Fix commit from revision 953 which reverted a bunch of changes related to Froyo compatibility.

core/src/net/sf/openrocket/util/LinearInterpolator.java

@@ -1,9 +1,8 @@
 package net.sf.openrocket.util;
 
-import java.util.Arrays;
 import java.util.Iterator;
 import java.util.List;
-import java.util.Map;
+import java.util.SortedMap;
 import java.util.TreeMap;
 
 public class LinearInterpolator implements Cloneable {
@@ -74,32 +73,57 @@ public class LinearInterpolator implements Cloneable {
 
 
 	public double getValue(double x) {
-		Map.Entry<Double,Double> e1, e2;
 		double x1, x2;
-		double y1, y2;
+		Double y1, y2;
+		// Froyo does not support floorEntry, firstEntry or higherEntry.  We instead have to
+		// resort to using other more awkward methods.
 
-		e1 = sortMap.floorEntry(x);
+		y1 = sortMap.get(x);
 
-		if (e1 == null) {
-			// x smaller than any value in the set
-			e1 = sortMap.firstEntry();
-			if (e1 == null) {
+		if ( y1 != null ) {
+			// Wow, x was a key in the map.  Such luck.
+			return y1.doubleValue();
+		}
+
+		// we now know that x is not in the map, so we need to find the lower and higher keys.
+		
+		// let's just make certain that our map is not empty.
+		if ( sortMap.isEmpty() ) {
 			throw new IllegalStateException("No points added yet to the interpolator.");
 		}
-			return e1.getValue();
+		
+		// firstKey in the map - cannot be null since the map is not empty.
+		Double firstKey = sortMap.firstKey();
+
+		// x is smaller than the first entry in the map.
+		if ( x < firstKey.doubleValue() ) {
+			y1 = sortMap.get(firstKey);
+			return y1.doubleValue();
 		}
 		
-		x1 = e1.getKey();
-		e2 = sortMap.higherEntry(x1);
+		// floor key is the largest key smaller than x - since we have at least one key,
+		// and x>=firstKey, we know that floorKey != null.
+		Double floorKey = sortMap.subMap(firstKey, x).lastKey();
 
-		if (e2 == null) {
-			// x larger than any value in the set
-			return e1.getValue();
+		x1 = floorKey.doubleValue();
+		y1 = sortMap.get(floorKey);
+
+		// Now we need to find the key that is greater or equal to x
+		SortedMap<Double,Double> tailMap = sortMap.tailMap(x);
+
+		// Check if x is bigger than all the entries.
+		if ( tailMap.isEmpty() ) {
+			return y1.doubleValue();
+		}
+		Double ceilKey = tailMap.firstKey();
+		
+		// Check if x is bigger than all the entries.
+		if ( ceilKey == null ) {
+			return y1.doubleValue();
 		}
 		
-		x2 = e2.getKey();
-		y1 = e1.getValue();
-		y2 = e2.getValue();
+		x2 = ceilKey.doubleValue();
+		y2 = sortMap.get(ceilKey);
 
 		return (x - x1)/(x2-x1) * (y2-y1) + y1;
 	}
@@ -127,25 +151,4 @@ public class LinearInterpolator implements Cloneable {
 		}
 	}
 
-	
-	public static void main(String[] args) {
-		LinearInterpolator interpolator = new LinearInterpolator(
-				new double[] {1, 1.5, 2, 4, 5},
-				new double[] {0, 1,   0, 2, 2}
-		);
-		
-		for (double x=0; x < 6; x+=0.1) {
-			System.out.printf("%.1f:  %.2f\n", x, interpolator.getValue(x));
-		}
-		
-		// Should be the same
-		
-		ArrayList<Double> time = new ArrayList<Double>( Arrays.asList( new Double[] {1.0, 1.5, 2.0, 4.0, 5.0} ));
-		ArrayList<Double> y = new ArrayList<Double>( Arrays.asList( new Double[] {0.0, 1.0, 0.0, 2.0, 2.0} ));
-		
-		LinearInterpolator interpolator2 = new LinearInterpolator(time,y);
-		for (double x=0; x < 6; x+=0.1) {
-			System.out.printf("%.1f:  %.2f\n", x, interpolator2.getValue(x));
-		}
-	}	
 }