TITLE:: FluidWaveform summary:: Buffer waveform display with optional overlays categories:: Libraries>FluidCorpusManipulation related:: Classes/FluidPlotter, Classes/FluidBufNoveltySlice, Classes/FluidBufOnsetSlice, Classes/FluidBufAmpSlice DESCRIPTION:: FluidWaveform plots a buffer with optional overlays such as slices derived from a FluCoMa Slicer, or feature values from a FluCoMa audio descriptor. CLASSMETHODS:: METHOD:: new Create a new instance of FluidWaveform. ARGUMENT:: audioBuffer The audio buffer to plot. ARGUMENT:: slicesBuffer A link::Classes/Buffer:: of slice indices. This will very likely be in the form of a link::Classes/Buffer:: output from a FluCoMa slicer object. If this link::Classes/Buffer:: is only one channel it will plot lines at these slice points. If the link::Classes/Buffer:: is two channels it will consider the 0th channel to contain onsets and the 1st channel to contain offsets. This matches the output of link::Classes/FluidBufAmpGate::. ARGUMENT:: featureBuffer A link::Classes/Buffer:: containing features to plot over the waveform. If this link::Classes/Buffer:: is multiple channels, it will plot each channel as a separate feature. ARGUMENT:: parent A link::Classes/Window:: to place this FluidWaveform in. If STRONG::nil::, FluidWaveform will make its own window using the STRONG::bounds:: argument. ARGUMENT:: bounds A link::Classes/Rect:: of where to place the FluidWaveform. If parent is STRONG::nil::, these bounds will be used to create a new link::Classes/Window::. If parent is not STRONG::nil::, these bounds will be used to place this FluidWaveform in the parent. ARGUMENT:: lineWidth The width of the line for plotting slice points and features. ARGUMENT:: waveformColor A link::Classes/Color:: to make the waveform. ARGUMENT:: stackFeatures If STRONG::false::, all the features (i.e., channels in the STRONG::featureBuffer::) will be overlayed on each other, as though on the same x and y axis. If STRONG::true::, each feature will occupy its own space covering the width of the plot and an fraction of the height (the number of channels in STRONG::featureBuf:: / the height of the plot). The default is STRONG::false::. ARGUMENT:: showSpectrogram Boolean whether or not to plot a spectrogram. The default is STRONG::false::. ARGUMENT:: spectrogramColorScheme An integer indicating which color scheme footnote::The color schemes used are from https://colorcet.com/ Kovesi, Peter. "Good colour maps: How to design them." arXiv preprint arXiv:1509.03700 (2015). https://arxiv.org/abs/1509.03700 :: to use to distinguish magitudes in the spectrogram. The default is 0. table:: ## 0 || Grey scale with slightly reduced contrast to avoid display saturation problems ## 1 || Black - Blue - Green - Yellow - White ## 2 || Blue - Magenta - Yellow highly saturated ## 3 || Black - Red - Yellow - White ## 4 || Black - Red - Yellow :: ARGUMENT:: spectrogramAlpha An transparency value (0-1) for displaying the waveform. 0 is fully transparent, 1 is fully visible. The default is 1. ARGUMENT:: showWaveform Boolean whether or not to show the waveform. The default is true. ARGUMENT:: normalizeFeaturesIndependently Boolean. All the features in STRONG::featureBuf:: need to be normalized for plotting. If STRONG::true::, this normalization will happen per feature, so that each will use the full visual range allowed to them. If STRONG::false::, the normalization will happen over all the values in the STRONG::featureBuf:: (in all the channels), so that the features relative strengths will be preserved. The default is STRONG::true::. returns:: A new instance of FluidWaveform. INSTANCEMETHODS:: METHOD:: close Close the FluidWaveform window. If parent is not STRONG::nil::, this method will close the parent window. METHOD:: win returns:: The FluidWaveform window. If parent is not STRONG::nil::, this method will return the parent window. EXAMPLES:: code:: s.boot; // load a sound to slice ~drums = Buffer.read(s,FluidFilesPath("Nicol-LoopE-M.wav")); // display FluidWaveform(~drums,bounds:Rect(0,0,1200,300)); // put in another window ( w = Window("FluidWaveform Test",Rect(0,0,1000,600)); FluidWaveform(~drums,parent:w,bounds:Rect(100,100,800,300)); w.front; ) // show spectrogram FluidWaveform(~drums,bounds:Rect(0,0,1200,300),showSpectrogram:true); // more colors FluidWaveform(~drums,bounds:Rect(0,0,1200,300),showSpectrogram:true,spectrogramColorScheme:1); // more colors FluidWaveform(~drums,bounds:Rect(0,0,1200,300),showSpectrogram:true,spectrogramColorScheme:2); // more colors FluidWaveform(~drums,bounds:Rect(0,0,1200,300),showSpectrogram:true,spectrogramColorScheme:3); // more colors FluidWaveform(~drums,bounds:Rect(0,0,1200,300),showSpectrogram:true,spectrogramColorScheme:4); // put in that another window ( w = Window("FluidWaveform Test",Rect(0,0,1000,600)); FluidWaveform(~drums,parent:w,bounds:Rect(100,100,800,300),showSpectrogram:true); w.front; ) // spectrogram with some nice colors and a bit of styling... FluidWaveform(~drums,bounds:Rect(0,0,1200,300),showSpectrogram:true,spectrogramColorScheme:1,waveformColor:Color.magenta(1,0.5),showWaveform:true); // create a buffer to put indices into ~indices = Buffer(s); // do a slice analysis FluidBufAmpSlice.processBlocking(s,~drums,indices:~indices,fastRampUp: 10,fastRampDown: 2205,slowRampUp: 4410,slowRampDown: 4410,onThreshold: 10,offThreshold: 5,floor: -40,minSliceLength: 4410,highPassFreq: 20); // plot the buffer with the indices overlayed FluidWaveform(~drums,~indices,bounds:Rect(0,0,800,200)); // put in that another window ( w = Window("FluidWaveform Test",Rect(0,0,1000,600)); FluidWaveform(~drums,~indices,parent:w,bounds:Rect(100,100,800,300)); w.front; ) // do a descriptor analysis ~features = Buffer(s); FluidBufLoudness.processBlocking(s,~drums,features:~features,action:{"done".postln;}); // copy just the first channel of that buffer to display it ~features2 = Buffer(s); FluidBufCompose.processBlocking(s,~features,numChans:1,destination:~features2); // plot the audio with the slices and the loudness analysis FluidWaveform(~drums,~indices,~features2,bounds:Rect(0,0,1200,300)); // with gate info ~gate_analysis = Buffer(s); FluidBufAmpGate.processBlocking(s,~drums,indices:~gate_analysis,onThreshold:-35,offThreshold:-35,minSliceLength:4410); // it will plot the ons and offs FluidWaveform(~drums,~gate_analysis,~features2,bounds:Rect(0,0,1200,300)); // put in that another window ( w = Window("FluidWaveform Test",Rect(0,0,1000,600)); FluidWaveform(~drums,~gate_analysis,parent:w,bounds:Rect(100,100,800,300)); w.front; ) // do a descriptor analysis and plot both features either stacked or not: ~noisy = Buffer.read(s,FluidFilesPath("Tremblay-ASWINE-ScratchySynth-M.wav")); ~pitch_analysis = Buffer(s); FluidBufPitch.processBlocking(s,~noisy,features:~pitch_analysis,action:{"done".postln;}); // plot not stacked: FluidWaveform(~noisy,featureBuffer:~pitch_analysis,bounds:Rect(0,0,1200,300)); // plot stacked: FluidWaveform(~noisy,featureBuffer:~pitch_analysis,bounds:Rect(0,0,1200,300),stackFeatures:true,waveformColor:Color(*0.9.dup(3))); // add spectrogram: FluidWaveform(~noisy,featureBuffer:~pitch_analysis,bounds:Rect(0,0,1200,300),stackFeatures:true,waveformColor:Color(0,0,0,0.5),showSpectrogram:true,spectrogramAlpha:0.5); // plot in another window with all the things! ( w = Window("FluidWaveform Test",Rect(0,0,1000,600)); FluidWaveform( ~noisy, featureBuffer:~pitch_analysis, parent:w, bounds:Rect(100,100,800,300), stackFeatures:true, showSpectrogram:true, spectrogramAlpha:0.6, waveformColor:Color(0,1,1,0.5) ); w.front; ) ::