102 lines
2.3 KiB
Text
102 lines
2.3 KiB
Text
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class:: Pchain
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summary:: pass values from stream to stream
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related:: Classes/Pbindf
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categories:: Streams-Patterns-Events>Patterns>Composition
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description::
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definitionList::
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## Pchain(pattern1, pattern2, ... patternN) || pattern1 <- pattern2 <- ...patternN
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::
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Values produced by the stream of strong::pattern2:: are used as inval to the stream of strong::pattern1::. Therefore pattern1 overrides (or filters) the output of pattern2, and so forth. This is an equivalent to the composite pattern: emphasis::pattern1 <> pattern2 <> ... patternN::
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ClassMethods::
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method::new
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argument:: ... patterns
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The patterns to be chained up.
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InstanceMethods::
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method::<>
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Add another pattern to the chain.
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Examples::
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code::
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(
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Pchain(
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Pbind(\detune, Pseq([-30, 0, 40], inf), \dur, Prand([0.2, 0.4], inf)),
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Pbind(\degree, Pseq([1, 2, 3], inf), \dur, 1)
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).trace.play;
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)
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// also events can be used directly:
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(
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Pchain(
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Pbind(\degree, Pseq([1, 2, 3], inf)),
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(detune: [0, 4])
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).trace.play;
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)
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// compose some more complicated patterns:
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(
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var a, b;
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a = Prand([
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Pbind(\degree, Pseq([0, 1, 3, 5, 6])),
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Pbind(\dur, Pshuf([0.4, 0.3, 0.3]), \degree, Pseq([3, -1]))
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], inf);
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b = Prand([
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Pbind(\ctranspose, Pn(1, 4)),
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Pbind(\mtranspose, Pn(2, 7))
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], inf);
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c = Prand([
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Pbind(\detune, Pfuncn( { [0, 10.0].rand }, 5), \legato, 0.2, \dur, 0.2),
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Pbind(\legato, Pseq([0.2, 0.5, 1.5], 2), \dur, 0.3)
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], inf);
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Pchain(a, b, c).trace.play;
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)
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::
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section::pattern composition
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pattern <> pattern <> pattern
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code::
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// implicitly, the composition operator <> returns a Pchain when applied to a pattern.
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// so that a <> b creates a Pchain (a, b).
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// as seen above, in Pchain(a, b), a specifies (and overrides) b: b is the input to a.
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// the above example is equivalent to:
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(Pbind(\degree, Pseq([1, 2, 3], inf)) <> (detune: [0, 4])).trace.play;
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(
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a = Pbind(\degree, Pseq([1, 2, 3], inf), \dur, Prand([0.2, 0.4], inf));
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b = Pbind(\detune, Pseq([-30, 0, [0, 40]], inf), \dur, 0.1);
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c = b <> a;
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c.play; // see that the \dur key of a is overridden by b
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)
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// also value streams can be composed
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(
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a = Pfunc { |x| x + 1.33 };
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b = Pfunc { |x| x * 3 };
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c = Pseries(1, 2, inf);
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)
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// post some values from the composite streams:
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t = (a <> b).asStream;
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10.do { t.value(10).postln };
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t = (a <> b <> c).asStream;
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10.do { t.value(10).postln };
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t = (b <> c <> a).asStream;
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10.do { t.value(10).postln };
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::
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