Try linking GUI to sound
commit
a0515ae626
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package gui
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import java.awt.GridLayout
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import java.awt.Label
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import javax.swing.JFrame
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import javax.swing.JSlider
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class SimpleEx(title: String) : JFrame() {
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init {
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createUI(title)
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}
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private fun createUI(title: String) {
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setTitle(title)
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defaultCloseOperation = EXIT_ON_CLOSE
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setSize(400, 300)
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setLocationRelativeTo(null)
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layout = GridLayout(20, 2)
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}
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fun add_slider(name: String, min: Int, max: Int, value: Int): JSlider {
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add(Label(name))
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val slider = JSlider(min, max, value)
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slider.minorTickSpacing = 10;
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slider.paintTicks = true;
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add(slider)
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return slider
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}
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}
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fun main() {
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}
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@ -1,107 +0,0 @@
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package random;
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import java.util.Random;
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public class RandomDisplacementFractal {
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/** Source of entropy */
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private Random rand_;
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/** Amount of roughness */
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float roughness_;
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/** Plasma fractal grid */
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private float[][] grid_;
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/** Generate a noise source based upon the midpoint displacement fractal.
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*
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* @param rand The random number generator
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* @param roughness a roughness parameter
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* @param width the width of the grid
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* @param height the height of the grid
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*/
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public RandomDisplacementFractal(Random rand, float roughness, int width, int height) {
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roughness_ = roughness / width;
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grid_ = new float[width][height];
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rand_ = (rand == null) ? new Random() : rand;
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}
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public void initialise() {
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int xh = grid_.length - 1;
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int yh = grid_[0].length - 1;
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// set the corner points
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grid_[0][0] = rand_.nextFloat() - 0.5f;
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grid_[0][yh] = rand_.nextFloat() - 0.5f;
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grid_[xh][0] = rand_.nextFloat() - 0.5f;
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grid_[xh][yh] = rand_.nextFloat() - 0.5f;
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// generate the fractal
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generate(0, 0, xh, yh);
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}
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// Add a suitable amount of random displacement to a point
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private float roughen(float v, int l, int h) {
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return v + roughness_ * (float) (rand_.nextGaussian() * (h - l));
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}
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// generate the fractal
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private void generate(int xl, int yl, int xh, int yh) {
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int xm = (xl + xh) / 2;
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int ym = (yl + yh) / 2;
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if ((xl == xm) && (yl == ym)) return;
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grid_[xm][yl] = 0.5f * (grid_[xl][yl] + grid_[xh][yl]);
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grid_[xm][yh] = 0.5f * (grid_[xl][yh] + grid_[xh][yh]);
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grid_[xl][ym] = 0.5f * (grid_[xl][yl] + grid_[xl][yh]);
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grid_[xh][ym] = 0.5f * (grid_[xh][yl] + grid_[xh][yh]);
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float v = roughen(0.5f * (grid_[xm][yl] + grid_[xm][yh]), xl + yl, yh
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+ xh);
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grid_[xm][ym] = v;
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grid_[xm][yl] = roughen(grid_[xm][yl], xl, xh);
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grid_[xm][yh] = roughen(grid_[xm][yh], xl, xh);
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grid_[xl][ym] = roughen(grid_[xl][ym], yl, yh);
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grid_[xh][ym] = roughen(grid_[xh][ym], yl, yh);
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generate(xl, yl, xm, ym);
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generate(xm, yl, xh, ym);
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generate(xl, ym, xm, yh);
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generate(xm, ym, xh, yh);
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}
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/**
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* Dump out as a CSV
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*/
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public void printAsCSV() {
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for(int i = 0;i < grid_.length;i++) {
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for(int j = 0;j < grid_[0].length;j++) {
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System.out.print(grid_[i][j]);
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System.out.print(",");
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}
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System.out.println();
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}
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}
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/**
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* Convert to a Boolean array
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* @return the boolean array
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*/
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public boolean[][] toBooleans() {
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int w = grid_.length;
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int h = grid_[0].length;
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boolean[][] ret = new boolean[w][h];
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for(int i = 0;i < w;i++) {
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for(int j = 0;j < h;j++) {
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ret[i][j] = grid_[i][j] < 0;
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}
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}
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return ret;
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}
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}
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@ -0,0 +1,105 @@
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package random
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import java.util.*
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class RandomDisplacementFractal(val roughness: Float,val width: Int,val height: Int) {
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/** Source of entropy */
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private var rand_: Random = Random()
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/** Amount of roughness */
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val roughness_ = roughness / width
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/** Plasma fractal grid */
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private val grid_: Array<FloatArray> = Array(width) { FloatArray(height) }
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init {
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println("Creating fractal...")
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initialise()
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println("fractal created")
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}
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fun initialise() {
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val xh = grid_.size - 1
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val yh = grid_[0].size - 1
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// set the corner points
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grid_[0][0] = rand_.nextFloat() - 0.5f
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grid_[0][yh] = rand_.nextFloat() - 0.5f
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grid_[xh][0] = rand_.nextFloat() - 0.5f
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grid_[xh][yh] = rand_.nextFloat() - 0.5f
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// generate the fractal
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generate(0, 0, xh, yh)
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}
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// Add a suitable amount of random displacement to a point
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private fun roughen(v: Float, l: Int, h: Int): Float {
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return v + roughness_ * (rand_.nextGaussian() * (h - l)).toFloat()
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}
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operator fun get(i: Int, j: Int): Float {
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if (i >= 0 && i < grid_.size) {
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if (j >= 0 && j < grid_[0].size) {
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return grid_[i][j]
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}
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}
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throw IndexOutOfBoundsException("Out of bounds access detected!")
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}
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// generate the fractal
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private fun generate(xl: Int, yl: Int, xh: Int, yh: Int) {
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val xm = (xl + xh) / 2
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val ym = (yl + yh) / 2
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if (xl == xm && yl == ym) return
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grid_[xm][yl] = 0.5f * (grid_[xl][yl] + grid_[xh][yl])
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grid_[xm][yh] = 0.5f * (grid_[xl][yh] + grid_[xh][yh])
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grid_[xl][ym] = 0.5f * (grid_[xl][yl] + grid_[xl][yh])
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grid_[xh][ym] = 0.5f * (grid_[xh][yl] + grid_[xh][yh])
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val v = roughen(
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0.5f * (grid_[xm][yl] + grid_[xm][yh]), xl + yl, yh
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+ xh
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)
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grid_[xm][ym] = v
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grid_[xm][yl] = roughen(grid_[xm][yl], xl, xh)
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grid_[xm][yh] = roughen(grid_[xm][yh], xl, xh)
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grid_[xl][ym] = roughen(grid_[xl][ym], yl, yh)
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grid_[xh][ym] = roughen(grid_[xh][ym], yl, yh)
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generate(xl, yl, xm, ym)
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generate(xm, yl, xh, ym)
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generate(xl, ym, xm, yh)
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generate(xm, ym, xh, yh)
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}
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/**
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* Dump out as a CSV
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*/
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fun printAsCSV() {
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for (floats in grid_) {
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for (j in grid_[0].indices) {
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print(floats[j])
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print(",")
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}
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println()
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}
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}
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/**
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* Convert to a Boolean array
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* @return the boolean array
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*/
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fun toBooleans(): Array<BooleanArray>? {
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val w = grid_.size
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val h = grid_[0].size
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val ret = Array(w) { BooleanArray(h) }
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for (i in 0 until w) {
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for (j in 0 until h) {
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ret[i][j] = grid_[i][j] < 0
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}
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}
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return ret
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}
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}
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