rsc3/doc-schelp/HelpSource/Classes/Synth.scrbl

500 lines
15 KiB
Text
Raw Normal View History

2022-08-24 13:53:18 +00:00
#lang scribble/manual
@(require (for-label racket))
@title{Synth}
Client-side representation of a synth node on the server@section{categories}
Server>Nodes, Server>Abstractions
@section{related}
Classes/Node, Classes/SynthDef
@section{description}
A Synth is the client-side representation of a synth node on the server. A Synth represents a single sound producing unit. What it does is defined in a link::Classes/SynthDef::, which specifies what link::Classes/UGen::s are used and how they are patched together.
It also specifies what inputs and outputs the Synth will have. A SynthDef is thus a kind of fixed pattern, upon which Synths are be based. (Despite this, a given SynthDef can provide a surprising amount of variation.) For more detail on SynthDefs, their construction, and how to send them to a server, see the link::Classes/SynthDef:: help file.
For more on the important distinction between client objects and server nodes, see link::Guides/ClientVsServer::. For information on creating nodes without using objects, see link::Guides/NodeMessaging::.
@section{subsection}
Order of Execution
Order of execution is a crucial issue when creating Synths which interact with each other.
@racketblock[
sound -> filter
::
If a sound is to be passed through a filter, the synth that does the filtering must be later in the order of execution than the synth which is its input. The computer must calculate a buffer's worth of sound, and then the computer moves on to calculate a buffer's worth of the filtered version of that sound.
The actual interconnection between synth nodes is accomplished with buses. See link::Classes/Bus:: and link::Reference/Server-Architecture:: for details.
See the link::Guides/Order-of-execution:: help file for a more detailed discussion of this important topic.
]
@section{subsection}
Bundling
Some of the methods below have two versions: a regular one which sends its corresponding message to the server immediately, and one which returns the message in an link::Classes/Array:: so that it can be added to a bundle.
It is also possible to capture the messages generated by the regular methods using Server's automated bundling capabilities. See link::Classes/Server:: and link::Guides/Bundled-Messages:: for more details.
@section{classmethods}
Synth is a subclass of Node, and thus many of its most useful and important methods are documented in the link::Classes/Node:: help file.
@section{private}
stop, play, sampleRate
@section{subsection}
Creation with Immediate Instantiation on the Server
@section{method}
new
Create and return a new Synth object, and immediately start the corresponding synth node on the server.
@section{argument}
defName
A String or Symbol specifying the name of the SynthDef to use in creating the Synth.
@section{argument}
args
An optional link::Classes/Array:: specifying initial values for the link::Classes/SynthDef::'s arguments (controls). These are specified in pairs of control name or index and value. If names are used they can be specified with either link::Classes/String::s or link::Classes/Symbol::s. e.g.
@racketblock[ [\frequency, 440, \amplitude, 1, ...] ::.
Values that are arrays are sent using OSC array type-tags ($[ and $]). These values will be assigned to subsequent controls.
]
@section{argument}
target
A target for this Synth. If target is not a link::Classes/Group:: or Synth, it will be converted as follows: If it is a link::Classes/Server::, it will be converted to the link::Reference/default_group:: of that server. If it is nil, to the default_group of the default Server. If it is an integer, it is created relative to a group with that id.
@section{argument}
addAction
one of the following Symbols:
@section{definitionlist}
## \addToHead || (the default) add at the head of the group specified by target
## \addToTail || add at the tail of the group specified by target
## \addAfter || add immediately after target in its server's node order
## \addBefore || add immediately before target in its server's node order
## \addReplace || replace target and take its place in its server's node order
::
Note: A Synth is not a valid target for \addToHead and \addToTail.
@section{discussion}
@racketblock[
s.boot;
// create a Synth at the head of the default Server's default group
// based on the SynthDef "default"
x = Synth.new("default");
s.queryAllNodes; // note the default group (ID 1)
x.free;
// Using an arrayed control
// run this block first to make the SynthDef
(
SynthDef("help-synth", {| freq = #[440, 450, 460], out = 0 |
Out.ar(out, Mix(SinOsc.ar(freq, 0, 0.1)));
}).add;
)
// then this a short while later
x = Synth("help-synth", [freq: [500,501,510] ]);
x = Synth("help-synth", [freq: [500,501,510] ]);
x.set(\freq, [1,2,3] * 400 + [1,2,3], \out, 1);
x.set(\freq, [3] * 400 + [1,2,3], \out, 1);
x.free;
::
]
@section{method}
newPaused
As
@racketblock[new:: above, but creates a node which is paused. This can be started by calling ]
@racketblock[run:: on it.
]
@racketblock[
s.boot;
x = Synth.newPaused("default");
s.queryAllNodes; // see I'm here
x.run; // true is the default
x.run(false); // pause me again
x.free;
::
]
@section{method}
grain
A convenience method which will create a synth node with an node ID of -1. Such a node cannot be messaged after creation. As such this method does not create an object, and returns nil. For details of its arguments see
@racketblock[new:: above.
]
@section{returns}
nil
@section{subsection}
Convenience methods for add actions
The following convenience methods correspond to the add actions of
@racketblock[Synth.new:: :
]
@section{method}
after
Create and return a Synth and add it immediately after aNode.
@section{method}
before
Create and return a Synth and add it immediately before aNode.
@section{method}
head
Create and return a Synth. If
@racketblock[aGroup:: is a link::Classes/Group:: add it at the head of that group. If it is a link::Classes/Server::, add it at the head of the link::Reference/default_group:: of that server. If it is nil, add it at the head of the default_group of the default server. If it is an integer, it is created relative to a group with that id.
]
@section{method}
tail
Create and return a Synth. If
@racketblock[aGroup:: is a link::Classes/Group:: add it at the tail of that group. If it is a link::Classes/Server::, add it at the tail of the link::Reference/default_group:: of that server. If it is nil, add it at the tail of the default_group of the the default server. If it is an integer, it is created relative to a group with that id.
]
@section{method}
replace
Create and return a Synth and use it to replace
@racketblock[nodeToReplace::, taking its place in its server's node order.
]
@section{subsection}
Creation without Instantiation on the Server
For use in message bundles it is also possible to create a Synth object in the client app without immediately creating a synth node on the server. Once done one can call methods which create messages to add to a bundle, which when sent to the server will instantiate the synth.
@section{method}
basicNew
Create and return a Synth object without creating a synth node on the server.
@section{argument}
defName
A String or Symbol specifying the name of the SynthDef to use in creating the Synth.
@section{argument}
server
An optional instance of Server. If nil this will default to the default Server.
@section{argument}
nodeID
An optional node ID number. If not supplied one will be generated by the Server's NodeIDAllocator. Normally you should not need to supply an ID.
@section{discussion}
@racketblock[
s.boot;
x = Synth.basicNew("default", s); // Create without sending
s.sendBundle(nil, x.newMsg;); // Now send a message; create at the head of s' default group
s.queryAllNodes;
x.free;
::
After creation, use instance methods ]
@racketblock[newMsg, addToHeadMsg, addToTailMsg, addBeforeMsg, addAfterMsg, addReplaceMsg:: to instantiate this synth on the server. See link::#instancemethods#Instance Methods:: below.
]
@section{instancemethods}
Synth is a subclass of Node, and thus many of its most useful and important methods are documented in the link::Classes/Node:: help file.
@section{private}
prepareForProxySynthDef, play
@section{method}
defName
@section{Returns}
the name of this Synth's SynthDef.
@section{subsection}
Creation without Instantiation on the Server
Use class method
@racketblock[basicNew:: to create a Synth without instantiating it on the server. Then use the following instance methods:
]
@section{method}
newMsg
See *new above for details of addActions and args.
@section{Returns}
a message of the type s_new which can be bundled. When sent to the server this message will instantiate this synth. If target is nil, it will default to the default_group of the Server specified in *basicNew when this Synth was created. The default addAction is \addToHead.
@section{method}
addToHeadMsg
See *new above for details on args.
@section{Returns}
a message of the type s_new which can be bundled. When sent to the server this message will instantiate this synth. If aGroup is a Group it will be added at the head of that group. If it is nil, it will be added at the head of the default_group of this Synth's server (as specified when *basicNew was called).
@section{method}
addToTailMsg
See *new above for details on args.
@section{Returns}
a message of the type s_new which can be bundled. When sent to the server this message will instantiate this synth. If aGroup is a Group it will be added at the tail of that group. If it is nil, it will be added at the tail of the default_group of this Synth's server (as specified when *basicNew was called).
@section{method}
addBeforeMsg
See *new above for details on args.
@section{Returns}
a message of the type s_new which can be bundled. When sent to the server this message will instantiate this synth, immediately before aNode.
@section{method}
addAfterMsg
See *new above for details on args.
@section{Returns}
a message of the type s_new which can be bundled. When sent to the server this message will instantiate this synth, immediately after aNode.
@section{method}
addReplaceMsg
See *new above for details on args.
@section{Returns}
a message of the type s_new which can be bundled. When sent to the server this message will instantiate this synth, replacing nodeToReplace in the server's node order.
@section{subsection}
Control
For further methods of controlling Synths (set, map, etc.), see the link::Classes/Node:: helpfile.
@section{method}
get, getMsg
Query the server for the current value of a link::Classes/Control:: (argument).
@section{argument}
index
a control name or index
@section{argument}
action
a Function which will be evaluated with the value passed as an argument when the reply is received.
@section{discussion}
@racketblock[
s.boot;
(
SynthDef("help-Synth-get", { arg freq = 440;
Out.ar(0, SinOsc.ar(freq, 0, 0.1));
}).add;
)
x = Synth("help-Synth-get");
x.set(\freq, 220 + 440.rand);
x.get(\freq, { arg value; ("freq is now:" + value + "Hz").postln; });
x.free;
::
]
@section{method}
getn, getnMsg
Query the server for the current values of a sequential range of link::Classes/Control::s (arguments).
@section{argument}
index
a control name or index
@section{argument}
count
the number of sequential controls to query, starting at index.
@section{argument}
action
a Function which will be evaluated with an link::Classes/Array:: containing the values passed as an argument when the reply is received.
@section{method}
set
Set the values of one or more link::Classes/Control::s.
@section{discussion}
Example:
@racketblock[
x.set(\freq, 440, \amp, 0.5)
::
]
@section{method}
seti
Set part of an arrayed control.
@section{argument}
... args
A sequence of strong:: name, index, value :: triplets.
@section{definitionlist}
## name || The name of the arrayed control
## index || The index into the array
## value || The new value to set, can be an array to set a range of elements.
::
@section{discussion}
@section{note}
The synthdef has to be .add'ed, so that it is stored in the link::Classes/SynthDescLib::.
::
Example:
@racketblock[
(
s.waitForBoot({
SynthDef(\helpSeti, { |freqs = #[100,150,200,250]|
Out.ar(0, SinOsc.ar(freqs.poll,0,0.1).sum ! 2)
}).add;
s.sync;
x = Synth(\helpSeti);
})
)
x.seti(\freqs,2,600); // set only the third element
x.seti(\freqs,1,[400,410]); // set second and third element
x.free;
::
]
@section{Examples}
@racketblock[
s.boot;
(
// send a synth def to server
SynthDef("tpulse", { arg out = 0,freq = 700, sawFreq = 440.0;
Out.ar(out, SyncSaw.ar(freq, sawFreq, 0.1));
}).add;
)
// Here the defaults for *new will result in a Synth at the head of the default group
// of the default Server. This will use the SynthDef's default arguments;
y = Synth.new("tpulse");
y.free;
// The same done explicitly
y = Synth.new("tpulse", nil, s, \addToHead);
y.free;
// With some arguments
y = Synth.new("tpulse", [\freq, 350, \sawFreq, 220]);
y.free;
// make a new synth
y = Synth("tpulse");
// pause
y.run(false);
y.run(true);
// set a control by argument name
y.set("freq", 200);
// or by index
y.set(2, 100.0);
// modulate out to bus number 1 (the right speaker)
y.set(0, 1);
// multiple set commands in one message
y.set("out", 0, "freq",300);
// free the synth from the server
y.free;
::
]
@section{subsection}
Filtering
@racketblock[
(
// first collect some things to play with
SynthDef("moto-rev", { arg out=0;
var x;
x = RLPF.ar(LFPulse.ar(SinOsc.kr(0.2, 0, 10, 21), [0,0.1], 0.1),
100, 0.1).clip2(0.4);
Out.ar(out, x);
}).add;
SynthDef("bubbles", { arg out=0;
var f, zout;
f = LFSaw.kr(0.4, 0, 24, LFSaw.kr([8,7.23], 0, 3, 80)).midicps;
zout = CombN.ar(SinOsc.ar(f, 0, 0.04), 0.2, 0.2, 4); // echoing sine wave
Out.ar(out, zout);
}).add;
SynthDef("rlpf",{ arg out=0,ffreq=600,rq=0.1;
ReplaceOut.ar( out, RLPF.ar( In.ar(out), ffreq,rq) )
}).add;
SynthDef("wah", { arg out, rate = 1.5, cfreq = 1400, mfreq = 1200, rq=0.1;
var zin, zout;
zin = In.ar(out, 2);
cfreq = Lag3.kr(cfreq, 0.1);
mfreq = Lag3.kr(mfreq, 0.1);
rq = Ramp.kr(rq, 0.1);
zout = RLPF.ar(zin, LFNoise1.kr(rate, mfreq, cfreq), rq, 10).distort
* 0.15;
// replace the incoming bus with the effected version
ReplaceOut.ar( out , zout );
}).add;
SynthDef("modulate",{ arg out = 0, freq = 1, center = 440, plusMinus = 110;
Out.kr(out, SinOsc.kr(freq, 0, plusMinus, center));
}).add;
)
// execute these one at a time
// y is playing on bus 0
y = Synth("moto-rev",["out",0]);
// z is reading from bus 0 and replacing that; It must be *after* y
z = Synth.after(y,"wah",["out",0]);
// stop the wah-ing
z.run(false);
// resume the wah-ing
z.run(true);
// add a rlpf after that, reading and writing to the same buss
x = Synth.after(z,"rlpf",["out",0]);
// create another rlpf after x
t = Synth.after(x,"rlpf",["out",0]);
x.set("ffreq", 400);
x.set(\ffreq, 800); // Symbols work for control names too
// Now let's modulate x's ffreq arg
// First get a control Bus
b = Bus.control(s, 1);
// now the modulator, *before* x
m = Synth.before(x, "modulate", [\out, b]);
// now map x's ffreq to b
x.map("ffreq", b);
m.set("freq", 4, "plusMinus", 20);
x.free;
z.free;
m.free;
// now place another synth after y, on the same bus
// they both write to the buss, adding their outputs
r = Synth.after(y,"bubbles",["out",0]);
y.free;
r.free;
// look at the Server window
// still see 4 Ugens and 1 synth?
// you can't hear me, but don't forget to free me
t.free;
::
]