Clever, but you have to do a repetitive error-prone lengthy clicky process either on the send side or on the receive side. Since in my case i have four 16-tracks sends to a 64 by 16 matrix (3rd order ambisonics monitoring), i mitigated the issue by making an abstraction containing 16 settable sends, taking a float as an argument for the first send number. On the other side, i still had to make 64 unique receives...
Le ven. 5 juin 2020 à 20:23, Dan Wilcox <[email protected]> a écrit : > Your abstraction can have a named [send~] which you can receive into your > matrix. Use the $1 id assigned by clone to differentiate the sends, ie. > > In abstraction: > > | > [send~ out$1] > > For matrix: > > [receive~ out1] [receive~ out2] [receive~ out3] > | | | > [matrix - - ...] > > etc > > In this way, the [clone] itself has no outputs, but you have all of the > outputs via [send~]. I use this approach very often. > > On Jun 5, 2020, at 7:49 PM, [email protected] wrote: > > Message: 5 > Date: Fri, 5 Jun 2020 19:20:36 +0200 > From: baptiste chatel <[email protected]> > To: Pd-List <[email protected]> > Subject: [PD] [clone] with individual signal inlets/outlets exposed ? > Message-ID: > <cabrnplyvghrrv-+9wdj2p8nnzenqdwegg-to7yfhejw5l1e...@mail.gmail.com> > Content-Type: text/plain; charset="utf-8" > > Would it be possible to have a [clone] option that allows clones individual > signal inlets/outlets to be exposed ? > > An example : i need to make 64 of the following patch : > [receive~ thing-$1] > | > [outlet~] > that should go to a matrix, $1 in [1:64]. > > [clone] is useless because it will sum all outputs and expose only one, > since the cloned patch has one output. > > I could do it with dynamic patching, but as practical as it could be, it is > pretty convoluted to use for such a simple need. > > > Baptiste > > > -------- > Dan Wilcox > @danomatika <http://twitter.com/danomatika> > danomatika.com > robotcowboy.com > > > >
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