Working on 3D.

README.md

@@ -1,24 +1,11 @@
-Geometric Separators and the Parabolic Lift
+geometric_separators
 ====================
 
-About:
-------
-
-This Processing application is based off the paper [**Geometric Separators and the Parabolic Lift** by Don Sheehy](http://donsheehy.net/research/sheehy13geometric.pdf) and demonstrates basic usage of an algorithm (in the above paper) for finding a geometric separator for 2-D points.
+Geometric separators project for CSE 4095 (Computational Geometry).
 
-Usage:
+About:
 ------
 
-The application consists of a canvas and two buttons. It will allow you input a number of 2-D Euclidean points using a mouse and calculate the geometric separator. Tentatively, you will also be able to provide a file of predefined points (e.g. .csv format).
-
-Click the mouse anywhere on the canvas to create a new input point. When you have completed your input, either press 'Reset.' to clear it or 'Calculate.' to find the separator.
-
-Features:
----------
+This Java program will allow you to input 2D
 
-The program will visualize several components of the algorithm:
 
-* Highlights the estimated centerpoint for your input.
-* Shows the separator in relation to your input.
-* Outputs the numerical information associated with the above.
-* Perhaps more...

geometric_separators.pde

@@ -1,6 +1,8 @@
 import java.util.*;
 import java.util.Map.*;
 import java.lang.Boolean;
+import java.util.Random;
+import org.jblas.*;
 
 int reset_x = 140;
 int reset_y = 460;
@@ -12,13 +14,33 @@ int calc_y = 460;
 int calc_w = 100;
 int calc_h = 25;
 
+int exam_x = 360;
+int exam_y = 460;
+int exam_w = 100;
+int exam_h = 25;
+
 PShape reset;
 PShape calculate;
 PShape sphere;
+PShape example;
 PVector centerPoint;
 ArrayList<PVector> rawInput = new ArrayList<PVector>();
 Comparator<PVector> compareX, compareXRev, compareY, compareYRev;
 
+PShape exampleSphere;
+PVector exampleCenterPoint;
+
+ArrayList<PVector> exampleList = new ArrayList<PVector>();
+PVector ex1;
+PVector ex2;
+PVector ex3;
+PVector ex4;
+PVector ex5;
+PVector ex6;
+PVector ex7;
+PVector ex8;
+PVector ex9;
+
 // Triple used for returning three items
 private class ReturnTriple {
 	public float sum;
@@ -48,6 +70,8 @@ void setup() {
   // Create buttons
   reset = createShape(RECT, reset_x, reset_y, reset_w, reset_h);
   calculate = createShape(RECT, calc_x, calc_y, calc_w, calc_h);
+  example = createShape(RECT, exam_x, exam_y, exam_w, exam_h);
+  //
   sphere = null;
   noLoop();
   compareX = new Comparator<PVector>() {
@@ -102,6 +126,16 @@ void setup() {
 			}
 		}
 	};
+    ex1 = new PVector(253, 102);
+    ex2 = new PVector(248, 99);
+    ex3 = new PVector(256, 106);
+    ex4 = new PVector(88, 347);
+    ex5 = new PVector(89, 345);
+    ex6 = new PVector(92, 356);
+    ex7 = new PVector(411, 347);
+    ex8 = new PVector(407, 354);
+    ex9 = new PVector(410, 346);
+    exampleList = new ArrayList<PVector>();
 }
 
 // On mouse press
@@ -111,36 +145,147 @@ void mousePressed() {
 	(mouseY >= reset_y && mouseY <= (reset_y + reset_h))) {
 		// Reset input and background
 		rawInput.clear();
+        exampleList.clear();
 		centerPoint = null;
         sphere = null;
+        exampleCenterPoint = null;
+        exampleSphere = null;
   }
   // If mouse presses calculate button
   else if ((mouseX >= calc_x && mouseX <= (calc_x + calc_w)) &&
 	   (mouseY >= calc_y && mouseY <= (calc_y + calc_h))) {
     	// Run algorithm
-        CenterAndSphere returnVals = getSeparator(rawInput);
-        sphere = returnVals.sphere;
-        centerPoint = returnVals.center;
+        // CenterAndSphere returnVals = getSeparator(rawInput);
+        // sphere = returnVals.sphere;
+        // centerPoint = returnVals.center;
+        getSolution(rawInput);
+  }
+  // If example
+  else if ((mouseX >= exam_x && mouseX <= (exam_x + exam_w)) &&
+       (mouseY >= exam_y && mouseY <= (exam_y + exam_h))) {
+        rawInput.clear();
+        exampleList.add(ex1);
+        exampleList.add(ex2);
+        exampleList.add(ex3);
+        exampleList.add(ex4);
+        exampleList.add(ex5);
+        exampleList.add(ex6);
+        exampleList.add(ex7);
+        exampleList.add(ex8);
+        exampleList.add(ex9);
+        exampleCenterPoint = new PVector(250, 250, 20000);
+        CenterAndSphere example = getExample(exampleCenterPoint);
+        exampleSphere = example.sphere;
+        System.out.println(exampleSphere);
   }
   else {
         // Create new 2D point from mouse coordinates
 		PVector prelim_point = new PVector(mouseX, mouseY);
         // Lift to 3D with the squared magnitude of the original point
         PVector final_point = new PVector(prelim_point.x, prelim_point.y,
             (float)Math.pow(prelim_point.mag(), 2));
-        System.out.println(final_point);
 		rawInput.add(final_point);
   }
   redraw();
 }
 
+// Set solution of set of equations
+void getSolution(ArrayList<PVector> input) {
+    System.out.println("Solver...");
+    // Set a to equal our points
+    // DenseMatrix64F a = new DenseMatrix64F(input.size(), 4);
+    // DenseMatrix64F b = new DenseMatrix64F(5, 1);
+    // DenseMatrix64F x = new DenseMatrix64F(4, 1);
+    float[][] aData = new float[3][input.size()];
+    for (int i = 0; i < input.size(); i++) {
+        for (int j = 0; j < 3; j++) {
+            switch(j) {
+                case 0: aData[j][i] = input.get(i).x;
+                    break;
+                case 1: aData[j][i] = input.get(i).y;
+                    break;
+                case 2: aData[j][i] = input.get(i).z;
+                    break;
+            }
+        }
+    }
+    FloatMatrix coefficients = new FloatMatrix(aData);
+    System.out.println("Coeff");
+    for (int i = 0; i < 3; i++) {
+        System.out.println("Row");
+        for (int j = 0; j < 5; j++) {
+            System.out.println(coefficients.get(i,j));
+        }
+    }
+    FloatMatrix constants = FloatMatrix.zeros(5, 2);
+    FloatMatrix solution = Solve.solveLeastSquares(coefficients, constants);
+    System.out.println("Sol");
+    for (int i = 0; i < 5; i++) {
+        System.out.println("Row");
+        for (int j = 0; j < 2; j++) {
+            System.out.println(solution.get(i,j));
+        }
+    }
+    // RealMatrix coefficients = new Array2DRowRealMatrix(aData, false);
+    // RealVector constants = new ArrayRealVector(new double[] {1, 1, 1, 1, 1}, false);
+    // DecompositionSolver solver = new org.apache.commons.math3.linear.SingularValueDecomposition(coefficients).getSolver();
+    // RealVector solution = solver.solve(constants);
+    // for (int i = 0; i < input.size(); i++) {
+    //     for (int j = 0; j < 5; j++) {
+    //         switch(j) {
+    //             case 0: a.set(j, i, input.get(i).x);
+    //                 break;
+    //             case 1: a.set(j, i, input.get(i).y);
+    //                 break;
+    //             case 2: a.set(j, i, input.get(i).z);
+    //                 break;
+    //             case 3: a.set(j, i, 1);
+    //                 break;
+    //         }
+    //         System.out.println(a.get(j, i));
+    //     }
+    // }
+    // System.out.println("Finished A.");
+    // // Set b to equal 0
+    // for (int i = 0; i < 4; i++) {
+    //     b.set(i, 0, 0);
+    // }
+    // LinearSolver<DenseMatrix64F> solver = LinearSolverFactory.leastSquares(4, input.size());
+    // solver = new LinearSolverSafe<DenseMatrix64F>(solver);
+    // solver.solve(b, x);
+    // for (int i = 0; i < x.getNumElements(); i++) {
+    //     System.out.println(x.get(i, 0));
+    // }
+}
+
+// Show example
+CenterAndSphere getExample(PVector exampleCenterPoint) {
+    PVector unitVector = PVector.random3D();
+    //unitVector.mult(500);
+    unitVector.x = Math.abs(unitVector.x);
+    unitVector.y = Math.abs(unitVector.y);
+    unitVector.z = Math.abs(unitVector.z);
+    float radius = getRadius(exampleCenterPoint, unitVector);
+    System.out.println(radius);
+    float[] sphereAttributes = getSphereAttr(exampleCenterPoint, unitVector, radius);
+    PShape separator = createShape(ELLIPSE, sphereAttributes);
+    CenterAndSphere returnVals = new CenterAndSphere(exampleCenterPoint, separator);
+    return returnVals;
+}
+
 // Get geometric separator
 CenterAndSphere getSeparator(ArrayList<PVector> input) {
     // Algorithm
     // 1. Get centerpoint
     PVector centerPoint = approxCenterpoint(input);
     // 2. Get random unit vector in 3D
     PVector unitVector = PVector.random3D();
+    unitVector.mult(500);
+    unitVector.x = Math.abs(unitVector.x);
+    unitVector.y = Math.abs(unitVector.y);
+    unitVector.z = Math.abs(unitVector.z);
+    System.out.println("Unit Vector...");
+    System.out.println(unitVector);
     // 3. Get radius
     float radius = getRadius(centerPoint, unitVector);
     // 4. Output sphere separator
@@ -153,8 +298,11 @@ CenterAndSphere getSeparator(ArrayList<PVector> input) {
 // Get radius for our separator
 float getRadius(PVector centerPoint, PVector unitVector) {
     PVector centerPoint2D = new PVector(centerPoint.x, centerPoint.y);
+    System.out.println(centerPoint);
+    System.out.println(centerPoint2D);
     float num = (float)Math.sqrt(Math.abs(centerPoint.z - Math.pow(centerPoint2D.mag(), 2)));
     System.out.println(num);
+    System.out.println(unitVector.z);
     return num / Math.abs(unitVector.z);
 }
 
@@ -164,10 +312,7 @@ float[] getSphereAttr(PVector centerPoint, PVector unitVector, float radius) {
     PVector centerPointCopy = new PVector(centerPoint.x, centerPoint.y);
     unitVectorCopy.mult(radius);
     centerPointCopy.sub(unitVectorCopy);
-    float x = centerPointCopy.x - radius;
-    float y = centerPointCopy.y - radius;
-    float z = centerPointCopy.z - radius;
-    float[] attributes = {x, y, 2 * radius, 2 * radius};
+    float[] attributes = {centerPointCopy.x, centerPointCopy.y, 2 * radius, 2 * radius};
     return attributes;
 }
 
@@ -180,12 +325,12 @@ PVector getGeometricMedian(ArrayList<PVector> input) {
 	else if (input.size() == 1) {
 		return input.get(0);
 	}
-    else if (input.size() == 2) {
-        // Nothing yet
-    }
-    else if (input.size() == 4) {
-        // Nothing yet
-    }
+    // else if (input.size() == 2) {
+    //     // Nothing yet
+    // }
+    // else if (input.size() == 4) {
+    //     // Nothing yet
+    // }
 	else {
 		// Get the point
         HashMap<PVector, Float> total = new HashMap<PVector, Float>();
@@ -343,29 +488,49 @@ HashMap<PVector, Float> getAxisMin(ArrayList<PVector> input, boolean isY) {
 // Draw
 void draw() {
   background(255);
+  // Draw center point
+  if (centerPoint != null) {
+        strokeWeight(6);
+        point(centerPoint.x, centerPoint.y);
+        System.out.println("x-coordinate: " + Float.toString(centerPoint.x));
+        System.out.println("y-coordinate: " + Float.toString(centerPoint.y));
+  }
+  // Draw separator sphere projected to 2D
+  if (sphere != null) {
+        strokeWeight(6);
+        shape(sphere);
+  }
+  if (exampleSphere != null) {
+        strokeWeight(6);
+        fill(255);
+        ellipseMode(CENTER);
+        shape(exampleSphere);
+  }
+  if (exampleCenterPoint != null) {
+        stroke(255, 0, 0);
+        strokeWeight(6);
+        point(exampleCenterPoint.x, exampleCenterPoint.y);
+        System.out.println("x-coordinate: " + Float.toString(exampleCenterPoint.x));
+        System.out.println("y-coordinate: " + Float.toString(exampleCenterPoint.y));
+        stroke(0);
+  }
   shape(reset);
   shape(calculate);
+  shape(example);
   fill(50);
   textSize(20);
   text("Geometric Separators", 140, 20);
   textSize(12);
   text("Reset.", reset_x + 30, reset_y + 15);
   text("Calculate.", calc_x + 25, calc_y + 15);
+  text("Example.", exam_x + 25, exam_y + 15);
   // Draw input
   for (PVector point : rawInput) {
-        strokeWeight(4);
+        strokeWeight(8);
         point(point.x, point.y);
   }
-  // Draw center point
-  if (centerPoint != null) {
-        strokeWeight(6);
-        point(centerPoint.x, centerPoint.y);
-        System.out.println("x-coordinate: " + Float.toString(centerPoint.x));
-        System.out.println("y-coordinate: " + Float.toString(centerPoint.y));
-  }
-  // Draw separator sphere projected to 2D
-  if (sphere != null) {
-        strokeWeight(6);
-        shape(sphere);
+  for (PVector point : exampleList) {
+        strokeWeight(8);
+        point(point.x, point.y);
   }
 }