X-Git-Url: https://git.piment-noir.org/?a=blobdiff_plain;f=L8onWallace.pde;h=eddf37587969637ef1e5f134356f590cdf0b1a90;hb=8004bacea4a51bc37a291a437d1fcbe29e5af7b9;hp=1c9d849dce6df340a5fcb92e9325521bb1508317;hpb=2815b69095f53b912200c75cc7a91caf34bd837c;p=SugarCubes.git diff --git a/L8onWallace.pde b/L8onWallace.pde index 1c9d849..eddf375 100644 --- a/L8onWallace.pde +++ b/L8onWallace.pde @@ -1,8 +1,8 @@ class L8onLife extends SCPattern { // Controls the rate of life algorithm ticks, in milliseconds - private BasicParameter rateParameter = new BasicParameter("RATE", 122.5, 0.0, 1000.0); - // Controls if the cubes should be randomized even if something changes. Set above 0.5 to randomize cube aliveness. - private BasicParameter randomParameter = new BasicParameter("RAND", 0.0); + private BasicParameter rateParameter = new BasicParameter("DELAY", 112.5, 0.0, 1000.0); + // Controls the probability of a mutation in the cycleOfLife + private BasicParameter randomParameter = new BasicParameter("RAND", 0.000000011, 0.0, 0.1); // Controls the brightness of dead cubes. private BasicParameter deadParameter = new BasicParameter("DEAD", 25.0, 0.0, 100.0); // Controls the saturation. @@ -11,8 +11,7 @@ class L8onLife extends SCPattern { public final double MIN_ALIVE_PROBABILITY = 0.2; public final double MAX_ALIVE_PROBABILITY = 0.9; - private final SinLFO xPos = new SinLFO(0, model.xMax, 4500); - private final SinLFO zPos = new SinLFO(0, model.zMax, 2500); + private final SawLFO cubePos = new SawLFO(0, model.cubes.size(), 2500); class CubeState { // Index of cube in glucose.model.cubes @@ -53,8 +52,7 @@ class L8onLife extends SCPattern { addParameter(randomParameter); addParameter(deadParameter); addParameter(saturationParameter); - addModulator(xPos).trigger(); - addModulator(zPos).trigger(); + addModulator(cubePos).trigger(); } public void run(double deltaMs) { @@ -69,16 +67,15 @@ class L8onLife extends SCPattern { cube_state = this.cube_states.get(i); if(shouldLightCube(cube_state)) { - lightLiveCube(cube); + lightLiveCube(cube, i); } else { - lightDeadCube(cube); + lightDeadCube(cube, i); } i++; } - boolean should_randomize_anyway = (randomParameter.getValuef() > 0.5); - if(should_randomize_anyway || !any_changes_this_run) { + if(!any_changes_this_run) { randomizeCubeStates(); } else { applyNewLives(); @@ -89,9 +86,11 @@ class L8onLife extends SCPattern { } } - public void lightLiveCube(Cube cube) { + public void lightLiveCube(Cube cube, Integer index) { + float cube_dist = LXUtils.wrapdistf((float) index, cubePos.getValuef(), model.cubes.size()); + float hv = (cube_dist / model.cubes.size()) * 360; + for (LXPoint p : cube.points) { - float hv = max(0, lx.getBaseHuef() - abs(p.z - zPos.getValuef())); colors[p.index] = lx.hsb( hv, saturationParameter.getValuef(), @@ -100,11 +99,13 @@ class L8onLife extends SCPattern { } } - public void lightDeadCube(Cube cube) { + public void lightDeadCube(Cube cube, Integer index) { + float cube_dist = LXUtils.wrapdistf((float) index, cubePos.getValuef(), model.cubes.size()); + float dist_proportion = (cube_dist / (float) model.cubes.size()); + float hv = dist_proportion * 360; + float dead_bright = deadParameter.getValuef() * dist_proportion; + for (LXPoint p : cube.points) { - float hv = max(0, lx.getBaseHuef() - abs(p.x - xPos.getValuef())); - double dead_bright = deadParameter.getValuef() * Math.random(); - colors[p.index] = lx.hsb( hv, saturationParameter.getValuef(), @@ -195,6 +196,7 @@ class L8onLife extends SCPattern { Integer alive_neighbor_count = countLiveNeighbors(cube_state); boolean before_alive = cube_state.alive; boolean after_alive = before_alive; + double mutation = Math.random(); if(cube_state.alive) { if(alive_neighbor_count < 2 || alive_neighbor_count > 3) { @@ -211,6 +213,10 @@ class L8onLife extends SCPattern { } } + if(mutation <= randomParameter.getValuef()) { + after_alive = !after_alive; + } + if(before_alive != after_alive) { any_changes_this_run = true; } @@ -234,12 +240,12 @@ class L8onLife extends SCPattern { } class L8onAutomata extends SCPattern { - // Controls if the points should be randomized even if something changes. Set above 0.5 to randomize cube aliveness. - private BasicParameter randomParameter = new BasicParameter("RAND", 0.0); + // Controls the probability of a mutation in the cycleOfStripperLife + private BasicParameter randomParameter = new BasicParameter("RAND", 0.000000011, 0.0, 0.1); // Controls the rate of life algorithm ticks, in milliseconds - private BasicParameter rateParameter = new BasicParameter("RATE", 75.0, 0.0, 1000.0); + private BasicParameter rateParameter = new BasicParameter("DELAY", 75.0, 0.0, 1000.0); - private final SinLFO zPos = new SinLFO(0, model.zMax, 2500); + private final SawLFO pointPos = new SawLFO(0, model.points.size(), 3000); public final double MIN_ALIVE_PROBABILITY = 0.2; public final double MAX_ALIVE_PROBABILITY = 0.9; @@ -279,7 +285,7 @@ class L8onAutomata extends SCPattern { addParameter(randomParameter); addParameter(rateParameter); - addModulator(zPos).trigger(); + addModulator(pointPos).trigger(); } private void initPointStates() { @@ -308,16 +314,15 @@ class L8onAutomata extends SCPattern { point_state = this.point_states.get(i); if(shouldLightPoint(point_state)) { - lightLivePoint(p); + lightLivePoint(p, i); } else { - lightDeadPoint(p); + lightDeadPoint(p, i); } i++; } - boolean should_randomize_anyway = (randomParameter.getValuef() > 0.5); - if(should_randomize_anyway || !any_changes_this_run) { + if(!any_changes_this_run) { randomizePointStates(); } else { applyNewStates(); @@ -328,8 +333,10 @@ class L8onAutomata extends SCPattern { } } - public void lightLivePoint(LXPoint p) { - float hv = max(0, lx.getBaseHuef() - abs(p.z - zPos.getValuef())); + public void lightLivePoint(LXPoint p, Integer index) { + float point_dist = LXUtils.wrapdistf((float) index, pointPos.getValuef(), model.points.size()); + float hv = (point_dist / model.points.size()) * 360; + colors[p.index] = lx.hsb( hv, 90, @@ -337,9 +344,9 @@ class L8onAutomata extends SCPattern { ); } - public void lightDeadPoint(LXPoint p) { + public void lightDeadPoint(LXPoint p, Integer index) { colors[p.index] = lx.hsb( - lx.getBaseHuef(), + 120, 0, 0 ); @@ -362,6 +369,7 @@ class L8onAutomata extends SCPattern { Integer alive_neighbor_count = countLiveNeighbors(point_state); boolean before_alive = point_state.alive; boolean after_alive = before_alive; + double mutation = Math.random(); if(point_state.alive) { if(alive_neighbor_count == 1) { @@ -378,6 +386,10 @@ class L8onAutomata extends SCPattern { } } + if(mutation < randomParameter.getValuef()) { + after_alive = !after_alive; + } + if(before_alive != after_alive) { any_changes_this_run = true; } @@ -421,11 +433,312 @@ class L8onAutomata extends SCPattern { double prob_range = (1.0 - MIN_ALIVE_PROBABILITY) - (1.0 - MAX_ALIVE_PROBABILITY); double prob = MIN_ALIVE_PROBABILITY + (prob_range * Math.random()); - print("Randomizing points! p = " + prob + "\n"); + //print("Randomizing points! p = " + prob + "\n"); for (PointState point_state: this.point_states) { point_state.alive = (Math.random() <= prob); } } +} + +class L8onStrips extends SCPattern { + // Controls the rate of life algorithm ticks, in milliseconds + private BasicParameter rateParameter = new BasicParameter("DELAY", 112.5, 1.0, 1000.0); + // Controls the probability of a mutation in the cycleOfStripperLife + private BasicParameter randomParameter = new BasicParameter("RAND", 0.000000011, 0.0, 0.1); + // Controls the saturation. + private BasicParameter saturationParameter = new BasicParameter("SAT", 90.0, 0.0, 100.0); + + public final double MIN_ALIVE_PROBABILITY = 0.4; + public final double MAX_ALIVE_PROBABILITY = 0.9; + + public final float MAX_ALIVE_BRIGHTNESS = 95.0; + + private final SawLFO stripPos = new SawLFO(0, model.strips.size(), 3000); + + class StripState { + // Index of strip in glucose.model.strips + public Integer index; + // Boolean which describes if strip is alive. + public boolean alive; + // Boolean which describes if strip was just changed; + public boolean just_changed; + // Current brightness + public float current_brightness; + // List of this cubes neighbors + public List neighbors; + + public StripState(Integer index, boolean alive, float current_brightness, List neighbors) { + this.index = index; + this.alive = alive; + this.neighbors = neighbors; + } + } + + // Contains the state of all cubes by index. + private List strip_states; + // Contains the amount of time since the last cycle of life. + private int time_since_last_run; + // Boolean describing if life changes were made during the current run. + private boolean any_changes_this_run; + // Hold the new lives + private List new_lives; + + public L8onStrips(GLucose glucose) { + super(glucose); + + //Print debug info about the strips. + //outputStripInfo(); + + initStripStates(); + randomizeStripStates(); + time_since_last_run = 0; + any_changes_this_run = false; + new_lives = new ArrayList(); + + addParameter(rateParameter); + addParameter(randomParameter); + addParameter(saturationParameter); + + addModulator(stripPos).trigger(); + } + + public void run(double deltaMs) { + Integer i = 0; + StripState strip_state; + + any_changes_this_run = false; + new_lives.clear(); + time_since_last_run += deltaMs; + + for (Strip strip : model.strips) { + strip_state = this.strip_states.get(i); + + if(shouldLightStrip(strip_state)) { + lightLiveStrip(strip, strip_state, deltaMs); + } else { + lightDeadStrip(strip, strip_state, deltaMs); + } + i++; + } + + if(!any_changes_this_run) { + randomizeStripStates(); + } else { + applyNewLives(); + } + + if(time_since_last_run >= rateParameter.getValuef()) { + time_since_last_run = 0; + } + } + + public void lightLiveStrip(Strip strip, StripState strip_state, double deltaMs) { + Integer index = strip_state.index; + float strip_dist = LXUtils.wrapdistf((float) index, stripPos.getValuef(), model.strips.size()); + float hv = (strip_dist / model.strips.size()) * 360; + float bv = strip_state.current_brightness; + + if(!strip_state.just_changed || deltaMs >= rateParameter.getValuef()) { + float bright_prop = min(((float) time_since_last_run / rateParameter.getValuef()), 1.0); + bv = min(MAX_ALIVE_BRIGHTNESS, bright_prop * MAX_ALIVE_BRIGHTNESS); + + if(index == 100) { + print("live prop: " + bright_prop + " bv: " + bv + " current: " + strip_state.current_brightness + "\n"); + } + + if(strip_state.current_brightness < bv) { + strip_state.current_brightness = bv; + } else { + bv = strip_state.current_brightness; + } + + if(index == 100) { + print("live bv: " + bv + " current: " + strip_state.current_brightness + "\n"); + } + } + + for (LXPoint p : strip.points) { + colors[p.index] = lx.hsb( + hv, + saturationParameter.getValuef(), + bv + ); + } + } + + public void lightDeadStrip(Strip strip, StripState strip_state, double deltaMs) { + Integer index = strip_state.index; + float strip_dist = LXUtils.wrapdistf((float) index, stripPos.getValuef(), model.strips.size()); + float dist_proportion = (strip_dist / (float) model.strips.size()); + float hv = dist_proportion * 360; + float bv = strip_state.current_brightness; + + if(!strip_state.just_changed || deltaMs >= rateParameter.getValuef()) { + float bright_prop = 1.0 - min(((float) time_since_last_run / rateParameter.getValuef()), 1.0); + bv = max(0.0, bright_prop * MAX_ALIVE_BRIGHTNESS); + + if(index == 100) { + print("dead prop: " + bright_prop + " bv: " + bv + " current: " + strip_state.current_brightness + "\n"); + } + + if(strip_state.current_brightness > bv) { + strip_state.current_brightness = bv; + } else { + bv = strip_state.current_brightness; + } + + if(index == 100) { + print("dead bv: " + bv + " current: " + strip_state.current_brightness + "\n"); + } + } + + for (LXPoint p : strip.points) { + colors[p.index] = lx.hsb( + hv, + saturationParameter.getValuef(), + bv + ); + } + } + + public void outputStripInfo() { + int i = 0; + for (Strip strip : model.strips) { + print("Strip " + i + ": " + strip.cx + "," + strip.cy + "," + strip.cz + "\n"); + ++i; + } + } + + private void initStripStates() { + List neighbors; + boolean alive = false; + float current_brightness; + StripState strip_state; + this.strip_states = new ArrayList(); + Integer i = 0; + + int total_neighbors = 0; + + for (Strip strip : model.strips) { + neighbors = findStripNeighbors(strip, i); + alive = true; + current_brightness = 0.0; + strip_state = new StripState(i, alive, current_brightness, neighbors); + this.strip_states.add(strip_state); + + total_neighbors += neighbors.size(); + ++i; + } + + float average_neighbor_count = (float) total_neighbors / (float) model.strips.size(); + //print("Average neighbor count: " + average_neighbor_count + "\n"); + } + + private void randomizeStripStates() { + double prob_range = (1.0 - MIN_ALIVE_PROBABILITY) - (1.0 - MAX_ALIVE_PROBABILITY); + double prob = MIN_ALIVE_PROBABILITY + (prob_range * Math.random()); + + //print("Randomizing strips! p = " + prob + "\n"); + + for (StripState strip_state : this.strip_states) { + strip_state.alive = (Math.random() <= prob); + if(strip_state.alive) { + strip_state.current_brightness = 0; + } else{ + strip_state.current_brightness = MAX_ALIVE_BRIGHTNESS; + } + } + } + + public List findStripNeighbors(Strip strip, Integer index) { + List neighbors = new LinkedList(); + Integer i = 0; + int neighbor_count = 0; + double distance = 0.0; + + for (Strip s : model.strips) { + if( (int)index != (int)i ) { + distance = Math.sqrt( Math.pow((s.cx - strip.cx), 2) + Math.pow((s.cy - strip.cy), 2) + Math.pow((s.cz - strip.cz), 2) ); + + if(distance < ( (double) Cube.EDGE_WIDTH) ) { + //print("Strip " + i + " is a neighbor of " + index + "\n"); + neighbors.add(i); + } + } + i++; + } + + return neighbors; + } + + public boolean shouldLightStrip(StripState strip_state) { + // Respect rate parameter. + if(time_since_last_run < rateParameter.getValuef()) { + any_changes_this_run = true; + strip_state.just_changed = false; + return strip_state.alive; + } else { + boolean new_life = cycleOfStripperLife(strip_state); + new_lives.add(new_life); + return new_life; + } + } + + public void applyNewLives() { + int index = 0; + for(boolean liveliness: new_lives) { + StripState strip_state = this.strip_states.get(index); + strip_state.alive = new_lives.get(index); + index++; + } + } + + public boolean cycleOfStripperLife(StripState strip_state) { + Integer index = strip_state.index; + Integer alive_neighbor_count = countLiveNeighbors(strip_state); + boolean before_alive = strip_state.alive; + boolean after_alive = before_alive; + double mutation = Math.random(); + + if(strip_state.alive) { + if(alive_neighbor_count < 2 || alive_neighbor_count > 6) { + after_alive = false; + } else { + after_alive = true; + } + + } else { + if(alive_neighbor_count == 5) { + after_alive = true; + } else { + after_alive = false; + } + } + + if(mutation < randomParameter.getValuef()) { + after_alive = !after_alive; + } + + if(before_alive != after_alive) { + any_changes_this_run = true; + strip_state.just_changed = true; + } + + return after_alive; + } + + public Integer countLiveNeighbors(StripState strip_state) { + Integer count = 0; + StripState neighbor_strip_state; + for(Integer neighbor_index: strip_state.neighbors) { + neighbor_strip_state = this.strip_states.get(neighbor_index); + if(neighbor_strip_state.alive) { + count++; + } + } + + return count; + } }