X-Git-Url: https://git.piment-noir.org/?a=blobdiff_plain;f=_Internals.pde;h=29b0dde0f8aa5d9d65e4dbe541bd75fdba0f9ea9;hb=bf5511442e5c6d72a5ba2aa1df464734a93a23ef;hp=a103f13ace4630df806fb6b3f67dcc26f7686926;hpb=1ecdb44ad45fb86834e9dfcadce6cbff751ad484;p=SugarCubes.git diff --git a/_Internals.pde b/_Internals.pde index a103f13..29b0dde 100644 --- a/_Internals.pde +++ b/_Internals.pde @@ -29,7 +29,6 @@ import heronarts.lx.transition.*; import ddf.minim.*; import ddf.minim.analysis.*; import processing.opengl.*; -import java.lang.reflect.*; import rwmidi.*; final int VIEWPORT_WIDTH = 900; @@ -39,10 +38,18 @@ final int TARGET_FRAMERATE = 45; int startMillis, lastMillis; GLucose glucose; HeronLX lx; +MappingTool mappingTool; LXPattern[] patterns; LXTransition[] transitions; LXEffect[] effects; OverlayUI ui; +ControlUI controlUI; +MappingUI mappingUI; +PandaDriver pandaFront; +PandaDriver pandaRear; +boolean mappingMode = false; + +boolean pandaBoardsEnabled = false; void setup() { startMillis = lastMillis = millis(); @@ -61,21 +68,32 @@ void setup() { // Set the patterns glucose.lx.setPatterns(patterns = patterns(glucose)); + mappingTool = new MappingTool(glucose); logTime("Built patterns"); glucose.lx.addEffects(effects = effects(glucose)); logTime("Built effects"); transitions = transitions(glucose); logTime("Built transitions"); + + // Build output driver + int[][] frontChannels = glucose.mapping.buildFrontChannelList(); + int[][] rearChannels = glucose.mapping.buildRearChannelList(); + int[][] flippedRGB = glucose.mapping.buildFlippedRGBList(); + pandaFront = new PandaDriver(new NetAddress("192.168.1.28", 9001), glucose.model, frontChannels, flippedRGB); + pandaRear = new PandaDriver(new NetAddress("192.168.1.29", 9001), glucose.model, rearChannels, flippedRGB); + logTime("Build PandaDriver"); // Build overlay UI - ui = new OverlayUI(); + ui = controlUI = new ControlUI(); + mappingUI = new MappingUI(mappingTool); logTime("Built overlay UI"); // MIDI devices - SCMidiDevices.initializeStandardDevices(glucose, ui.patternKnobs, ui.transitionKnobs, ui.effectKnobs); + SCMidiDevices.initializeStandardDevices(glucose, controlUI.patternKnobs, controlUI.transitionKnobs, controlUI.effectKnobs); logTime("Setup MIDI devices"); println("Total setup: " + (millis() - startMillis) + "ms"); + println("Hit the 'p' key to toggle Panda Board output"); } void logTime(String evt) { @@ -87,6 +105,13 @@ void logTime(String evt) { void draw() { // The glucose engine deals with the core simulation here, we don't need // to do anything specific. This method just needs to exist. + + // TODO(mcslee): move into GLucose engine + if (pandaBoardsEnabled) { + color[] colors = glucose.getColors(); + pandaFront.send(colors); + pandaRear.send(colors); + } } void drawUI() { @@ -99,15 +124,38 @@ void drawUI() { } boolean uiOn = true; -boolean knobsOn = true; +int restoreToIndex = -1; + void keyPressed() { + if (mappingMode) { + mappingTool.keyPressed(); + } switch (key) { + case 'm': + mappingMode = !mappingMode; + if (mappingMode) { + LXPattern pattern = lx.getPattern(); + for (int i = 0; i < patterns.length; ++i) { + if (pattern == patterns[i]) { + restoreToIndex = i; + break; + } + } + ui = mappingUI; + lx.setPatterns(new LXPattern[] { mappingTool }); + } else { + ui = controlUI; + lx.setPatterns(patterns); + lx.goIndex(restoreToIndex); + } + break; + case 'p': + pandaBoardsEnabled = !pandaBoardsEnabled; + println("PandaBoard Output: " + (pandaBoardsEnabled ? "ON" : "OFF")); + break; case 'u': uiOn = !uiOn; break; - case 'k': - knobsOn = !knobsOn; - break; } }