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authorSven Gothel <[email protected]>2012-11-11 08:22:28 +0100
committerSven Gothel <[email protected]>2012-11-11 08:22:28 +0100
commit31d64a8e03e9c031181b32af55dc30ee3baad976 (patch)
treeef1d9970ec0a1611a7ecd53f4ea7ca7792bf0ea4 /src
parent802e80af821efbd20469d1e5b2157a9443dde0d9 (diff)
Frustum: Simpler usage (ctor, update) no need for explicit compute() method. Don't store passing PMV reference. isInside() -> isOutside()
Diffstat (limited to 'src')
-rw-r--r--src/jogl/classes/com/jogamp/opengl/math/geom/Frustum.java245
1 files changed, 143 insertions, 102 deletions
diff --git a/src/jogl/classes/com/jogamp/opengl/math/geom/Frustum.java b/src/jogl/classes/com/jogamp/opengl/math/geom/Frustum.java
index 7981903a9..d2e7403c2 100644
--- a/src/jogl/classes/com/jogamp/opengl/math/geom/Frustum.java
+++ b/src/jogl/classes/com/jogamp/opengl/math/geom/Frustum.java
@@ -27,143 +27,184 @@
*/
package com.jogamp.opengl.math.geom;
-import com.jogamp.common.os.Platform;
-import com.jogamp.opengl.math.FloatUtil;
-
+/**
+ * Derived Frustum of premultiplied projection * modelview matrix
+ * exposing {@link #isOutside(AABBox)} test and the {@link #getPlanes() planes} itself.
+ */
public class Frustum {
protected Plane[] planes = new Plane[6];
- protected float[] pmv;
-
- public Frustum(float[] pmv) {
- this.pmv = pmv;
+
+ /**
+ * Creates an undefined instance w/o calculating the frustum.
+ */
+ public Frustum() {
+ for (int i = 0; i < 6; ++i) {
+ planes[i] = new Plane();
+ }
+ }
+
+ /**
+ * Creates a defined instance w/ calculating the frustum
+ * using the passed float[16] as premultiplied P*MV.
+ */
+ public Frustum(float[] pmv, int pmv_off) {
for (int i = 0; i < 6; ++i) {
planes[i] = new Plane();
}
+ update(pmv, pmv_off);
}
- public void setMatrix(float[] pmv) {
- this.pmv = pmv;
- }
+ public static class Plane {
+ /** Normal of the plane */
+ public final float[] n = new float[3];
+
+ /** Distance to origin */
+ public float d;
+
+ /** Return distance of plane to given point */
+ public final float distanceTo(float x, float y, float z) {
+ return (n[0] * x) + (n[1] * y) + (n[2] * z) + d;
+ }
+
+ /** Return distance of plane to given point */
+ public final float distanceTo(float[] p) {
+ return (n[0] * p[0]) + (n[1] * p[1]) + (n[2] * p[2]) + d;
+ }
+
+ @Override
+ public String toString() {
+ return "Plane[ " + n + ", " + d + "]";
+ }
+ }
public final Plane[] getPlanes() { return planes; }
- public final float[] getPMV() { return pmv; }
-
- public class Plane {
- public final float[] n = new float[3];
- public float d;
+ /**
+ * Re-calculate the frustum
+ * using the passed float[16] as premultiplied P*MV.
+ */
+ public void update(float[] pmv, int pmv_off) {
+ // Left: [30+00, 31+01, 32+02, 33+03]
+ // comboMatrix.m[12] + comboMatrix.m[0];
+ {
+ final Plane p = planes[0];
+ final float[] p_n = p.n;
+ p_n[0] = pmv[ pmv_off + 12 ] + pmv[ pmv_off + 0 ];
+ p_n[1] = pmv[ pmv_off + 13 ] + pmv[ pmv_off + 1 ];
+ p_n[2] = pmv[ pmv_off + 14 ] + pmv[ pmv_off + 2 ];
+ p.d = pmv[ pmv_off + 15 ] + pmv[ pmv_off + 3 ];
+ }
- public final float distanceTo(float x, float y, float z) {
- return (n[0] * x) + (n[1] * y) + (n[2] * z) + d;
- }
+ // Right: [30-00, 31-01, 32-02, 33-03]
+ {
+ final Plane p = planes[1];
+ final float[] p_n = p.n;
+ p_n[0] = pmv[ pmv_off + 12 ] - pmv[ pmv_off + 0 ];
+ p_n[1] = pmv[ pmv_off + 13 ] - pmv[ pmv_off + 1 ];
+ p_n[2] = pmv[ pmv_off + 14 ] - pmv[ pmv_off + 2 ];
+ p.d = pmv[ pmv_off + 15 ] - pmv[ pmv_off + 3 ];
+ }
- @Override
- public String toString() {
- return "Plane[ [ " + n[0] + ", " + n[1] + ", " + n[2] + " ], " + d + "]";
- }
- }
+ // Bottom: [30+10, 31+11, 32+12, 33+13]
+ {
+ final Plane p = planes[2];
+ final float[] p_n = p.n;
+ p_n[0] = pmv[ pmv_off + 12 ] + pmv[ pmv_off + 4 ];
+ p_n[1] = pmv[ pmv_off + 13 ] + pmv[ pmv_off + 5 ];
+ p_n[2] = pmv[ pmv_off + 14 ] + pmv[ pmv_off + 6 ];
+ p.d = pmv[ pmv_off + 15 ] + pmv[ pmv_off + 7 ];
+ }
+
+ // Top: [30-10, 31-11, 32-12, 33-13]
+ {
+ final Plane p = planes[3];
+ final float[] p_n = p.n;
+ p_n[0] = pmv[ pmv_off + 12 ] - pmv[ pmv_off + 4 ];
+ p_n[1] = pmv[ pmv_off + 13 ] - pmv[ pmv_off + 5 ];
+ p_n[2] = pmv[ pmv_off + 14 ] - pmv[ pmv_off + 6 ];
+ p.d = pmv[ pmv_off + 15 ] - pmv[ pmv_off + 7 ];
+ }
+
+ // Near: [30+20, 31+21, 32+22, 33+23]
+ {
+ final Plane p = planes[4];
+ final float[] p_n = p.n;
+ p_n[0] = pmv[ pmv_off + 12 ] + pmv[ pmv_off + 8 ];
+ p_n[1] = pmv[ pmv_off + 13 ] + pmv[ pmv_off + 9 ];
+ p_n[2] = pmv[ pmv_off + 14 ] + pmv[ pmv_off + 10 ];
+ p.d = pmv[ pmv_off + 15 ] + pmv[ pmv_off + 11 ];
+ }
+
+ // Far: [30-20, 31-21, 32-22, 33-23]
+ {
+ final Plane p = planes[5];
+ final float[] p_n = p.n;
+ p_n[0] = pmv[ pmv_off + 12 ] - pmv[ pmv_off + 8 ];
+ p_n[1] = pmv[ pmv_off + 13 ] - pmv[ pmv_off + 9 ];
+ p_n[2] = pmv[ pmv_off + 14 ] - pmv[ pmv_off + 10 ];
+ p.d = pmv[ pmv_off + 15 ] - pmv[ pmv_off + 11 ];
+ }
+
+ for (int i = 0; i < 6; ++i) {
+ final Plane p = planes[i];
+ final float[] p_n = p.n;
+ final double invl = Math.sqrt(p_n[0] * p_n[0] + p_n[1] * p_n[1] + p_n[2] * p_n[2]);
+
+ p_n[0] *= invl;
+ p_n[1] *= invl;
+ p_n[2] *= invl;
+ p.d *= invl;
+ }
+ }
private static final boolean quickClassify(Plane p, AABBox box) {
final float[] low = box.getLow();
final float[] high = box.getHigh();
if (p.distanceTo(low[0], low[1], low[2]) > 0.0f)
- return (true);
+ return true;
if (p.distanceTo(high[0], low[1], low[2]) > 0.0f)
- return (true);
+ return true;
if (p.distanceTo(low[0], high[1], low[2]) > 0.0f)
- return (true);
+ return true;
if (p.distanceTo(high[0], high[1], low[2]) > 0.0f)
- return (true);
+ return true;
if (p.distanceTo(low[0], low[1], high[2]) > 0.0f)
- return (true);
+ return true;
if (p.distanceTo(high[0], low[1], high[2]) > 0.0f)
- return (true);
+ return true;
if (p.distanceTo(low[0], high[1], high[2]) > 0.0f)
- return (true);
+ return true;
if (p.distanceTo(high[0], high[1], high[2]) > 0.0f)
- return (true);
+ return true;
- return (false);
+ return false;
}
/**
- * Quick check to see if an orthogonal bounding box is inside the frustum
+ * Quick check to see if an orthogonal bounding box is completly outside of the frustum.
+ * <p>
+ * Note: If method returns false, the box may be only partially inside.
+ * </p>
*/
- public final boolean isInside(AABBox box) {
- for (int i = 0; i < 6; ++i) {
- if (!quickClassify(planes[i], box))
- return false;
- }
- // We make no attempt to determine whether it's fully inside or not.
- return true;
- }
-
- public void compute() {
- // Left: [30+00, 31+01, 32+02, 33+03]
- // comboMatrix.m[12] + comboMatrix.m[0];
-
- planes[0].n[0] = pmv[12] + pmv[0];
- planes[0].n[1] = pmv[13] + pmv[1];
- planes[0].n[2] = pmv[14] + pmv[2];
- planes[0].d = pmv[15] + pmv[3];
-
- // Right: [30-00, 31-01, 32-02, 33-03]
-
- planes[1].n[0] = pmv[12] - pmv[0];
- planes[1].n[1] = pmv[13] - pmv[1];
- planes[1].n[2] = pmv[14] - pmv[2];
- planes[1].d = pmv[15] - pmv[3];
-
- // Bottom: [30+10, 31+11, 32+12, 33+13]
-
- planes[2].n[0] = pmv[12] + pmv[4];
- planes[2].n[1] = pmv[13] + pmv[5];
- planes[2].n[2] = pmv[14] + pmv[6];
- planes[2].d = pmv[15] + pmv[7];
-
- // Top: [30-10, 31-11, 32-12, 33-13]
-
- planes[3].n[0] = pmv[12] - pmv[4];
- planes[3].n[1] = pmv[13] - pmv[5];
- planes[3].n[2] = pmv[14] - pmv[6];
- planes[3].d = pmv[15] - pmv[7];
-
- // Far: [30-20, 31-21, 32-22, 33-23]
-
- planes[5].n[0] = pmv[12] - pmv[8];
- planes[5].n[1] = pmv[13] - pmv[9];
- planes[5].n[2] = pmv[14] - pmv[10];
- planes[5].d = pmv[15] - pmv[11];
-
- // Near: [30+20, 31+21, 32+22, 33+23]
-
- planes[4].n[0] = pmv[12] + pmv[8];
- planes[4].n[1] = pmv[13] + pmv[9];
- planes[4].n[2] = pmv[14] + pmv[10];
- planes[4].d = pmv[15] + pmv[11];
-
-
- for (int i = 0; i < 6; ++i) {
- final float[] p_n = planes[i].n;
- final double invl = Math.sqrt(p_n[0] * p_n[0] + p_n[1] * p_n[1] + p_n[2] * p_n[2]);
-
- p_n[0] *= invl;
- p_n[1] *= invl;
- p_n[2] *= invl;
- planes[i].d *= invl;
- }
- }
-
+ public final boolean isOutside(AABBox box) {
+ for (int i = 0; i < 6; ++i) {
+ if (!quickClassify(planes[i], box)) {
+ // fully outside
+ return true;
+ }
+ }
+ // We make no attempt to determine whether it's fully inside or not.
+ return false;
+ }
+
public StringBuilder toString(StringBuilder sb) {
if( null == sb ) {
sb = new StringBuilder();
}
- sb.append("Frustum[ P*MV[").append(Platform.NEWLINE);
- FloatUtil.matrixToString(sb, "p*mv", null, pmv, 0, 4, 4, false);
- sb.append("], Planes[").append(planes[0]).append(", ");
+ sb.append("Frustum[ Planes[ ").append(planes[0]).append(", ");
sb.append(planes[1]).append(", ").append(planes[2]).append(", ").append(planes[3]).append(", ").append(planes[4]).append(", ");
- sb.append(planes[5]).append("] ]");
+ sb.append(planes[5]).append(" ] ]");
return sb;
}