 9.04, 0.0173, 10.05, 0.0175,
- 11.08, 0.0053, 12.10, 0.0056, 13.15, 0.0064, 14.19, 0.0036, 15.22,
- 0.0019, 16.29, 0.0010, 17.36, 0.0017, 18.43, 0.0018, 19.51, 0.0004,
- 20.60, 0.0011, 21.70, 0.0003, 22.82, 0.0003, 23.95, 0.0001, 25.05,
- 0.0004, 26.17, 0.0001, 28.50, 0.0003, 29.68, 0.0001, 32.07, 0.0003,
- 33.28, 0.0004, 34.52, 0.0001],
- [1.00, 0.1238, 1.99, 0.2270, 3.00, 0.0102, 3.99, 0.0181, 4.98, 0.0415,
- 6.00, 0.0165, 7.01, 0.0314, 8.02, 0.0148, 9.04, 0.0203, 10.05, 0.0088,
- 11.07, 0.0062, 12.11, 0.0070, 13.14, 0.0054, 14.19, 0.0028, 15.24,
- 0.0044, 16.30, 0.0029, 17.38, 0.0009, 18.45, 0.0026, 19.56, 0.0003,
- 20.65, 0.0025, 21.74, 0.0014, 22.87, 0.0013, 23.99, 0.0007, 25.15,
- 0.0002, 27.46, 0.0004, 28.39, 0.0006, 28.65, 0.0004, 29.85, 0.0001,
- 31.05, 0.0002, 32.27, 0.0003, 33.52, 0.0002, 34.76, 0.0003],
- [1.00, 0.1054, 2.00, 0.2598, 2.99, 0.0369, 3.98, 0.0523, 4.99, 0.0020,
- 5.99, 0.0051, 7.00, 0.0268, 8.01, 0.0027, 9.04, 0.0029, 10.05, 0.0081,
- 11.08, 0.0047, 12.12, 0.0051, 13.16, 0.0091, 14.19, 0.0015, 15.27,
- 0.0030, 16.34, 0.0017, 17.42, 0.0006, 18.51, 0.0003, 19.61, 0.0007,
- 20.72, 0.0003, 21.84, 0.0001, 22.99, 0.0010, 24.13, 0.0001, 28.44,
- 0.0001, 30.09, 0.0001],
- [0.99, 0.0919, 2.00, 0.0418, 2.99, 0.0498, 3.99, 0.0135, 4.99, 0.0026,
- 6.00, 0.0155, 7.01, 0.0340, 8.02, 0.0033, 9.04, 0.0218, 10.08, 0.0084,
- 11.11, 0.0057, 12.15, 0.0051, 13.21, 0.0043, 14.25, 0.0015, 15.31,
- 0.0023, 16.40, 0.0008, 17.48, 0.0004, 18.59, 0.0016, 19.71, 0.0010,
- 20.84, 0.0018, 21.98, 0.0002, 23.11, 0.0013, 24.26, 0.0003, 26.67,
- 0.0002, 29.12, 0.0002, 30.37, 0.0002, 31.62, 0.0003, 32.92, 0.0001],
- [0.99, 0.1174, 1.99, 0.1126, 2.99, 0.0370, 3.99, 0.0159, 5.01, 0.0472,
- 6.01, 0.0091, 7.03, 0.0211, 8.05, 0.0015, 9.07, 0.0098, 10.11, 0.0038,
- 11.15, 0.0042, 12.20, 0.0018, 13.24, 0.0041, 14.32, 0.0033, 15.41,
- 0.0052, 16.49, 0.0001, 17.61, 0.0004, 18.71, 0.0004, 19.84, 0.0004,
- 20.99, 0.0002, 22.14, 0.0006, 23.31, 0.0006, 24.50, 0.0004, 25.70,
- 0.0002, 28.09, 0.0002, 28.66, 0.0002, 32.00, 0.0001],
- [1.00, 0.1085, 2.00, 0.1400, 2.99, 0.0173, 3.99, 0.0229, 5.00, 0.0272,
- 6.02, 0.0077, 7.03, 0.0069, 8.04, 0.0017, 9.08, 0.0045, 10.10, 0.0030,
- 11.15, 0.0040, 12.20, 0.0007, 13.25, 0.0019, 14.32, 0.0008, 15.42,
- 0.0024, 16.50, 0.0002, 17.59, 0.0005, 18.71, 0.0003, 19.83, 0.0002,
- 20.98, 0.0005, 23.29, 0.0008],
- [1.00, 0.0985, 2.00, 0.1440, 2.99, 0.0364, 3.99, 0.0425, 5.00, 0.0190,
- 6.01, 0.0089, 7.03, 0.0278, 8.04, 0.0006, 9.07, 0.0083, 10.10, 0.0021,
- 11.14, 0.0050, 12.18, 0.0005, 13.26, 0.0036, 14.33, 0.0005, 15.41,
- 0.0026, 17.62, 0.0004, 18.75, 0.0004, 19.89, 0.0003, 21.04, 0.0012,
- 22.21, 0.0002, 23.38, 0.0004, 27.04, 0.0001],
- [0.99, 0.1273, 2.00, 0.1311, 2.99, 0.0120, 4.00, 0.0099, 5.00, 0.0235,
- 6.02, 0.0068, 7.03, 0.0162, 8.06, 0.0009, 9.08, 0.0083, 10.12, 0.0014,
- 11.17, 0.0050, 12.24, 0.0010, 13.29, 0.0013, 14.39, 0.0022, 15.48,
- 0.0011, 16.59, 0.0002, 17.70, 0.0003, 18.84, 0.0010, 20.00, 0.0003,
- 21.17, 0.0003, 23.56, 0.0004, 28.79, 0.0003],
- [1.00, 0.1018, 2.00, 0.1486, 3.00, 0.0165, 4.00, 0.0186, 5.01, 0.0194,
- 6.02, 0.0045, 7.04, 0.0083, 8.06, 0.0012, 9.10, 0.0066, 10.15, 0.0009,
- 11.19, 0.0008, 12.26, 0.0011, 13.34, 0.0028, 14.45, 0.0006, 15.53,
- 0.0009, 16.66, 0.0002, 17.79, 0.0006, 18.94, 0.0005, 20.11, 0.0003,
- 21.29, 0.0005, 22.49, 0.0003, 23.73, 0.0005, 26.22, 0.0001, 27.52,
- 0.0001, 28.88, 0.0002],
- [1.00, 0.1889, 1.99, 0.1822, 3.00, 0.0363, 4.00, 0.0047, 5.01, 0.0202,
- 6.03, 0.0053, 7.05, 0.0114, 8.01, 0.0002, 9.13, 0.0048, 10.17, 0.0010,
- 11.23, 0.0033, 12.30, 0.0010, 13.38, 0.0006, 14.50, 0.0002, 15.62,
- 0.0010, 20.27, 0.0001, 21.47, 0.0001],
- [1.00, 0.0522, 1.99, 0.0763, 2.99, 0.0404, 4.00, 0.0139, 5.01, 0.0185,
- 6.01, 0.0021, 7.06, 0.0045, 8.09, 0.0002, 9.11, 0.0003, 10.17, 0.0006,
- 11.25, 0.0004, 12.32, 0.0005, 13.40, 0.0003, 14.53, 0.0003, 15.65,
- 0.0007, 16.80, 0.0001, 17.95, 0.0002, 19.14, 0.0006, 20.34, 0.0002,
- 21.56, 0.0003],
- [0.99, 0.1821, 1.99, 0.0773, 3.00, 0.0125, 4.01, 0.0065, 5.01, 0.0202,
- 6.03, 0.0071, 7.05, 0.0090, 8.08, 0.0006, 9.13, 0.0008, 10.18, 0.0013,
- 11.25, 0.0010, 12.33, 0.0012, 13.42, 0.0006, 14.54, 0.0005, 15.65,
- 0.0004, 17.97, 0.0002, 19.15, 0.0001],
- [1.00, 0.1868, 2.00, 0.0951, 3.00, 0.0147, 4.01, 0.0134, 5.02, 0.0184,
- 6.04, 0.0132, 7.06, 0.0011, 8.11, 0.0008, 9.15, 0.0010, 10.22, 0.0012,
- 11.30, 0.0011, 12.40, 0.0003, 13.11, 0.0004, 13.49, 0.0002, 14.62,
- 0.0003, 15.77, 0.0001],
- [1.00, 0.1933, 2.00, 0.0714, 3.00, 0.0373, 4.00, 0.0108, 5.02, 0.0094,
- 6.02, 0.0010, 7.07, 0.0022, 8.11, 0.0002, 9.16, 0.0065, 10.23, 0.0015,
- 11.31, 0.0023, 12.40, 0.0003, 13.53, 0.0014, 14.66, 0.0002, 15.81,
- 0.0011, 18.20, 0.0002, 19.41, 0.0001],
- [0.99, 0.2113, 1.99, 0.0877, 3.00, 0.0492, 4.01, 0.0094, 5.02, 0.0144,
- 6.04, 0.0103, 7.07, 0.0117, 8.12, 0.0006, 9.19, 0.0019, 10.25, 0.0007,
- 11.35, 0.0017, 12.45, 0.0010, 13.58, 0.0003, 14.74, 0.0003, 15.91,
- 0.0003, 19.57, 0.0002],
- [0.99, 0.2455, 1.99, 0.0161, 3.00, 0.0215, 4.01, 0.0036, 5.03, 0.0049,
- 6.04, 0.0012, 7.09, 0.0036, 8.14, 0.0011, 9.21, 0.0009, 10.30, 0.0001,
- 11.40, 0.0012, 12.50, 0.0001, 13.66, 0.0005, 14.84, 0.0001],
- [1.00, 0.1132, 2.00, 0.0252, 3.00, 0.0292, 4.01, 0.0136, 5.03, 0.0045,
- 6.06, 0.0022, 7.11, 0.0101, 8.17, 0.0004, 9.23, 0.0010, 10.33, 0.0012,
- 11.44, 0.0013, 12.58, 0.0011, 13.75, 0.0002, 14.93, 0.0005, 16.14, 0.0002],
- [1.00, 0.1655, 2.00, 0.0445, 3.00, 0.0120, 4.00, 0.0038, 5.02, 0.0015,
- 6.07, 0.0038, 7.11, 0.0003, 8.19, 0.0002, 9.25, 0.0010, 10.36, 0.0011,
- 11.48, 0.0005, 12.63, 0.0002, 13.79, 0.0003, 16.24, 0.0002],
- [0.99, 0.3637, 1.99, 0.0259, 3.01, 0.0038, 4.01, 0.0057, 5.03, 0.0040,
- 6.07, 0.0067, 7.12, 0.0014, 8.19, 0.0004, 9.27, 0.0003, 10.38, 0.0002,
- 12.67, 0.0001],
- [1.00, 0.1193, 2.00, 0.0230, 3.00, 0.0104, 4.01, 0.0084, 5.04, 0.0047,
- 6.08, 0.0035, 7.13, 0.0041, 8.20, 0.0002, 9.29, 0.0005, 10.40, 0.0005,
- 11.53, 0.0003, 12.70, 0.0002, 13.91, 0.0002],
- [1.00, 0.0752, 2.00, 0.0497, 3.00, 0.0074, 4.02, 0.0076, 5.05, 0.0053,
- 6.09, 0.0043, 7.15, 0.0024, 8.22, 0.0001, 9.32, 0.0006, 10.45, 0.0002,
- 11.58, 0.0001, 12.78, 0.0001, 15.22, 0.0001],
- [1.00, 0.2388, 2.00, 0.0629, 3.01, 0.0159, 4.04, 0.0063, 5.07, 0.0051,
- 6.12, 0.0045, 7.19, 0.0026, 8.29, 0.0015, 9.43, 0.0001, 11.75, 0.0002],
- [1.00, 0.1919, 2.01, 0.0116, 3.01, 0.0031, 4.03, 0.0090, 5.07, 0.0061,
- 6.13, 0.0036, 7.19, 0.0013, 8.30, 0.0016, 9.13, 0.0001, 10.59, 0.0002,
- 11.78, 0.0002],
- [1.00, 0.1296, 2.00, 0.0135, 3.01, 0.0041, 4.04, 0.0045, 5.09, 0.0028,
- 6.14, 0.0046, 7.23, 0.0007, 8.32, 0.0007, 9.50, 0.0001],
- [1.00, 0.0692, 2.00, 0.0209, 3.02, 0.0025, 4.05, 0.0030, 5.09, 0.0047,
- 6.17, 0.0022, 7.25, 0.0015, 8.36, 0.0015, 9.53, 0.0010, 10.69, 0.0001,
- 13.40, 0.0001],
- [1.00, 0.1715, 2.00, 0.0142, 3.01, 0.0024, 4.03, 0.0015, 5.07, 0.0017,
- 6.13, 0.0018, 7.22, 0.0009, 8.33, 0.0014, 9.51, 0.0007, 10.69, 0.0002],
- [1.00, 0.1555, 2.01, 0.0148, 3.02, 0.0007, 4.06, 0.0006, 5.10, 0.0005,
- 6.16, 0.0008, 7.26, 0.0009, 8.39, 0.0008, 9.58, 0.0002],
- [1.00, 0.1357, 2.00, 0.0116, 3.02, 0.0026, 4.04, 0.0009, 5.09, 0.0004,
- 6.17, 0.0005, 7.27, 0.0002, 8.40, 0.0001],
- [1.00, 0.2185, 2.01, 0.0087, 3.03, 0.0018, 4.06, 0.0025, 5.11, 0.0020,
- 6.20, 0.0012, 7.32, 0.0005, 8.46, 0.0001, 9.66, 0.0003],
- [1.00, 0.2735, 2.00, 0.0038, 3.02, 0.0008, 4.06, 0.0012, 5.12, 0.0008,
- 6.22, 0.0011, 7.35, 0.0003, 8.50, 0.0002],
- [1.00, 0.1441, 1.99, 0.0062, 3.01, 0.0023, 4.05, 0.0011, 5.11, 0.0012,
- 6.20, 0.0003, 7.33, 0.0004, 8.50, 0.0001],
- [1.00, 0.0726, 2.01, 0.0293, 3.03, 0.0022, 5.14, 0.0005, 6.26, 0.0011,
- 7.41, 0.0002, 8.63, 0.0002],
- [1.00, 0.0516, 2.00, 0.0104, 3.02, 0.0029, 5.15, 0.0002, 6.27, 0.0001],
- [1.00, 0.0329, 2.00, 0.0033, 3.03, 0.0013, 4.10, 0.0005, 5.19,
- 0.0004, 6.32, 0.0002],
- [1.00, 0.0179, 1.99, 0.0012, 3.04, 0.0005, 4.10, 0.0017, 5.20, 0.0005,
- 6.35, 0.0001],
- [1.00, 0.0334, 2.01, 0.0033, 3.04, 0.0011, 4.13, 0.0003, 5.22, 0.0003],
- [0.99, 0.0161, 2.01, 0.0100, 3.04, 0.0020, 4.13, 0.0003],
- [1.00, 0.0475, 1.99, 0.0045, 3.03, 0.0035, 4.12, 0.0011],
- [1.00, 0.0593, 2.00, 0.0014, 4.17, 0.0002],
- [1.00, 0.0249, 2.01, 0.0016],
- [1.00, 0.0242, 2.00, 0.0038, 4.19, 0.0002],
- [1.00, 0.0170, 2.02, 0.0030],
- [1.00, 0.0381, 2.00, 0.0017, 3.09, 0.0002],
- [1.00, 0.0141, 2.03, 0.0005, 3.11, 0.0003, 4.26, 0.0001],
- [1.00, 0.0122, 2.03, 0.0024],
- [1.00, 0.0107, 2.07, 0.0007, 3.12, 0.0004],
- [1.00, 0.0250, 2.02, 0.0026, 3.15, 0.0002],
- [1.01, 0.0092],
- [1.01, 0.0102, 2.09, 0.0005],
- [1.00, 0.0080, 2.00, 0.0005, 3.19, 0.0001],
- [1.01, 0.0298, 2.01, 0.0005]]
-
- def lbj_piano(start, dur, freq, amp, *args)
- pfreq, degree, distance, reverb_amount = nil
- optkey(args, binding,
- [:pfreq, freq],
- [:degree, 45.0],
- [:distance, 1.0],
- [:reverb_amount, 0.0])
- get_piano_partials = lambda do |frq|
- Piano_Spectra[(12 * (log(frq / 32.703) / log(2))).round]
- end
- make_piano_ampfun = lambda do |dr|
- release_amp = db2linear($clm_db_drop_per_second * dr)
- attack_time = $clm_piano_attack_duration * 100.0 / dr
- [0, 0, attack_time / 4, 1.0, attack_time, 1.0, 100, release_amp]
- end
- # This thing sounds pretty good down low, below middle c or so.
- # Unfortunately, there are some tens of partials down there and
- # we're using exponential envelopes. You're going to wait for a
- # long long time just to hear a single low note. The high notes
- # sound pretty rotten--they just don't sparkle; I have a feeling
- # that this is due to the low amplitude of the original data, and
- # the lack of mechanical noise.
- #
- # The only thing you can do to alter the sound of a piano note is to
- # set the pfreq parameter. Pfreq is used to look up the partials.
- # By default, it's set to the requested frequency. Setting it to a
- # neighboring freq is useful when you're repeating notes. Note that
- # there's no nyquist detection; a high freq with a low pfreq, will
- # give you fold over (hmmm...maybe I can get those high notes to
- # sparkle after all).
- partials = normalize_partials(get_piano_partials.call(pfreq))
- newdur = dur + $clm_piano_attack_duration + $clm_piano_release_duration
- env1dur = newdur - $clm_piano_release_duration
- env1samples = (env1dur * @srate).floor
- siz = (partials.length / 2).floor
- oscils = Array.new(siz)
- alist = make_vct(siz)
- ampfun1 = make_piano_ampfun.call(env1dur)
- ampenv1 = make_env(:envelope, ampfun1, :scaler, amp,
- :duration, env1dur, :base, 10000.0)
- releaseamp = ampfun1.last
- ampenv2 = make_env(:envelope, [0, 1, 100, 0], :scaler, amp * releaseamp,
- :duration, env1dur, :base, 1.0)
- sktr = j = 0
- 0.step(partials.length - 1, 2) do |i|
- alist[j] = partials[i + 1]
- oscils[j] = make_oscil(:frequency, partials[i] * freq)
- j += 1
- end
- run_instrument(start, newdur,
- :degree, degree,
- :distance, distance,
- :reverb_amount, reverb_amount) do
- sktr += 1
- let(0.0) do |sum|
- oscils.each_with_index do |osc, i|
- sum = sum + oscil(osc) * alist[i]
- end
- sum * env(((sktr > env1samples) ? ampenv2 : ampenv1))
- end
- end
- end
-
- def lbj_piano_test(start = 0.0, dur = 1.0)
- lbj_piano(start, dur, 440.0, 0.5)
- $now = start + dur + 0.24 + 0.2
- end
-
- # RESFLT
- def resflt(start, dur, driver,
- ranfreq, noiamp, noifun, cosamp, cosfreq1, cosfreq0, cosnum,
- ampcosfun, freqcosfun,
- frq1, r1, g1, frq2, r2, g2, frq3, r3, g3, *args)
- degree, distance, reverb_amount = nil
- optkey(args, binding,
- [:degree, 0.0],
- [:distance, 1.0],
- [:reverb_amount, 0.005])
- # driver=0 -- use sum of cosines to drive the filter,
- # driver=1 -- use white noise
- # if noise used, ranfreq=frequency of random number generator,
- # noiamp=amplitude thereof,
- # noifun=amplitude envelope on white noise
- # if sum-of-cosines (i.e. a band-limited pulse train),
- # cosamp=amplitude of pulse train,
- # cosfreq1=top frequency (given freqcosfun)
- # (i.e. pulse frequency)
- # cosfreq0=bottom frequency,
- # cosnum=number of cosines in the pulse,
- # ampcosfun=amplitude envelope on pulse train
- # freqcosfun=frequency envelope on pulse train
- # There are then 3 resonators, centered at frq1, frq2, frq3,
- # with pole-radius r1, r2, and r3 respectively, and
- # with gains of g1, g2, and g3.
- f1 = make_two_pole(frq1, r1)
- f2 = make_two_pole(frq2, r2)
- f3 = make_two_pole(frq3, r3)
- with_noise = (driver == 1)
- frqf = if with_noise
- nil
- else
- make_env(:envelope, freqcosfun, :duration, dur,
- :scaler, hz2radians(cosfreq1 - cosfreq0))
- end
- ampf = if with_noise
- make_env(:envelope, noifun, :scaler, noiamp, :duration, dur)
- else
- make_env(:envelope, ampcosfun, :scaler, cosamp, :duration, dur)
- end
- rn = if with_noise
- make_rand(:frequency, ranfreq)
- else
- nil
- end
- cn = if with_noise
- nil
- else
- make_sum_of_cosines(:frequency, cosfreq0, :cosines, cosnum)
- end
- if with_noise
- run_instrument(start, dur,
- :distance, distance,
- :degree, degree,
- :reverb_amount, reverb_amount) do
- input1 = env(ampf) * rand(rn)
- two_pole(f1, input1 * g1) +
- two_pole(f2, input1 * g2) +
- two_pole(f3, input1 * g3)
- end
- else
- run_instrument(start, dur,
- :distance, distance,
- :degree, degree,
- :reverb_amount, reverb_amount) do
- input1 = env(ampf) * sum_of_cosines(cn, env(frqf))
- two_pole(f1, input1 * g1) +
- two_pole(f2, input1 * g2) +
- two_pole(f3, input1 * g3)
- end
- end
- end
-
- def resflt_test(start = 0.0, dur = 1.0)
- $now = start
- resflt($now, dur, 0, 0, 0, nil,
- 0.1, 200, 230, 10, [0, 0, 50, 1, 100, 0], [0, 0, 100, 1],
- 500, 0.995, 0.1, 1000, 0.995, 0.1, 2000, 0.995, 0.1)
- $now += dur + 0.2
- resflt($now, dur, 1, 10000, 0.01, [0, 0, 50, 1, 100, 0],
- 0, 0, 0, 0, nil, nil,
- 500, 0.995, 0.1, 1000, 0.995, 0.1, 2000, 0.995, 0.1)
- $now += dur + 0.2
- end
-
- # SCRATCH
- def scratch(start, file, src_ratio, turntable)
- assert_type(File.exist?(file), file, 1, "an existing file")
- f = make_file2sample(file)
- turn_i = 1
- turns = turntable.length
- cur_sample = seconds2samples(turntable[0])
- turn_sample = seconds2samples(turntable[turn_i])
- rd = make_src(:srate, src_ratio)
- forwards = (src_ratio > 0.0)
- set_mus_increment(rd, -src_ratio) if forwards and turn_sample < cur_sample
- turning = 0
- last_val = last_val2 = 0.0
- run_instrument(start, ws_duration(file)) do
- break if turn_i >= turns
- val = src(rd, 0.0, lambda do |dir|
- inval = file2sample(f, cur_sample)
- cur_sample += dir
- inval
- end)
- if turning.zero?
- # we past turn point going forwards
- if forwards and cur_sample >= turn_sample
- turning = 1
- # we past turn point going backwards
- elsif (not forwards) and cur_sample <= turn_sample
- turning = -1
- end
- else
- # wait for an inflection...
- if (last_val2 <= last_val and last_val >= val) or
- (last_val2 >= last_val and last_val <= val)
- turn_i += 1
- if turn_i < turns
- turn_sample = seconds2samples(turntable[turn_i])
- forwards = (not forwards)
- set_mus_increment(rd, -mus_increment(rd))
- end
- turning = 0
- end
- end
- last_val2, last_val = last_val, val
- val
- end
- mus_close(f)
- end
-
- def scratch_test(start = 0.0, dur = 1.0)
- scratch(start, "fyow.snd", [dur, 1.5].min, [0.0, 0.5, 0.25, 1.0])
- $now = start + mus_sound_duration("fyow.snd") + 0.2
- end
-
- # PINS
- #
- # spectral modeling (SMS)
- def pins(start, dur, file, amp, *args)
- assert_type(File.exist?(file), file, 2, "an existing file")
- transposition, time_scaler, fftsize, highest_bin, max_peaks, attack = nil
- optkey(args, binding,
- [:transposition, 1.0], # this can be used to transpose the sound
- [:time_scaler, 1.0], # this can make things happen faster
- # (< 1.0)/slower (> 1.0) in the output
- [:fftsize, 256], # should be a power of 2
- # at 22050 srate, this is ok for
- # sounds above 300Hz or so, below that
- # you need 512 or 1024, at 44100,
- # probably best to double these sizes
- # -- it takes some searching
- # sometimes.
- [:highest_bin, 128], # how high in fft data should we search for pks
- [:max_peaks, 16], # how many spectral peaks to track at the max
- :attack) # whether to use original attack via time domain
- # splice do the sliding fft shuffle,
- # translate to polar coordinates, find
- # spectral peaks, match with current,
- # do some interesting transformation,
- # resynthesize using oscils All the
- # envelopes are created on the fly.
- # max-peaks is how many of these peaks
- # we are willing to track at any given
- # time.
- fil = make_file2sample(file)
- file_duration = ws_duration(file)
- fdr = make_vct(fftsize)
- fdi = make_vct(fftsize)
- window = make_fft_window(Blackman2_window, fftsize)
- fftamps = make_vct(fftsize)
- max_oscils = 2 * max_peaks
- current_peak_freqs = make_vct(max_oscils)
- last_peak_freqs = make_vct(max_oscils)
- current_peak_amps = make_vct(max_oscils)
- last_peak_amps = make_vct(max_oscils)
- peak_amps = make_vct(max_peaks)
- peak_freqs = make_vct(max_peaks)
- resynth_oscils = make_array(max_oscils) do
- make_oscil(:frequency, 0)
- end
- # run-time generated amplitude and frequency envelopes
- amps = make_vct(max_oscils)
- rates = make_vct(max_oscils)
- freqs = make_vct(max_oscils)
- sweeps = make_vct(max_oscils)
- lowest_magnitude = 0.001
- hop = (fftsize / 4).floor
- outhop = (time_scaler * hop).floor
- ifreq = 1.0 / outhop
- ihifreq = hz2radians(ifreq)
- # integrate Blackman-Harris window = .42323*window
- fftscale = 1.0 / (fftsize * 0.42323)
- # width and shift by fftsize
- fft_mag = @srate / fftsize
- furthest_away_accepted = 0.1
- filptr = 0
- cur_oscils = max_oscils
- ramped = (attack or 0)
- splice_attack = attack.kind_of?(Numeric)
- attack_size = (attack or 1)
- ramp_ind = 0
- ramped_attack = make_vct(attack_size)
- if (dur / time_scaler) > file_duration
- error("%s is %1.3f seconds long, \
- but we'll need %1.3f seconds of data for this note",
- file, file_duration, dur / time_scaler)
- end
- trigger = outhop
- vct_scale!(window, fftscale)
- run_instrument(start, dur) do
- if splice_attack
- ramp = 1.0 / attack_size
- # my experience in translating SMS, and rumor via Greg Sandell
- # leads me to believe that there is in fact no way to model some
- # attacks successfully in this manner, so this block simply
- # splices the original attack on to the rest of the note.
- # "attack" is the number of samples to include bodily.
- out_val = amp * file2sample(fil, filptr)
- filptr += 1
- if filptr > attack_size
- mult = 1.0
- attack_size.times do |j|
- ramped_attack[j] = mult * file2sample(fil, filptr + j)
- mult -= ramp
- end
- splice_attack = false
- end
- # if out_val
- out_val
- else
- if trigger >= outhop
- peaks = 0
- # get next block of data and apply window to it
- trigger = 0
- fftsize.times do |j|
- fdr[j] = window[j] * file2sample(fil, filptr)
- filptr += 1
- end
- vct_fill!(fdi, 0.0)
- filptr -= fftsize - hop
- # get the fft
- mus_fft(fdr, fdi, fftsize, 1)
- # change to polar coordinates (ignoring phases)
- highest_bin.times do |j|
- # no need to paw through the upper half
- # (so (<= highest-bin (floor fft-size 2)))
- x = fdr[j]
- y = fdi[j]
- fftamps[j] = 2.0 * sqrt(x * x + y * y)
- end
- max_oscils.times do |j|
- last_peak_freqs[j] = current_peak_freqs[j]
- last_peak_amps[j] = current_peak_amps[j]
- current_peak_amps[j] = 0.0
- end
- vct_fill!(peak_amps, 0.0)
- ra = fftamps[0]
- la = ca = 0.0
- # search for current peaks following Xavier Serra's recommendations in
- # "A System for Sound Analysis/Transformation/Synthesis
- # Based on a Deterministic Plus Stochastic Decomposition"
- highest_bin.times do |j|
- la, ca, ra = ca, ra, fftamps[j]
- if ca > lowest_magnitude and ca > ra and ca > la
- # found a local maximum above the current threshold
- # (its bin number is j-1)
- logla = log10(la)
- logca = log10(ca)
- logra = log10(ra)
- offset = (0.5 * (logla - logra)) / (logla + -2 * logca + logra)
- amp_1 = 10.0 ** (logca - (0.25 * (logla - logra) * offset))
- freq = fft_mag * (j + offset - 1)
- if peaks == max_peaks
- # gotta either flush this peak,
- # or find current lowest and flush him
- minp = 0
- minpeak = peak_amps[0]
- 1.upto(max_peaks - 1) do |k|
- if peak_amps[k] < minpeak
- minp = k
- minpeak = peak_amps[k]
- end
- end
- if amp_1 > minpeak
- peak_freqs[minp] = freq
- peak_amps[minp] = amp_1
- end
- else
- peak_freqs[peaks] = freq
- peak_amps[peaks] = amp_1
- peaks += 1
- end
- end
- end
- # now we have the current peaks -- match them to the previous
- # set and do something interesting with the result the end
- # results are reflected in the updated values in the rates and
- # sweeps arrays. search for fits between last and current,
- # set rates/sweeps for those found try to go by largest amp
- # first
- peaks.times do |j|
- maxp = 0
- maxpk = peak_amps[0]
- 1.upto(max_peaks - 1) do |k|
- if peak_amps[k] > maxpk
- maxp = k
- maxpk = peak_amps[k]
- end
- end
- # now maxp points to next largest unmatched peak
- if maxpk > 0.0
- closestp = -1
- closestamp = 10.0
- current_freq = peak_freqs[maxp]
- icf = 1.0 / current_freq
- max_peaks.times do |k|
- if last_peak_amps[k] > 0.0
- closeness = icf * (last_peak_freqs[k] - current_freq).abs
- if closeness < closestamp
- closestamp = closeness
- closestp = k
- end
- end
- end
- if closestamp < furthest_away_accepted
- # peak_amp is transferred to appropriate current_amp and zeroed,
- current_peak_amps[closestp] = peak_amps[maxp]
- peak_amps[maxp] = 0.0
- current_peak_freqs[closestp] = current_freq
- end
- end
- end
- max_peaks.times do |j|
- if peak_amps[j] > 0.0
- # find a place for a new oscil and start it up
- new_place = -1
- max_oscils.times do |k|
- if last_peak_amps[k].zero? and current_peak_amps[k].zero?
- new_place = k
- break
- end
- end
- current_peak_amps[new_place] = peak_amps[j]
- peak_amps[j] = 0.0
- current_peak_freqs[new_place] = peak_freqs[j]
- last_peak_freqs[new_place] = peak_freqs[j]
- set_mus_frequency(resynth_oscils[new_place],
- transposition * peak_freqs[j])
- end
- end
- cur_oscils = 0
- max_oscils.times do |j|
- rates[j] = ifreq * (current_peak_amps[j] - last_peak_amps[j])
- if current_peak_amps[j].nonzero? or last_peak_amps[j].nonzero?
- cur_oscils = j
- end
- sweeps[j] = ihifreq * transposition *
- (current_peak_freqs[j] - last_peak_freqs[j])
- end
- cur_oscils += 1
- end
- # run oscils, update envelopes
- trigger += 1
- if ramped.zero?
- sum = 0.0
- else
- sum = ramped_attack[ramp_ind]
- ramp_ind += 1
- ramped = 0 if ramp_ind == ramped
- end
- cur_oscils.times do |j|
- if amps[j].nonzero? or rates[j].nonzero?
- sum = sum + amps[j] * oscil(resynth_oscils[j], freqs[j])
- amps[j] += rates[j]
- freqs[j] += sweeps[j]
- end
- end
- # else out_val
- amp * sum
- end
- end
- mus_close(fil)
- end
-
- def pins_test(start = 0.0, dur = 1.0)
- pins(start, dur, "fyow.snd", 1, :time_scaler, 2)
- $now = start + dur + 0.2
- end
-
- # ZC
- def zc(start, dur, freq, amp, length1, length2, feedback)
- s = make_pulse_train(:frequency, freq)
- d0 = make_comb(:size, length1,
- :max_size, [length1, length2].max + 1,
- :scaler, feedback)
- zenv = make_env(:envelope, [0, 0, 1, 1],
- :scaler, length2 - length1,
- :duration, dur)
- run_instrument(start, dur) do
- comb(d0, amp * pulse_train(s), env(zenv))
- end
- end
-
- def zc_test(start = 0.0, dur = 1.0)
- $now = start
- zc($now, dur, 100, 0.4, 20, 100, 0.95)
- $now += dur + 0.2
- zc($now, dur, 100, 0.4, 100, 20, 0.95)
- $now += dur + 0.2
- end
-
- # ZN
- #
- # notches are spaced at srate/len, feedforward sets depth thereof so
- # sweep of len from 20 to 100 sweeps the notches down from 1000 Hz to
- # ca 200 Hz so we hear our downward glissando beneath the pulses.
- def zn(start, dur, freq, amp, length1, length2, feedforward)
- s = make_pulse_train(:frequency, freq)
- d0 = make_notch(:size, length1,
- :max_size, [length1, length2].max + 1,
- :scaler, feedforward)
- zenv = make_env(:envelope, [0, 0, 1, 1],
- :scaler, length2 - length1,
- :duration, dur)
- run_instrument(start, dur) do
- notch(d0, amp * pulse_train(s), env(zenv))
- end
- end
-
- def zn_test(start = 0.0, dur = 1.0)
- $now = start
- zn($now, dur, 100, 0.5, 20, 100, 0.95)
- $now += dur + 0.2
- zn($now, dur, 100, 0.5, 100, 20, 0.95)
- $now += dur + 0.2
- end
-
- # ZA
- def za(start, dur, freq, amp, length1, length2, feedback, feedforward)
- s = make_pulse_train(:frequency, freq)
- d0 = make_all_pass(:feedback, feedback,
- :feedforward, feedforward,
- :size, length1,
- :max_size, [length1, length2].max + 1)
- zenv = make_env(:envelope, [0, 0, 1, 1],
- :scaler, length2 - length1,
- :duration, dur)
- run_instrument(start, dur) do
- all_pass(d0, amp * pulse_train(s), env(zenv))
- end
- end
-
- def za_test(start = 0.0, dur = 1.0)
- $now = start
- za($now, dur, 100, 0.3, 20, 100, 0.95, 0.95)
- $now += dur + 0.2
- za($now, dur, 100, 0.3, 100, 20, 0.95, 0.95)
- $now += dur + 0.2
- end
-
- # CLM-EXPSRC
- def clm_expsrc(start, dur, in_file, exp_ratio, src_ratio, amp,
- rev = false, start_in_file = 0)
- assert_type(File.exist?(in_file), in_file, 0, "an existing file")
- stf = (start_in_file * srate(in_file)).floor
- fda = make_readin(in_file, :channel, 0, :start, stf)
- exa = make_granulate(lambda do |dir|
- readin(fda)
- end, :expansion, exp_ratio)
- srca = make_src(lambda do |dir|
- granulate(exa)
- end, :srate, src_ratio)
- two_chans = (channels(in_file) == 2) and (channels(@ws_output) == 2)
- revit = @reverb and rev
- beg = seconds2samples(start)
- fin = seconds2samples(dur) + beg
- # to satisfy with_sound-option :info and :notehook
- with_sound_info(get_func_name, start, dur)
- if two_chans
- fdb = make_readin(in_file, :channel, 1, :srate, stf)
- exb = make_granulate(lambda do |dir|
- readin(fdb)
- end, :expansion, exp_ratio)
- srcb = make_src(lambda do |dir|
- granulate(exb)
- end, :srate, src_ratio)
- if revit
- rev_amp = rev * 0.5
- (beg..fin).each do |i|
- vala = src(srca) * amp
- valb = src(srcb) * amp
- outa(i, vala, @ws_output)
- outb(i, valb, @ws_output)
- outa(i, (vala + valb) * rev_amp, @reverb)
- end
- else # !revit
- (beg..fin).each do |i|
- outa(i, src(srca) * amp, @ws_output)
- outb(i, src(srcb) * amp, @ws_output)
- end
- end # revit
- else # !two_chans
- if revit
- rev_amp = rev
- (beg..fin).each do |i|
- vala = src(srca) * amp
- outa(i, vala, @ws_output)
- outa(i, vala * rev_amp, @ws_reverb)
- end
- else # !revit
- (beg..fin).each do |i|
- outa(i, src(srca) * amp, @ws_output)
- end
- end # revit
- end # two_chans
- end
-
- def clm_expsrc_test(start = 0.0, dur = 1.0)
- clm_expsrc(start, dur, "oboe.snd", 2.0, 1.0, 1.0, 0.05)
- $now = start + dur + 0.2
- end
-
- # EXP-SND
- #
- # granulate with envelopes on the expansion amount, segment envelope
- # shape, segment length, hop length, and input file resampling rate
- def exp_snd(file, start, dur, amp,
- exp_amt = 1.0, ramp = 0.4, seglen = 0.15,
- sr = 1.0, hop = 0.05, ampenv = nil)
- assert_type(File.exist?(file), file, 0, "an existing file")
- f0 = make_ws_reader(file, :start, 0)
- expenv = make_env(:envelope,
- (exp_amt.kind_of?(Array) ?
- exp_amt : [0, exp_amt, 1, exp_amt]),
- :duration, dur)
- lenenv = make_env(:envelope,
- (seglen.kind_of?(Array) ?
- seglen : [0, seglen, 1, seglen]),
- :duration, dur)
- max_seg_len, initial_seg_len = if seglen
- if seglen.kind_of?(Array)
- [max_envelope(seglen), seglen[1]]
- else
- [seglen, seglen]
- end
- else
- [0.15, 0.15]
- end
- scaler_amp = ((max_seg_len > 0.15) ? ((0.6 * 0.15) / max_seg_len) : 0.6)
- srenv = make_env(:envelope, (sr.kind_of?(Array) ? sr : [0, sr, 1, sr]),
- :duration, dur)
- rampdata = (ramp.kind_of?(Array) ? ramp : [0, ramp, 1, ramp])
- rampenv = make_env(:envelope, rampdata, :duration, dur)
- initial_ramp_time = if ramp
- if ramp.kind_of?(Array)
- ramp[1]
- else
- ramp
- end
- else
- 0.4
- end
- hopenv = make_env(:envelope, (hop.kind_of?(Array) ? hop : [0, hop, 1, hop]),
- :duration, dur)
- max_out_hop, initial_out_hop = if hop
- if hop.kind_of?(Array)
- [max_envelope(hop), hop[1]]
- else
- [hop, hop]
- end
- else
- [0.05, 0.05]
- end
- min_exp_amt, initial_exp_amt = if exp_amt
- if exp_amt.kind_of?(Array)
- [min_envelope(exp_amt), exp_amt[1]]
- else
- [exp_amt, exp_amt]
- end
- else
- [1.0, 1.0]
- end
- max_in_hop = max_out_hop / min_exp_amt.to_f
- max_len = (@srate * ([max_out_hop, max_in_hop].max + max_seg_len)).ceil
- ampe = make_env(:envelope, (ampenv or [0, 0, 0.5, 1, 1, 0]),
- :scaler, amp,
- :duration, dur)
- ex_a = make_granulate(:input, lambda do |dir| ws_readin(f0) end,
- :expansion, initial_exp_amt,
- :max_size, max_len,
- :ramp, initial_ramp_time,
- :hop, initial_out_hop,
- :length, initial_seg_len,
- :scaler, scaler_amp)
- ex_samp = next_samp = 0.0
- vol = env(ampe)
- val_a0 = vol * granulate(ex_a)
- val_a1 = vol * granulate(ex_a)
- if min_envelope(rampdata) <= 0.0 or max_envelope(rampdata) >= 0.5
- error("ramp argument to expand must always be between 0.0 and 0.5: %1.3f",
- ramp)
- else
- run_instrument(start, dur) do
- expa = env(expenv) # current expansion amount
- segl = env(lenenv) # current segment length
- resa = env(srenv) # current resampling increment
- rmpl = env(rampenv) # current ramp length (0 to 0.5)
- hp = env(hopenv) # current hop size
- # now we set the granulate generator internal state to reflect all
- # these envelopes
- sl = (segl * @srate).floor
- rl = (rmpl * sl).floor
- vol = env(ampe)
- set_mus_length(ex_a, sl)
- set_mus_ramp(ex_a, rl)
- set_mus_frequency(ex_a, hp)
- set_mus_increment(ex_a, expa)
- next_samp += resa
- if next_samp > (ex_samp + 1)
- (next_samp - ex_samp).floor.times do
- val_a0, val_a1 = val_a1, vol * granulate(ex_a)
- ex_samp += 1
- end
- end
- if next_samp == ex_samp
- val_a0
- else
- val_a0 + (next_samp - ex_samp) * (val_a1 - val_a0)
- end
- end
- close_ws_reader(f0)
- end
- end
-
- def exp_snd_test(start = 0.0, dur = 1.0)
- $now = start
- exp_snd("fyow.snd", $now, dur, 1, [0, 1, 1, 3], 0.4, 0.15,
- [0, 2, 1, 0.5], 0.05)
- $now += dur + 0.2
- exp_snd("oboe.snd", $now, dur, 1, [0, 1, 1, 3], 0.4, 0.15,
- [0, 2, 1, 0.5], 0.2)
- $now += dur + 0.2
- end
-
- # EXPFIL
- Grn = Struct.new("Grn",
- :rampval, :rampinc,
- :loc, :segctr, :whichseg, :ramplen, :steadylen, :trigger)
-
- def expfil(start, dur, hopsecs, rampsecs, steadysecs, file1, file2)
- assert_type(File.exist?(file1), file1, 5, "an existing file")
- assert_type(File.exist?(file2), file2, 6, "an existing file")
- fil1 = make_file2sample(file1)
- fil2 = make_file2sample(file2)
- hop = seconds2samples(hopsecs)
- ramplen = seconds2samples(rampsecs)
- steadylen = seconds2samples(steadysecs)
- grn1 = Grn.new(0.0, 1.0 / ramplen, 0, 0, 0, ramplen, steadylen, 0)
- grn2 = Grn.new(0.0, 1.0 / ramplen, 0, 0, 0, ramplen, steadylen, 0)
- beg = seconds2samples(start)
- out1 = beg
- out2 = hop + beg
- run_instrument(start, dur) do |i|
- val = 0.0
- if i == out1
- inval = ina(grn1.loc, fil1)
- grn1.loc += 1
- if grn1.whichseg.zero? # ramp-up
- inval *= grn1.rampval
- grn1.rampval += grn1.rampinc
- grn1.segctr += 1
- if grn1.segctr == grn1.ramplen
- grn1.segctr = 0
- grn1.whichseg += 1
- end
- else
- if grn1.whichseg == 1 # steady-state
- grn1.segctr += 1
- if grn1.segctr == grn1.steadylen
- grn1.segctr = 0
- grn1.whichseg += 1
- end
- else # ramp-down
- inval *= grn1.rampval
- grn1.segctr += 1
- grn1.rampval -= grn1.rampinc
- if grn1.segctr == grn1.ramplen
- grn1.segctr = 0
- grn1.trigger = 1
- grn1.whichseg = 0
- grn1.rampval = 0.0
- end
- end
- end
- val += inval
- out1 += 1
- if grn1.trigger == 1
- grn1.trigger = 0
- out1 += hop
- end
- end
- if i == out2
- inval = ina(grn2.loc, fil2)
- grn2.loc += 1
- if grn2.whichseg.zero? # ramp-up
- inval *= grn2.rampval
- grn2.rampval += grn2.rampinc
- grn2.segctr += 1
- if grn2.segctr == grn2.ramplen
- grn2.segctr = 0
- grn2.whichseg += 1
- end
- else
- if grn2.whichseg == 1 # steady-state
- grn2.segctr += 1
- if grn2.segctr == grn2.steadylen
- grn2.segctr = 0
- grn2.whichseg += 1
- end
- else # ramp-down
- inval *= grn2.rampval
- grn2.segctr += 1
- grn2.rampval -= grn2.rampinc
- if grn2.segctr == grn2.ramplen
- grn2.segctr = 0
- grn2.trigger = 1
- grn2.whichseg = 0
- grn2.rampval = 0.0
- end
- end
- end
- val += inval
- out2 += 1
- if grn2.trigger == 1
- grn2.trigger = 0
- out2 += hop
- end
- end
- val
- end
- end
-
- def expfil_test(start = 0.0, dur = 1.0)
- expfil(start, dur, 0.2, 0.01, 0.1, "oboe.snd", "fyow.snd")
- $now = start + dur + 0.2
- end
-
- # GRAPH-EQ
- #
- =begin
- From: Marco Trevisani <marco@ccrma.Stanford.EDU>
-
- This should work like a Graphic Equalizer....
- Very easy to use. Just some note:
-
- "amp" & "amp-env" apply an enveloppe to the final result of the
- filtering.
-
- "dur" as ""standard"" in my instruments, when dur = 0 it will take the length
- of the sndfile input, otherwise the duration in seconds.
-
- "gain-freq-list" is a list of gains and frequencies to
- filter --in this order gain and frequencies--. There is no limit to
- the size of the list. Gain can be a number or an
- envelope. Unfortunatelly in this version they cant alternate, one
- should chose, all envelopes or all numbers i.e.:
- case 1 -> '( .1 440.0 .3 1500.0 .2 330.0 ...etc) or
- case 2 -> '((0 .1 1 .5) 440.0 (0 1 1 .01) 1500 (0 .3 1 .5) 330.0 ...etc)
- '( .1 440.0 (0 1 1 .01) 1500 ..etc) <<< again, this is not allowed ..
-
- "offset-gain" This apply to all the gains if case 1. It adds or
- subtracts an offset to all the gains in the list. This number can be positive
- or negative. In case the result is a negative number --let's say offset =
- -.4 and, like in case 1, the first gain is .1, the result would be
- -.3 -- the instrument will pass a gain equal to 0.
-
- "filt-gain-scale" & "filt-gain-base" will apply to the elements of the
- envelopes if we are in case 2, gains are envelopes.
-
- "stats" if #t --default-- prints the number of seconds processed, if
- nil doesnt print anything, which will speed up a bit the process.
- =end
- #
- def graph_eq(file, start, dur, *args)
- assert_type(File.exist?(file), file, 0, "an existing file")
- or_beg, amplitude, amp_env, amp_base, offset_gain = nil
- gain_freq_list, filt_gain_scale, filt_gain_base, a1 = nil
- optkey(args, binding,
- [:or_beg, 0],
- [:amplitude, 1],
- [:amp_env, [0, 1, 0.8, 1, 1, 0]],
- [:amp_base, 1],
- [:offset_gain, 0],
- [:gain_freq_list, [[0, 1, 1, 0], 440, [0, 0, 1, 1], 660]],
- [:filt_gain_scale, 1],
- [:filt_gain_base, 1],
- [:a1, 0.99])
- durata = (dur.zero? ? ws_duration(file) : dur)
- len = seconds2samples(durata)
- or_start = (or_beg * ws_srate(file)).round
- rd_a = make_ws_reader(file, :start, or_start)
- half_list = gain_freq_list.length / 2
- ampenv = make_env(:envelope, amp_env,
- :scaler, amplitude,
- :duration, durata,
- :base, amp_base)
- gain_list = []
- 0.step(gain_freq_list.length - 1, 2) do |i|
- gain_list << gain_freq_list[i]
- end
- freq_list = []
- 1.step(gain_freq_list.length - 1, 2) do |i|
- freq_list << gain_freq_list[i]
- end
- if_list_in_gain = gain_list[0].kind_of?(Array)
- env_size = (if_list_in_gain ? Array.new(freq_list.length) : nil)
- frm_size = Array.new(freq_list.length)
- gains = Vct.new(len, 1.0)
- half_list.times do |i|
- gval = gain_list[i]
- fval = freq_list[i]
- if gval.kind_of?(Array)
- env_size[i] = make_env(:envelope, gval,
- :scaler, filt_gain_scale,
- :duration, durata,
- :base, filt_gain_base)
- frm_size[i] = make_formant(fval, a1)
- else
- gains[i] = (offset_gain + gval < 0) ? 0 : (offset_gain + gain)
- frm_size[i] = make_formant(fval, a1)
- end
- end
- run_instrument(start, durata) do
- outval = 0.0
- inval = ws_readin(rd_a)
- half_list.times do |j|
- if if_list_in_gain
- gains[j] = env(env_size[j]) * (1.0 - a1)
- end
- outval = outval + gains[j] * formant(frm_size[j], inval)
- end
- env(ampenv) * outval
- end
- close_ws_reader(rd_a)
- end
-
- def graph_eq_test(start = 0.0, dur = 1.0)
- graph_eq("oboe.snd", start, dur, :amplitude, 50.0)
- $now = start + dur + 0.2
- end
-
- # ANOI
- #
- # a kind of noise reduction -- on-going average spectrum is squelched
- # to some extent obviously aimed at intermittent signal in background
- # noise
- # this is based on Perry Cook's Scrubber.m
- def anoi(infile, start, dur, fftsize = 128, amp_scaler = 1.0, r = TWO_PI)
- assert_type(File.exist?(infile), infile, 0, "an existing file")
- freq_inc = (fftsize / 2).floor
- fdi = make_vct(fftsize)
- fdr = make_vct(fftsize)
- spectr = make_vct(freq_inc, 1.0)
- scales = make_vct(freq_inc, 1.0)
- diffs = make_vct(freq_inc)
- win = make_fft_window(Blackman2_window, fftsize)
- k = 0
- amp = 0.0
- incr = amp_scaler * 4.0 / @srate
- file = make_file2sample(infile)
- radius = 1.0 - r / fftsize.to_f
- bin = @srate / fftsize
- fs = make_array(freq_inc) do |i|
- make_formant(i * bin, radius)
- end
- samp = 0
- run_instrument(start, dur) do
- inval = file2sample(file, samp)
- samp += 1
- fdr[k] = inval
- k += 1
- amp += incr if amp < amp_scaler
- if k >= fftsize
- k = 0
- spectrum(fdr, fdi, win, 1)
- freq_inc.times do |j|
- spectr[j] = 0.9 * spectr[j] + 0.1 * fdr[j]
- if spectr[j] >= fdr[j]
- diffs[j] = scales[j] / -fftsize
- else
- diffs[j] = ((fdr[j] - spectr[j]) / fdr[j] - scales[j]) / fftsize
- end
- end
- end
- outval = 0.0
- 1.upto(freq_inc - 1) do |j|
- cur_scale = scales[j]
- outval = outval + cur_scale * formant(fs[j], inval)
- scales[j] += diffs[j]
- end
- amp * outval
- end
- end
-
- def anoi_test(start = 0.0, dur = 1.0)
- anoi("fyow.snd", start, dur, 128, 2.0)
- $now = start + dur + 0.2
- end
-
- =begin
- Date: Fri, 25 Sep 1998 09:56:41 +0300
- From: Matti Koskinen <mjkoskin@sci.fi>
- To: linux-audio-dev@ginette.musique.umontreal.ca
- Subject: [linux-audio-dev] Announce: alpha version of denoising
- [...]
- I wrote a simple denoiser called anoi after it's parent
- clm-instrument anoi.ins.
-
- anoi tries to remove white noise like tape hiss from wav-
- files. Removing of noise succeeds ok, but depending of the
- original sound, some distortion can be audible.
-
- If someone is interested, http://www.sci.fi/~mjkoskin
- contains tarred and gzipped file.
-
- Now only monophonic wav-files can be denoised, but adding
- others isn't too difficult.
-
- -matti
- mjkoskin@sci.fi
- =end
-
- # FULLMIX
- #
- # ;; "matrix" can be a simple amplitude or a list of lists each inner
- # ;; list represents one input channel's amps into one output channel
- # ;; each element of the list can be a number, a list (turned into an
- # ;; env) or an env
- # ;;
- # ;; "srate" can be a negative number (read in reverse), or an envelope.
- def fullmix(in_file,
- start = 0.0,
- outdur = false,
- inbeg = 0.0,
- matrix = false,
- srate = false,
- reverb_amount = false)
- unless File.exist?(in_file)
- Snd.raise(:no_such_file, in_file, "no such file")
- end
- unless start
- start = 0.0
- end
- unless inbeg
- inbeg = 0.0
- end
- if number?(outdur)
- dur = outdur
- else
- sr = number?(srate) ? srate.abs : 1.0
- dur = (mus_sound_duration(in_file) - inbeg) / sr
- end
- in_chans = channels(in_file)
- reversed = ((number?(srate) and srate.negative?) or
- (array?(srate) and srate.cadr.negative?))
- inloc = (Float(inbeg) * mus_sound_srate(in_file)).round
- ochans = [in_chans, @channels].max
- if @ws_reverb and number?(reverb_amount) and reverb_amount.positive?
- rev_mx = Vct.new(in_chans * in_chans, reverb_amount)
- else
- rev_mx = false
- end
- dir = (reversed ? -1 : 1)
- if (not srate) or (number?(srate) and srate == 1.0)
- file = make_file2frample(in_file)
- else
- file = make_array(in_chans) do |i|
- make_readin(in_file, i, inloc, :direction, dir)
- end
- end
- envs = false
- if array?(srate)
- srcenv = make_env(srate, :duration, dur, :scaler, Float(dir))
- else
- srcenv = false
- end
- case matrix
- when Array
- mx = Vct.new(ochans * ochans, 0.0)
- matrix.each_with_index do |inlist, inp|
- break if inp >= in_chans
- inlist.each_with_index do |outn, outp|
- break if outp >= @channels
- case outn
- when Numeric
- # mx[inp][outp] = outn
- mx[inp * ochans + outp] = outn
- when Array, Mus
- unless envs
- envs = Array.new(in_chans * @channels, false)
- end
- if env?(outn)
- envs[inp * @channels + outp] = outn
- else
- envs[inp * @channels + outp] = make_env(outn, :duration, dur)
- end
- else
- Snd.warning("unknown element in matrix: %p", outn)
- end
- end
- end
- when Numeric
- # ; matrix is a number in this case (a global scaler)
- mx = Vct.new(ochans * ochans, matrix)
- else
- mx = Vct.new(ochans * ochans, 1.0)
- end
- # to satisfy with_sound-option :info and :notehook
- with_sound_info(get_func_name, start, dur)
- beg = seconds2samples(start)
- samps = seconds2samples(dur)
- if (not array?(file))
- mxe = envs
- if envs
- mxe = Array.new(in_chans) do |i|
- Array.new(@channels) do |j|
- envs[i * @channels + j]
- end
- end
- end
- if sound?(@ws_output)
- output = file_name(@ws_output)
- if sound?(@ws_reverb)
- revout = file_name(@ws_reverb)
- end
- else
- output = @ws_output
- revout = @ws_reverb
- end
- mus_file_mix(output, file, beg, samps, inloc, mx, mxe)
- if rev_mx
- mus_file_mix(revout, file, beg, samps, inloc, rev_mx)
- end
- else
- if sound?(@ws_output)
- Snd.raise(:wrong_type_arg, "don't use :to_snd true")
- end
- sr = (number?(srate) ? srate.abs : 0.0)
- srcs = Array.new(in_chans) do |i|
- make_src(:input, file[i], :srate, sr)
- end
- mus_file_mix_with_envs(file, beg, samps, mx, rev_mx, envs, srcs, srcenv,
- @ws_output, @ws_reverb)
- end
- end
-
- def fullmix_test(start = 0.0, dur = 1.0)
- $now = start
- fullmix("pistol.snd", $now, dur)
- $now += dur + 0.2
- fullmix("oboe.snd", $now, dur, 0,
- [[0.1, make_env([0, 0, 1, 1], :duration, dur, :scaler, 0.5)]])
- $now += dur + 0.2
- end
-
- # Original header:
-
- # ;;; grani: a granular synthesis instrument
- # ;;; by Fernando Lopez-Lezcano
- # ;;; http://ccrma.stanford.edu/~nando/clm/grani/
- # ;;;
- # ;;; Original grani.ins instrument written for the 220a Course by
- # ;;; Fernando Lopez-Lezcano & Juan Pampin, November 6 1996
- # ;;;
- # ;;; Mar 21 1997: working with hop and grain-dur envelopes
- # ;;; Mar 22 1997: working with src envelope (grain wise) & src spread
- # ;;; Jan 26 1998: started work on new version
- # ;;; Nov 7 1998: input soundfile duration calculation wrong
- # ;;; Nov 10 1998: bug in in-samples (thanks to Kristopher D. Giesing for this one)
- # ;;; Dec 20 1998: added standard locsig code
- # ;;; Feb 19 1999: added "nil" as default value of where to avoid warning (by bill)
- # ;;; Jan 10 2000: added input-channel to select which channel of the input file
- # ;;; to process.
- # ;;; added grain-start-in-seconds to be able to specify input file
- # ;;; locations in seconds for the grain-start envelope
- # ;;; May 06 2002: fixed array passing of where-bins in clisp (reported by Charles
- # ;;; Nichols and jennifer l doering
- # ;;; Mar 27 2003: added option for sending grains to all channels (requested by
- # ;;; Oded Ben-Tal)
-
- # ;;; calculate a random spread around a center of 0
- def random_spread(spread)
- spread.nonzero? ? (random(spread) - spread / 2.0) : 0.0
- end
-
- # ;;; create a constant envelope if argument is a number
- def envelope_or_number(val)
- assert_type((number?(val) or array?(val) or vct?(val)),
- val, 0, "a number, an array or a vct")
- case val
- when Numeric
- [0, Float(val), 1, Float(val)]
- when Vct
- val.to_a
- when Array
- val
- end
- end
-
- # ;;; create a vct from an envelope
- def make_gr_env(env, length = 512)
- length_1 = (length - 1).to_f
- make_vct!(length) do |i|
- envelope_interp(i / length_1, env)
- end
- end
-
- # ;;; Grain envelopes
- def raised_cosine(*args)
- duty_cycle, length = nil
- optkey(args, binding,
- [:duty_cycle, 100],
- [:length, 128])
- active = length * duty_cycle.to_f * 0.01
- incr = PI / (active - 1.0)
- start = (length - active) / 2.0
- fin = (length + active) / 2.0
- s = -1
- make_vct!(length) do |i|
- sine = if i >= start and i < fin
- s += 1
- sin(s * incr)
- else
- 0.0
- end
- sine * sine
- end
- end
-
- # ;;;=============================================================================
- # ;;; Granular synthesis instrument
- # ;;;=============================================================================
- #
- # ;;; input-channel:
- # ;;; from which channel in the input file are samples read
- # ;;; amp-envelope:
- # ;;; amplitude envelope for the note
- # ;;; grain-envelope:
- # ;;; grain-envelope-end:
- # ;;; envelopes for each individual grain. The envelope applied in the result
- # ;;; of interpolating both envelopes. The interpolation is controlled by
- # ;;; grain-envelope-trasition. If "grain-envelope-end" is nil interpolation
- # ;;; is turned off and only grain-envelope is applied to the grains.
- # ;;; grain-envelope-trasition:
- # ;;; an enveloper that controls the interpolation between the two grain envelopes
- # ;;; 0 -> selects "grain-envelope"
- # ;;; 1 -> selects "grain-envelope-end"
- # ;;; grain-envelope-array-size
- # ;;; size of the array passed to make-table-lookup
- # ;;; grain-duration:
- # ;;; envelope that controls grain duration in seconds
- # ;;; srate-linear:
- # ;;; t -> sample rate envelope is linear
- # ;;; nil -> sample rate envelope is exponential
- # ;;; srate:
- # ;;; envelope that controls sample rate conversion. The envelope is an
- # ;;; exponential envelope, the base and error bound of the conversion
- # ;;; are controlled by "srate-base" and "srate-error".
- # ;;; srate-spread:
- # ;;; random spread of sample rate conversion around "srate"
- # ;;; srate-base:
- # ;;; base for the exponential conversion
- # ;;; for example: base = (expt 2 (/ 12)) creates a semitone envelope
- # ;;; srate-error:
- # ;;; error bound for the exponential conversion.
- # ;;; grain-start:
- # ;;; envelope that determines the starting point of the current grain in
- # ;;; the input file. "y"->0 starts the grain at the beginning of the input
- # ;;; file. "y"->1 starts the grain at the end of the input file.
- # ;;; grain-start-spread:
- # ;;; random spread around the value of "grain-start"
- # ;;; grain-start-in-seconds:
- # ;;; nil -> grain-start y envelope expressed in percent of the duration of the input file
- # ;;; t -> grain-start y envelope expressed in seconds
- # ;;; grain-density:
- # ;;; envelope that controls the number of grains per second generated in the output file
-
- # ;;; grain-density-spread:
-
- Grani_to_locsig = 0
- Grani_to_grain_duration = 1
- Grani_to_grain_start = 2
- Grani_to_grain_sample_rate = 3
- Grani_to_grain_random = 4
- Grani_to_grain_allchans = 5
-
- def grani(start, dur, amp, file, *args)
- assert_type(File.exist?(file), file, 3, "an existing file")
- input_channel = nil
- grains, amp_envelope, grain_envelope, grain_envelope_end = nil
- grain_envelope_transition, grain_envelope_array_size, grain_duration = nil
- grain_duration_spread, grain_duration_limit, srate, srate_spread = nil
- srate_linear, srate_base, srate_error, grain_start, grain_start_spread = nil
- grain_start_in_seconds, grain_density, grain_density_spread = nil
- reverb_amount, reverse, where_to, where_bins, grain_distance = nil
- grain_distance_spread, grain_degree, grain_degree_spread = nil
- optkey(args, binding,
- [:input_channel, 0],
- [:grains, 0],
- [:amp_envelope, [0, 0, 0.3, 1, 0.7, 1, 1, 0]],
- [:grain_envelope, [0, 0, 0.3, 1, 0.7, 1, 1, 0]],
- [:grain_envelope_end, false],
- [:grain_envelope_transition, [0, 0, 1, 1]],
- [:grain_envelope_array_size, 512],
- [:grain_duration, 0.1],
- [:grain_duration_spread, 0.0],
- [:grain_duration_limit, 0.002],
- [:srate, 0.0],
- [:srate_spread, 0.0],
- [:srate_linear, false],
- [:srate_base, 2.0 ** (1.0 / 12)],
- [:srate_error, 0.01],
- [:grain_start, [0, 0, 1, 1]],
- [:grain_start_spread, 0.0],
- [:grain_start_in_seconds, false],
- [:grain_density, 10.0],
- [:grain_density_spread, 0.0],
- [:reverb_amount, 0.01],
- [:reverse, false],
- [:where_to, 0],
- [:where_bins, []],
- [:grain_distance, 1.0],
- [:grain_distance_spread, 0.0],
- [:grain_degree, 45.0],
- [:grain_degree_spread, 0.0])
- beg, fin = times2samples(start, dur)
- in_file_channels = ws_channels(file)
- in_file_sr = ws_srate(file)
- in_file_dur = ws_duration(file)
- rd = make_ws_reader(file,
- :channel, [input_channel, in_file_channels - 1].min,
- :vct?, true)
- in_file_reader = make_src(:input, lambda do |dir| ws_readin(rd) end,
- :srate, 1.0)
- set_mus_increment(in_file_reader, -1) if reverse
- last_in_sample = (in_file_dur * in_file_sr).round
- srate_ratio = in_file_sr / mus_srate()
- sr_env = make_env(:envelope, if srate_linear
- envelope_or_number(srate)
- else
- exp_envelope(envelope_or_number(srate),
- :base, srate_base,
- :error, srate_error)
- end,
- :scaler, srate_ratio,
- :duration, dur)
- sr_spread_env = make_env(:envelope, envelope_or_number(srate_spread),
- :duration, dur)
- amp_env = make_env(:envelope, amp_envelope, :scaler, amp, :duration, dur)
- gr_dur = make_env(:envelope, envelope_or_number(grain_duration),
- :duration, dur)
- gr_dur_spread = make_env(:envelope, envelope_or_number(grain_duration_spread),
- :duration, dur)
- gr_start_scaler = (grain_start_in_seconds ? 1.0 : in_file_dur)
- gr_start = make_env(:envelope, envelope_or_number(grain_start),
- :duration, dur)
- gr_start_spread = make_env(:envelope, envelope_or_number(grain_start_spread),
- :duration, dur)
- gr_dens_env = make_env(:envelope, envelope_or_number(grain_density),
- :duration, dur)
- gr_dens_spread_env = make_env(:envelope,
- envelope_or_number(grain_density_spread),
- :duration, dur)
- if vct?(grain_envelope)
- ge = grain_envelope
- else
- ge = make_gr_env(grain_envelope, grain_envelope_array_size)
- end
- gr_env = make_table_lookup(:frequency, 1.0, :initial_phase, 0, :wave, ge)
- if grain_envelope_end
- if vct?(grain_envelope_end)
- ge = grain_envelope_end
- else
- ge = make_gr_env(grain_envelope_end, grain_envelope_array_size)
- end
- else
- ge = make_vct(512)
- end
- gr_env_end = make_table_lookup(:frequency, 1.0, :initial_phase, 0, :wave, ge)
- gr_int_env = make_env(:envelope,
- envelope_or_number(grain_envelope_transition),
- :duration, dur)
- gr_dist = make_env(:envelope, envelope_or_number(grain_distance),
- :duration, dur)
- gr_dist_spread = make_env(:envelope,
- envelope_or_number(grain_distance_spread),
- :duration, dur)
- gr_degree = make_env(:envelope, envelope_or_number(grain_degree),
- :duration, dur)
- gr_degree_spread = make_env(:envelope,
- envelope_or_number(grain_degree_spread),
- :duration, dur)
- gr_start_sample = beg
- gr_samples = 0
- gr_offset = 1
- gr_dens = 0.0
- gr_dens_spread = 0.0
- grain_counter = 0
- samples = 0
- first_grain = true
- case grain_duration
- when Numeric
- dur += grain_duration
- when Array
- dur += grain_duration.last
- end
- run_instrument(start, dur, :degree, 45.0) do
- if gr_offset < gr_samples
- gr_offset += 1
- (if grain_envelope_end
- gr_where = env(gr_int_env)
- (1 - gr_where) * table_lookup(gr_env) +
- gr_where * table_lookup(gr_env_end)
- else
- table_lookup(gr_env)
- end) * env(amp_env) * src(in_file_reader)
- else
- if first_grain
- first_grain = false
- gr_start_sample = beg
- else
- gr_start_sample += seconds2samples(1.0 / (gr_dens + gr_dens_spread))
- if (gr_start_sample > fin) or
- (grains.nonzero? and (grain_counter >= grains))
- break
- end
- end
- gr_offset = 0
- gr_from_beg = gr_start_sample - beg
- set_mus_location(amp_env, gr_from_beg)
- set_mus_location(gr_dur, gr_from_beg)
- set_mus_location(gr_dur_spread, gr_from_beg)
- set_mus_location(sr_env, gr_from_beg)
- set_mus_location(sr_spread_env, gr_from_beg)
- set_mus_location(gr_start, gr_from_beg)
- set_mus_location(gr_start_spread, gr_from_beg)
- set_mus_location(gr_dens_env, gr_from_beg)
- set_mus_location(gr_dens_spread_env, gr_from_beg)
- in_start_value = env(gr_start) * gr_start_scaler +
- random_spread(env(gr_start_spread) * gr_start_scaler)
- in_start = (in_start_value * in_file_sr).round
- gr_duration = [grain_duration_limit,
- env(gr_dur) + random_spread(env(gr_dur_spread))].max
- gr_samples = seconds2samples(gr_duration)
- gr_srate = if srate_linear
- env(sr_env) + random_spread(env(sr_spread_env))
- else
- env(sr_env) * srate_base ** random_spread(env(sr_spread_env))
- end
- set_mus_increment(in_file_reader, gr_srate)
- in_samples = (gr_samples / (1.0 / srate_ratio)).round
- set_mus_phase(gr_env, 0.0)
- set_mus_phase(gr_env_end, 0.0)
- set_mus_frequency(gr_env, 1.0 / gr_duration)
- set_mus_frequency(gr_env_end, 1.0 / gr_duration)
- gr_dens = env(gr_dens_env)
- gr_dens_spread = random_spread(env(gr_dens_spread_env))
- samples += gr_samples
- grain_counter += 1
- where = case where_to
- when Grani_to_grain_duration
- gr_duration
- when Grani_to_grain_start
- in_start_value
- when Grani_to_grain_sample_rate
- gr_srate
- when Grani_to_grain_random
- random(1.0)
- else
- Grani_to_locsig
- end
- if where.nonzero? and where_bins.length > 0
- (where_bins.length - 1).times do |chn|
- locsig_set!(@locsig, chn,
- (where.between?(where_bins[chn], where_bins[chn + 1]) ?
- 1.0 :
- 0.0))
- end
- else
- if where_to == Grani_to_grain_allchans
- @channels.times do |chn|
- locsig_set!(@locsig, chn, 1.0)
- end
- else
- set_mus_location(gr_dist, gr_from_beg)
- set_mus_location(gr_dist_spread, gr_from_beg)
- set_mus_location(gr_degree, gr_from_beg)
- set_mus_location(gr_degree_spread, gr_from_beg)
- deg = env(gr_degree) + random_spread(env(gr_degree_spread))
- dist = env(gr_dist) + random_spread(env(gr_dist_spread))
- dist_scl = 1.0 / [dist, 1.0].max
- if sample2file?(@ws_reverb)
- locsig_reverb_set!(@locsig, 0,
- reverb_amount * (1.0 / sqrt([dist, 1.0].max)))
- end
- if @channels == 1
- locsig_set!(@locsig, 0, dist_scl)
- else
- if @channels == 2
- frac = [90.0, [0.0, deg].max].min / 90.0
- locsig_set!(@locsig, 0, dist_scl * (1.0 - frac))
- locsig_set!(@locsig, 1, dist_scl * frac)
- else
- if @channels > 2
- locsig_set!(@locsig, 0, if deg.between?(0, 90)
- dist_scl * ((90.0 - deg) / 90.0)
- else
- if deg.between?(270, 360)
- dist_scl * ((deg - 270.0) / 90.0)
- else
- 0.0
- end
- end)
- locsig_set!(@locsig, 1, if deg.between?(90, 180)
- dist_scl * (180.0 - deg) / 90.0
- else
- if deg.between?(0, 90)
- dist_scl * (deg / 90.0)
- else
- 0.0
- end
- end)
- locsig_set!(@locsig, 2, if deg.between?(180, 270)
- dist_scl * (270.0 - deg) / 90.0
- else
- if deg.between?(90, 180)
- dist_scl * (deg - 90.0) / 90.0
- else
- 0.0
- end
- end)
- if @channels > 3
- locsig_set!(@locsig, 3, if deg.between?(270, 360)
- dist_scl * (360.0 - deg) / 90.0
- else
- if deg.between?(180, 270)
- dist_scl * (deg - 180.0) / 90.0
- else
- 0.0
- end
- end)
- end
- end
- end
- end
- end
- end
- in_start = if (in_start + in_samples) > last_in_sample
- last_in_sample - in_samples
- else
- [in_start, 0].max
- end
- set_ws_location(rd, in_start)
- 0.0
- end
- end
- close_ws_reader(rd)
- end
-
- def grani_test(start = 0.0, dur = 1.0)
- grani(start, dur, 5.0, "oboe.snd", :grain_envelope, raised_cosine())
- $now = start + dur + 0.2
- end
-
- # BES-FM
- def bes_fm(start, dur, freq, amp, ratio, index)
- car_ph = mod_ph = 0.0
- car_incr = hz2radians(freq)
- mod_incr = ratio.to_f * car_incr
- ampenv = make_env(:envelope, [0, 0, 25, 1, 75, 1, 100, 0],
- :scaler, amp,
- :duration, dur)
- run_instrument(start, dur) do
- out_val = env(ampenv) * bes_j1(car_ph)
- car_ph = car_ph + car_incr + index.to_f * bes_j1(mod_ph)
- mod_ph += mod_incr
- out_val
- end
- end
-
- def bes_fm_test(start = 0.0, dur = 1.0)
- bes_fm(start, dur, 440, 10, 1, 4)
- $now = start + dur + 0.2
- end
-
- # SSB_FM
- class Ssb_fm < Musgen
- def initialize(freq)
- super()
- @frequency = freq
- @osc1 = make_oscil(freq, 0)
- @osc2 = make_oscil(freq, HALF_PI)
- @osc3 = make_oscil(0, 0)
- @osc4 = make_oscil(0, HALF_PI)
- @hilbert = make_hilbert_transform(40)
- @delay = make_delay(40)
- end
-
- def inspect
- format("%s.new(%s)", self.class, @frequency)
- end
-
- def to_s
- format("#<%s freq: %s>", self.class, @frequency)
- end
-
- def run_func(val1 = 0.0, val2 = 0.0)
- ssb_fm(val1)
- end
-
- def ssb_fm(modsig)
- am0 = oscil(@osc1)
- am1 = oscil(@osc2)
- car0 = oscil(@osc3, hilbert_transform(@hilbert, modsig))
- car1 = oscil(@osc4, delay(@delay, modsig))
- am0 * car0 + am1 * car1
- end
- end
-
- def make_ssb_fm(freq = 440.0)
- Ssb_fm.new(freq)
- end
-
- def ssb_fm?(obj)
- obj.kind_of?(Ssb_fm)
- end
-
- def ssb_fm(gen, modsig = 0.0)
- gen.ssb_fm(modsig)
- end
-
- # FM2
- class Fm2 < Musgen
- def initialize(f1, f2, f3, f4, p1, p2, p3, p4)
- super()
- @osc1 = make_oscil(f1, p1)
- @osc2 = make_oscil(f2, p2)
- @osc3 = make_oscil(f3, p3)
- @osc4 = make_oscil(f4, p4)
- end
-
- def inspect
- format("%s.new(%s, %s, %s, %s, %s, %s, %s, %s)",
- self.class, @f1, @f2, @f3, @f4, @p1, @p2, @p3, @p4)
- end
-
- def to_s
- format("#<%s %1.3f, %1.3f, %1.3f, %1.3f, %1.3f, %1.3f, %1.3f, %1.3f>",
- self.class, @f1, @f2, @f3, @f4, @p1, @p2, @p3, @p4)
- end
-
- def run_func(val1 = 0.0, val2 = 0.0)
- fm2(val1)
- end
-
- def fm2(index)
- (oscil(@osc1, index * oscil(@osc2)) +
- oscil(@osc3, index * oscil(@osc4))) * 0.25
- end
- end
-
- # make_fm2(1000, 100, 1000, 100, 0, 0, HALF_PI, HALF_PI)
- # make_fm2(1000, 100, 1000, 100, 0, 0, 0, HALF_PI)
- def make_fm2(f1, f2, f3, f4, p1, p2, p3, p4)
- Fm2.new(f1, f2, f3, f4, p1, p2, p3, p4)
- end
-
- def fm2?(obj)
- obj.kind_of?(Fm2)
- end
-
- def fm2(gen, index = 0.0)
- gen.fm2(index)
- end
-
- def clm_ins_test(start = 0.0, dur = 1.0)
- $now = start
- violin_test($now, dur)
- fm_violin_test($now, dur)
- pluck_test($now, dur)
- vox_test($now, dur)
- fofins_test($now, dur)
- fm_trumpet_test($now, dur)
- pqw_vox_test($now, dur)
- flute_test($now, dur)
- fm_bell_test($now, dur)
- fm_insect_test($now, dur)
- fm_drum_test($now, dur)
- gong_test($now, dur)
- attract_test($now, dur)
- pqw_test($now, dur)
- tubebell_test($now, dur)
- wurley_test($now, dur)
- rhodey_test($now, dur)
- hammondoid_test($now, dur)
- metal_test($now, dur)
- drone_canter_test($now, dur)
- reson_test($now, dur)
- cellon_test($now, dur)
- gran_synth_test($now, dur)
- touch_tone_test($now, dur)
- spectra_test($now, dur)
- two_tab_test($now, dur)
- lbj_piano_test($now, dur)
- resflt_test($now, dur)
- scratch_test($now, dur)
- pins_test($now, dur)
- zc_test($now, dur)
- zn_test($now, dur)
- za_test($now, dur)
- clm_expsrc_test($now, dur)
- exp_snd_test($now, dur)
- expfil_test($now, dur)
- graph_eq_test($now, dur)
- anoi_test($now, dur)
- fullmix_test($now, dur)
- grani_test($now, dur)
- bes_fm_test($now, dur)
- end
-
- # clm-ins.rb ends here
|