Scriptnode clone: Control individual cloned parameters

modularsamples

Normally, parameters within a clone_child are modified as a group, using slider packs or clone_cables. Control over parameters within a specific child is limited. However, with some fancy switching it is possible to control parameters independently.

In the following example, the waveforms of four, cloned oscillators are being controlled independent of the other clones..

HiseSnippet 3028.3oc6ckrbaibFFTRs1F4YFOwYqxEjTolxtFaVDKjTrRUwTVK1LikDKSE4jSZf.ZJhQf.L.fRhYop7Vjq4AIGlGg7.jC4ZNkbImS96tAH.HIn.gjnnDA0EAzae8+F9++ZTj0ssTwNNV1b4V6ndcvb41.0nmoaqsaonaxUaGtb+Tz1Vlt1VFuplol9E5ZcULd01FVl3WcrhQWrC2a50QwwAqwkK2hukLrbqsDG8y+40uQwPwTEGbKNtiszUwuWustavcqW8q0ML1SQCejd6P8VtZMUKyssLr5BPbQTAtNJpmqbF9.ER2V.wka4c0zcsra3p3BXI2RuwRqWiVVWZx5+w5N5mZfIWHv0.lH1s2yxPifXxc41tktgVceQgCGWNT8.AyhLAyyP6qqo2+9ABnOm1.evHBKOxsPT3sXD3IDFdEBAuQ.obgfzRLH8TTCUa8NtAsPvymfpY5hsap.h8vPg0WtbeGUghMcy2V4b7d1vE8GvyKUnvK4kJT3E+hlcMUc0sL4sLOvxEen4yew5+g0Wa8+z57C1TylirMO6FCr8HalnosG2.etY21mhseI+ED6r9cD19Qkon3kogU4prccnNZYVyT28vNXy3LD37DUf7eMOTAKuKU5+EdR+FF5ZX65fcImNHneBJ3FBbTnCPL2Bvjoo3pvk6mfDJkOzGWsiLO7zMMy+U4YqGcQVjsHeZjEgt.qf9ZSqS6O0TWku6+97+wqS9fEiLXpiZxGrzfClaBfs73FbxErhAB1EGRv17qxO3mTsHRiaQXepr8McQju9Eg9Q5vavhTLXQ3F2hj2S7ww8qqsCoSPbCOO.vqnC11Um3vkaG7EPLbVPn0P6fcN20pCD4Yaq1cfGL.9K4VYBbRtJb.+dAW7yq1w2WrFLneHpwk5tpsLszvjGRgczcv1BbWpq41p+n3sq1BqeVqfmtT8apxMLxFimUL34edZUW7UtjHrebqi2cuC+v9BbIBgcTrgmWAwXqQWkOpbAlDsI4XRLDl9yMGOlDSMlDmHLIEmb5a91gvjTpwjzDgI43jSi.SxoFSxQvz5LL8DOL8dkSwFTHsJh9+gsm9qtQsuULzOyrMcZVFYfa5NfwbUqAMl4p4sQdAJHeLdUVLAdql7pjTyz36CaGNL7zRk9IYzD5ZC8eenPv4i3dr50rcDic6bPZ1N+VusyeAcTKcG.1fJfWC21xzw0l77c9lPte96JKGUHOQE3g+N7sTtP27LdWXFs4uDTKMsra63KJLfd6fIRAWrQuWxC51VVcc4sgqHCCRzfNm7jDJc3cs3IYCQlMdEsusqiKYa3jOhldsI34SgrCuHjPBLJSQLMtiFRt8KqFrZfg.9JVJLXShllluW5PdXuZ9+3TC4h2bjG12uZ2vFll2kHW5li7hwIyuaQtbDjOb4EPgMVZcodagq1gThmWCP55QJwfTGgoitauvYVdqUBTRg3SQ0IBoQiwEFAFgzbtKvnWgiOAsaylXU2..tDZueycSUhgW90OJRfbZY8zkONqn3qi+umz536j353Ona6.SRRQb4PP+7qQ8knIodvwRAfPJo.X4YNJ.d.3hFgkh07wXC81cLv6ZdA1.Jhfhwu.pZnoRWCW+6F07aeKSqNsrL0UCaw8Arqs9YmgsCi8Qtg1x0kDns+cdV0OfMvJN3vIe8dcSrhMHmvoTVHLwL1LR80OBwfKOwmg+gan0EmaBsNNQzpncuBxbUXFT64AMwoIz9.jzMju89JfqKj0AhD2GdHfJFfkoI1vwmbLuqK3SRQCroF8h+G7wqQAx047ZTvuw.R53N.6dok84TuOu+GhjS16+XDMc+Sz6WzzIWvnudKCCqKqaYzyOfCcCBENQLugJ9JjG9i0KR1c5dF9fnico+NYq1VcI48w1NuSw4HEcCRFG4V3.ZLlk2SQEjo8pqPRV6oHRkJfpAamWsuJJdXFnynxbPWTOnDOJlIqh+iXYxP.frpwHDkuHochjYIO3PVuUP0qcz1uiKBzdFxqHp7LvPJQZf0u+LK3e7.zRm5PhNPpBMtp1xu9Hfo+ShAQ0RAgVNRw9LrqiGGTlXUlXmJLIICuAJXd4pGtJ8MP6Yi+c7efLMrB3LvW4ymU3rNhbIGI2PuTiKvsKjpgFfpcFfqrc93g+phMNcSyKN7c65pQ3JKjd.li9WA6t80MO1i3Mj.XDsuxUdWuLYBA0nKtCqXbVGX72C9HzCXwgq+nkgF4BM0KEdpKDYpCloUPraEoAtPL4wwwLEPjduFpwGI1BBbwZm5zw.x1KFKgpHJn42lTSgCuhMluKzKRo0NvCeUc4urkNXcna1ApC205ryLv7PI+vhoeAFxiaXCigrYQr7aXC9D1zJLwFuWiixDXC9YH5t4DFfDiZFtBpFowzXAxhxMZaPF81TlmojB27QjM3.pVw6QU6mGQ0JHeqoaIjcDWzkQblBON0rRyNZVoaQMqzX0rCbPNON0rxyNZVwaQMq70qYCN8rGJZ10Vp2+5KEV8u8uecTsaX7Ol7ELsNostldTE92KT9B9cXhz28eletPK1pnFuaq561Hk4l7yPM.6FZJp9mT.jgpMOVARHgZXl3rO.jzRgvWQDj78GvLWkdfKS19NrflRd.4pdDivcHlGThJ7Tbqf1S+JXdiZos3Lnk1VccsZCEQ5Sz1jOOuUocaEtHcj6VJCsUYfTLhcsmBVLSA+fPAO97zFmFVZ9QCW7QjFVJ4ZX4Le3GhZ3XiRGedIw1xP5nMP0bNlzpphgOfysfmwyJLiGp4wX3AgkwvvLx4oTRMCcSLvojtNprT9Tu8vIpDFY4tFlGi2EXCjr3lkqHVVVVd7zIFgCIwIKOsIj4ROWbJ12L86swsRKDZkFLEhHK3OneLkvcZBW0j6orLRQSayAqqgYMjv3LixIdTgY7KW5lFbvy8UXfnCobZDGFOwTehmnJh1ZcDLxV4gFlLMzBQDs4t0hydGDByyOjZ7KHb26cLT9W2mtGqPz4vtNy+358O7kUy0NHEl5NHRy.NHExbPRrCRg4SGDuzqpL08OlAxupRl6QRyupxbj2w0wJt2KTQGrx4C7T0OALhsw4IsLQxka6WLBO9IF7.P1QGJJSo2a51romBHxcfq8NFjkPuRfKoxAUCrhcT4vFLyCVKoTPbKYpLfyRL6hHhxghDBpzPMmx8yh2dJibKmzXRxwDSxy.YLgjVNXZWFIFcdWCtA7Ixb+LXsEJv9HHWoffPIAtFmiujIMYcPTrRkBxEKIJJIuY4MK5QyE4s3oK1TsW.iZhhCFbKcbnE4UDZLa2TEYeYzagYaviOchMTq2h7BqdyhpuL8cA1eRHxZIgxEkjJUQPtPIQ4JUtCyg3yhPBkzTiEpUQTRlJe2SBkWYDhS8xHDmAJiPLqLhDWFgXg455rEm5DQINCPDkXFQTI2AY9lHJQwotCRwY.GDwLGjD6fHNe6fHM0cPJMC3fHk4fjXGDoLtnFEWTEuO4h5IgHPQ5diLpUYjQI8.mMpnByL5nxniJiNpTSGk3zlNpRSM5nDJM0O0tJy.mpcorbkR7oZWZ9909n7TuXhBy.NHkybPRrCR44aGjMm5NHBy.NHYuXsI2AYN+Mqcp+hQIJNC3fj8lQkbGjrWMpQRGk7rBcTh22zQI9HhNJwL5nxniJiNpzSGkvzlNJ4oGcTS8y1VXF3rsExNa6jmqz78YaKL0OaagYfy1VH6rsStChz7sCh7T2Ao7LfChblCRhcPjmucPJN0cP1bFvAoXlCRhcPJlQG0nniRbVgNJg6a5nDdDQGkPFcTYzQkQG0DEnLoeQkR9tPM0esjMVUjXLpnmfZPXjpg9YlAnm08n6fkBKwY5E1u0dWmzOrHuXYoxBxEqToTgJRkkiD6N9P48+ZA8ZxHIBvDSJvXWLQHQbhPhzcHRjlHjHeGhjXKnJEtNuwx571JzeqIR0uVlSkeYLZqnZachWl4jM2pz6.Nwlze.kWCsO4Z9fenZoRbxWZumnp5+XqQOFwTLFoTLF4TLlhoXLkRwXJmhwr4XGC4GRJuGwQLggaTeW123z41MzuVa+eB.9bUB

I've tried to keep the example pretty simple, but this method really opens up when you start modulating things.

modularsamples

As above, but with an envelope controlling the gain of each clone separately. Sounds slightly more interesting:

HiseSnippet 4218.3oc6cs0aiabElx1ius1I6lr8BPu.hh9PBxFAN7pDJPi85KYcS7ZiUN619jCszHKFSQpRRYutW9cTj2BPeu.8s9X9AjGReo80Vf12y+f1YHojHkDkGx0hh1ZT.BVdY37Mm47clybNGRericcjqqsCWo0N45NHtRa.pcskWqcZoaXwcvtbkVGT2z1Bgrtj6oW2Q20E0fqToE+Xx0Ks1Rb9+9tO5o5l5V0QCNEG2KsMpi9Ti1FdCN6wa8IFll6q2.chQ6H2s7VGT21ZGaS6tXrrHPfqid8KzOG8bcxss.fqzx60vvy1olmtGxkqzRO0tw00ZYekUv8+RCWiyLQjCfb0vOnfSuusYCBhImkamVFlMNt2X1kiqD33ARfECj.OFbnQCi9mefj3g9WfePKhJOJsPb3sXL3AiBOgHvaLPpTDHsT.jdDnVcGiNdCtBAOO.bfkGxooNVrGEJA2KWouFriM9Fr7J2V+Bz9N3C52f2SUP3I7RBBu+unYWq5dF1V71VO21Ccj0689q+6Wes0+iqyO7kZ1brWizMN1llHmwdYxLsyjZ36Y0s8YHmmveotYWT+aDO7iKSAIKSiNkWOXTG4FssNvxv6nNHqjTD3BEUX4+lgnB28d9R+2IT5WyznAx4XrdImAVPuIXvIfb9PGCwRKheXMz8z4J8i.P0xmHor8GrqWiSTLd5qNp0Qk8+Eze9cxhAcxaEqS76fU.ehk8Y8ez9TkOuYy+wGQeiEi03u5K+x+cJZrTrFy+W93+dJZrbrF+0ey27ehzX5ErwG.3eqtUDgK9WyOn7v+3xRGIcScTvup67l1QxC2Qbisi7+IczaPGojhNpbnnLE5ki73+tTncnFWo9u8S+uonwZw64+4e9aSQiqLhTgi6yNXWhfAa6LzJ.1xPGjimAwnSocQWhWGKvP7ZfcQtW3Y2gqzauic6N3EFw1LJsRJLT75AcsvVWO3fe9Vc5YO5.bi9AfZWY3UukkcCDYEYjqgKxAxckQCuV8aEuyVsPFm2ZvJra84awMJxlf0kDvy+5rs7Pu1irJyq19k6s+Qu3PHGUHritCdMa75LG32KuR+RDwhK8XRLJlZNYLIlYLIlJLIkjb5y+hQvjTlwjTpvjbRxowfI4LiI4XXZ8.LsYHl9T8yPl9PZUf++Np9zW4EW+V2z3bq19OlkAlnldCoLuk8vJybGDNPderqNMLtznQWcS95Abcd6l79tl1fuOrc4PXOFz66nUS7sVy32EgtWNF8X0aX3Hl3v44YY37aBGN+IvIsLbwvFOEv2.011x0yg3iCeSr+u8FU1t0w9Jqic.xkuk9kFVmy6gehN7WgmVZZ6z1smnvDe2tHhTvCYd8S3wyssr65w6fOhzLryV9OSdhS0t7d17DOBIOMd8FeQWWOxvvs73looZM5H5g6FQH8UcxhMMtSFQt8K2ZPugUDPuNvMNjEYltQvT8kQcvNaCDoYy.Q7VefHOaFHR25CDkYy.QlxAxJ2nORCf+29Gh.+s5YgdMv1mbx167IYw97x.cuKjSEfTiZOycR.RJq.JcqgokjD5qOaH.IlU.ktE5qjjDZD.AyJfvdCM5V7eH3P6Fc8s1GMhCjvrDdA7VlisMexd4sbM7tNpK32ZggfVH9HvwjQ83w3BiAiX2rmFXLL3MaB1qYSTcuA.bIv9+5oSjZh18qeRLGI7igle2mjZQxwR6aoMVZcnNVZOua6AV4HARoD.ee8hSzS.oIlLSLLbvLFFtkKbgg6N.EMVjBWqGFqYztiIZOqKQl3Mw5iw2Auq0l5cM85c13peGZaY2okskQ8nZbu.44Xb94HmnXerCns87HqcGqslHc2Apj+3+5VepgER2AKmPYTV.ScTSG670ODD.WdBmg+MYdaI5l2lrl+shY1EmaLyNIQzpf8dMdWTvB3hjgPSLOg1Kva.Du2uC0wzXrKM.xZ.3EDpivvxxBY5uLvBjHeGbr.4XBHpgrZ3ev+C+K7hPxwkBuHr2EGDzbtmi7tx14BelX3+FaUmL1+IA4O5Ti9af+T+kTbO8vi1kaaSS6qN1175dFf7Gj3MxSTwwtjITF+eA2EwINiPker3K3vdilsaa2k3dWvP5Y5tmnaXR7.ACGeaNKuudcrb85i0I6G3Q.xNmwSOHmx06OMMYnNXtyW1imSNdPXG7wMom5srafrDCxfHDPRf0hjqSjPqD.I.oOWAb7Amryy3hAuGCB2Xe4..Q119P8e+mLDDths+146PrRPhLRRQRn75iAlkVZfgkSzcNG44FFMTKT8.A9BjVQbgcCvfmF2wQctcCv9NneK+KHOl.etMQutWjUi5+QrC4HdIFtuKAt8vNcz.aub2ghT8tu5nekRsypXc4QOaOuFjHUGQ5ieF8OBOlNzv5kgoiA.wpOGp+5viWl7.wSddnNAgEJ3FBxlFlgrCQd4x0u0x3KxE4QuTzGsPrG8fmzJffSE6BbQhoLGWDEf0.0dEQC.xknFpaGSreeIL+uEvGz76P1vpKutChuK9tHA4wEuLbcO9qZYf0ILr5z0Ce1yO2DwafuQ7D6kHrGciQcnul5RQ.5CAAM9zfGKL0pr2.8Xr5fKLVcv2F3OZNM.PhwUCWAb.4h9oxXzl9VwZZhsL85tvDzcGaBptmn6NjJg3LTk3gwlWgxoQmHt5j1snRgXhFzFSxDuepTHUbTJjxtRg5snRgzDUJFJwu2OUJjKNJEhYWoP4VToP9lUJFjj96xJEQwdhpKq.B74IUtDQq62QcpYCPDMtaacR50CJEpGrD3Cg4yzKbJM8NFdXzI1MiHukXB77UfKxD34q.GxD3SIANUqhrFvx9z1FMLhOM7tQVGo2MjsURJEoyVET6Yae7d0x313+YfZ3QleLb5UdG73+GORGu2ce0Ep2nNFIszIA4OFR9dCo7U2uJYR23Npf1Oh6jitl3FytD0E+n6GNQtBXeiWietw07Vr.5qx1c8raq60OF8o+47w5saqyE6F4nOfZSLXFqF.RwX50gSvhrI36DSvSNzDSZFVZ9YFV4dzLrD8yvxLN7cwY3DsRmreIIdkQli1.bf6KIWsttYO.WZg3JO99R.m96OdUfe5wD4tgzmksdZgH8zC.t9Utvo5NC60LJrrEJO3NRU+Aln39sIJqQlc5oh3mIQtfp2IRLkhdh3pKIq8zaOAAz4gBZTP+wMwm6vgTZWC7Dr90OsaylAb13mYPfk789OdjkvRj378khPlVNYxzZX9tffPLJ+iw2CTH3GTtp.DpB4pcA5pfYvfaPR.JHgugpUqHWUS.FlR7vxFYBL6I.lUAvaOrrFnWAqD9zeWfJL7gUUnJDVshTLfAtISNiyn3xXSPdngr.kV6XaFJ11oqykna1Z131XZfR3byxNvaokcvlCx6EclTtJoXImLsvhu4bkou49MFXtW5dm892JJUShYvuvavu+S+NuU9gT8Xl4K9l4mX4GLUsyKmq14EueamWjYmmYme1XmWjYm+Nmcd0bzNuTtZmGd+1NOjYmmYme1XmGxryemyNuxTyN+MUCDqDtB.QxNgTEDTbAi91sDNij421kTOj7eQlFJIDKGgC.OsN4sbJ6qksAPVrhVUQMYY4wLjDn300o2aqgXtk5kJS+0tGtBDh0ge+9FYhELxz0qzSdVFn2nQkDVhkNCOzZZuW859llawPJM7MbQh9VFFAOITdSghpXyVqCvsrUY7ER2LzBwDskt0RS6zJCnqEPNfvoO6Xjx2XVROVgLmCgL9AE7idxp4ZBhPtSPjJ.DDAFAgZBhv7IAIz8pp4N+n.3eUUF8fV+qpNGwNn7UypCRe32rgGfUhcPkIW4V381Kse3ABCSQpiwVxuhDSXzW2DMbEpsQfRQvUlEpECQLR.6gUMXNr00UBrsN8MsNTExLKMrBHVKX1UovtZfjZd1oCs7NlNZydeNjXbCZ84PZtlbnl2jC0YO4PjQNnkbHNWSNf4M4PY1SNXQ6jZxAjsa0gkJ96IM22r5Jfy8qi9g1mp+W527Xepw1r7HlLvi9HWNcj2aOvWZYZ4rxIVbF9a7mtJPYYf3v0CinPlpAEQwpUEjUTEEkjqnUQIrJFHe8C6hrpe8fBlPTbhEgB0kHQrOshSX3dqThKYrzKNtUjBvIiV8BYHgm+cv2mhTEEEUnBVTKooLo.yb9nu3JgL8yS8BiKj3ZKQTnVEqQKL7HIkpSuKPorrnnnlfllbEYnjP0nBhBPsU8.Ps111dsLrNevqGmhZkxUHOqJxZJZUDTRBZSSYzFfWfbQdwBA1iAenXkxX9IdLTUBpTQUSd53U1xA9JEsxTjloklx589PhlCuVvgYWTSMuydhl3rO6hZrcqQc1E0DmqS+tlVtSPJ.oeWiEqO5IHRy2DjJ4NAo.T.WZxLBB0DD44aBRtWfJZJE.BhBifPMAQgEzugKzA+RToR9G1uMiD1spyrhTY0fhTo5cxpTYsvusU42tXqj60HqlZAvDqJyDK0lXUmq8AoRt+VVnoU.HHZLBB0DDs4aBhXtSPpT.HHrWSO5IHy2umdUjxcBR0B.Ag8dVPOAg8hVL9cwVcVU7JUlYEuR7cQypdEV0qLeT8JUXUuBq5UlYUuhXwn5UDxs39ol64dTs.j6QUVtGo1oT046bOpl64dTs.j6QUVtGomfnLemb9bOyQpEfLGoxxbD8Dj46LGok6YNRs.j4HUVlinmfnwh62Xi6m5rs5UpLqqdkJ2oqdk7aWrZ4dtGUK.4dTkk6Q5MwNem6QsbO2ipEfbOpxx8H8Djpy2DD4bO47BEfjyy9FgRex4EluIHJ4NAAV.HHru6JzSPXe3UF+tX0lUUuhVgn5UpvpdEV0qLmT8JZrpWgU8JyrpWAVH9yBT07q3Ux8TOpT.R8nBK0iT6Spx7cpGUy8TOpT.R8nBK0izSPlueo0Ty8DGoT.RbjBKwQzSPluSbjZtm3HkBPhiTXINhdBB6kVa7g8Sd1V7JZy5hWQ6t7effxwMwl6YdTs.j4QUVlGoO07y2YdTM2y7nZAHyiprLOROAY99uusp49WfZ0BvWfZU1WfZ5IHy2eApUy8u.0pEfu.0pru.0zSPjXahcrahUYVU6JpEhZWQiU6JrZWYNo1UTY0tBq1Ul10tRLciEniauHPdrbuG.dd216Pp+EWtXl6nlUKl.qdSPMRP9pYbt0.zGb6ixajumwa5qn9gP4xU80FzjjjEfREENT3pQEDZS+9KYpRoUiZLOP04U5Whc18lLr2mZhkNJZRZPYkpUUEpJgolQ8eJY2oVETqkdGzMFNoX.SjVfEbPpPhXpPhzTDIRoBIxSQjHSIRVFn6cAbZ.jG.bMHNmdptSbrrJXaOO85Wj.XnVS4Q3KpVURTUUU.h8+SgRfsw.fIkJjkBMGApESQPiXpPibZn5ZRPMAInnRnIpzCNXhfKCKZ+YGzaGK3t0CufUjGBdOKnKMpiN45N9aKXWj6Ed1c33dgcWOrM6C08bLvaggrVcM7Re0Q6zRGicSWxhfKPVDL3XgdKJVCY0v+f+G9W3EgjiKEdQXuKx0Vuti8oggVw2Nq+YvqdZgG6D3bH4XdH2kQk7sMZXbZ8581W03aiXFZiTFZibFZiRFZiZFZiVFZSkI1lCwGF5XNQ2Eehi2yW4pTo8rzOyj3qToE49+fC7zWW

Sounding perhaps a bit too interesting, this one does something the documentation says is impossible. Using a similar method, It passes a signal between different clones.

HiseSnippet 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shY346fsNyb.Guj1P70i8zgoR.9oFMG5blqk8I6N0Yk9M1uvaA00QRp3osQluIaDL2kUIrovCE2DWwdmL7m0nN+xtGDjSTdpMHnl8axHFu7wXylqNECHSSAf0kVbPFjAfrfmZOcgnoVByv4Bl0rCUFFwdXFrffYp5xJ5ZKNLCw.XVPkaQeE.kImKTVyNdaXH6QYfhZEiPUx+t3nLLyPYZq.nLXtPYPdLIRJlDSStt0LKBheP8MxpAwNAwQX5JdWMIRBgc4Xh90tLhnjiUT0nuk.8nuIQWmxE5JhO7rdtVC5cw3wgaQtoXjrBRVECAZpXcc8bbgEEuCAjm+Zz2bJJaWU7ACM+Sa+DuqS5Jr3WfYdXGAsM43YT2UbXtVaRanqwoD55vJT2bLDhPq0enHjbc8+.00jfHHLxMYGxQIehci7rF.AsPxyER.PAHbzqLecv.ZvI.g55RXYEHDg0T0jCqV+dZoyLs6book2sGtql20BIAA5xxxoW69olV.hYNLmwgbsy.aJ9YjqV5zM.kn0CO0Xj4Btq.dhh0kKe4ljySQC.gZx.xHu77dPbPvFWJwhbs3AJ1ekiKiEVtLJ1qL3kHJLPvvkeffC6SKok02J1DqgqWejoc2ootjoVRu+oT6i.7Rv+KHd4qntdTEEnHzTU9vHtDlkPkwJJXQnnp7AhZInnTXrhBUHy8U0ikAq7J12+Ob8w0PVUdsOY1EpDFrfSxrM8Zo5zYDeD1l3jhzzCLYzofOTTdWLDBUkTUwZX.RROgkvN65f2Lcky1hfb4aBRBPb1PRRWWCqqJAB8M4n9NNtmRPqBW5fAbNRyxbP4phOwbjo6x2haF6J3JlcEcNAysrVlVV2HFqrgXNsrIyVZYKb47HlmclJRbhCobHVG0bsSHpM6BcLh4TylBfCPJI.RtxtL0lc1kgXdw+QgS8TkE.IW4ElZyNuvPLu3+nv4tvxBfjqT5RUlmrIIwNaJqLryFNWrylrbovNaPFT4.uxXhOl4E9IkJPAXPk+5yR8aGnZC80m8RDByq7SJUfJvfJ+8mkdDhZCGgnvbDREnDLnxK+rziPzZ3HDlWlqTp.0fAUd8mkdDBmfvS78c.UB0fgOX5W+n5b4C7xofzXV8CDpwP+WYd4eRoBT5603EtXpmYUSpYu1CH6yvfJPsuWiW4hoGg.Z3HDlmhApUfheuFmqwoGg.a3HDlmiApUfpeuFhiPnFgf39uln+qpU.+WQq.9uBQry+Uc14+Jj46+pZEfzw03E.e5mYE2vW6Ay2+U0J.qiqwq.9ziPja3HDlu+qpUfb3QimCOziPZ34vCj46+pZEHGdz34vC8HDdMvOY+W0p.9uhWE7ekc6+57dmRKb+WY99upVAx8KMdteQ+LqM7b+h8ug2pUfb+Rim6WziPza3HD1u+qUfb3QmmCOTiPza34vC6eGuUq.4viNOGdnGgvYe7j8eUuB3+pbM1+0vBrGpVV60uQLVbCwLZbaLQpCYFOtIqr7okiDxK9lGStE7lwqV+4kC8bUMpza3YBGBUB3rlKYtAWAHyM8bUUqzQMbfFtD.Z3FHctEBz.q..sbUcrza34WERtD.ZxMPFcKDnAWA.Z4pJaoyqxVISy7n5OktImSJcSt9RoaxbJcqLnzM7hRoaXNktwozslJktERqXJKeNcabwWEW8Y0swhpLyn0MUlEWXDCH2naDitvfblcKm1eprVUg3T6VNUUZrVUg4j6VNUU5rVUIyo2shld2T4z6VRz6lJmd23jv0Rfd2z3z6F2xZoRuaPlSua3Rgd2XQUWLdhaB3z6VIw8H.k7rqH.kFM47v952IPiCPJI.hZt.HpMZ.B6Kem.cN.oj.HZ4Bfn0rAHL+sGCxWhUYAPzyE.gWa8Sjd2vqLz6FJez6lT4PuaHls6eJLu1oAp.0sUH+Mqk52aPnTidwC5LuzoAqB.D9KVK8.DPyFfv7JmFrBTeZg7ZiO8.DXyFfv7H7Cq.kmVHuz3SO.gWZ7StzL.YeoY38m5EQRqFWYFFOAjN6JL9X1UXAkXdbuwUfhBkLunFS87pxM7hZrDyC7MtBTTnj4E0X5QHMbhIWh4kMM4J.wtIyKNsziPZ3EmVIDyQHUf3eJyKNsziP3adZxduhJeuW0WApK9RX149pLCcek467pbEHt4J7cdk5IVUZ30zXIlu0qxUf.mqv25U5QHMbdIWh468pbEfW2T368J8HjFd0XUh4a9pbEfW2T3a9J8HD9lulr6q3JPcwWZUv+UFt8qJry+U.y29U4J.utov4kb5mYsgW2bALe6Wkq.75lBmWxoGgzv4kb.6290JPJ7nvSgG5QHM7T3Av9sesBjBOJ7T3gdDBmWxS1+U4Jf+qf5OutAWA30MHy40M.630MvxmcNlMo3apz5lb8maNTxUMDQoYWCQjgrGko2XI0M.dE.lkqJQhhdyFlUFjmnTikS2.q.rTppTdvYpM6pZgbYvchfFKktAzVAvYfbgy3rNehQm.nW+ozMbNozMb8kR2vbJcqLnzMzhRoaHNktwozsFNktgYFktAg0FJcChXFktIyrPBCY.ktc8nLZjFmQ2xo4mJi0T5bBcKmZJlSnaRbBcKmpJlSna.NgtUzD5lBmP2RhP2j4D5Fm1sVBD5lBmP23VVKUBcCvbBcCUND5FCxo4aDKiMQbxFojHaDXtHajlc4Pl8YzLPlCPJI.BJW.DTyFffYN.QgCPJI.BNW.DbyFfvdNKRkCPJI.hbt.Hx7rNII9bCtxvmavbwmaX4RgO2.raq+T.r16yxsfPsoGbmWSFn4sELbnpIuxAElGaFsxGcvqGCTiNja1nCDqQG5kO5fWKFnFcnzrQGXViNjKezAuNLPM5fWFFR7Ec.JW9UAeb8mC2z.rqHBJwLuU0Xd8eBUApgfx75WL8jKRydyR0X9lkhp.kPPYd4Kld.RydyR0X9lkhpBj.JOhmzCPZ1g7Ti4aVJpJvAn7fdRO.guYoI64pd464p7JfmqJryyU1U08zXNy6fq.DGKhGsbpmVE0rCWtFyIdGbEf2XQ7.lSO.QsYCPzYN.oBv+mHN0iSO.oYWxU0YNACgq.z+Ihy73zCP3LOdxk9dox2yUk5umq5LbOWgLyyUclumq3J.mwh47NN0Sqha10FWclumq3J.kwh4zNN8.DPyFfv78bEWAxZGLOqcnGfzryZGclumq3JPV6f4YsC8.DNoimrmqfx2yU05OmsAVA3rM.y4rM1k2yXE1ylT3FKmsgp+juANW0IDbyN02vprGkI2b4rMvJ.LKWUaDby90FFqwdXlRykx1fq.vLkbAyZ1ITEVm8vL0lKissJrnQ0bAy3uHyIyXaJ0eFaCkSFaCUeYrMDmw1JCFaCtnL1FjyXabFaqgyXafkOisscvhKQUeBaKTRwLiu1PK+vAG1mjYLIfg4z0VNYVJVqoj4z0VNqQzrlBDU3r0VN0TrlBDU4j0VQSVaxbxZKIxZCwIqMNkZsDHqMLmr13VVE8bYQrFlqa8hs1fb2Rxw62S7Qm0+ddT91nw2ic7NWxmatG0t0CSws9qIdjmWWGYch8j9PvoWnPrM8gXqlybeKwOEprqt2GMc.DBjgxb3VRvMxHEhb4BFojI+ultxbPestUzkpDLS8yMN2DH7tV1RzP3pof0jPXEEUcEMhu0QiyZ5gccawiN0Xf46782HlfAoUv7BZEPQEnnq6EZY4rITvLITHZEpOzSnHZEMI.TQWFAfYTtPYRtvYQKBzjwdAGAnfkTfX8rIX32sfsYPr5OteTiqwSzJDM3vg+12d6IfjImWTjwjybllRmzes.p97EcLdYOyLzEfUmtvMh1E.xYnSfppchrXLgqpcBTF5DxU0NALCcBkpZm.PYmXCw9pU09fTFTDZUmNw0i1IzyPePuh1GznrOro2y4jpncB0rzI.UzNgRV5DvJZmPNKcBTEsSfyRm.WQ6DnrzIjqncBXV5DJUzNAfhj8h13ibWGmW02X3q7768Gbv3rngHCtl1tQtfsZceyys5X9zKF3mcJ22bzqbcFHH7jf8X4gFtCsdC4QSO5r9G4b1vNl26TCRGo2HuvmrlW3SB9tz3vobjocW+u7qHeBOHv66sBOHX7AE5azYnyKByuKuN219+hPq0sICCdhyC89dafv4Q8kquUWqWzoy3b8I41.yQaP4nM3bzF4bzFkbzF0bzFs41lGR9ZXve8LjI+vg66ab0p091d1vD61VqK7+CjQAP1B