X-Git-Url: http://git.megacz.com/?p=anneal.git;a=blobdiff_plain;f=src%2Fedu%2Fberkeley%2Fqfat%2Fgeom%2FTriangle.java;h=3620f71d9ae51b358fe874037bd6bac5c55c1e7a;hp=18c73a035c173ead9cf409f5f93276efafd1a5cb;hb=94a51f6ee148dbc5dc4fddcd6e3bd13fee12f4fa;hpb=0f46c2445481610b7d4e7914bd4f3353652caf45

diff --git a/src/edu/berkeley/qfat/geom/Triangle.java b/src/edu/berkeley/qfat/geom/Triangle.java
index 18c73a0..3620f71 100644
--- a/src/edu/berkeley/qfat/geom/Triangle.java
+++ b/src/edu/berkeley/qfat/geom/Triangle.java
@@ -2,7 +2,8 @@ package edu.berkeley.qfat.geom;
 import javax.media.opengl.*;
 
 /**
- *  an oriented triangle, defined by three points in clockwise order.
+ *  An oriented triangle, defined by three points in clockwise order;
+ *  note that the Point objects returned by p1/p2/p3 may vary over time.
  */
 public abstract class Triangle implements HasBoundingBox {
     public abstract Point p1();
@@ -43,6 +44,77 @@ public abstract class Triangle implements HasBoundingBox {
         return 1/(1+area()/(max*max));
     }
 
+    /** decide if the segment from p1-p2 intersects this triangle */
+    public boolean intersects(Point p1, Point p2) {
+        double A0=p1().x, A1=p1().y, A2=p1().z;
+        double B0=p2().x, B1=p2().y, B2=p2().z;
+        double C0=p3().x, C1=p3().y, C2=p3().z;
+        double j0=p1.x, j1=p1.y, j2=p1.z;
+        double k0=p2.x, k1=p2.y, k2=p2.z;
+        double J0, J1, J2;
+        double K0, K1, K2;
+        double i0, i1, i2;
+        double a0, a1, a2;
+        double b0, b1, b2;
+        double c0, c1, c2;
+        double in_det;
+        double R00, R01, R02, R03,
+            R10, R11, R12, R13,
+            R20, R21, R22, R23,
+            R30, R31, R32, R33;
+
+
+        /* a = B - A */
+        a0 = B0 - A0; 
+        a1 = B1 - A1; 
+        a2 = B2 - A2;
+        /* b = C - B */
+        b0 = C0 - A0;
+        b1 = C1 - A1;
+        b2 = C2 - A2;
+        /* c = a &times; b */
+        c0 = a1 * b2 - a2 * b1;
+        c1 = a2 * b0 - a0 * b2;
+        c2 = a0 * b1 - a1 * b0;
+ 
+        /* M^(-1) = (1/det(M)) * adj(M) */
+        in_det = 1 / (c0 * c0 + c1 * c1 + c2 * c2);
+        R00 = (b1 * c2 - b2 * c1) * in_det;
+        R01 = (b2 * c0 - b0 * c2) * in_det;
+        R02 = (b0 * c1 - b1 * c0) * in_det;
+        R10 = (c1 * a2 - c2 * a1) * in_det;
+        R11 = (c2 * a0 - c0 * a2) * in_det;
+        R12 = (c0 * a1 - c1 * a0) * in_det;
+        R20 = (c0) * in_det;
+        R21 = (c1) * in_det;
+        R22 = (c2) * in_det;
+  
+        /* O = M^(-1) * A */
+        R03 = -(R00 * A0 + R01 * A1 + R02 * A2);
+        R13 = -(R10 * A0 + R11 * A1 + R12 * A2);
+        R23 = -(R20 * A0 + R21 * A1 + R22 * A2);
+ 
+        /* fill in last row of 4x4 matrix */
+        R30 = R31 = R32 = 0;
+        R33 = 1;
+  
+        J2 = R20 * j0 + R21 * j1 + R22 * j2 + R23;
+        K2 = R20 * k0 + R21 * k1 + R22 * k2 + R23;
+        if (J2 * K2 >= 0) return false;
+
+        J0 = R00 * j0 + R01 * j1 + R02 * j2 + R03;
+        K0 = R00 * k0 + R01 * k1 + R02 * k2 + R03;
+        i0 = J0 + J2 * ((K0 - J0) / (J2 - K2));
+        if (i0 < 0 || i0 > 1) return false;
+  
+        J1 = R10 * j0 + R11 * j1 + R12 * j2 + R13;
+        K1 = R10 * k0 + R11 * k1 + R12 * k2 + R13;
+        i1 = J1 + J2 * ((K1 - J1) / (J2 - K2));
+        if (i1 < 0 || i1 > 1 || i0 + i1 > 1) return false;
+
+        return true;            
+    }
+
     public float getMaxX() { return Math.max(p1().x, Math.max(p2().x, p3().x)); }
     public float getMinX() { return Math.min(p1().x, Math.min(p2().x, p3().x)); }
     public float getMaxY() { return Math.max(p1().y, Math.max(p2().y, p3().y)); }