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200 lines
6.2 KiB
Plaintext
200 lines
6.2 KiB
Plaintext
TITLE:: FluidKMeans
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summary:: Cluster data points with K-Means
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categories:: FluidManipulation
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related:: Classes/FluidDataSet, Classes/FluidLabelSet, Classes/FluidKNNClassifier, Classes/FluidKNNRegressor
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DESCRIPTION::
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Uses the K-Means algorithm to learn clusters from a link::Classes/FluidDataSet::
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https://scikit-learn.org/stable/tutorial/statistical_inference/unsupervised_learning.html#clustering-grouping-observations-together
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CLASSMETHODS::
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METHOD:: new
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Construct a new K Means model on the passed server. The parameters code::numClusters:: and code::maxIter:: can be modulated on an existing instance.
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ARGUMENT:: server
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If nil will use Server.default.
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ARGUMENT:: numClusters
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The number of clusters to classify data into.
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ARGUMENT:: maxIter
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The maximum number of iterations the algorithm will use whilst fitting.
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INSTANCEMETHODS::
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PRIVATE::k
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METHOD:: fit
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Identify code::k:: clusters in a link::Classes/FluidDataSet::
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ARGUMENT:: dataSet
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A link::Classes/FluidDataSet:: of data points.
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ARGUMENT:: action
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A function to run when fitting is complete, taking as its argument an array with the number of data points for each cluster.
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METHOD:: predict
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Given a trained object, return the cluster ID for each data point in a DataSet to a label set.
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ARGUMENT:: dataSet
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a link::Classes/FluidDataSet:: containing the data to predict.
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ARGUMENT:: labelSet
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a link::Classes/FluidLabelSet:: to retrieve the predicted clusters.
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ARGUMENT:: action
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A function to run when the server responds.
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METHOD:: fitPredict
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Run link::Classes/FluidKMeans#*fit:: and link::Classes/FluidKMeans#*predict:: in a single pass: i.e. train the model on the incoming link::Classes/FluidDataSet:: and then return the learned clustering to the passed link::Classes/FluidLabelSet::
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ARGUMENT:: dataSet
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a link::Classes/FluidDataSet:: containing the data to fit and predict.
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ARGUMENT:: labelSet
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a link::Classes/FluidLabelSet:: to retrieve the predicted clusters.
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ARGUMENT:: action
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A function to run when the server responds
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METHOD:: predictPoint
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Given a trained object, return the cluster ID for a data point in a link::Classes/Buffer::
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ARGUMENT:: buffer
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a link::Classes/Buffer:: containing a data point.
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ARGUMENT:: action
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A function to run when the server responds, taking the ID of the cluster as its argument.
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METHOD:: predict
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Report cluster assignments for previously unseen data.
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ARGUMENT:: dataSet
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A link::Classes/FluidDataSet:: of data points.
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ARGUMENT:: labelSet
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A link::Classes/FluidLabelSet:: to contain assignments.
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ARGUMENT:: action
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A function to run when complete, taking an array of the counts for each category as its argument.
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EXAMPLES::
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Server.default.options.outDevice = "Built-in Output"
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code::
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(
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//Make some clumped 2D points and place into a DataSet
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~points = (4.collect{
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64.collect{(1.sum3rand) + [1,-1].choose}.clump(2)
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}).flatten(1) * 0.5;
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fork{
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~dataSet = FluidDataSet.new(s,\kmeans_help_rand2d);
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d = Dictionary.with(
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*[\cols -> 2,\data -> Dictionary.newFrom(
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~points.collect{|x, i| [i, x]}.flatten)]);
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s.sync;
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~dataSet.load(d, {~dataSet.print});
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}
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)
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// Create a KMeans instance and a LabelSet for the cluster labels in the server
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~clusters = FluidLabelSet(s,\kmeans_help_clusters);
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~kmeans = FluidKMeans(s);
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// Fit into 4 clusters
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(
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~kmeans.fitPredict(~dataSet,~clusters,action: {|c|
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"Fitted.\n # Points in each cluster:".postln;
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c.do{|x,i|
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("Cluster" + i + "->" + x.asInteger + "points").postln;
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}
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});
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)
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// Cols of kmeans should match DataSet, size is the number of clusters
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~kmeans.cols;
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~kmeans.size;
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~kmeans.dump;
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// Retrieve labels of clustered points
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(
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~assignments = Array.new(128);
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fork{
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128.do{ |i|
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~clusters.getLabel(i,{|clusterID|
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(i.asString+clusterID).postln;
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~assignments.add(clusterID)
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});
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s.sync;
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}
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}
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)
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//or faster by sorting the IDs
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~clusters.dump{|x|~assignments = x.at("data").atAll(x.at("data").keys.asArray.sort{|a,b|a.asInteger < b.asInteger}).flatten.postln;}
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//Visualise: we're hoping to see colours neatly mapped to quandrants...
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(
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d = ((~points + 1) * 0.5).flatten(1).unlace;
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w = Window("scatter", Rect(128, 64, 200, 200));
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~colours = [Color.blue,Color.red,Color.green,Color.magenta];
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w.drawFunc = {
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Pen.use {
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d[0].size.do{|i|
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var x = (d[0][i]*200);
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var y = (d[1][i]*200);
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var r = Rect(x,y,5,5);
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Pen.fillColor = ~colours[~assignments[i].asInteger];
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Pen.fillOval(r);
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}
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}
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};
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w.refresh;
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w.front;
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)
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::
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subsection:: Server Side Queries
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This is the equivalent of predictPoint, but wholly on the server
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FluidKMeans is accessed via its own synth, so we need to use
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a bus to communicate with it. The inBus receives a trigger to query, using data
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from inBuffer; a trigger is then send to outBus with the prediction in outBuffer
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code::
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(
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~ib = Bus.control(s); // input bus
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~ob = Bus.control(s); //output bus
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~tempPoint = Buffer.alloc(s,1,2);
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~inpPoint = Buffer.alloc(s,2);
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~outPoint = Buffer.alloc(s,1);
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)
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//We make two Synths. One, before FluidKMeans, generates a random point and sends
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//a trigger to query. The second, after FluidKMeans, gives us the predicted cluster //triggering upadtes from the outBus
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(
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//Set properties on FluidKMeans:
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~kmeans.inBus_(~ib).outBus_(~ob).inBuffer_(~inpPoint).outBuffer_(~outPoint);
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//pitching
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{
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var trig = Impulse.kr(5);
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var point = WhiteNoise.kr(1.dup);
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var copied;
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Poll.kr(trig, point, [\pointX,\pointY]);
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point.collect{ |p,i| BufWr.kr([p],~inpPoint,i)};
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Out.kr(~ib.index,[trig]);
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}.play(~kmeans.synth,addAction:\addBefore);
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//catching
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{
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Poll.kr(In.kr(~ob),Latch.kr(BufRd.kr(1,~outPoint,0,interpolation:0),In.kr(~ob)),\cluster);
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}.play(~kmeans.synth,addAction:\addAfter);
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)
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// to sonify the output, here are random values alternating quadrant, generated more quickly as the cursor moves rightwards
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(
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//Set properties on FluidKMeans:
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~kmeans.inBus_(~ib).outBus_(~ob).inBuffer_(~inpPoint).outBuffer_(~outPoint);
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//pitching
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{
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var trig = Impulse.kr(MouseX.kr(0,1).exprange(0.5,ControlRate.ir / 2));
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var point = 2.collect{ TIRand.kr(0,3,trig).linlin(0,3,-1,1) };
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point.collect{|p,i| BufWr.kr([p],~inpPoint,i)};
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Out.kr(~ib.index,[trig]);
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T2A.ar(trig)*0.1;
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}.play(~kmeans.synth,addAction:\addBefore);
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//catching
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{
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SinOsc.ar((Latch.kr(BufRd.kr(1,~outPoint,0,interpolation:0),In.kr(~ob)) + 69).midicps,mul: 0.1);
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}.play(~kmeans.synth,addAction:\addAfter);
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)
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::
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