Scriptnode Snippets
SNEX Oneshot Player
This snippet implements a one-shot player node using SNEX that fully plays a sample from start to finish. It also uses the voice management tools in HISE to automatically stop the voice when the sample is done.
This is a rather advanced snippet that can be used as a starting point for further customizations. There is a forum topic that can be used for discussing about this snippet.
HiseSnippet 4103.3oc4ZstabbbkdFJONgbcBhA1E6lEH.U9i7PX5wjNYu.KJEqKjQDwjlPijR.LLHpo6Z3Tg8zUip6dFNIPX+49Js+LOB4QIuA69cNmp5tGRJEZlq.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.gABXgwWYI6P+mYVfzII1XyAOyTdQkqf267BWNI52A48xtx5ptOTDMNGgy8CCTL2kZTLFgozVZ760aoMsZVy49c9un20ijQNjKsNSWsdhEgfDV.QFqEMSgr4k1pUcQX9Vjss66La61Jhe3fSsUIytYYbiaPFgq6uDxX.i56M3foSMIUsB36M3ve0cEP51y9shrWhAX2Oy92dTwauPwu+1Vnn3VWn3j54bT8g1LRmGzmxlh3g6L3aC1yUJw7d2Nrm0Cj6r+a.n+8+aPsm+7jM72vD10JO99hL9O2I3iienvEiTj7esafIunRVc8Hyic4thYtbaR2fwWXp71yO2369x+T0u89KOfz89+M.RuKSz2cvAWV40682gkSBh1m8WSQ6Et5Ja94GqQLMp0O.XkiAvYhAhUdtIiwK2fZ+Qdd2XyHiw3B7C+u3egE2qAbEKtWbw1Nm5choZoyeAmwF98d8+NRohxlLxyJ6Vp3wYYtkTOL1PHMLJ76N0ksJlc1eCYGQw9wyc04UQY+45xWpsYz1FWWhF9R+p7wXybUl9260FeIS3uyfcGg+C4Dm.w.m9PcBrxqNUSsv7gCndHgyx3Gkz3zd6BdWuHQuXIIw9A4cN2SFM4x85zHm.lQOAW9FDK9fAGU9ZZ0DcVuWKMPB8hnIs8nvJc+Wlat7LRX5slv+Cfv6MiZW8VJc+OCd4LaohAJsyKxLzqKUZTqz7IkybUpovPpJxzqvTf0kHVRM9jC9UiTGUozYkNUIL2kJDlgCMuAXRUZOOWmoVNyjqfMSUpIpq.uLWNSWigJSw60UpDctZB3.rI5y07qc7Id9QiOPsfAumqywjfjnoJWgiNeDxzdm1zMG7zLn+n20fA8CG.M5LRiNSTld8ZgQeo1etopLz4ctIQBDYK+QbayrbblHGv2ep1iwRwXUzpev.p3hTmgMsPQuLzI+fWpmPckfblLapweJFpkdpSCKfoMOA05HLl9kQ+zAnMkTL0xyhSQbrMOnPxFNVe4ZO2CTAhEwhmYKIM8I0.iVfohBM8PmfpqocqEY8uLvjuvjAq6n011sMB6+Rhvv3FK0dDoPt14.eBzPB.nWHtYrsT3khA.ukZ3pn7ffKaxL0Rx3WQwYWD9sNgNHPYitAJqYDPTS7I.NzZZaqd1ZdaAmGWYJFa+Mq+tKLKEqV22JI2cBNtFsdbckaNEzyY7q4fdhycwbMCldmFL7uJP+y0Id2YIRW0jE86xuAHd4701r4fiomU2vfwyQqsmkjrNot1A+r65A+I20C9SuqG7e6tdv+865A+OtqG7+7O9AoIOBQmDVHREN8.AEp+A4DlFm22yD.njbUJVs4MnTTC.2TFaaC5Ghj7iZKj8oWAXdzr3k4zai+6e3.f1i2WYT6aA7+Iu9QpxJecRk5JGiFh6S+TUa4LFWnolFpN0TIaB.gC0xJcyMJ2TB0fO9bTEUkHP3pDpDhoTYy4ZdDtTC83c+IphPSJqBOao6ZCujsZasIcryN4qd1ACuhzt8CvHmzQ9klOBbTDFB5hg+Uz83.LSuatvYfd1HhSX.cUFvGpKFABnVpg9AgCx67BlJVgJBNZcAvJ3iV3Pmlb0Ymf8ZqDyTNJzCBVr0lhjvRAgnndnPqO+yYhaR2e2cTSQgeyihZvItkpkjQCvxdljfunndcdIZnA0ySc0SHKu2jXoFwTSybZw.Jx4vUtZb95rzPKEKoobHxj67y0Y.rMUs6nQi1CzZN5LSMy3iFiJh4hE.5JvfqQaGwtMHxGMjDABuGXXaGU0CIgQr5M5ZTz2WD8cZsGMZMDwYTLEcZhLENJ7TzGxZ.CfNE5CrrPXUK8ZxKvVc975PtE3S1JEVhtOtx0ieTgpie827IDbOMMATPp4dlDCIq.XVa.TFZdU6WmH6v1nqXgqKEymJodhMQMj0lfxCpN2VY1VAtkSkisS4iWRw9qnixBEEhJzfst5ItElsaiehRfyudXDJfWreqMuwd9klpOB8cVVViDR5SNXbpvUPRDb3bLqdvsVJwrSZh43dFYpjRNedqv5AljhyBgprhrzz1KIeDfQd0wm8zm+3SN4fubLjsOKJEL5wLWVJ0Br2f7LZHhXhj4RHWTWszk5pbS90nQQwYlm1HSv9vsvl4.HCcJdygj1zZOoMd5awP+l3GuorQugD+tsNSLg.OnswHXRzg3CvdfXZma1dzVadPPNI7Zl8qodLKHcrKwYgTWplWmUAj+4zLoNRU0dOXIPHaSZkKOCwfkE578SWkuOu1i1YMy5iBjl4c.BnzCiMl.6AMugvjOqyq6hnjZlh3YLZgOzeHKjXFCS1HE4T4x.bmUjlt0lnBf.opxMFQ8Rp8ddrAQMi.fXiAAntfrZM7eSgDONWNdS0BLUIn3PLBNLQD1DQaZFT3TArNkXYyS7FMkXwPszBLSIORjaPzgJvLauVtgZ.vkPHAft1.bEwAuozTwKvBgTmhBOBLg8m3+mXnnJZePHoQtLHs.Qv4lkssVWRe6ArNh1jSuLZmbAFslFGMUjzCZjJ6YHxlX67lW0v8FQcBJ5j54Es6UR7HHOkeANhb1GzgLe7CEaC+Nuop1misxzER6aZCfMbIWNRnoy.NhNstHCnoUlNCTzFvHnCb.UpfUw0TMZ3KkAEDiolt4gRFuqhgIIyVkYZsPAgrKzdKOV2ZcDz1KfZHJQQgslK4HfcBkgIMUxffYmOLvKPVbpcJizT0XzKkAm4rQJtk4KjNeXTbp7Ec+HTb+9MY.6vsGsH9HazXWGJ8VfyN7T4miKLIkphxsaRYH6ZjdAfs0DRaNDKTHlv1jZuLvEPhN2qmT1cFNtBXSDbQYjbfPXThzrvYU5vrZxwH6dhTzKyctMYaIpSTjQQ4GhbHqggLJJCEzeAbQXg2DhRdQazbaEjBaggpOFj+0CoIy.hGFRgn2Ws3yaMhjfr4hQgc1gIxTswOsPSEIIGbxJ0DT3Ox+Co45X.bI+kZpQZHSVuMEm1SpqaqLXojv0TLh8SDHCwQITBy3ScbQBScAebp5gKGUpY.k0jfTK5AqBKw9mvRRiXDHRhNTb2K.Fbuw.IYlQSvaKbYKH7EpWAp5Vrk0TF7MTFbpAstEWoSVXnC1HfLjAoHHHnj+QTfoxiCAFSPCtexEFSAQMhzFuGDIYlI4BIUfur.qb+RXXW.4E8GhRAjtPqX..JAb0SvCt7tlWNZSHBTYL88LWZSVCae3dYPovgb4NtT2Upzce0zzcZKDg.nPHUGbOh7uJBYtXjfO9fsvltVuR1zKG1t8XDOEdxsXRPtO.+X+0DB7lO9ia.bEz8ecM39RuMfIFpAFFtJ1Tilt6oP+IgiRe1eEUpSFknaGozvUFM49jNZQntAt6zvI0JJWKiaYU5T8GSqLM8qseCjaQBvu+0PG+lPUiXB0yktYuRiSjimvX5DOQ9Rt9ZnopXxSrBAhgonCJOnxaW.bKkz9LCrV5BkKIDbxHTNCjIiMQyYRfPoRaZbrPEOvAMbTSRN2A.OonY5Tahk9qsXqMaGTkZMlFyM9k6nfBd3AU23pgWY06qJRaQjsSasAzklNunZkjZ9Qz7sURNlC4.XrFbD6zgzdGglyFG5R9gHPY615ob4fHXOwzWfz5ujL1ADZV8JWkmLy6xsjUj8fw.Ew4Ij.vg7UIgmViRkYrTrcCuX3f+HXAA9SZQ.+kRQZ.+OO.7FnXn4v3XHSYfsl+XEh5BXQvNRguYFMgb0oZPv2lDtJrldv2to0nY3H7P0A7WSmAqY30lvPVDBBOPBnBSoipbLjKoAck9WdChbXJlvUiRk7ChUH2LbU5M5CjoY04.CDJQW0KNcDOnfPc5xKnpAHwL3OXdOQWZAD4lKmg1uGNMcTNFsY31cgONTtu1ny2F.A6ZCEvRxss4UgJmRFfw.ub316.zvN8GFqbVWjReaqatmSkultn2.R8qNh5qjBEPM3vsZaR46Rc3hQ0qgR149Hn5Dwzn1u9fb3ltOVporJuq97YQOns7TrGRAeH0HW01Qdn1+gpqjis9DCwtNNWhVzwTJTni+.Ir+0kFbngdnpZlIKZioR2cEd9t53P0yIImHFh+jiyzt6UpSWNB2lU6W2n4ivvXG5.k3wRHIkrpXyr87noOUXyvgRi7a2XM516y2dnZwALZqtSsP.z.mEAUxMHDuEDc3PXlKTLego8FLl6JkQPyrWXfYJ0wDINES6DTbDevoyA6P3VAec4n0qsy4nu6B6AH4aC95aEMjCRdmXaWOAJj2DM4ghErs83id1QJLhG8k55zMq32eNPtOfVaXyucekInEsz6UL9Y2VXoRgPQJt9UcDnOVs6MKLT5to6q.ifb2bQXAlxAGODKwVHS5H9hUdBE77R2vPOA69M6.q4Cd6aXOrg8ho42f23QpcU2+9zUL7i4YRuogOiieKfIMiNnPdjmEt20P.Lwvn.MDoYd02rdiLA.n1ACICpzmICJHewTs.Sz7ovnoxwgC8xxMfrz4yRu1mPclFNMLPV4LibgPH4Dg0wTXlrw4keL0uCkLHizFtQE1uG6ZZG4FlYDnBKg5TEljP5omtDyteX2Tul9iiILubyfK1R4avYtzjTSWyfdZU3Vm4gr6NoCiTjYpDgpAdbM1vfdxU7RiJPIXbGO9ZYPJDLV0LlAq2W655ZIAwl3kjGYGLYXBirqgVF.9te7uMrtiH2Xi4uL.oyZj.lwWrKQK18lifFZDKaEectN43hMmvCKpndPIQh6O+l.uLsYkgosCWIBiWCPi.JcnFHKncvJFGm9s46IFHy5eKkSC8iBSYyWdLn8MSvPD8MOXqd89+.rZFtzDDynamic voice routing
This example shows how to dynamically route a voice output to different channels.
In this case it sends notes with velocity > 64 into a delay FX but it can be used for all kinds of different voice routing logic.
It also demonstrates how to use the Silent Synth sound generator in combination with a polyphonic script FX to implement a multichannel scriptnode synthesiser that can be compiled into a C++ node.
HiseSnippet 2048.3oc6YrsaabbcVJMRVxR1IMNEAnOzI.Anx.BDhVxtEInUTWcHpkDgopPdSY7tiDGncmY6tKoLaQAJPeoOTf9bdq+F8in.Ev+.8SH+AsmyLKImcIkrHkTbeH5AgcNm4LmKy45vlIZeQZpNg3svw8hEDukns5oxZuSatTQZrKw6QzC3oYhDlEz18h4ooh.hm2LuDA3svrDyee+layC4JewPPDxIZou3UxHY1PnMq+akgg6yCDGKib18F0a3qU6nC0c.4YF5ZjXt+E7yEGxwsUgR7lau.YlNoUFOSjR7lcacPuVs0Wpr6+DYp7MgBbQMRK3frf2WGFfRLBkrSaYXPy95cJg3QaNzJLi0J7D5Ax.4.3CsFejAAaHEt1CuJEEuYJHd0bEu0bDuwHRdNhzrVQ5ios7SjwYCwfxyCoMTvkyYbvr6JJ18Rp7RO5NZXGprpQ7KD6m.KFPwJuXs0VkA+6oe0hKBl9zLVWdBKIh8qY6oNWpDUOWj8xP8a3guV2ISpN+.tBtPRVAo3rNJ+LoVwzpC0YhiTq7zE+iKtPRT0TQ1dcAdtKOiuxAfzBzfGkAXifUd5pr0Wk4f3DQn1Wl0akmx9MrWrAaSVspqw9R1ZUQYagE+SKxJysyNyxtR3PsMQGFhx3XPidbIWGgqn5D8FQxpfkHriXvFgqgh2szq9t000y2Z7c1nV0PIyNJVntJGRR9MF70uqAZBQGhbXv9hEIYRTD71UzEhtrtGKP2UjdQlNFhuFw2A7Z0AcB4YEckw32bDfMnf+C5inRgaD2366L+6apH9wzlxL+1iWFqLFYDrT2GxXdVgko6c1YB+rgB3rz8+l6mT.tr+A8YeKYH5LgInMr+w4PXFP0tljy+6aZx43abxYuYttjw0lxjwy9+cIiuKhmp7iwSefim7pLpM5Qzl5vd1Rk.eQA3mR2smhGI8YlfCFV1SjLtRqd+b53Je3TwfdiE8ZWukaX8fCEYWpStvzhP92Du4QAedJHLWzirUXn9xczQwx7aXPhMvPUMtsVI8w6Z6NDfkWoDgaEo6.muG0qBvjulmdLWFhaqUmTnPUvQJSdFL6g2LmHRRMG77Tn7bUHQPkC0A.p41m6C5aulbH8D3qg09fKVQRU+AWv8ESWCJRc+DKTOhQgihPEF64CsXM4IPKfvEAV0qh2LNUAs8Jgq.21JHKVh1H8DDqOOjbBVEGIhfbA29LVgkZ6dJBRfXktBB+m5H7C2xMWnuchnmiH9ITA1zzoAPe.mlHf7xIEE0eFMw1ZV0Q23MTf2gdbaYJ6RHwOKV5eAqSLKqsv1BDKEKvHUFHCZcjoLc7w.EH7MPW5kzXxvTLGySfF7Ry6gQI7sdkFelFfjsHMUDJPEhL3ZFg+HZtyYCUf3sDhiO.FL2eE31cfTkaCGl15.9aKAas5sxDwsj+AgaJ3VWHtzZNcgZ8MZEpyrLuzQ8f5jIm+.ulH9+.Jl3.hVG4bJXJHN9JySGiq7nwg2Puh+FcKVpLJNTvzo9fuAVKg4GBzVkgsfyfHS1kheQhf0IEb.MdHNsnvNW.L0PEWEv3rXHEDK0j9js+2.9Tvbk7.l9LKkFDJPfrsyHRkovXmHfO+VFPMqiQZI5PsYTKUhnpC5oMfGQA1s21u48ckowg7da2AJ2Ymuq.DTIL9YvA+eg+1Cl.I.ZRxPdNrh9+yM49eezD5+OG1.gfLxI+db82n9Hr9u9txr9e7ce2+bTVW+uD8uxC81OQ766.Eb5Uh++4Kdegde+l29P+kL7m8ZL+00E9cuE6OGzJYl3di0DxUy54oMaySm7686BdOmoC5wn1NguKSizJ8yvWjRnKF+9Srwut3mf.3JEBfupTrOjZSIdJuTximPEpthP3HpNbGS.6oWa9sGSOrSjiLkahr8qQZcI1U+vBsUbATrvaZosOB1qnJ8iocw9gOMx99OEKUuDEmYz1w7catOvxTLw2rSrWX8+9MK6y29I69t7BuakkgszT5r+honp+Dy7EnuF5FZLAfeQ8OX4c9AI1e4bq9NcR5NNIXLMT5FWV1+rPr4mML1r3ttSRO.AqCsNye+bwTHBajyZqNY5H3hyLE+Ul5xoQ6RoM6O.w.72L6RkO0yN3fomMyzC3IILcyAeD2IikoYBIrNw.7LYRZFSaWj0VlDv7sM4yh4xDVf.m1DakTam2vLRCCGooJaKXBEnmSdWAiiYHfFJCDPdDjGi+7VEgkxhDbUJ7IOi0VddaV27Ga1LCS9XOfGU+AcxON6YeILLdtBYzBKImiaAzU3vFpV4b9yuVekYmbekIswsRCNMBGtBuk6stoVFqckKRoiHN+PjV6QzVFO6iL9jeP5n6Izcfz5IGgNQWksn7jcaq0WDwMu1ys9GB3gVjyCHA2ZhsNm46huZrAD9xuuRblyqB+Y0Gf30PHjClmTeegH.eB.GJpu95uay9vcIvf3U3C5jlh8X6NivWKGAJY25GHe6vk+mMOVDEqgwC8K7NpybW8RaC9UtxRP9tL341Bx74KFbmA4.mCyAZWuV+1VZA4sFrHGYMWj0Jg7YtHeVIjq6hb8RH2.Wi5NhbiRHeNtlli74CFdbpzKR9wLV8xKG4X0q9TNV8pOkiUuHWmd489zK5X0qJ2J8hDw8Szm5aeeWLG9CLP.eHk42kdA5A3ZVMR2x4MvmN7Te+hG0HD9rokv0mVB2XZI74SKguXZI7WNsD9qd+Dh+5Q4UCwocf77M2yN2g2dJNjwvjRj7+zQY1SLFaust Zita Reverb
For ease of development, enable the "Faust external editor" in the settings, create a new file in the faust node and get started:
https://faustdoc.grame.fr/manual/quick-start/
HiseSnippet 2455.3oc6Z8zaabbEeIkWYKZWGmV61dbpPKprgJMojsqABJDsjrRDRjLgnpb5IkQ6NTbr1clsyNqEoKJPOzC8VO6BTfBju.E8VNE+AnGJPNTzatm5wjbtGReuYVxcWRJIJVG2jhPaHwcl48d+du48ucFw5pYBel+9wBdTDS63TZllJoGKNVpbJM2t8hXNkthaqdBcm05P4BmMW2ozUc2hFqYJhcnU6EQiiY9NkJMyaiCTZtK3X97YqrJMfJ7XYC43rmj6wdOdHWmMZyFuKOHXCpOaWdXtUemFa5IEqICjI.dlwslSD06H5grso3xJ65TZ1G5y0RUKMUyhcJcgUk98Z0Qdrvt983w7CBX3C0cZALxN7Fx.eDw3nNq0gG3OPuiAqfaNqvLVqv0c2h6yGLdl03ZlIHYTj2dTpbQ3MSA3UOO7pkCdiARkxAoKXgza51xSwizYyf34xtaJfMm1TvrmGJ105T5EtqIgEHzUCoGw1PAOLffEtWsZKRpWq1Meq1IBOMWJHRw1RM6QhEtYkeUk4p7qqPFdp1sG6bnXTxf.lZrSi6zpSivEDIgGvTKRdJMHgMXgf5Wzl5dx1z7a4dVsN2BkhMEb8ihXhSxQvI0TgAFonB9l1X8uZp0uU.2mob3fQ9htuqPdPcGCf66E+2+vWthyDS7REH9keXzmeNHd4hR1owG2v4mu45TMEcfR0EP+hXJMGMckVm8THZz5NMm65r3izxHixFFIEnlWpxYptcGHveydM5kO5Mj66GvZJi43Va1Lubk3j1s4cQ69OxQy5BxwEhi55D025uouIyiQljMd+5PjuBB5AGUbF6hCk9.x9ttaKUgz.9yX9MYJO.0PFBbuafNb4yzpmoCefnnN.Y5hZA7NcrF+ym8aWIjWPYBoYj6b8FY5V7.ca26Uax0MbwmG3ubN3+htmJ7+SO+4eTQ3uYi7vGbYrPF7FngQbwgSJryHvtsbY2MTreYBS30CRvORxKHsozOIfpKlKEKfjNA5wjOAFlkR.dR8xWf4UVB1IEhuoaSt1qy3wX4wfQHz6KCLlVV5a49v1sYd5L.dA2Md+We0fpj5O.xDEdA2iwU8424lkoORw.OH1txlAzdKDCdOArc.LtH4f.o2QnW6nkGR8FWEWwBdcnBAKHdZphL6DaUpe5aJ6HSzfa+VTsBi5c2NIrEzuhGasTzAiUpLVLw9bM7YzunEz7k4gu.9jNYc74RoSVu+jY0gb1loOVpNxrcj9cHMf01GaLx62tacmGDDHOFSgvS8Rg8.yXMkA8h5HEbObH6J5izGDJSv7MV39Nz3co7.zstURLTkz+QhVvhM8yUZl8XpXCiunaspv+.27sMA9ytA0CLr8ZR0cv3ErvK3bxTU8F3jV.q48SPVzueOqUBfXnIKHzsGt+zreRGr9UYSCq8qmY8Pwmf3uxV4rY7d3rdz.m8rEGAkCkh0BZQLtzJt9pd6eLSW24DUf3n.ns0QQQdTO2rQO+vu.Qdd8JuVX0RT9oVL2L4Ggx7LLfSt8ZDIYzz2nulteHuKTHof3tlQbPfS0tsoXYlSRZY5YdI1uw5Q1YJOzNyafwI4rhoaNVWOmgV7rXlXV+0bI22CrFTEDjbLlKdWp5Pl1Hj7Cj1yifYxHDW7wTKBV3xZ3ODsrMyWPaVSwnhBYx4IZdOYdlSwQm19OAASawE6UnIN3yVztCM1msRqh00MeZcD6X6lY9UhFvK5ZYvHr9AIZYHjAzePbQgvAiFTv+3xf+ghU8vSyQ7LcMJm20nnwXlS2X7KdwnFCPwGSSNiXLdwg+4azv5MY1DNCaQNbL6Dsoz322XhvwG7cV+SVw9lZsBkRcGrmogX+cZbFx+Ugc3Jt6vhY5SvyvYZRrleqzoPxMLd3K4jaFIcI21zj3gSheEqWqYpykHN0bXy4tV.vIHvN0BTw8YbMceE6oijB6Dy2Ys04CAJe5g.a1XTWuOdxb8FjOHqY8QXzIFELFn7xUF0K75mSnXecm7L49Ku7+dkhvXnD8ESTMHU62jn5aRTMMIpdcWM9Rtqq58XnahA74O7b7y+nnW+j0pwvcyUnei908clL+3YsAj3Yq7pWyGP5dW8m7W9ie5+ZkyS6Yl9xKnZCLhNip.XFkW8YqxS5SZ29ZMlLEXPEoli4TdFF6YIle0m3OizWT4S9q27i9uB+Y.0YUo7nPp4cRmpiaL+wZbC6jW18wzmxL26f48Eug441RUH4sYPyB3YxT+Tt4g+1jdyCQS7MO7HOM.gcUTQbjLlUOOmGZtkxO25Lchn3xsCUXUn5sAnd4V2kZzevkxOXSpn.yfmKvIL3MmK+CEzCBXsXf13+nXOPYoC4VzLIHl8XtutS87DlM7R4G9cnJeXewqvAbMyocIL0mxKgY1uxcILeM3XLKbFcy0Gis33Yq8PwSYAPznAieaH7ChqCz8GsX3zVRgr+wDksQuCSq3GdHqXEswoPOPqodGkOO6Nr.FMNWH1Org803MuZ+zYKpetOuxwte88csvkf4.He883mm4+qO94IO5CRA9U6cwumKjJdIhYqj7+l8xWGmZ8qCYDR8Tx8SOyRLn+RlQ.8VX9aDXN2svmICcqr3mPnjw9ddEY0HDtzzR3xSKg2YZI7tSKg2aZI7mNsDd+ylPrhd56CgwFPmMMeno4xRkrM0XBSbXgGv7g9Hr2vD5ZOXDAq6F7.6qE1ligEkweYQx0ss0d69mXSU+3n9+QB3T9SK6d6acKxtc3wD3+OAVIgRhM0QIGqnQPSsDpRlH7I5NLRetPB3GnnpdjHJDaWoxVziXj3DEizSlP7j.88HGy0cLTE.MjJhYDdayzbT3.+jjDXPsQ1BPrQJ4Sfjr+fJ251U.DHU5ElOV6aveUPfyey2pRkaeaxpLB8XJHKYaBjSvHBoxGPJLvfKqk3y7BfGL2SFHB.0vaBx7QNb.SeLiIHcX.Wno5l8pZDPYZqVUEWYeKyALOJh1MPv.ZVPPJ+YFZyjpEH9L7hjfjBHO.4ivjqQFALwGUWKUXhwEP..i.oLHdPqCjiY+XENYbLv.RPDZvjHiPZ.ozQ5C3AdKAP12q1MwY1rs0NZ.YLIVBE3OL.y6BO4mnPF4yLc.gm+yhDjHq0mQleG1AIPhyLsHlzVICSUVz2Z9rqbLE6F6jwOpqF.kHoBfExOizI1bs8KLO7deyuHod0kWjTq5cWjb2p0vuUG1DAUJ2BSeAKXwKWqVMbU207y6m9jklJo2HJPohUsueX88w+BsXxELqbYyOChVDsKjagTtH7sEuycpirB3hiy+AcuGObANeural Network Sine Generator
This snippet loads a very basic neural network that is generating a sine wave from a ramp (sawtooth).
It requires HISE to be built with the RTNeural framework to enable real time inferencing...
HiseSnippet 2595.3oc4YstabiaEVicjSraBP2s4Gs+ivnn0AvYBIEkn3VDzbyo0sqcLx3lVfsAYkmg1iVqQZpjF63MH+rOQ8EoOJ8Mn8ijZ7nwYbt31cwtnCBLDIO7b467QxCY1qrnutppnzqyp6e1XsWma526r75gOdXRZt21OwqyOyeW8jxjLa25pzJco2iNabRUkdfWmNK+6LB1Y0q4Y+8u9sOJIKIuudVWddunHsu9KSGkVOq28dveLMK6oICz6mNpkzhGrc+h7GWjULAN0x9TuwI8ON4H8tIFwVx2qyJaMHstnrWcRstxqy0dTwfy5Mr3zbm7uHsJ8fLsoAyqGTjq6mVjMv3wld8d7vzrA6MM3q7753u2LnXYGTba+cRGjdd+yfjepc.xrYzFO5rz7t2xy4dr1tGsk6s.WpSKW5ZNW5y760uLcb8rQL9yOwe67Zc4gI.1a6JNY8V5ebC+GW.Ixq6NJ4X8SKQiymwFQT5lD7m67aVC+t28H+YMIWqGPpKH8K0HJH+JRZdZcZRFx9DvBv30mVTdL4jzDRk0JaZ628cdw.Hh4OmhbrYfbRo9PcoFDCiELhpecZUcZ9QS00ZHsWUSNIojjmStOYq7iRy0ccdfiBtqSxMVuGFYci+Bcs+vzJBlaMxNUVM+G58rcICRpSHGVVLh70NXn5d6cV8vh76UgI+pQv6x59MUE4ecKCWbv2.K+l0yRNSWVs9WPrVZGira7WyIjMZ7067Ejd5+1D.n.Srifwnn2uDhmTtQZ9qNDt8jRc08YaRJlTOqc7ljCRSpt+9kSz2oYpLL08SxGtwzN3KVWwWPWhEnqfKpKwh0k3B5hcQcg+bm02jr9o5ziFVaPi2rdS72k100K57q9JVWpHJHNTPkBgLlE9xMInSASFSiErfPZXXnfa5k1UEFPEgTFMLJRxXBmrLFDjGHCMCEHBL8dWdWJMHREDyTv.TNcphiCCBYJNkwkwQwRqvrtA7.tTxg4BXLdbSuhXtHPICiBTPu7nWh9aEFlP1DD2k1U.8BEGwYQh.ZTD.HLeNbrXpLhFDGDQi1jv5pTgLAKhi.VDDFaECNZnPJ3bAUQCkPNZWthGEXgF.NvyjlNERIkIUp3HfDxfPgoy.tPDojLi4i4QwVAYzXFrJiIEzXYXa+l2F9g0kJFWICXQggLNMNDtDTpLBcJXHX3w7PkqSfBT3zJIbekvZcVnJhwB3JQ.7WNSY5DZBXPPfhZFlJsQIiEFFGwQZkykNWORFKQ3EHPlKLfYvGjFfMUQHIEgzgvk3CDlDqIGDJQ9jFZDMNBpN.IRSBENk0G4LYHfcgLjFivWAI4cAvDvj.KTfznrtXfzDy7HYjhFEBH1NavjPaYL.cD0btMUPEH0DECUF6BHqnP8Afqn3PMX5AMNJvBjMYx.D8wNHJFgR.MlFo3bf0toGQE7.EfIPz4wA1zqJJRIhoJDMv8B4VXCXPTTnRIhDf2DZwbNxCJILM.SYDKxguRrZADEfNghXl0JH2.tuJFAXrhIsKiP2g.2.GBranGQSJ2jI.1GGZXvzFtkYskP.agkQfbIZzpAP.qF5A7YKuNFdXf.7GnWPSbnIlnjEibSrPApsUvHypZNUoX.V.ZYQHDrLyJnHIUwUubd5ZqkYFdNVWa0.MPF63+.+fKIACJDgiCdgEPjGDFpBkTC0xjbAkBfDXtJCyP11Lh4VUfXjanagp3XAGJK135lEUXOJiJQRVDXsTLxZVlJXNbD5VWRIBiElUFv3RwKm2PSiGvghjFGhiciXJgLJ3ku8stClxJRF3NTDa9RNM4DMIY73xhWmNJA0Gb94d44cMhhSmJJ6OzcXCNHp43scKNkLTCMUbhtzbjrQi8lcLaqxxHmNDGwBAvAh1y2H3iInV.xAmYmFr6vt41iRsGO2sa2Cmj2uNsHmTjuaQs9Y4abm0dyZqt1aWibwgN7vENloxhxhrLc4BG1TcW46ahajOYzA5xMwAvY3jmoBhRdluNJ+KuNp1k402UnSKAKx2FEu7rw57Kq3OulpivW+oseBJbvT7USePtw5x5TiKz4I5SPkrtRwV0+I5piqKFiZYem5zPEhECljYxysKazTqby..ClqVMS8X4Uo0m0tV5+mUK4GqK9Y96kVaIgKvGWZA9HPpuK7wlJvuk+VGdnte8LG7Z9O8u7cS41sM+pSMuaglcMl07+B+Euzi8dtRz+7i8JQi+nuRTSg8c1z+SYA068dSrq38lV4Gb2a5GAKGm6pcqN0G6kNZbldq7SzYXOGqO94XSlCSljUOs24IZ6TjWLF2oIseat0y00koGcjtrsuuv.5g003x0y541O345LcRUKx2u7At6NXNW5JhErO4q4tv70O224tDypCxOd2Fc4+uYaz2GDcC+sdccYB6GfYuFWi+8oq8bbW7z7i1IAKceMJ1Y2Ii5gs66qgakmqyLE.0YISoJt1TSaiSzSmOv13eieMCxLs6zLHa5fspxo4gTrq9Z91qy0Mw9s7c0G9JSQqdOLKq3z8JxNa5lL1fRWVYnzcttOJ+sK0I0iKFMNsgrC3x0bp2+vQESfgaBgeeR09IoYlJJ5MoB0kM3Y48fv1iHMTwcs603+zj9.aOaOT0pYIUya7nK61+7T07t6r7kAkMZY5glNrBN0HC.XeEwkMiaPfkaLmK0OdXhgfLmsuErcotayPyaky04.+GaeppJRBIOIEU6SQ80LRYxnwn56jZ2igc.tOvvjwyJJeZ83MunVZNpwOY1cFtaZ0P6GGVTNZAwTmk1KAlPWqsaldsyaAA1IM+ElZ.vmlTk2NIu971LztWsdbuzu871FDXEbpXs1aN47ZozUlozU74yq0UQG32bZ91vxLp6GtLItkTDNO3X8oND1I.tTshJBi33Vww31YMup4SKsOxV+yl5NW2maMo2kEkr47mU7YQWRXdSqxIO2PXu7f8ZeHDznpq6u2PyQlyInWq6M344XXq3Xrivg17Jnecw7zrO2QyZO9kv0969ClLNKsu4sYc2v7nbvg.ywMuttWEE+Kunl.ZYV1YDCXlVpGrI4fI0jzZvCKNsxQMW.QzVha+jbBVBOHCWdDUgjh5SH8mtiT6JC+PDyEgG9NzysZ9CrX+pszdo4VZ6BvKtzt0khuL3dY+0Vb.1JlrkwXZgCHVxEX1qx6cNWz7TxsXWuCNXA3KGGbCeId3wvXmL+SymhLm44.P1yjrsa9Thaq7sZz7WWY1nQWl2JgmkVUanPGl53CFdHYr6PJy6zauY8qqWDRbNf2oUD4ahn4im0bnso+OoD576w04SeEpqqKrNuMi7x4pW5HuSF+l9aW8Byn8SNOsiC79uVAOpn33QI1iquZuOw2GEWLJoeYwq56tBpI3tgsGjdys+G2sp+Nl1Dl2IMGVbdouivkBeU+9yqp2Yh7q5DCtpSTbUmX3UchQW0IJupSL9COQyc1e3j5hQth6771YusrjvNc1JOAk2ZqO16+vObBSFPing Pong Delay
A ScriptNode network that ping-pongs the signal. You can xfade the effect with the WET parameter.
HiseSnippet 1929.3oc6Z0DaabbEdWJMRlxxN1o1n9R.HJxAE.CAsxNtonEfz5Oa0DJQnUQ14PfyncGJtQ6Ny1cGJIlfdu2xgdx8PQN2dn8PtzaF4RNjCAHI2BPa.BR.xMEfb0H4M6r6xYHononokUpsLfAm27y6aduu2ad6NasHlCINlEYXVbyVgDCyoQ1sn7FK1.6QMVcICyyiphi4jnRRQKzJDGGSbMLMG6VBAlEG2H4uCKu.1GScHsEYXrEyyg7FdAd71RqU40878WA6R1zKPYzWuxpNL5hLeVS.OiglyHD6rKdGxZXwvJfLLmXYWONKxli4jXCywWf41xtAaepb7a4E6ssOQzvxvFVHo3UX9tBDKjZrXCOe2ZY66XCCSTs1VgwjVgKgp545kKus03BIcTp8LTsGlEzg2XZvyREdyo.ud.ISEHMtDRWDY6D4Exa2i.OmEsJEbN0wfYWEJxwZX9.zhLX.T9rA3cIqDAMxmvL2Xt4tZI3+dkee8lTGtGiVhQWiwIqSm4Ul58mp3T+4oJ0YW0q2y9DpIh46Sh5Y2BOcT+l3LzlAaShtZo8v9MI4CD1951TzQaSUc4Nxcsx.YzUod70CIzihHXjZpfe8lqtDliENhTYv3BIQbOADLWhrGvpktkhnkHw6xYg.utKeFvVXtM8wbcJjHtIsCvFn42DNGZrGukZb0HiWMnP7hnZdbmF8FiE5AFAK0SBLlFMdNzx0qSb3sA33nUt6IWn2TogdfNEJe5zlkV4tV8Ln6ufZSvCiHg3HxlrZ93VyDiCB8Ia.X7pk11m4rqs26Q5NpHTBgEDiXFmFXJk3GOLAOSLvVEq96T1f0j6Q2oJlG4c.DEtVy.aHMsCYwTzAxLKHhgjsmSzVvKrIT2jF+D7WZmVh1locZk0oR32ZD99rncSbGo+1vbRosONwHeu5GXYbSee19KxBB8RYofOHQVMleqvFLpmiPjbDYH8lArlfRRg6swwah87Ez5sHQwIKxjn4lE9mgcyXHag65TaX1ImqI3YqwbgeMwJXGvv1pFl2PDuHx2.jSRzrN4jTMrpxSDKQ1wbRqD.w.wVWbHmv+TCGAm4A4oEoaJXNlR5GICUzBh+JH0ypwaI50A6arkfAHljgPKRKXBhQhgNIRBuGA5Gbv93AsBJP6LnCpCkDDoisKjfMfhOaZuCMzJzAzdAAGVwNmhNIsvniAOgHKIIaLEQquGIxGC47s2WjnbSbzNDdhVTEjd9AkjDtFq2Lc2upqX02QX0yAiTVR0UF8e8Jzy0axj0yp2KXelw78dFJFIgGNqELqpdzLSR9AAUwGzgrCKayIghLcpiydWx9RWs5HkjT4BjuL+3C+xC99u6+U9lM4r.HSlaNIJmVGG5CkXdjzZY2CK2om70TmllJOKnxHxr6bLigJnoLMy8X82b+VOnayMXZ0M2e38u++obWl6Gry+9xUjajD2bWqht0VAGSLPt8JePkABGuyuZounrrTV6.Fi2.NloSvb8JOB8OJrCSi1fDS3cv8xVKc5VPSet2QS2jcORoamQl49ZmVRciTv1zHNIHjcu3VTGc7co7z2JiXnsKsqGscB2dmQsH5ccIPAWcjC7rPw5fzjG6TONa7iM+1X9JcmV6vx8Ks1lBaPmTqeyihaeX4t08bGScOMppfRBYAAkz05e7Ct6YN89AfhnkoXnTS2Qg1GzTK4Z+7n2jJndD2DWeGZvqhdvs7nvmmX+YuD6EQQDGh2djNyxFIe7mYy5dzvALGMwc8qVpoPqPHtaic1s8N+e9Ced0sq8eKquyyRXpsyOGHNNbVYeinccgQ.iq265bF2jH4qbrqkw3XW85wV2pmwjuT+s+vke6+0eOnR+pfM4Yg0r9mOm2I5bnM+83nckCMSw3TYTeKc2kditKHw5zXAImSofDqSGUjblz.rS+EjbkmWPxovBRrddAIOCVPhRV4+ethjKd2e2Gc6u8qJqe9RZBymWPxSfBR9qjO6gezC9SGcAISjTPxSu5QZWJdeJGYHZnSwEZGgtCgaL5I64S8e.0a+wuz2TdvdYv4uGbsBExdmnFKvX6FfStajG6ao7xxNOK5N38HIW6ex8Vb4j10YQAktEAJjSb2fVG0E++ge5e7SFzK9Obfu3+0c3.D1LBSiCYwP1OkUti9lWsukH7lT8gKEoMJw1aEX6oLtKTIS37pBqgoZKFzVakpJtLrrlecYYIE1DX23tdrCrYwcPJp0zOlbGOWdCK0I1V77phuMNx0VTfp5EsNV+9FHrFxuAhIdR8MPL9fcQr8Gd+B3p00t23hYXz1SbeuKS2i3CQlIX7EgPw5Xn32Lo5gVUYTV1UW11ouAgG4syND8SS60F5lbt3n0bIWpxFDeBNVIb6kq7FvymgiRtRqgyVXcruC8d5utBRB2Rh7Akdb7amnzr994QL1.84QLxw6v+oRbBGgBoL+kim9Wifz3yWJwcW5ou+9j3qv3jPGAXmH18ReQLhDFmIQBruoIepeEQUEsKYYrWm0jE.G8bOGG8kpqIN+vNwqMrS75C6De0gch2XXm3ucXm3q8nmnnxfzmoPDm.UHUa4jhTMMydeKPHiwOCuH2e.Scriptnode Oscillator Visualisation
This snippet shows how to connect a scriptnode oscillator to a external display buffer and use it to create the waveform display on the script interface.
HiseSnippet 1819.3ocuX8zaaaCEmxIJM1qYqEq6NQwN3.34Z218Gfsg5D63tf1jZDmEzhhhTFIZahHKpIRkXugdZW5sct21Wi8gXm5w8AXW62fsGIkrjrcRZLZpAhiH46w2O99yuGk6DxcnBAODYUb+wATj00s6N1WNn4.ByGscKj0mZuCQHogXyTaNNfHDTWjk0ROTMgUwkQ5Ou6AaR7H9NzzoPnC3LG5iYCYxzY6z3QLOu1DW59rgYj99M11g62j6wi.7rjcMT.w4XRe5tDkXErQVqrkKSxC6JIRp.Ys7lb2wcGvO02H+ALA6HOpZPcTWXiLS2l64pPrZVTyALO2NImaAB1kNodgkLdgaYuCykMY9TuwMzKfS0Hq+vpPd3sTN3UOK7pkAdyARVYfzxFHcS6tNgr.Y5JJ77I1a6CAmdDvsmEJFYQE9mkraxAI7kUGRNl1NDFLQix2sVsJX3q0+9Rktycv6.RfEQgTrjiETIVNfhcYh.OxX7QQ85AYA7d5Y4BGHFRfCqRV0L8XgBIV3wkkfnH73IjPraf.+iXcFU09TYKydsodq5BgY.C21.Ub6mV+1w33ggjivDbHEjhBITIlHOTxYFvJfslwFk0GsTA6P7od0AgSbJfBM4CC39vfx21rrFFlGqBdAURZXShm2QP1X4dQ9NRF2u75k9sREAvJGvDXmPpJjCfNfHGf6ExGpQrSTHbBjINOGiUKUToTUWhjT0f7plMnCnb4REgOX3iVH.fOl6P71jG46JJWu15UvJqRBgUvDPM7yGUAOtB9TlqbPE7.Jq+.4KlrKOGBweUc0eUgmfudgdCDZue7FHfsS1kLLviVAS8cSdbHy+YGP7hTORFYdLcmqUsldmTJy76iC3Blx0DK.3EMmyPZ.T9HKCS7prtVkdZma46oCSY74cTJrGOB1WZpKuu1m2WIfgknr4ehpmNfIop8nHqWYlnEsGnna4Lt40WGfU+p8frVsWNyRUNKOsAvIlGy82kKoOINzW5UkvSuTudycMUxVH2yCNoyaYiO3bTrrezvingUfTXH.LQPfZHOei8Yy2jkNLNKLifb+s8YxmDP8OKRRTbAihaJFUfnRMyzmFyL00i4RCQLf.5Z1OxmeTcjFvY6Gf94saAN8jsA1QvJATHARc.rZQOA5WXH7JZ2hJNVxC.p+I0nPK.iQWKgNTkyns4p1l7GznrFbb1A5RjzIXMLEKoy7rFnLlp3Ed9xXpVMRMUiW1.ZYFzk8qzr8GgZnzg2ngjNRcdr0G2fDm81t5lvSHEglfgP+OfxVsRrznY6O.cl3tQZJ4rsqT8niW.xox0iP0GvGJYGmEiev5g89BwaZ2gIcFLeLVXNXDxctJvXbm+0r2Bnpcjo.bY61O8iPa9UL1uTbnGrox34xDxBhciFtQjKi2l4oK8srfiCLYt1eSVH95.Vu1NkdIPwKGR2m2AjurPS4uGbhpfOxi6brJ4cVNo3zzMURT1Y.wGp3DKB00Ju29v5meHzzkn+NDYHCJurAef4lEMiQmxGTPwfYFWSMVkE0EZzoG7evm3EqOwgAKVOYwTxOztT4o7vi0Au3mA1.SjRncxG1aTczFdd7SULIr3bZygBhH5AWyF5cVslQrNbuwAC39LGUb0nTB32XHzLRlbB9IhXeBySUWzMR.r0tOwuKHr9N2p7xc4tvSqzl3.t1wp9bp5KEeOjLSCq5LIoNGZSyqT9X0ljbIbimBvzPMgHbEbULpSBijhxt.jKBZX7HZ6aatX5P3hxFClCOeQF7jJRtT6yE.VKkoigoDRMBHHJXNXaKNPsJzIGcfo8C37RfXgLPbM6zawVGMiSKjVMc8EFf59IdzQIc8lp9b5YTmBeW5njMdKn5wEd4Es5IoiY7+PzdxHHuZGl+AS2xcGxnol6FM5NmtScOldpwIjcVkiZEEuMEM0trZiMhj7gP8qloFkAGqLKNteiYvwqe6z33Oeya9qYwQiee3e+.SNU6P5uDA46iyBl+0F8CutwEX+28fY8C0tj9gqqsOdOUIMZl8+B.v7BDfwtjAhGBt6qLSCzdmooulcmADwL1V0C8J21qnuEybN143aDLUg1gjv7kx2xl5eB0CpHqlJwknZ19boa9LU+lL0iwXzvWi5dp5pM6qeWMM6S1IhuCrOU2xTLk3yt5hSjnHMxSj.Gr7rHKeoihM9i2up2W94sdqNJtp8FRI7JzSGG+xFnqdiWzdOpGcNIvKh0+.U29Qo1YsXudynvSlGBRu28jzzbYF4SSrxBXyISes0O78clQ0oJGxNLtst58ix2SuS9WcR2ECsHWeXSN+3gD889Vn2f8ixsTGRbB4G5Xt3s5vspdF3BI95e.0h16nFimyqkqtH1gNN42pYT7tKph2aQU79Kphe8hp32rnJ9sKphe2Eqn52bN9xVpzcn1pyVFhbqs7Iv6Ioajg9e.AsbY9AScriptnode Visualisation 101
This snippet shows the two most convenient options for displaying any signal from within a Scriptnode network onto your UI.
There are of course many other options with increasing hackiness, but these two solutions should be preferred unless your specific project requires another solution.
HiseSnippet 3018.3oc2ZzzaabbcojV4p0NAIEAA83.0BTp.ZZtLwoAIvvVeQagJISXJYmhf.gg6Njbh1cmMyLqjXBx0h9yn8ZO1C8OPO1KEn+C58B3K8b56Mytb2UhxVVwwnoDvlbm4Muu+bV0WJBXJkP5zXkCllxbZbK2ASSzS1bBkm3ryVNMda28nJMSRrKswzTpRwBcZzXwGhKzXkkbLed982fFQSBXkK437TAOfsKOlqKWs+C9s7nndzP1A73JP+QOXm.QxlhHQFvOK51wIkFbLcLaeJB1BtNMVd6PtVHGnoZlxowRaHBmNXh3zDK7Okq3CiX3C9NC.DYWtmHJD4XbUmMmviB6WH2JGmFt8K0BKZ0Bum6d7P9r0K0FuiYCR4IppOZrPc1awZrmeU1qSE1aNrTiJrzRVV5ccGDH4o5xcP94lt6j.FmQTPsWkUrv5rve6Vt24C9.h8wDQHi.LQFMhqnZtHg32w2yyamQjohLRBiERnjQYQQjtaQRiDZhXDQOgQT7wIznVjLEi73T6QaO6fhjnoEmVjvtcHXWST.PzHxIznLFfCpln.UgxftfLojkny2zq4HgjnzYiFQh3GyHwhvaK4IiUDpTjkfn83DwPB.0SOjDy.IVsVKxNjSEYQgDU13wLktfw51l34c.xzkRcBSepPdLYBSxHbE4qx.3oHgHAnwkbJWOAVPEINkrauGaYX.vQfP4wSzBXyTF8XhAcTCOMNRLjFcT.ELpl0a68A2wyaSAXRRzsioGy5IgGlYhZ1samVj61YsOyy6N2Ylh7SIGBpU1Y.TnFKjqRinSICA8AHnHj2605GCweHSasrFkDo2miJiLPPnVSTctfnffx.lGDfpPyljDlRtGwjqn8XldKKzaX.dfA1lqNn.09qlKwEDcDWBn4RjXRSvd.nfDPULC3kJdiY4TfqADgHDrKCsvrcAxxYEhkWH+R+0pv0xg.WGldAVtowlTB2FG1q21O4nc2d+Gdvifi3+we3m7QVY.7r.1hJyYMoHkI0blxxaX3P.MgLleREd23xhGd+rXHYRRBKRQhQePf68aABd4IQQilHfyJKTHQrjwf6IFkTwzTgcqvE2i7sdDxpVwZWyAW8SqKOsP.pvIv99deWgzAN8mB4mIhSXRIOzJEgrQzrHcUBkmYv32S9c4LeVtESAorQzkhYqByPkk.h5UZQL+arfzq2A0zdBAooI5+Y7jPHJTCo8ZQX5f0Z6IG1FTKOARIXkq9yNWyRTj6isOb1Hl9WCIOBwnTEONEbqSofnZTg4pO.YURsUQY12GThEAw.N5imr4p88WsEABeKhdeFylxCDLfA3hPd.MBxC90YL4TClwTXElPT7kLntfgiPJBbjdBhHk.8nKzbF9DXdMjCUpxs4bUau99nN.KYJ2DHzPn1XyQYIAXNjlq48sdqXcNIzLsHPfBMPsQTN3poDwLH4qMKmJKMMxH9nKGRSv8bhHT0xfhp9hQBwwDHZDAZ896P1PBYvAoAxIC+uM9tzpjyAfCjEg4RrBScBxJQL7qXAZTUDykxbmYS7QtIos2JFYMjposyUb2ChYaaQTe.IMM..gu6J.08FX0AED71h.jFhIodqT7g7EfwpteOZ97a24KMP+EmcjRSk5VjyNhkD1hL8nXdh4K5YeYE7zocGDdCv4UrZhbNOgq4ypvAw9oBE2jQuyZUNN3tXkJIKEpznaBK7cnODZPQbZLoM+vNEqwz8Q3dhHSySXk13wFi731ifny0ihZ14rtc6Y9fjXLdPaySMseoZe5DtlY2DOTo9qhBtEY9ZzBtrRgpt1BU1xdDSYueDpNkWeZyhnEIC3RFzWI53f58b5KM5mwjXZBzinrZR9XvqY6jwf1CkqGZf2pNGumE5l4AwuTpXKtCwmmRSLttmX6e5apVKLN.cSiQhsIBeyUgZoGADLMSWT5acLYTdZcSLd6J4ZMsiTTEjRB3x.jpXzJxKznzIzb+LSUZfmCQjNzlnwxjV5c9bw.IfJ5FGMTakJ.WKSVkYcR0B6qZ2s2BAFTZLU61sqlNr67SG1ERG56WIgHl3kCmhQCKJNXRhUM6FUMMIXBzTjHSQNbGRPdlLrRvIPwlvZhTau3.HrYLGG.4hI8LJjhLeOSB95liZ0Sld1Lkt.e8hTOXea4ggkIa8VoeWaDg8j2yhgOyrd0f1Vj0Q1eeglOBR1i7fIls6q0XVvnuNZuqGEmGlVxlX.JJ2OgdZnX73hpYXNPaSzTTmhlxbxucTDOUwZ9EcuqIQ3cM+6KW6yVwFnWvyPG7fDxdbdQEuuyib9sFMZt6gNIRQTDFdMmss44dAGrYRV7PLiTogEADFAp9bUtW9bUUG6Kv5yVAPQxNPN6GmxRtrgAcxczgec3NaAJabXr70Ja5.VaK1Ivjs1QyVwcKl5XsHEFRcSnvKLBDfgFKoM69VECtg9ZNbX7rkb666bFHGMvwdmV7Cmq3Y6ZOaRsydwAFgQUsoJpO+JNzd9Ffxu1Pi3bJvXa5oUGp+01PsWUV7cc6y0ASlOOtvb3QvD8iAOleU.uk61PYx.cICtjauO+Mvb+tV56k6B.zDI9sbKmppFS.8yWahFLNoA5ajeU.M9CtkgboXZMI6.Qe.9lPy5PyhOghYYFFIBNd.Td6hwooVdaCDhlA4yNbcBmW9Jqt7ewVqY0z0RNFS.5.6rmES1f5fEvHK6ycJBWF.M7Yd36gO4a5OSgAa5WrYkDB6auCAicJ+2NMtg0nXmh9nQm46.o4Emhgx7b2Wv3XVquHZZ5DQBO.WxBQAmtdLz2ktfceDUc.z2N5uOHSAoqBebx..Xykq0XwmBVWChugKzaZaPPVXeXJLPw1iF.J1oXidXfDlAD7ZYx1Ay7dqwq0bf.TTb4aVsDvhwlrQK3N6Nz.u8EqjHz5xhOAAjKXw+Npmh6Bk1cdJZ4QwvAwtUyY4TDTOWnYFKmUiweuJL9LHthr5u20zUE10CILKNd5rq9AZGXLCPIMuMghNoPeV6DYsIOxz6xI140LSFg2MDu39alMAtYElxzQ0PtNeXXfnpDdZJS+ZScsTE00sbEp.nPNltz4BVZIqcks+gaXMUihXmUTD7bIWN+Jn3.CEdVQby1PneHfXywKhk5SkTaOmv4Wd1Svu2imjK7kY02id14V6cdv.MKEyNUsB0fiYmZUGUWE0XKi0WXNW.yNu5j9WMGRCoJtTReS2dR1WmAgrSKoOFa+G4+m6+Rn+yu+EoemWQQ+VF5CcGB92NW.+WCE.PrWQc+CgHsezH8KR2eC29SnpJz9u+m19u9O+2+q2DzdYSCVyQrqDHuhKjuoKj9odT7a6FCe2tXuqXHru6AYxDxs8gV88IzrPtn3Blry.0wrAdS2ghXSt1xH9EpEwWK7rwaB6jEAWL9rhxZYW7FhpqotoMemYiqnZZrstP4MICOTLYI9dKTW5EHaudNyc5JoCqcUAijh3pWh9g6TU4tTMkaY+rGPkiYZU9jEIr.aWBlZ36Dh9AUewBkVEbuBU1OfrynZ4klctpE3b7SMKw66leMLsqAykYTVY4+7e4QeeMCyssFl76YAuLDZDnxkr.VwUni9t1K23UotZEcatC1sbKuVl4ZPt7Hfa7FMB342e8LMDrpsy7T2xT6gMDhiiollRuVCrVcfm21t4McG.cdYdyNlFFeeyyjmQAqwCsMPIj9ufWD7+3p9hfSuxuH3GGnAxefjlnREp5JWVL+.XpYU0EOTwvxe1peUVeSAUN2sd986AB4bOy.pNSZ7SJZRuxfmK9hdgz9WyWH8R+O2Kj9m.WuPsYmWofGGXd4OambBKBhEL73OGb9MuLqhUq6KumHQTLkVog9ILXDywiY0ifmm.stVSCNtbk26AOgEwnpZ8RtK3rQkllSud5B+W4+9Alq85W3ZYWBF.R9o60Bs3+WesPuQtmi2DzHlFHEGEXudHzO8mYVAj6DyehOq3tG9Lw24jyWqMFxxcTPPcTcgC185dvO75dvO55dv6dcO3GecO3u45dvO4kePrHTdOKXnIzaT+ssMW1X6Dr0NSDgy+UeWzflScriptnode Voice Management
A simple scriptnode synthesiser example that shows how to manage voices from an envelope inside the synthesiser network.
HiseSnippet 1604.3oc4Y8zaaTDEeV6LI0ooPqDR7mSyANjJUhrKkBRHQb9aaD0oVwgHtkNY2wwS8tyrryrwwfPBItzuB8V+FvYtUINwAjPhSbiOB8a.7lcVauqsSpsIIEIRUp779y7dyadueu23TOR5xTJYDxoz9cCYHmkvM5Jzs1nEkKP6rIx4sv0nJMKhXIsd2PpRw7PNNEefgfSo4PI+7pUWm5SEtrAjPnCjbW1i3Ab8.p0q9kbe+sodr84AYj9dU2wUJ1P5KiA+oHtLJj51ldLaWpQrBXjy7a4w0xnFZploPNystzqaiVxNBq7GvU7i7YlEUPMfMxRdaoumwiMTQazh66Uu24VgPN35ChBEsQg2AWi6w6SePz3lILHCzHa7voPd2qXN2qxY4diwkbx3RyYcoaga3FwC0C3X7mqi2Q.WNMoPXOqqXkE47R7FRP.gdk.Za11Qvh9Jr78KW9ND3+t8m2LV3p4RAQJ1UpYOVr7sW76Vrzhe+hjgY0r4X4YLSjz2mEMV1la5nySwkEwAGwhtC4DpeLqufvwOeLc9IKl5ZO0YDTJ1Qv0ONjkt97SJPogM3Se0NaR0TykRJMPtPVjlabGmMYm.Y31qnR3MYp1ZYHjiOx8Gj4H8h8o57oSlZnTFP7H2cn4hRn35tYqwlhbrxmaN1j5h2BWmqcaMdervX7QHRcY3ioUl2.uUylLW8.GbN71e8rVFN4luTOyaqrR.ISL+6mRQH8XjDxLEWwhpbNPk+9jBUFNwPk8J3uCdZJtNW7zyr3JeNaF4GCR17uA.WuXR7eCValC+edqO9tYxyRRULYFLaWfOHaNXBShka9jvZRgLrkTvcyl2sGSGwO9XVTVh+aOeUt7wdJ9+FrmyKDcM7VmpinU9OXmiTW6tWkt1dxXMWbbMJjSeJLZ2twAM.LRWF3VBAyG1brSAS+c65xl0FmnAS3kr3ugeRYVwr1IkYkdLyLZvtLcGYT6jJ1zOibVv1UP0uh7PU1tBq46K6rgLHjmlRCAkDZ0k9c6Uc5TvJQO2ds.YLXwTe+gT09TtuQrFwJXhFuGKZ.BmzPwo3ArHUxFu.t7Jv+fZhcA2.zdapKDk6VmB8tfhKyPRvkEKZE29WZmsim8Vzre859Xief+FXBJIioWLyHRVvLyJ3JufwDKg2QcfgqK0Gcfoij4jfL6oQ7hoNqUToxEPxLIVnQ79H1JYXOq9mgUnO6zdS4sIWE5S6tdLTqaAiyQwbHDdrS6kNrEzY0CljLQ8doH0oQvaVzrzVf8VAetFWjdjGfYUid5PztY0FZVXC92xxVlznMqiMHjkpINMuo9igFYmQmuouW0QL8y9igM8Kd9y+4QMc0eL32V09BjsiXeSLj70cH6+Csq9Zr+qVczid4o7nuTh8I6YJlPir+noO1CFaJi8O.PstzLMf9blldAb8VT0zeueQX64SFOZLG6LkuKfos7TCU4dSLSbByGJ.WwxcBKbCwcZAA5SXQjda.oqLlzgButk7zXklXdiKQEGwHbMwkJHJ.aj.sDHTxwftDE+XA0m7jJezWT9IjNsXBB.vMX+3JRStfqZw7Vw9ECb1vXuso4RlB8zHgEhF0niYxk8oQGyzFsKjkP5iIErj4zUCI9HbytLELeGOiCbhYTuCCnBpY7s99hg4RXyDf1gAuXg3..z73akl5jsm8KSHHyt090UsiRrlVScaOb51GV8JHS+FoF+QPtm+EQc9Te7mG+PouGZDz6q.Su.dSlKcXn8WFcUD3KggwaziAk4utJB5kv6w7Y4gWqd+4P+4KtJS51HN5D1Ew4ep6qcc7fWFdY0fY56qZ159OGrO7Z1lNCCKlq4y6Mn4SdolvlP+DV2BZRj7PaSyEUZ2kjMiz1.4F.OFA1RnwBUaZnDxcay7Hwgji5lzsYv.1YTKaWsk6zh61h.s1SjWJ76Rdp7HhrIwmqf2d.uvgnkjDWom4nPmN3jB+BCF6AR3281POrB4F0MGtsSl6vEtbtCy0EZj8ZsXsL.tiS9lDy4an0kx1AzjmVMaeArWEODLf5FIOz09crYhnWKgB79BQxewhR3Zl0jJnSFNzFv83G55leqFQw6NqJ9wyph2aVU7SlUEu+rp3mNqJ9YudEMeOjoYmlYtfRg5aYm9wYKA8HeKNA5eXM57D.Sidechain Example 1
An example how to use the container.sidechain node to implement a sidechain compressor.
This example uses a synthpad as sound that is compressed using a kick drum from within the DSP network.
HiseSnippet 2243.3oc6Z07aabbEeWIMxVxIN9i37wkh8POnf3JHJo5zONvUhRLgthlTjLxQnGjGs6Pxob2c1t6rRh10.4PQQQuzdnW7oDzdsGJbO0a5XOVzbHG5E2FfBTzK9ufl9lcVxcWRJRJZYUYfHCSv4MuYley662HU1iYP78YdJpyUqsKQQ80PUa6valqIl5nTXCE0qhJh84DOMIo0a6h88IlJppS+gBBpyMiR3OOO65XKriAIljhxNLpAYKpMkGSsr9OhZYkGaRpQsSv8p5ELXN4XVr..OSiVRwEazB2fbOrfsoPJpytoIky7pxwbhOvy5Ly1UaxNzQx+NTe59VDwfLJUgMRRVIWSpkY4N2UeEEUT43a9zxa9ahJRMocoGKAtV3DZwqHoLPcpgAoLmBHol.RyHgz0QUM7nt73YD34JnBNfBoNFD0IghjWE0uBkiAL3vWzF2hj2CFzcAKbmkV51ZvGu2Ob94ySsHUaCJW6EsXXyMOBa6ZQVC1Ot+BBFpG3XvoLGMly8XbRImEdu4ez7yM+imWq2opWefyIPhGyxh3MvoEF.dCagK3DXuOw61ZGfsBHcYDjPoE6yNdhcCofIAiLmBNTdIWRz37LKSg3T789URJQRV3aebgMvbrPuEQC3yk3woB3ntA4.vvWpEmCsAwuEm4Bl98ohAiKlYfElm1hS3ZEMAHORolE5RGeJucRWuSgY3RC0Lbbg30QkobilCFiSM.LBRpWFXLx480QaVuNwfGCvYP4+jI0ScoSsm57QdpvYJN7WKZnV9OIy.8Q+knXicWOhK1iTiU1B2dA+PmvJ.Fus19VLiVUoOjzuGhqDBqK3XAilXGGhk+j3HM6YT7KkJr.N0oQQL2idDDg8dA1UgH4FjbQnCnoNkvGRNdIwXgcQUhiY3fuF9IZxLhwpQSloyjIb+tGgeHyqUn5H56JpWRJ68CEx6U+nLJqYYwNLGy1kFYkB5fPZkYVscaxbnFBRRN5fz0rYAvgDA2OB6WCSsDl0UC7g.ElkbpBLGloSc5cHd9ga7kPKsH7OvL+dLSXJTdrAHXaWFyaJ7WDwd.iSh2hFcMRSg0j1IhsnSlPoTBfns3pGlGb5DAaj1ihQf21Txcsf+NhYMvVJ6Hz2BvqH1So7RhOYtDepIQBnT38VIvaLKmWPbpDP7RH6.KNU4DEmxoGSn8KP9tVTtuFuIQqNvgVjyilOsgC1Ri5vYZXvywi1fJHvah4ZGBUrnsOoiaGwDXA9uVWQSmkGysIAx4ZCHL7nZH3wiXFXHMCSIdF38ddTGHnLBKoS5pO2rfOyu6LUynTF6AUiA2rNvdTFRmF3tq6S+5Wd15uNpN31tmKDkk3kFj2..oGYwjyexnz+o6lFk2Ec2.etVfOIzhPD+VqE0nkloWfsF1WXNQjEWAlbd.StAP7FmF8Y9zqcgHtjE4nNUZrVfIkIpZyO0HHKTAGSxQcBStIDo2DphIbYpuO5QkqT5talq1d4Ks0FaV4wLGheSFeueBQTXuYaGxd6at3g3CTJRchjgR2lh3i5N9e9w8n9Umo6HHMR7Riy3Gu7tzzqxIthTZIqdoZKxgR8QRpxtODIE2G5CnnPQ12Inb5g.bbmJHLKTLFuui94YGwQupdeGs9mMfaOjh6DO52.Ugw348H+z.HcS6dvvm9Hcky.Mf9+3g+7gb8uBRb9UDYOGlLXXwFlE7trcS6w8FHvtCaSM7WLbxS1c6o6939CJLSJ2j3pPqg8Z.cuzuqyFTegi85APYhxh3RQQDM4jcghp9HkwOZ3h9cOd.hdkdD8e9SdxeteQ+wM9i2RWFaqVSOvUsIzSRRYu12Yk+TgiO85dcl9XAfGr5u4uGp6uLZMNG78NK76N0G9bnJDKB1Okq2QevJ2b6QY1+7r8K60GuS+y+h+6eKqrpi9L4e1m8j28Gbl3xMhHNWAUsatz91pg3xsNi0xFGVT7Kb6o2RN4UP2Ge.I7IgBKX8VgigjX1ZeHARoKZJLyPdTn+539nPti8iBUxfCPnlG1w2k4Sxjbm6YtkSN2FDdfSR1u1wRRc35A0q+V5hqWd35kfuK2k3xIIVF6jIo+NLNw76pWTzETmgOK6lNXnOppD31XVx2.tr3dT8kCr7I2mZxalI4BiIubRxeD1yDzKFo5vd5zMyMy30LW5GaHA+Cn22YeY8vYyLdsiOh2m4h+Crj50ClqCFqFV03lNGPr.2zPLdCvurNF5soC0z9YEYNrNMvFaATg.ce2nAIcLkAcghhr2kxap2IbaWRea8sfx1wdgkdMYxhS+adNP806DkHRSDbP6EQuctZlMzGIa5w5QxNSvaJ470k.Fg1JeoHmA3aZcgelgBRnZwea10otLKrmnSq3hSky+o+msuotHLdg3r.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.bs.nXMoehhRwxaJKSSsaMhpSq7+.P4TW+GSidechain Example 2
This sidechain example uses an arpeggiated synth to control the compressor of the pad synth from the first example.
The routing is a bit more complex but with this setup you can route almost any signal into the sidechain channel of the compressor.
HiseSnippet 3121.3oc6azzaijTscRpLax7UlY2Y+.jPsPbHq1Aq3jvjc.jrchi2IShm3w1jch3vrU5tZ6ZR6t5s+HIdfUBDHDhKvAtrmXk3.W3.ZNfDb.kSHNvAD6g8.WFzJgDhCL+BX4UU0c6tiyGs83IjfVOihb8pW8pW+9tdU6pNLMhqKyQIyDM5XSTxbIT8NVdsVpElZorRIkLWAUA65QbTkfVriM10knqjIynuCGPlIFSQ74Y4WDahszHcAonrAipQVi1l50EZ0BqRMMKi0IMnsig87EVQiYsDyj4C7ynnYTrwZaiaRtGli1HHkLiurN0i4T2C6QbAbVjo2odK1tVR72f5R2xjvGjSoNPHIXkkZQM0qF9r5p.DpZ2m7QkO4uBpBUmFAuqDXJwDpcWQbYPlQNNVJWevRYhwRiIYoqgpq4Ps85NCmetHZEKPgXfAQcbVQhqRlOEsDCPvxKaa71jxNvfnEL8slYlapB+4M+FSNYYpIodGP41NqICqu7d311ljh.87bmlifguklGkYoxrtGyirt0zu4jemImXxOXR0CNkgwgNGmSbXllDmCcZtAfywsvos7auEw4lp6fM8IQHBRnjh8wSmXWSJXhgHyZEKp251jfwkYl5bwI+68pjTBjrv29VqTB6g45s.X.d1DGOJmcxThrCX3K0hSfJQb21iYCl98nhAiKltuI1KoEG20JXBPdjPMy0kVtTuNwc85CyvYNVyvzxhWCUk5o05v4wQNDdDjTuH3w.m2KiV1vfn40kAGCU9ACpm5L8sm5jAdpvdx27KELTs7Cxcn9n+XTWicaGhM1gzfU0D2YZWgSXMfGuo5VlLssqSeLoWODaIKrHGio0ZgsrHltChiz3Co3WJ0X9dTqlUvdNz8.8987aWGhjqQVJf6TxfxvMFBFOCeL2tnNwRWL3yfOASliONSvj4NvjyxGORvjydfImiOdzfImKbxXNt2i3sKyYaghL36JYtfTq4JTOOzXubJEMMY6tDqsMMv9FzdBXUYlcrawrnZbPRLBeFK1l4CaR.6cGraCL0j6PT22EBwnutUc.YQNxLitAwwUP3KflIK7OvA4dLcXJTYrFnR5TE60h6owiZAl0DmrZQl2I303VXbRDlCUJeAVrM+QWjAczXgojVx7Qfe5HRpth6F7Y0vlJavsT3LuBmlbzGKf+3n9Rn1RMcBlcJjizLHavroj09CnFsntpv+wpaQ8TAoIqCPF0upJErhczgBP7Xp3cXTcNJ9f2tiJyPETNf7rCGKuVDUWpNQHjfu0zBaptKQsEdGBewt6hsEHE5tn5xfwXO4JA0ipEvgblHv6hnqtEwf4PDXD7jEfTv9Q77syBRuiUrdEzxfymNjXQjyHPv98Q2dtrywd6Eu6aUa0U5rPsYmszpLq0deihkm+w905TYtEV005Q0mY90psl+B0pzt0lF2eiMezxkefQQqEpjsDwL6dqOWiNqt7Nac60qlswJUJA.adWVSqUX22XtNbPKVYkJkKQJCf2cmG8nhYMzJd6VEg.oXGn1Jn1.tCbRkquoGcVkizRTL+.a3EYQMRhMUn4xobBl+mVV6YhwaWGEYY8PokURt7UQX.VGWRVlqFTcK7WXqNRVchw2z9Ie1IHi3gVLI6EVlQIpqMjfXQgouaOP3OSV5j8Bi3kvhiS8jJ6iVyKdHm8rnR3RHar9vQ7ar4YHw+gnKFOlWXtgjW3ODhwRTKUuppkLsGDIa2nPctpyGEX7lxHiDUCpiKO7HOrGDAUmwCNxCkZaR8jwNoVvXfbp7CIRXp1XXMxofXuZXQbxn5UhpuFpG6jiHbAow3YQawwQ7DFI4rqDk7SLWe37eWDuZkXh7oYNzlTvl1rCjiAdf0eyPsiPByUBIy2EL6IkJ5R7CGZQDUGF9HNAxgnQn6PRoc4E6FLLo.3FwTMcQI8pmix3neUTIsgjNICGeneDRX56JUU.FQZkf5MDtCXdIKR8Wfm.DSBJkHVcEXKdcL8TtRWr04B91.GJ1plbbbH59REWJ7clDExBCp6SZhR1mZliLsyQZR0Or6ImS84wiuqWxAXvPm9vo6SFLg+ZBADvsgi.OuJTqP+0niTWAu2Af8r708H17yLFGu5aS1Ux0wwTZlTlPz2BqscTzfwd1u5Ot5B+1+c9zEMXbPC01NoP4pH8NV31TM2rhIOZQxS17C9riILvXIDNc61PCrSSh2vNMcvYESnCPGuNXy86UG.x6j5fO5C+veW9dzA6272biBRivFsbHtsZAO2Jwn0S+8+409l6qz2FAEXEREC7dy+y9a4kEZTzyKgIPHsOE17IP0HlDrKI9tu+ByM2WtvIr6OKeux9Boa2+nO9+7WyKSOTiaPkPr+K9v23qWn+exgMuWeumk+n88tHpdTPudHU5JWehfSgma3bL7u.nK1A1DYRGpE0iBIk3Gb9+ONhahAKxXa2FK5Dzyc2bugbxKhdW7NDwMnH5RyMDiMXNsUeGBjBi2C0bGycn7WR6cnXm56PYcMOfEZ3fsbsYtjbwo7Ala13yUh34aEG8o1WBJDq2yv3UKve7JCOdwv6kh.NabfUwV4hG1DFGa9MKTQzzvfgOM+xV3sLI0Ek9tt3Lc3C3AU02zk7tTcuV4huvtfmMN36fczA8hVhFROZxdeNV558YxdyGC+Sy6YZrz085S35LN6eeDIZ19Dg7XcJOo+xV6PL4myW1glRDCLTKeHzj9YUXVrvt110BnFAhN1rIIYn4C6AJHAYDjWoPXVqHPekBqAkohcpHBOOPxh9+JBOT80qGjOWkGbP84QucpZlcr2ozno5NkFJ7aB470jLLBsV40CbFfuoFw94NVlrve+w+77KRsYlXG9IKJ6PdeedCqCl+68ut+KWfGFektYAJ7SKDl0HHkSjM2ZjlvdFWg0fz1lcv.a0ayXhl1DK4vSe7u96VXMFyVFYUOQnzVfg75FFtDuDjAHaCl75+WheQSwmbklVLGh7ZgiCeIeWOV6vG.Q877phjEX+sQ2Z9rvGi2h+2auD7m4Ve3LVY34lMRJsWeYgkPjJmaSbF2CSxwQFgmQ33A+NbSYF6SvcejdSwbcT2q4qL0jeJ.Y41xAGWMbJJGzIuvOY6mT39IN2RhTDudg66iMiI0+SqUnXPPim2aR+DL0GKkFNuJJgQyKh7IGtB6DyCN0yU7YkO4W9z78nul7SdsSmfx6+kvtedP4OOn7YvfxGegZ7PdmeJr7MPAQSER4yO78UP2+rEyFjc7JAG.SzrnsBh5JAoJgkLpaMFqcxVx8OyWB21FBFFFxct49z7uKwaMX0lcg8w4K4zINr2yv3ejWb593zBzpjGShkTUzzuCd79g1q1D5Pe0lF445UaJ8GEuBcuyOVvuFZcWsYUEmqS8+4Gr6zVQ1GcEb1yocELDTBrFztBxaPqUBJ84cEbX81m2GsYK57XEcrIMaRExXY9nXPRFhe3ErM5M0LyKG7tqBn5El2Q7ROtnumGDDgpyAI4h.P6zyEXkBZbYTMBTkcRRH86OxkW2jpCGJju7qJBivu4GIrHBLVJIvEQ7UK3g93AHFAlRPf5aS6gExjRQ.PAli2pjN8ufL4ChMgnupEaqtrvEOrEOUvhWh0dK1hr8DK+5n5xZfIQfS2CRLV3xHY3qZXqlj9WWNApdKeCCSxfYIcQjLBUCJ4nX8w7BZvP78tJu2xbB7JfHnMsAyhDahHJwyunKNy1WDk6VYO7O8wdsAAN.Ij3MU6kwasXQ33cqVBNdmeU43TuWWGsFwpoWqzsSay2oMtKrSOfUUNNklPWCEjbtNwjHty0i2B5PIBTzhumsu2PfTWCUo5xPLQmPh0kHijZhbUNQV1RuGRLUJMKGGcG9qVPulzmyt+mqJ4wKfJdmR0qEbTTw2UeQdqOK46rCIYIOZ3N8.8fWQTHj3meQ7QnLNH4h.L8OnPceWuDU.t49G71l1+gEVVi8h6plPozz3xwupoy7GmNfWkZjy1L6kPByhyCx0qhBLXOWHXuR36az4AQ6P3JQOu9yr6zqiHuvYwgVWPFbNcf57wHGWmOFsmNebJ+K.jO9H+E.FNY2eAfswZNrGpIqVhmh6kDP.Ilk32W9DnJ7wp45sNo1vIvenlVRR0yBmcPW3bC5BmePW3WaPW3sFzEtvftv29jWHuAIE88XskdUJJP4xxq1JSz8pAlq+WRxupC.SNEX Bufferstop
A audio effect that simulates the stopping of a tape machine (or turntable).
Implemented as thoroughly documented SNEX node.
HiseSnippet 4601.3oc67zDaabkdCkzHGRam01wAcK1KuUsvKosBMorkqsknL0uIpwRhUTRIKBBTGMyihypgya57iD4FXf.zK41dnW18TK5gBza6sE8VPO0dX2VfE8ROUfVziKVfhBzaa+9du2LyaHojoTjcxFXZaQMu266++d+Ml1Mj5ZQs1Ov01yiFpoka7F9LSZP.yWKW9c54Q0xcM8l8bCaubaCaWs0WQK2aqugQPH0mHZZoddFAATKsb4F+8wFxkeBM9me6yVxvwv0jl1jl1dLaS5ys6XGl1Zi5ensiyZFVzcr6nL5GVecSl6xLGVDvOiqWQyyv7HiCoaZfCaLcsbStpkcHyuYnQHMPK2DKwr50rM6DWw32yNv9.GJ9PUsl.hDMuFywB4XrUskaa6XkH2AfVXREsv3Bsvs02v1xNo8TswM3cPRgPUejarrr23YXupprWEE1aHrTNEVZBAKcS8ll91dgo8f7yU0W2ELNsL.0tJqHFq1XkFSeYFLB2vxcLNhtlO7PBDEmsRkoIUqTozbEJvM6ksnsn9Ka33b.n5CJ1xvIfh8BFlfPxwF9jkhBCYtUI0HwH9PZ3xrNdLW3ghSI6eJDpVQtlg1LWBycSVHcK2hkJ7YExC.Fvbnk87sAH1.jFvHinAGzlQcNf5WrD.e9B4sacZ8SpUi73GVpPd.g4iGi8gtLe5pGibRneDm0ymWxRkCng6Y3DQKVEQdRylsMbOjZUDa7EP63eeQAR+LeqVBt+UCKU4LXorLCp18YNNHEQ9outwXpg2iDvhtb1cZvZBDNYffiVVuW8S26UM3xT3EnLPl65t1ga4QcOsPNMoqClBRxUvuEx8yeaoetPUnYCty40k5EMNKCMLYb9EsSC7lN1VTeN3WQ+CcYGjBrLcymTezAdl9AtccscWeEiPCLXUJMfD5Q8CsQkWtUnGCY9Dgt40WgFbTHyiKtxHEn4QPf6lRx0q2K8gEp2lZeX6zrpe9h0CocgmmTu4Na0P6Daqv1pBqWr9ecKdVdNMIq8wUgrr9PBVHm.1C.NxnZJ740doZ1Tt7yaoxkOrdGaKKGZCVfM5Dl1yOrNTSwqo8OlpV.oiQJlp+SpGD0pkMzhtNoSfVGlEE4OdQiXYcEzqajEM9nOOh1LpFfvWmh1D565MpBFerZCVx.JVwrhbLByVACKaK6.Yb0xFXoAWPf5ox5WZk0FUV7l5MrCMaObdbrgviPP3qBdTNYfqquZqVTyvTFbB8093WeU9KHM7.MQhmwOXH07y8E5oY887ofqBcGVCGidECL534P2F3woIG3vLOB8RGrTgzsaIbDEwRQtTmfKREkIGYsR0y1nrMKJz18vMLB84QMPE2lvrDMoKK4NnsbigkCDOWAeF8KZBS4k+vuC9H6rJ9bNYmUi6Lslj1lzvSX9GwMGxeGRHHz8Abk79s5VUaQGG1IXxDaoWJXC3s0f4zyqMy01DaRLhXNcwNrHLyifc+.ifcLrcP25lQAPESqsbaBClOK5biuG0Ofi3qnWoL7GvMeSdphqrlgInX60v.SxeScrHL3bR8wYNHcRyvqp9IHJhmksPKArXGd9PXN1n8oQb1ErR1XhoemAc7UNDWrS3zhOAgjiIH85A6g8ZZ3nsmnxIHuHgwgOtPHlDG5UzC7bfUGbpBjna0D.mM+K31XzlkQGJGbMcVfIrfDLGzfrgOsrR2itZLVoo.be7B5W3P6FOIhUrAN1n2RPgApHSPlVPMKr5stwtqqBQbVvpZ3fG6BqX2vk0D+D76aX6tW1YvnosgQ29Z6F0aNjRWMOhdhPun1Jp5lDydS0F.yZmMoeX8AH8W7q6mz+M+re1+vfjt9eYme4yDK7YMe5eQDDozqO5+4GU+kP+e6yFTzqbNE8qwoOYaLxWa.7qc908.wNm592Gxp9JizP1wSkzWQuQaifyuc+xf1Sxm9xPDakH5qqD0MykcHcVj+lX5ugDS+eLjXZs5ubeqZyN6O8upx+0YDS+KL969o+l+y+m2DS+MlX5puJioq9lX5u8GS+q9m94+6q+1+euIl90eLspuuZ.9j5Gh.jIx9phH6C6+fGFkXZI9xMVlf4LQdie1pge3WND2OsQx8+KO7m+t0OE0vSa05Ne442BT+mLZQd+4uyJ+ZYjWyNLVXaXcyZCDXq8pWzul91z3s2dHtfJl9qpG3R6tuK1RF6+MD1+zdOuNApXN2Dm4ZVyqurCf60sh40qqe.Oi99A7MDMc2n1wv+PZ3fkFz2w3.GtWlXeDafGgB7zhQV1r0rEcAeK886uPxo6adkTCjNtQ.JNG55UgmSMLxmULJhVDR3ptHGZMn0XwnPVGHMEe80ZiFoeK8pUpToOpWoOpeankGToZkYdxSdxrO5QO3IOt5Lblo.eyX4a3YB274q+e+3Y+66V+0O27V565ElgW9M+sc+W929eOUdYfzGhfc9dme4WGY.zwOyAWJee3Bx9nbOhv8EV06ug5FFm5InMnLv2j7KXJogTT3206utAlRZ.w+qnLn3.MfPv2P7u4KBIdcZKwXG0wfukiWnyURcWqem3cslm244LDXtS9sEsPvlH39AS8qdYbd9di7442rmqIelnJDguU+63C4JwBUJjBYyX2TkwuMTSCOzU06SPS99Z2LzvODPuJR1ldLDrRyzFlJVTd3OR+yZr8V+oqt7N6u1VOekU29EG3SMN5.pQ39O7wGU9Dii05f5DQ8E9Y3nmy9e95ZN.ywoWbeNbt0Jt+biegNL0rGMix32BDiisAmxy9pLLwqpqxvDi1AZb1r2uGbDUYN+k7w7XSaz+ZU2ioNPzDmGuED60xHxILt0rgRavbYwGAfp2Xnu8gGRyNa4gIPKFFBQDosb65aScn3j4SZ5Ot9yscoF98GPcNzEUO2mE0PsWeWcA6Rv3exWE61qU2ry7XFGejNlwKc98hejiWNrxqiCZSQbeWg3dU8Ox3XJ+FHwE12k+bKleGx6Sco9h8k4zKU8ud4WpZKyPfEf5RtAdr.H5VAy802Lp8sBMLxM6vEMkYTn3sFHdJi6spG23LpM1vvMCxfmyfoMr6ptgIhBlMofzXskxQOoTuMxIf9Q3sCopJfoMOiZyefguEV0NSPv3irm2HUa62+tRdIQoK56QO7PatNVbYIUZIiG6X8q0t3GFd5km5cFgKO0aqK3BYSGOvBwGAbbcwR4yhBQb+nbGp9N7zH3zrEskffIFQDbUcDZNObND.EDbCNBZdj8.rPtQTE.Xf4G9gzdmeEYVAwiRsvqVT+H36N30Q6FRDrLqyArkXc4n3V5ME6mJMo4QSXTXiqqKRgsMdKCO+1y75MaG0pkC8h4McU4pO2wldZr9DBfuUFZi6mBGA2FTAcr2g4RU5HiTXw2s8umd0GUF9b7hKVtuOmCZsGL8NSXd.CiVX8rLzp08VBn0S9vUJW9AQMDOOxz5V5Om5dXX6QSpdNJUMVAnT4+LfRk+QKtn1n4BcScYA5lvbJ4Kx8r8fFJR9Cz2JJzKJ7R.U2TeiFqxWMkDYoHYrQFIeGDIvJvF.E2XDcKmT+Cf4FMDW5uMupkYdypV9pupkuduPji+s5KD4nG8AyD9a1VQHiYf4LDtoj70is70wx6dcPiNFl9r8MEI0wf92h2BH2t7M1Ku9F3yjpClNuCrXg8MMyhpA.blKJfO3hB3Cun.N6EEvGcQA7O4hB3ie4.hqkSdlKXrAr.2FqJt6D4R1L3biqQkWqBQUbz0NoEWZW4gskarV1XXA+KAm7GltW72W438J2N98XQaru3V52+t2kzbyU+Xh3v4H3w5TnvhjPCOJNbBkm+iTnvcuegPJTlEBLIya6FR1buEHAg9QPuJ3GuRzHB2eysVY0hJcveaft+8IXZCBTa11k+1DDPpMhe.votQcH7bCh27nsibcg.voI.d2j42wvgfmA.WgBciGaxz4wN2ADGhc.4.JLbBxNdTKXDME+FGAI+df3ZICcuqW9gBNL+MD7WDKRsg9f+F1lR5XzkXvu4yDVKh3ZnGPJVi2oM99n4BboPuTpPd.Wg1lDwKcFWqF0YCitMkvUi7nYm8AOJgNHJrncIVo5uxjOh9CbbHQAThAfH9Uv98vCagCyI9FnTIg6D6v1bNQv.fn9ioHepxbbvj8a3ZAHsM0uicnbDdLdxdRK3eHX9TCI1KjOJ.0O7aED2LWSzwSepjKlOizMMAeKwVXtX3VygYDlEtH2.SCHRXdKVDDQLcJtSAacUtJARIOOeBRWPpDSdk+FYGuX+u7ExeLy1J9MMnXCw2v5bMCHdAx2FNfDf+kOkqbD1ehOFzHUXhgD4QtCwB7OInkh.BoorHIze.JGdAkSeIFDuudR56i6NPwTxweN0VbGvlKrVbaRdrQtZCPZkxUvW9N9.RZK4kAL1U1TphHx6ltvyFRYXChU.3aaE+hSf5eG1g1lExmM4vxKPj5J93VCOKvhAdFty2BMHSCC.jeHamTLR8YNoXJ2weSAyXe8KlHNhWuPfm+Ht3hrHhPRHS0C2PnYxpR.f7juMSvSfgoHxy1bkA707jkgut28.dKedAd9D6O8SN4SgAfj.dXN4aOIGWqKBfBkYIbYgwoXlVRXElS.B1.iupRRKeVmAhjv28RL2.k78qIx38zmJSPgbEpxdI7cdImBclJB9e5b44ch+.Xikh530GsIGzi2RQWl66gQ7vxgJI5OxSjVQ0m5d038INdWTqjW9OzkBlBDMlawPOXER9phdQYp1RwhiATO7NjfmF6Z.eBDtsslShyBYYbECKx4UIEsC+AADCmSL5EPXtwwfRqN3QjTgnTYnw6cuT2sXipXraxNgX1lBgAmzlBjxG8r349IfiHu3XrUW0dUKwdgkeJoH9AQGD5aXJbH4w9VTGvmHwAXJ7VxvC7Bv8NapXMsP4RduZbnRTx.IU5cdtZhqy3DL1KK0q7DkBe4yK419bt3HWknI4LDzTJm9gK1BhJQfDVIAIymsKYxkDXyKJyIxkKDdbiJggUsbEBlTTNZ0TVJoCH2SAn6BL1rkflfulKuBQ5Sv1UhTz2Q7Co4nSjSnsmSOUGxj5iYhEwQiYuMbIFVV7zFPM7VFVzyzu8t0HvRCZWNfe4zvWUxhE4Y+JkpemFUu3OlozbJAMjg3NsqWhyjh8Ah+3psBC5Qr.Wup3QjwrVM1r1m9RNmJEStp0HavRp97RVIvK1AZc4R5D0RsODU6PfHUsZCtKW3LdiGKNEZd89LEfJ1WuYJ9.D5GEANlfPbhgukZ4Ck5bx5JsvRYBfhqSh5dT3IsrjUHJGx3k7Pxwe01QkzIvhToEaYUFlWNT+lqgxTeD5Jj0DJRJ9+D.tRHaY0FRoBJ3mb+ZJJimNVJMfSPCzsoRIbpqxkRD64PEOBr4wjE3gNJYSjcVZXtEqDm4QlSOMIS7reconjX32Clh.noLRmRx5wwQ7IjZCSV0v229X5PJNqVWlOb4Pf0DGOOUXpSd3k8UkL9zLn+.JjtifpMWydYxcA.+8SSTFm1ZHQaJEaSG2Hm.67mASBWbRrSOS5PxuIg4EhuhMPob8.3p5bpPjlYLttcrKTUtKT7sOSsRtb9phY1HdoXUWuS7hChyQJ0XgDY1fN1tEk9sk5aMAGy0KUpTE9NvmG6LHEUpdhkzkSy110zG2CVAEgQ.q5RZtIOSZhBIOMthlpjNCWR2MdBNe1k.SG48RnuxLkhy2sqKrLNqjDKAxY72FVGlC8CrCj+uqQxucGBsD4ydgbXPVgU6JVDGOwivaUsIHs2z7kYxC1DfVvChEQWIIOvubvjN3tL3eNVjjD5LKyMPrTcjfmZUlDn.yoQOYdWXgw3ZETWvPFM9BSSlYA4XUwgxbVEkvSSmHslCtZnDfEogRg.Y6AVoTxnUlQrzSTtH+rShqTFJ2W02DjorNwjwyWE3CeX0JJrYxLQimXWPaVjiElvClXIjRsP9CXLGRZZd9+u1zmZNaTSbrJOhgmYMgEjAQwLfzNNXdoWNxiSZmfZdzAGwuXtBZZCr8UeuSY6q51wIcCr9GyoO+yfVHGKd8wqMEnWmBjdSlE3cUapc2Ys26wS8rEJTX9zKz7BEHjzGIw2d1ZSUAAN9hyJwU7clM9wjqKqnA.UJeVekZSIK3NEQAo2ejII+lcqR0J8S0AuW2CgIhSY+0KWH716mGl+9plBMs+eHkScU.SNEX One pole filter
This example patch contains a implementation of a one pole filter in SNEX and shows how to use the getPlotValue() API callback to create a custom filter curve.
As a bonus level it shows the filter graph with a custom LAF on the interface.
HiseSnippet 4220.3oc2Zs0bibTEdz5cLYDghvcdrQgJH606XI43MK1qWau9Bqf0dEqb1DJJJS6YZI03QSOYtnKI0VEUAEUdk2f23E9GvqTU9ADpJUke.DdmGB+BBmS28bSVqiw.gKZ2xRSe4zm9b86z8vlDy7cYtmF4yCBXwFFUVnSnvgEEIBMpXcxz.lQkWzr6T+3A6Mfx8MZuuQkWxrqOaxgbuXV3IrnXiGLMfFEwbMpTYguGNpJV2zP94i29ATOpuCKuICimJ3NrGwGxiyasyN+.tm2gTW1I7gEF8qtSaGg+dBOQBvQKX1vHf5bNsO6XJNraXZTYwCb4whvtwzXVjQka9.g6ztCDi8Ui+o7H9YdL7glFcABoZ9PgmKxwXqF6Mf64lsyi.4fYA4vBJ4vW07HtKOq8hxCrCR9LJJOpbixr2BkXulEYuFEXu4vRUJvR2TwReIytNg7f37dP94ya11GTM8nfXuHqnFqwMrug4dBXD9w1ComyNLDdHaF0WqQiUHsZzXoMqVED8QwjQzPROo19TOZOxVjzY6DxfM0iDNTuGIDmuqu6gLlWcbloCoOKdOwv.gO7P8ZG5Inwb+9mv8XMqsjcDK9ByNekP5j+jcHqOOBd3vDemXtvudM2P5XkYXGZ7fZqP5k1U+UHhy9YKU8cpZ0GWEkATc0WQ1iGviY.4gNQZ7DlSbcX71TXCAad6F48gTV1W.7CIUk+ZW4HWKcjTW28CEAcGPcEiAA5vc8BFPyWONLiRsDxbWgzvd8kVgrNPhmszlo7NQ3erHl8X+5R1u5ypRlsqd8laenLOT34wBma2niU3kMw59ICOiEtBnv8RXYCDr1JaBa97MgK5g4nLAJLPgeaed7iCX9OO+NCscC7qWu89zXJZ2qaCFW.KLlirPk8YiffHJu.Ky8YQmGKBjiUarAtAwZ2VkceQaOCN3P7EMKYNZLoXLpoEePy.pUCllzjaedTfGcpwY8SiNYs3Zqs1mfS.rtFl25m.eJ2ZKcy+brY41rxQluSUBoVlvnsasMH0TrN4v2rYsUvtaCgqm.czP9DDCySL9MDgmGAQEYP68ndQrpOyXL2MdP1V38B2Y.i2ePg3s7cLtX3DHPlvMwiFWN5FFRW2AXuTJjBF1vOhGOsXH++kEx6pxheIyN7XmAymGuwb3Qvp5eG7nNQwWv7fd8fPJ4L3MMO7M+LHqfoZ8qlZw+lxE+EMyshJwDGmLTYJi9zUtArWzYHp7tl4gGBBYAPbwSDc.q85QzgAdrm.b8Jjy7DNm2k+1rKFSIPwTO.GQcmATeelWz0IzyhWY4TyKWM8DQB5peDMNjCd5lvluK3I5v1Sycox.8yMvmQKkt.DI4Cnartyl3yUzc1LsyBAuNlEOFcKQEj92FU9bJsQjTHeZuIMM1E8ewPVbscqZSAZD4CeNyF1v+TCqivaZv.gO2A0cpIkx76NTjfg7T6fGRiNgx8Pa+tIQPzV2G62EFrDFFZ6crvE90hGRc.Q6TLCG5CgwqACVVnsSlgaItM21QZUBZgNzP.FlxBB4bjvow8TROfOGJiFiH0V.6GkIZNvTgVIBPSdpO1RIN5k.NJjYm2a40+SYstYgzEJuD7IHFvMvE0xbOOfVscMdJZvg9LPViSCDfsDRGvFehN8i4ITvBCMg55wcQnFNnd0X2DWt.7ejck5GAqj5m35fwpS4sC.yaW.voJXOvfF57GOHAhUnBjjKLgQj8DnnNh6qYyEMagFDGQmnavBZ.9.s08b1Xk7Cy40vtUqu62swqt9528UuycuyZ2skFZ3ggr2JALElltystI88+n+vu8O+q2oaLK.cmAdFM7JvQk3AUm4rfoYSb4ylLZHfq0hpvQYKSZn2hLpZtF4QtOgFBPFQwQASjWvLZTuSYu0r1GJvgQ15dKFz+RrN9clmLfGQPSJhqfg+Jl.FG8DgCIT+ooAufnEqP3..XF0kviIvZGQnQj9dhPdONyUCJl3pzjjylR.eHeHxOLUR7.V1..kNhbD5gDKj8.wQg+3AqLPQrgtGevaJ4IaUQXY1tyXNV4ePSMcnoRFWKNeEadMWEruTs8teXAqi4qJkstyuX3eZ6mqg1h+pu+zeyu+Otiwkr96r1Ze31yr9u26+9u7Ua8Md4+1GHW+EL+gyZ48waab466Vu2E12FsthqKRdkQur.3KXz+orzFFWbo+3suRK8O8qr+GpE4cGJDwC.iuRq+N+k29Wt80X8eo4r0Ad5R15GgtrWfJ+KZqeYKsk4A9XTZ2KSmqxCjyK5rOOHEEiwkEh60JEhSE1pzfkkoH88gZlUvBe9oedQy1QOE6Ep8MkLPp6G.kAOjJgMbsJ+oHVzulpyOu4aPGwjGfiLn7WS9rLT22iA45QfzMujCv4CtpGfSvU9.bdrSLvBmDR8iBDQPgWEn7L80pXe6yhS7KObUSkFEt8ND1dEF2KrSZisJ1XGpeIhAOWhRGwKTQ3GssxBqKC1MtONxA1rzYrD6j.Ee8FXkWMKNw7laUr4GRCcA8hSopRV3xNKqlWyyxZw+q6rr9efZOKUXkUJO1ki4hOveDyC7Fk73WFb+5QS7hSasr6zQBeQJr8bE8SXPYH86yJGIadanciiA.m4s7U24ILOFMpfK12dmGAv1ogxvuWOYQy+gO5w4pu9llJ1kfw.H+u6YFrv+WelAWcuOHD3+cqE+FlPn3VDopj7eFc4mEGrvmEqwPpSn3TG04wfN8ufrEXe6KupEKyivmIMMFMK.tgPJiScbJSpKLwVW2It10chu50chqecm3cttS70ttS7te5SDynuaRrXnx2.P1z4.UwgURgMCtIFLccipCADMsyZQccepitoGd94puTbxWO+.bVM8PTrGjd7+F23u9kMWc4kI4EcKygh0hqp7ElCAmSZ0x8BECIOrc2CvRio4EFC0hSDgtvHfZncYCw6lBvuxjDopk7xnjGpXOXVNIQvFNkjAPg11UspZ8.ZDh41aJYpHgLF.wQ7YPk7HEwByCYH4.WsnMvg2zl.I2gjq.E6yh6.jQhVu9R4mgY7.ZrhRg.ZzPeI6Lj12mGm.LcHCPx5GwpZAftQxvGw7g8nt3XaPtvfcSLk6EAhBBDBB4lHVLxHQjj.B7WGwHVHvmbE4cvCuhbF.2XLrsZYS5lblpMXaEBqNLN0yRgId9Carg9pzPQ4omA.HrUpDTqvvvYzvoDjGUhSBAVT4YL5pj9.SgGiIAhvxBqZslMYOPPJUOm1931mb5gsezIG7DPzf21kjJrIvP8odkN.Dfp3wiv8U7l7vPXwGnGJZWVeI0xCj+L.LQNeR8hDEXVojWJNJwnNTef57XN0iGwl8bXrkztp0Iom4hdxgJcnCEyjfX74RsaKB02krFt6w6JkDkDxxWX45ImWTL9Wo.ppEsGtZnEVFmwkm7Ckr2stk5Tdpt7pUiYfm.ZAeOteL43mdefLgIfLJ0MZCRPxYdbmmiFDOlbo7+3Gu+A0SmDdijUsVcUokUPV0uneQtrnpEyOYHIu33pV.wrxNzFxV3cLYIA9heCCt3XeV5Z75RILnajjC1hbPx4f6Iv1jrJY.u+.BlKlLD3Z8ppe0A.RqV0G0Ic4dH9ql5ELeXEWwTiAz7.DriG.kwNhEVTOGMPj34B9Gf2CH4XtUsFI3t5m1Sv50i6vw.PnoFxA7dEtYCx8IPE8POxtrTWBtq.zDf9O7Tt+HjIsa.au7Is4EF5DXTPF6A1rIA0ucK6FKKepS6kcffw85QVVSMkByB2bfKkShWZPMmBbJN.ZCfj06g2Z4R0QF31jIKIW3yZB8banIjp5QLQ1ilvXtdv7aH55zmkdJjy47IiDJyadrdlm6KFGgSHj4Th6hBfwGlLDGGyEukc8QZybUAIkaWnTdWwv8khj5KI41mUE+uTY1treZ9IuJodDY.D0Sq7z2CU8Npu6J6OHZtJvu0VPO14MjoKKLlYFRQg0r6zh5Ahx4lpU8xDP3Eb0mgSddVXyrk2Cpdqj05Yxa.PuKgzEr3TqRHZbcJXq7JjQa.wciTIevsrkEZCBVo81Lmx6FD3MctoT0paJdkEjHdeHPaUqxQe169DsXVpBND80qGEP8umzZZEX.uhzPQya350Gxyrh73yiRBvzrpCQm5CCWleU5FNDxcoroNCLFbFnlLrlJlRdKhE07ow8wTDTPfPkwUABkDgA2gDW11JMNdA+js1pP7jM13gcVhjpswrY0wMGGEVaBecOUNfH9aCFiPC25VRgobzZuW41kDOL.lC3vsrbF+X9OAb1.urkKnGfFkVMVkZBlFLYUGoScqBDIsymoLKrX3M1e8X3bxeMYT8LJxOJiI.uV6dRcnqB+iLFeFlGtFwCpQTY1J6vjB5obNGahLNG.j5nL3Q.UgXHv2pUKELVYxkglZEY1X4K4.NCEREqfAfQQ9ZBjTlEKBB7Spexi2+wKorXPOJnmiwC+jGoSfClqX3GXjI9QmyFybWJGcFQnvaM416NAlQcH3XT3psvYiu6NJZ9i.9FBHg9.3YV5phUJgBBv8PnX8jGZcAjhPlIDRJxf5q+Ik6A9D.FXoSgTByIZWTT1sRZhlzMUtmYFfIhJ7KhqaHHOUrvOCvFmKgKLJmjvQHGHSr66ntvLsBNhkg6onk.ryRj3oKPOYjbDwsshVZgQC6lsVmbK3669ZqC1mqaiFsxjD8.vA0S2F36EUKcNQL5GQktTp11R+vER8p7ckCeLLpTZonRlVe4R8XUfvKuUgkQMqmS.lG0Q5Ap2TprvHRG4FI5sBiy1HvdMmlxz.Ze8zIeEmVlK4ghvwzP24G1LMkNF3tX60GiWyo+2AU4H1UAfjMAv3ROSjDKACmG21gopv.wyMQJeWxlf1i44JPQBV2W5QDi.1QAS4zG0mo2RoNjZodt53O1wBYxFEx+MU9TiG.nlq2y0FprDRGJk3kxLAcEK5BomTXJxDQmLeTMReAG0Eop5ntzKvieNVaWLVE7Rn05avxhAk99FpxnVFczXUYFQRTU9Zfkonqj7Oy+hPGFPGkBVvUELDksR41rk.ormK1DHBwqiNFQXylnEkWn5K4Xv9klaRYbp3ob99NZEFrvY.6qqCnLJGTUGz7OG4+FajUgPN9XkGoFraHt6pOBeERsUuHo3amfBk5kfNZtqEZ4jmMGCJojyE.OoppvxR4oRFIwtudQvbJcT1kzqUUTLv7+LHWQTOH1DHzGZv.hZDqpLjmTtBZYWO1CgTKGLBe2Wy90qPf8z6fjIHjOB3kMpJIntnEYIjxJngJ+Aqvl2gj99SAq4X4BDESighBU1HxRGSFdDcR5gAhUmbmMUTUFpPBvLq1dDDfN5o50sBHXAbdko08K.i.n66HwbRxJFKOS4HZHW9hxjk7pDVaXZal0SlESSowwlYECnOtfx08n.jIq8QC3U0hrlmlpVTLSQSBTrnMJJG8dSK8veBCjJ3KE0kTMDJyv7fI9XQsXBOopAOcppVE8NILvOCDKFFW37w9ly67wlLzK+DxtWEy6sMzBYj5M+ZqZv1pFTRsivEBguUsW+jCu8cqs88qV8d49G2uJgj+HI81q2pF54Uijd603yRwbMR5EXuUM0iY2mN1vruuP0pRJ9o89aUKy2uFQSZjNq9bYjY3ilk4glk4.Yu3pfJpYV7xq18VsnPvv3u+g6Z3CSNEX Portamento Oscillator
A scriptnode network with a SNEX node that implements a very basic monophonic synthesiser (a noise on the left channel and a sine wave on the right channel).
HiseSnippet 2885.3ocuY07aabbEeojV6PlOZBRLPONPsvgxUdEohrsbrkrr0GIDsRlvTQ0EEEJi1cn3Xsbms6LKkXR0odI25gdJ2J5eAAn.EnGJZ.5wh.T.+mPN0a9+f12al8SRJIa0jHKKw4MuYl2G+deLiXmnXAdLu8kA7vPlxxpxzsiDtLoTDYUo5tCCYVUdC6NCCT8VuGkGX0ZCqJuk81TohEQLjdzvPpTx7rpTY5OBITo5LVVVe5bO+e9fGQ8oAtrDR5u1SvcY+BdetJmZ6094be+sndrc48Kv8Rq0xUDrtvWDCxyz1MrBotGQOjsCEYaJaqJWYSOtRD0QQULoUkYdjvaXmdhiCL7uGWxOvmgCZZ0A1HC4sD9dnDiTsVuG22KSukfUXlBVgoMVg2ydatGOidt03s0SPxWQQ6QkoJKdSWR7ZVT7ZTP7lfHUofHMiQjdG6NtQ7PU9Ln7751sB.mSWJX1KJJFdsp701qK.FBTN8oGw1JBFjsf52tQi4IvOl6dciCbUbQ.QDriPwdbP84p840pV6zZjQmpa2INGdLQBeeVzDmF8zQm2BqGD2+.Vz7jAT+XVFif5W1lZe11zhtbWiVWfQQPq.t5wgrfyBHXkXpfO8Is1fpnniHgFvWHKRwQQnxFrA.p13VpZuASdjRDB35w7Y.ZQ3E6SUkgPXbSxDfMnjeCcNARtZXdXwKdvn3pYd4vUmOr+kUbeG61bkauIKuSMA4ErZeeKuIQouo8lc6xbU4B6L1a8ze3BIqkDRBmId3uQxPxVOs4DCF+B6bfeXDKjFw1Uz1mNrtj1Ozm8DPFmmbfuv8nN7OiMdzRnQDdDxQc2dzf.lu7xDTckWZqRyy0pX8DQrhGb31TUD+DH5bm39cfz2tr0SjNfVkovXKy3F3XDizApEoG7eguRlrINtRxjMSmrPX4NL0whniztijOaU4pFauTaj2u6IMsdnuu330E8C4IHVvGno0V3OLrmHf6hjLbjJoOruHFNjDw8ioxcobeDh2IVBIM7dbPGfYc4sJSuGKRp23qZ2vA9G.42Q3ASYuE0ELrCaSU8vXGLOD.NYQNtYfzRxZQbBtEok+LVIPD6iptt32zERBYvi3HHxaJyt1RtGNqK02ZOzeiBuEtmH6SmHelhFx.1I6GfTJIuuMHuQLm7YeIktMsc84tGQT8XjYAoJfvClkvAkmnDDMAbpN6r4SIqCaCLslf9yLMTzgXJDe1JXU608AgokWp1cU6dLvqZYkmaZWZzgLkIWNFQcRRZb6co.dFo2wm6whZCMVfidXrGWrE2LE7anxH9oM3xPHr7QwP5EStGZDzChY1JSkMBBj1lGjHN4swrM8jxz9hmuVGEKDCpKlmryQriM1ej5+528etyuu+27.iGZqH1uMFfaCsx1pus8O4u9G+2x0rN+y+W80ic93Ycgm+pt+8u4vu5Zqgm+Uz0nxO5u5FUq7m6svWaU.EUy9YgXjSTyxfn2x9YdxPmjIeYgPSaWCsrE..uRF8W7OFWoewCtXkNkSTgrsaSKnyoK3BL2.7arS9GOA2MHMm4IeE6mDCoaG+nKEz1G57zjEoj89ZERxjyxKoYecnj+.lNXLHIvrGKhggsIEazyscqMZALnPFBiUjatJoaF.8+uDSUJmXhigs6SiJqiumMKX.yG1WmbNdERcZetR3OBKaU.skHjlJAVcNF6+IKyBTPn.gjVDCX5JuxQXe7YKmVpxnIZFgBJevU1NIsT3lP0bOnGI8xQEqbLxLuxH009CihT+Se4W92FGo9ou6FOWiTeM6GpTPxyQwp+z0r99+vqZ+DlOiJYeWb5SL8v4Gj9QP2Remje3UMyzalX0WONZvjjfIU.rHxn7fGIDG0mpai5xcQmeHZ5qO0MRruqoOVDb+ZZJPxl.8qAT0dabLoo0fQMGXRv8ccKuUisvEurK7CtrKboK6Bu0kcg29xtv6bYW3xW7BwGP4gwJQeSu4.5s8llDZU1L.aSSmP2hkjqyb4IDqlQAZOMomsJS0ki2SQ+Kij7t4M2tft+PmdouFf0T+kW2dgabCxCI5YHvEH78Lskpq9o5QUXcOuXnxGgBD4RFQxOLf5SDldV8YcUjj6dQnAd.aRn1K4XJTGMgmH9g8xXxoVsp61iKIrSz2xi3w5CECTQ3cufU2kcL4H1P32TUbDPRzUKReHbYsp2jP88IPkS+CvVV0G3ATI2kDKoGxPdwCjh8wlJndfwjnffVb4x9BAvgm4JfRRcj8CgNDHgo4DHfrkx1b3ZxJsiGraRlERcdfqObNAGRjwgghHEoqHxzZfa5q+3ku34pciEpoXfJCJJ497.EYm8Vk.Jdrqx3.vKjhp59673M1rtlzb2CU6EVf7KYuehlCZHHgG2iEvF.RKp.EjP7Va.0.FyShssb.iDGBl.lWspCDbORDKUKXYMUWGzS3rwyA3mRNTH.6pXHXeIdhf2WQ73CfKJPNXH4yXQBGGGfad25xHxpD3Bev50aPUWzUB1e3jcG5Bfx1rnNF+7JEDyEHxn6g7GGp38Yav7AezJisjaPVzoA7SH0ZOm1svUbZM7avj.3VMLJELPdVLbx.fAx2qMJFeH5eVfL.e20TiiCoU.nj.pSXt8q1ewNQUqJA9Radgug96POKBH5itWZfZdxAP2dTRX1EmS1YI9HwLIDdTvzC5BMh.EGL6KMXH9LGC3hX.fgO0.QJLwXn3Z1HOASh1aXd.PA8N0CNN8sIcH.9I0EBJYpOyXAAiG3FPCjP5hWVwIgIjjNtcDhkMhI1Q.uVBWkzyqFiGxbk5X3CYZCnpPLrQAOVCQikl9mMugCACq0FiTPmdRN5GvfyIFakZu7HfzFGNh2TqtXnllbWeAX.EG7LnoRowZlD8QRCscHjZUyLdIuzT81le2QqWgx7HfNPGGioBvT.VeEfQm7GmBssl0bVxYA+Q54JilmrHFxT1yLwoMadgHV8Qj3w8vfFfiIGPWb4fzU1pqQe5kVFNrP5K4aTES9S7BP0plm4BSkh0VR4EKVg8DsJIw9poVejYutNObtU1.6.4Qm1Wjh3FubhGDLIE8YlpOvhAWecLAy0IxOTuo+5F+lr7ORvGoyVDAKVzu9bP1ibiL0a.9WjwXcNMyBcFxRoxV4BSgBbNSTbZVVbpqgnyokJXk0MtOTvRgFkDqz.5e1JjBIGGM0WqtEtjpTmnfiI0zkeJD1ljYa9jhFbH.MEMjE5AasRnI4Jh.HQnHPWVSWhLsjJTsSzGopu1KjgHP4TLrBrRd9rOFrzahyUO6SWm.5pwsCELXNbY5eRkLqTdRfUHLGng8QvwmCDO0lTtvZ6DrHnpYs5W2SDCcSQFLWlvzlrBj1LSLLwwiTPEc6lBnkBgjiJ2CtXAM6HaN5Qd.jxHu0Dc6Hl9SPdxguXvZQzj2AKh7VevbFyTJd5B36z7v8jzmbMpFxDxg3cL91jHkhORrrPJM.KXVf4gzk583XltjGQcrHArzG5hvklTH.LgP5TcFmtw90plbjYZ08xHkH9oc7jksZ.Mhqeuxrr9.m.RF+CyTrrgT2VRhatnuYokL0FSlRmHeokZ1nD0xch.S0bz4xpwNJba8xo91BQb0kgzf6qUr4AFRR+Q97SShW.ezlmXTPLEYcSiSEIAKYdzH.+2icBtzp0N8d0rrFqG+qMVO9mz2OuK+GWw99O.nPFXdl9UlsoSiYIfwQfw4qL6mr6V2b4Yevp0pc+7aFuZMBIeHI8l7qLKVcZVR5s3wwMZnIkdI9Ul0LL696HgEW7t2swR25VKuzsW91evxKNaMRwuZswJylEwLKIYqw8YgyTPtYyFiHJWjXbKmkVbwEuSi6dm6dqkarXy6LAo.gfiJ.2egh1EKq+GfM+fgBSNEX Saturation
This snippet implements the HISE saturation effect using a SNEX shaper node.
It also introduces two inbuilt objects from the SNEX API:
sfloatwhich is a smoothed float value that can be used to remove the zipper effect at parameter changesindex::unsafewhich is a custom index type used for accessing array elements without bound checks.
HiseSnippet 2100.3oc2X80aabbD+NIcIkzIAMAAEonurPODPEqPQlljFG8Oq+PZSTSJBczpFnnPX0cKE2x6185sKoDagduOz2JP+xjW5q8s9IneF72f1Y18Hu6jocbUSMRhDro1Ymc1eyr+lYmkrq0LQHK7bkfmjvzNNtq1OUFvTJYpiakAyRXNtuim+LgdzQinbgSmicbeOutTklkRrhNbVBUoXgNttq9HTfak0bL+778OjFQEArbQNNmI4Armvi45bo8e3ulGE0lFxFviKn8m+vNARwQxH4D.Oq50vIgFLldIqGEUaEOG22pUHWKS80TMS43t1gxvY9ijWIr5eFWwuHhgCZ53CFxJtsLJDQLJ04nQ7nvE9sBhBdEhBqZiBenWWdHeg77nwO0LAIeEEiGtqTFdqVBdMKBuFEf2RfjaAHslERuumePJOQmOChm640Q.GNCoPXuHTr553928NRBJHz0ioiYsSgAKVPsurQiMIv+sw1CmHBzbofHE8jZ1IhZaT8OUsR0apRt8TCGtz4vsIUFEwRW5z3Ic5qZg0DShufktIYJMZBaghf6WNl58xioEOxCrdcAEkhNBt9jDl3kQDbxBUve8zNGS0T7fHSFnWBKUyQH3dLaJvpsGKU7NloFqkI.u9ENy.1hLbRDUWlBg4MYS.wfRma3giPw0yJlW8cFu50EhuuWetNXzxw3JKAiPj5+GXLKa7c8ZMbHKPmCv07Z+r2bodUyR8f8D272IaHo8yZtzjt+rWNAOIkkPSYCj8inyponwIQrSALtI4hHYvXe9ej8hYEIVHbHpQsfQTgfEotKIOu0qcTo4q9P4T4DMWbYWpNkeMjE1aRrOTlNfcTF5.Ytqf4P1wMvwHuvGtywL3eC+jMYSbra1jMmOYgzudL8Uxzwliir+1w8sswdkIHe9vqa5bPTj7pijwI7LVJbFXj0WFMKYjTvCPQVMlizChkSfMICtOlpFP4QHs1ehBJNDdhvGT1bMl6pmwRUFC+1dMpC+Bz7dxPXJu1z.HvNqOUOByWv5M.4jkVOXAIsDVKxSPSL+ZNaTBfXL55lK4VsPwFKeDGAYaqXsZG0Y3rAzHmyvyaD7NnMswKK9PUeWOkfc84pQTv.NkP7G.HNkUu37emgvJdGEAVpS3b3cOOEUOIEqwXLDjBbcV8UuATf.hLL+HdHKsObiON5fIgbYatcJ3S3JK7uNlqRf7nCm.0CrYqkjf..Zw454TpVPVQHb0uYyPj6zmlBMSnyV7hQPlRWtHCt4E05Ru9Vxd999ZVBl0VTO+wrqrg2hZlUqv55HKZgs9F8e8iV6u8u1uDbbNTJGGSMz9+mu.58rSdOOefTZ5nyPI+YlwjeCcJi7HFPWwyjluhl59mutM0k7Z2T2IAZX6GjREpDopbbjEyGHEnOlK7oJnuE1e3TLFVT9QRZ5Rm5462Fbxktl7Ci4kAJbC1puplKadGatbsu20b4O.5SozkvUliQeNV4nkXJKBxELX7C.x+P5jH8bok4xckB476AxOnOkAWhc4krxIqKygNPqg5Q4R9vGdJKhQKPZu9u7vm.jMZZWSY26Trn4+0MjrzyqOxyBWBl.R9ga+kq9i59KeizI0ah8HlFjJOOv1.JxS+IFIfeKLOWuhWWbLooyzaesZLTk67ffxl5EV3mcWW3u7ttvO+ttvu3ttvu7ttve0ccge029BwKgNXhVFaSMg1f52x1AkaKA1tlIivgk0bk8UOH0dgDnqxrd2bWYHGSKLeXQxOuXWoasnyv5il+ncmU9GddZFTrGx0H6vEZBPfMMcn1inzoSBzjEqCerieuVO67dmbbqZKDuw1vafpnfzUd.ALrRSLF5ocO+nGePudsdhOYWxmYzZqsHnEHinJBk.uBHfSiHCijTMQdwuGpLPzif+FxGBAuhPyBNADUrTpGAoZFinGwlQfG6QvskMbRzlDkjbEiHXrPB7LFhbHpTLYnLkfeoZLPTBy1QhBfaBUrixrwaVBp6QFaPpESWxz9lGRVyNlKRl.KvNHX7FUq.wjJoLHTHH0ZVuwPx8Q4jOwpJYqBRAgPchQ0oWnpYlcCLzcCtaUqjeJngJk34GYvdjoRd372nVavGSBAxQ1llGogmjNuZCDnMaQLWTC0sN3.8xmt1FkcVb+g8tBDjpgVhCquw1vG6Tznff6eeXWMaqQW7X4iIpu1fmeK+2gSZmsBBg7nlZSxXX95zvoXqs0LdbEzmM+qpw8+1c81Xu62x+ywa0pKAUFHsLvb+6eK3.HvrWoLESWKy5FNFWYEpPpTNCj.jSxUPO3jKXD3sgPZJ4pQLApUJytXjGBKShpPAqvEvuZfryUFJHbvYMJ+RAjA.oZLZbI+HX7WSFa7hfw0yv1b5RVrw78cTqu8SeHYRQRT4N.90YbIizrQiFHR9hFljAJQHSiw8LOiB0tCA1BBWip1TQFBuufnw9afDqYxIfiJHAPKYoQyHifOPUAmfZ9BRVvGCkSfxVD+tmbxfG2o2iNePmtsfSADD0aTftsDmbtCknpW7auorsJGC.H25ZH6FhgXcyZVPTTDvY1zjkvwmqZCN2TNgCmseFgCL3hWJVKyYlNmwMrVext.iaQtfc6PWgTJ0yVsXioaRZT+AO3AC2XaL0nxsVhXLVWDqN7IvxmWo3SIJaRR4js7HEFpP1fXrQuaP+4lsq537B0++Euj5+WGGs3F.2uwam8AAjo1u.lcWGPw5DlHPFBbicW+oCZ+oe056uW0p6j+F58pRH4CIyeQ+tq2.W77GymYq4uiOa17mvamGLUge5b7tqm+1w0IEr6V6UcmsJhAGm+SlEqhDSNEX Velocity Modulator
This example shows how to use a SNEX node to create a modulation signal that can control other targets.
It also shows how to use external data objects (in this case a Table) with proper thread synchronization and access.
HiseSnippet 3770.3oc2ZszabbbDdWJMRZW6DXmXX3.3CcDBr20fYIosisgdKRQZSXIRBsTRFIHfp4L8xcLmc5ISOCWtwvH+BxsbNWykbNmyobN+MhuD+OH4qptmWTqjoHjbdPKKt6zcWcUe06Zj53LUbfJXOSbXRhJqUq1mamTsuxXzosZ2Y2YIpVseUugyhyFu1XYXbqMuSq1WxamTkAae0YIRiQEzpc6y8ozps6b9V7Oe6MWUFIi8UUOpUqGpC8U2MbRXV0S24VedXTzFx.0tgSps6O7Va5qiWSGoyAmbNukakH8OTdfZKIssE7Z09BqGDloSGlIyTlVsO+p5fYCGqmFa2+CCMg6GonurRqgfP1GugNJf3X5osVabXTPoDaf76US9OmU9eCu6EFDV97Jb303EDUmnNdzdglr24ZvdqTm8VtF6MGVpcMV57VV508F5mFljUsBwOuh2lwYpzQR.60YE6da09u5slFaHNavD4gpMRwWJOPuOZ4kWTf+p+UGkG6mEpiE53szYpsi60u6W0sS2utq3jKMZzbWitlTcTjJctKSZ5zm0A6EmOYeU5hhijQ4pxMBwuIl58zwz5pbeqTWai53MiCy1NQE+zLDZ4fJ7oGr4cjYRRQ3dF1WhJMKjXg12QcDrpspkNd2QYNLSm.65mPmAqEcPdjLqoID423V.XPC8FobhMgYyp6W8Byt5zxhut2NgY9imOOtvb3QfTuL3Qm23Ova8QiT9YUL34813Kd435U+5+g1q+U7FFFq3.h7k+l72EORdjR7opXUJAdq7LhL92OsQFSN0QF21OCW+toxXSh1zfvCUSB2UGSnP0CefAN+pey8IsY8mulVlN2k91atADx4dlgxr7T1r31Sz4wYMLCN2yJB8JmwHzm++5hP++.N6sW3Iyq+ZvzcRRjZ83iTQHhFyi+HDBajLOJq3oMskumNVmLVGG5WWQeeUVZ3AGnRqy6yUftcVFRiW8j23V2WEoj0MZ+Y25tvXSlBbRcFwhUdtSnNW80a4YYWA4.J9OdP5KYY0ehK2egBpjwYd9scqJJVVTt9KVM4V4S1UBYfRC2tMEIvUkwhdOOYz8dAoTqkudKU1Tc5grl184VsunEbLLStmxAN6MoBbtcTjd5N5nYEnR6EdnJ0P561Wza4A3+r6YM8jjPmk..R6WUvrINVEUDEzq8BfU9LoYWYXDQqg4FTtQv1wCwl4v+TDnsXibuMj9fGlsiDYUPBWpfEXDpRG3WZL9L485JVhjEYG7ZaiqOYBAMbUy75D1bA2cSDuimdznHbisZvI+3ZbRwFddtpZEJY85nuAqnEn67U81z7PZUeYTqGRlEDL0pf8ZWi8tnWFYp0j4dUuI32CrqbJ4peu2tiCMB9Lh.sxHh0YiCiOXQw94YhuL2jIRUiTojFB6SKxFqDFzxg6LRC+jgas9WfiFnD8LZwLcNHV76lIFSkAfSkaT79RzI4IzCfdL9.6yXB0evfAm.fHtDQiOtnXSm2UwmHTC8pcbgLsN7mBPdRd63Y+K7SqcjofWQI8bni5eoAZNBEVrxbQS6JmRzbauMv1YgB1hBS3AwxHwzvrwhUD.WlpD9xXwDjMILIZlHLytHc.nz8IqWUffLm84nKKz.Opy+v5o3avx8dgwNClpHW2Sd7Id12dygYpjgg+1lUDcnZpUxaDhiwEKAdBRWG7tf2DTQQSr6GxtIHJ2.dsSI58G7Fh3ALXTf.hvXmIWMCLBE04QABYDvT1DMIDIk.ZBaqQo5I3XlPr0Rv8wvZKHR8YgF05GgKqW+GS.dz9HYl0ROibCLiY5tOt.jCNEN4eW9rWviyJ6PntdOrP00zXqJU4txzCTYFWySwJeaTSNt2lAT4zlX0w6QRZEInEtH5kMIOqA1WeyMT.uFT.opAUqdJUAGXCGv37TxTtzpTHEwpo1rUhoiQg8GoRoGhtdE3HIoJh9vseZr.fsvP5RnRP.hIkRuykvVy5SGU63sVDXWH1k.KYQ79fPmLpf2yUTADDt0vHXZjtCz7jl414AgZ30xNX32NE1cBMIQxYqliVqRel9dW7z56Y8nrJwxE+i+y+ze6y+3+QMGSOJyZCmROuUnLs4Y5IT3ANovyiAUXY0JmvfxxEMMnp17bR7QdzUa3TZSsDJ.SFYC0WdXwHcJ+jTEhP9YaNbcwHkB4SO3jIAN8RpmGBr9TjwFpuENKpuWPgNapFe4GC2NBLqBqjTey6rxk9yu82by5pdK50Po20lBjd9yQQNmxbVe+B7nQq4C7tVJdtqJaUs9vIRtn5WpyC6YNroy8+2Ca5957LDQ3dRzBFEPGcXMDVc9EsVXJ5pv88kKrGo5HVtnFP2hqT1VFVbkxBD+93NlH8S064BfR1XWheBj6Xd18c7tG8cwJsN5jNDT8S6462jTOwAe+y5A+fy5A+vy5A+Em0C9Qm0C9wm0C9Ie2GjFllKvB4Zh.X6rtsRi1qGSkivdDsTthPrSDfLsKeBpPyU8Q6EPuFJ2urbxaVUe2REE.MXbw36asvu608xTnZHp9rqgbqhsd3MDlrzb+LQw9oIKPEOu2Vaem06U7z9WsamtcV58dOwChyo51JpF13xL6pBDckIduk514HcX.UiWBpJt2N1eOLQ4iB+L8Ee0W61A+Vv5YePEmkgPGj.UL1QBgnvI2P3HK+zdmX02QDfO0uSSZQR4ZMO3FTn7dlDY70FEokYKhM3NbEmcxF.J+z6HT1sYgCt92xw0v0.uO2bFzkU08RUtPW.U4KpfwPk0h06oNX.2KBhnfhfQmzXulHcV+Ahtc5PugHbTYlswOPZrEwnvTTXzHtoYcL5J7jsFKb5aw9yDxf.h1KIBRkGb.8wDMfDyftcJUSPEr9wH0FJzlvxd33nEo5OBnyhTsX3+Qox861A1HcVZIwivcAwgq12WmLqne+5mUn2+KQB.qb3qmnLfJBHnpAVviELiJkZ7ebpB87mmRSg2bE6krx.wpJFfHYC2.2o.BCKBrEcW..fzF4A1wGjDHyrPRZdD.UPvPRCYI46eRRhlvNj2szmrPnduKwcdtD9oRy3BTuPCVCxmhjQJKwwO3X6yzG6D3KD5oj.KP5A2l9fAhayWEsK6EmkiJaYijdRAaXJjooP73tRGd66sycWeu6t81e9C1Yucu8p2c8ga9KWmFsB5tw.cRG9rWWD.W0llm3OxXgNg..YToqqUDIAhFxPfZD8dXHMnBJDt+4BLv0maottpAMbsPSfVTFH1N1WYCDT5NDxC6ABN0fme0T+DSIySns04GLdQhEdW1FPULJjh1+XqVUJtEYRB5vlLcZ1c+C1DlxPX67LcD01iIol2XqLnVjifQpPI8GC0DrqSqNMwtpiQ3pLfbh80ZzcOIp1tYgUPElTZLVGUJa6MDDu.fgaF4QxFqEZ8xQkIdLejGiKIonTSmf8HEANz.wjvsIBEJJ7otcKjMTp2CqccIQ4GXJlCBfD5f9R7W3fTkXHfAIdopr7zXR7P3eUcYap5cgqn0mJvZJiP71A0Q8m6ReQ29LKNOhaClQADoWkwdZl9tXLD74BmVUUZu.cN7admhwYyQTr7Dgir.M.cuslkM3u2yt24YdyiJr.2pLvsHhcvD14vdhcxwy3YRVjvfC9IiyFPWQmMisfXEEYkQY3hfp.bKV4dToUql+YBM6S1cFHAnb0fR34WYUf3ORxwvEiqGsdZ+SLRDm+lEbalnaGWhNXpU1vhCoEGUE1dMhQ4veVIgcQIudybc6mmzV1Odf6kWZordjEuvMOFkdfGRo.tOb2tKQDSTONM6UsV13.a13.HXaw7zr11f5EtJ8.2jl0WjQuJIa3TFZal7xQHKwAcsggUGq7yoIk1CbsgdmcybdwSkFN7t85nPtP8R9GPQiavjQ1NbJSlOzBokz.1ylYADJe8hVofszbVwijHXOg.gi5YhFDZHDPEzqOEplTDDYtsHXVrn7cDvQpaZ9TTU.eUUajCnhfJ.pnxwbjC6u1gKzX7DNeJokoCBVvVHzMrIynkuZWGI2RO0Yzyn.gYNiZ26..ad.SE5C7suJYvrqtWIwVTrb+RBtVgWhAwWCQ5HZFOHgO2GqfJ8issjMxNZSKRIH1GEjNsz5i2Nm4hi4z2cGqNCnh0.uvAIv4qymXJ4KpJy9SQF0oS3hX3YEBYybnMuK3SPHrO5c2.6a2M3ibO+T5yaVi6opPEgI8NhMv6315mpxpjAqdyTfiRgy6DkJ6GZpRczqIBSFFN9nbm8YX2VrFET1cxqKbd78Kw+eUXxutNGwiMWVV9jEXbkL8LJhpRMCmN2.OKCM2PjeTZn6f0eKE1DLECnuHJei5Cs4qBZTkWyRBb2fkXb7QlsJyY.VqHgXU9BJgAmyHIM7Hblq.iQ166IhTOuPb7zF4gEiqpgOTfySogeB7PibmrlIGKd0BvSokK6bhcEFE5Wlr9JcckWyaWxFeb0OEFabhfQVXv3rT4TCzS2WmGGPw9FKOJTmmZub9EefJGljX5VBglJERJWDsiEGTv.1WKmO6t3hNtOcMig7tenq1UNuVnYQ26rptLRS7OchLJzvtfHyk8hY52qnN6kgcmL1lGGoeSyrYRpkxTrB+c1nn1RKBxKP4HTxbGK0m5qPYuqJAsnJ.j7nLd3SshAnRNoeICHL4PMA5TpbQHg6mGh7UzanjKDgT2K5LCbUC3d2cppJLpBWYJsJL7+JIXUAeGbUobfepQP9QboNVhxky6rsXBvhFoYYwpoUfSM2PIGQ+CkBVA1fj76+ficccKUuxUXhoBt1xKZyiciqdJ4hL4gDz2TsWTABqGj1WYWb4q3s754KfUNvD6HUA6sAkZpI6UQ6qYo8hUTojUsdjH8rLoLKZMGRYJgOEwgSnRBlmW1fJT5DA5K4FDZL4Zkbo89KKJuHvzU690WsaqVOwHadq4MxlimDUNzl1+EuqcS7.wQ1+sTb8KuxfkuLbDPJHvWW+xOX2M94exku4M518ZUSo9FcEhpuJJlc90u7xzgKFatiVESL2sZ0vxsq2UT+mMuy0uL+RotrnFIW5Fcu1R0u9Vs92DGCCBNStereo Widener
Stereo Width control with using ms_decode & ms_encode nodes.
HiseSnippet 1572.3oc6Y8zaaTDEeV6LIMIEn+Uvw8.GRkphxFBEj3fc9masnNwJaHsbJLc2w1i7tyrZ2wIwf3DW3BhinxI9HvUNQ9HfDe.neD52.3M6r1dVGGWG2zfp.GoHOu48l427d+du4OtdrviljHhQVyue2HJx55X2tbYqMaQXbT0sPVuKtFIQRis0h1naDIIg5irrJ9Pk.q4mAk94kk1fDP3dzAhPnCDLO5iYgL4.o0K+4rffJDe59rPCsWqbUOAeSQfnCfmh3UPQDu1jlzcHJ0JfQVytsOSJhckDIMAYMyFB+ttsDGy05e.Kg8r.ppgCxEFHs3Jh.eEhURQa1hE3Wu25NAgrv0G3EJp8B2AWi4y5Kef23FocXOvBS+gUg7vqXN34XBuULf2HfjkAjlQCoahc8hYQxA8nvyh3pbH3zf.tcSnn0EYcJdSAn.WtbHoMsRLznuAK8fUV491v+t2m0nC2SxDbaAeGgjtKeo6sv2rv7K7sKXObWMZLx9TSSrHHfFOxtUQ53wY3R7NgOiFee6iHAcn8UDV948o3y2mZFx8zqZCEE7pblb2HJ+7HBnLWE7sun5VDIQEHxjA5EQikLEDr1hdDvp0gk4waQSZKEQ.u9LwLfsH76DPj4oPp7lrN.ePt3lJ3vSXxtl4UWZ7pIEh2DWmI8ZMZLVXDXD7TuIvXV136f2tQCpmb..mAW4oWcodKjk5AyoZxudVS6JO0YjIceOd.AOJlFQho6KpGP5tTBILJftGfw6a+r.gWaW1WSOaVQjFBanzXIuVDNmFjLMIOyNwdEmwGT1SzQx3MqQjwrSfrvc5D5Bko8nalgNPlUAUNjt8Jp1JdgKk6m13ugOYc5nZak0oSuNMR+1gJOVD2NMbj8cj0bZeeRpS9vFm3fVOHPb7lhvHVFKEhAoxpKB5F0RvYdJQZM5gz0CEcfIICtOhjrOgEnn0GPiSRGj4vqrL7GxsSBTsveWtKXc59ZJd1NBe3ayVg3AN1t0IxVp7EU8FfbRiW1qOIMGVM4Ipgn21bZuD.wP0RWsImJ9TmDC64A0oUkaJXUzn7ilgpZA4eEzyS0jCT85QBPGnX.JiPpYQodFhwJUuF9jFv9twnbv+FovG3QKm06jC1gfVggf16oHJFKlLzo88ngTdVUoHZecv6UyEnHGqpDsOItIUlNClBxJPyoo4CI4alsxq5qF4lpfRefnkkd7EzzLdykNdNid.MVtpXUuVfU0X7rE2f5l0HmLjrWVxURiTEFL0ysM8XcPyTSkaaNrd.5OL+7yUe9qRq2QJBgDe+9zgLVvbXMI8UvgmZVvEjfVz.ZKhCSNzm5ojjCd2FGqKAs7.Et..rfI.yEhx6XB6DHYmuiQ28z5XFYJYF2L2TtHLkwzkadAiBm+hDvwX4ge4omkGBbt77ve44O+2JcFd3oM+06VVuPR4+mYTxSCMvwrST9P4er7Dgiu51a8mkzTH2PgP1B3JCCl0J+Jl+KC+v0w6QSnxgRJ6MV4oa5xH+er++Hw9yqtSZUO3HFiupWlBWNU8N2F41xZVMM8ILe.MW9ae02z5+vOwu028hRS11u8OESt8e6sOHZCgncHI83iu1Wj6t5NWD+DxQzzWFI8nc2MscCQbn8CovFCpqO4Ll2F4Olz2FIZheajc8j.D1OlvShDITGyQdn9V0rusnxNbS0e4uqEspYjQs7p.KOygsbOgliW45DtgRUOEZaze0x0T2WnWyWTZaNAtwgKrANbx5DOXwRFhTTuSPBMkw4XZ3.wqZJ9QjXeHt3k6tnEG2yD4LkOSzruodlnYlr6pNd38VvqOj6p0y2CitL0Uh2leDM.xLSw3sfTwFD3nV8jlO0plfK5c6tAA88nvUSa1jl+7wiZAstTR7ZOPxcJuGMfRRLR29vxOFNuGIN8BISmuv4B+LCiLd8AXMbsU0CrechaWozrw9BREmnWP5RGuS+qIcEmgBkLe6IR+9XnL9p1oga6+8i2WEOT0UwbDR7hEGl8tLpBFWKUBrt4o+ZHyiqoZa6fNZ3yjEBa8bnmW9g5LFt5zZ3GMsFt1zZ3GOsF9fo0vOYZM7Se0FpNYP18hT4IvYnquc5gTsrzGNJMkA8O.8TM0o