diff --git a/core/test/processing/core/PVectorTest.java b/core/test/processing/core/PVectorTest.java new file mode 100644 index 000000000..9d97dc470 --- /dev/null +++ b/core/test/processing/core/PVectorTest.java @@ -0,0 +1,294 @@ +package processing.core; + +import org.junit.Assert; +import org.junit.Test; + +public class PVectorTest { + + @Test + public void testConstructors() { + PVector v0 = new PVector(); + Assert.assertEquals(0, v0.x, 0.0001f); + Assert.assertEquals(0, v0.y, 0.0001f); + Assert.assertEquals(0, v0.z, 0.0001f); + + PVector v2 = new PVector(3, 4); + Assert.assertEquals(3, v2.x, 0.0001f); + Assert.assertEquals(4, v2.y, 0.0001f); + Assert.assertEquals(0, v2.z, 0.0001f); + + PVector v3 = new PVector(1, 2, 3); + Assert.assertEquals(1, v3.x, 0.0001f); + Assert.assertEquals(2, v3.y, 0.0001f); + Assert.assertEquals(3, v3.z, 0.0001f); + } + + @Test + public void testSetAndCopy() { + PVector v = new PVector(1, 2, 3); + PVector copy = v.copy(); + Assert.assertEquals(v.x, copy.x, 0.0001f); + Assert.assertEquals(v.y, copy.y, 0.0001f); + Assert.assertEquals(v.z, copy.z, 0.0001f); + + v.set(4, 5, 6); + Assert.assertEquals(4, v.x, 0.0001f); + Assert.assertEquals(5, v.y, 0.0001f); + Assert.assertEquals(6, v.z, 0.0001f); + } + + @Test + public void testAdd() { + PVector v1 = new PVector(1, 1, 1); + PVector v2 = new PVector(2, 3, 4); + v1.add(v2); + Assert.assertEquals(3, v1.x, 0.0001f); + Assert.assertEquals(4, v1.y, 0.0001f); + Assert.assertEquals(5, v1.z, 0.0001f); + + PVector v3 = new PVector(1, 2, 3); + PVector result = PVector.add(v3, new PVector(4, 5, 6)); + Assert.assertEquals(5, result.x, 0.0001f); + Assert.assertEquals(7, result.y, 0.0001f); + Assert.assertEquals(9, result.z, 0.0001f); + } + + @Test + public void testSub() { + PVector v1 = new PVector(5, 7, 9); + PVector v2 = new PVector(1, 2, 3); + v1.sub(v2); + Assert.assertEquals(4, v1.x, 0.0001f); + Assert.assertEquals(5, v1.y, 0.0001f); + Assert.assertEquals(6, v1.z, 0.0001f); + + PVector v3 = new PVector(10, 10, 10); + PVector result = PVector.sub(v3, new PVector(3, 3, 3)); + Assert.assertEquals(7, result.x, 0.0001f); + Assert.assertEquals(7, result.y, 0.0001f); + Assert.assertEquals(7, result.z, 0.0001f); + } + + @Test + public void testMult() { + PVector v = new PVector(1, 2, 3); + v.mult(2); + Assert.assertEquals(2, v.x, 0.0001f); + Assert.assertEquals(4, v.y, 0.0001f); + Assert.assertEquals(6, v.z, 0.0001f); + + PVector result = PVector.mult(new PVector(1, 1, 1), 5); + Assert.assertEquals(5, result.x, 0.0001f); + Assert.assertEquals(5, result.y, 0.0001f); + Assert.assertEquals(5, result.z, 0.0001f); + } + + @Test + public void testDiv() { + PVector v1 = new PVector(10, 20, 30); + v1.div(2); + Assert.assertEquals(5, v1.x, 0.0001f); + Assert.assertEquals(10, v1.y, 0.0001f); + Assert.assertEquals(15, v1.z, 0.0001f); + + PVector result = PVector.div(new PVector(10, 20, 30), 2); + Assert.assertEquals(5, result.x, 0.0001f); + Assert.assertEquals(10, result.y, 0.0001f); + Assert.assertEquals(15, result.z, 0.0001f); + + // Division by zero + PVector v2 = new PVector(1, 2, 3); + v2.div(0); + Assert.assertTrue(Float.isInfinite(v2.x)); + Assert.assertTrue(Float.isInfinite(v2.y)); + Assert.assertTrue(Float.isInfinite(v2.z)); + } + + @Test + public void testMagnitude() { + PVector v = new PVector(3, 4, 0); + Assert.assertEquals(5, v.mag(), 0.0001f); + Assert.assertEquals(25, v.magSq(), 0.0001f); + } + + @Test + public void testDot() { + PVector v1 = new PVector(1, 2, 3); + PVector v2 = new PVector(4, -5, 6); + float dot = v1.dot(v2); + Assert.assertEquals(12, dot, 0.0001f); + + float dotStatic = PVector.dot(v1, v2); + Assert.assertEquals(12, dotStatic, 0.0001f); + } + + @Test + public void testCross() { + PVector v1 = new PVector(1, 0, 0); + PVector v2 = new PVector(0, 1, 0); + PVector cross = v1.cross(v2); + Assert.assertEquals(0, cross.x, 0.0001f); + Assert.assertEquals(0, cross.y, 0.0001f); + Assert.assertEquals(1, cross.z, 0.0001f); + } + + @Test + public void testNormalize() { + PVector v1 = new PVector(3, 4, 0); + v1.normalize(); + Assert.assertEquals(1, v1.mag(), 0.0001f); + + //with target + PVector v2 = new PVector(3, 4, 0); + PVector target = new PVector(); + PVector result = v2.normalize(target); + Assert.assertSame(target, result); + Assert.assertEquals(0.6f, result.x, 0.0001f); + Assert.assertEquals(0.8f, result.y, 0.0001f); + Assert.assertEquals(0, result.z, 0.0001f); + + // Normalize zero vector + PVector zero = new PVector(0, 0, 0); + zero.normalize(); + Assert.assertEquals(0, zero.x, 0.0001f); + Assert.assertEquals(0, zero.y, 0.0001f); + Assert.assertEquals(0, zero.z, 0.0001f); + + } + + @Test + public void testLimit() { + PVector v = new PVector(10, 0, 0); + v.limit(5); + Assert.assertEquals(5, v.mag(), 0.0001f); + } + + @Test + public void testSetMag() { + PVector v = new PVector(3, 4, 0); + v.setMag(10); + Assert.assertEquals(10, v.mag(), 0.0001f); + } + + @Test + public void testHeading() { + PVector v = new PVector(0, 1); + float heading = v.heading(); + Assert.assertEquals(PConstants.HALF_PI, heading, 0.0001f); + } + + @Test + public void testRotate() { + PVector v = new PVector(1, 0); + v.rotate(PConstants.HALF_PI); + Assert.assertEquals(0, v.x, 0.0001f); + Assert.assertEquals(1, v.y, 0.0001f); + } + + @Test + public void testLerp() { + PVector v1 = new PVector(0, 0, 0); + PVector v2 = new PVector(10, 10, 10); + v1.lerp(v2, 0.5f); + Assert.assertEquals(5, v1.x, 0.0001f); + Assert.assertEquals(5, v1.y, 0.0001f); + Assert.assertEquals(5, v1.z, 0.0001f); + + PVector result = PVector.lerp(new PVector(0, 0, 0), new PVector(10, 10, 10), 0.5f); + Assert.assertEquals(5, result.x, 0.0001f); + Assert.assertEquals(5, result.y, 0.0001f); + Assert.assertEquals(5, result.z, 0.0001f); + } + + @Test + public void testAngleBetween() { + PVector v1 = new PVector(1, 0, 0); + PVector v2 = new PVector(0, 1, 0); + float a1 = PVector.angleBetween(v1, v2); + Assert.assertEquals(PConstants.HALF_PI, a1, 0.0001f); + + // angleBetween with zero vectors + float a2 = PVector.angleBetween(new PVector(0, 0, 0), new PVector(1, 0, 0)); + Assert.assertEquals(0, a2, 0.0001f); + + // angleBetween with parallel vectors + float a3 = PVector.angleBetween(new PVector(1, 0, 0), new PVector(2, 0, 0)); + Assert.assertEquals(0, a3, 0.0001f); + + // angleBetween with opposite vectors + float a4 = PVector.angleBetween(new PVector(1, 0, 0), new PVector(-1, 0, 0)); + Assert.assertEquals(PConstants.PI, a4, 0.0001f); + } + + @Test + public void testFromAngle() { + PVector v = PVector.fromAngle(0); + Assert.assertEquals(1, v.x, 0.0001f); + Assert.assertEquals(0, v.y, 0.0001f); + Assert.assertEquals(0, v.z, 0.0001f); + + v = PVector.fromAngle(PConstants.HALF_PI); + Assert.assertEquals(0, v.x, 0.0001f); + Assert.assertEquals(1, v.y, 0.0001f); + Assert.assertEquals(0, v.z, 0.0001f); + + PVector target = new PVector(); + PVector result = PVector.fromAngle(PConstants.PI, target); + Assert.assertSame(target, result); + Assert.assertEquals(-1, result.x, 0.0001f); + Assert.assertEquals(0, result.y, 0.0001f); + } + + + @Test + public void testArray() { + PVector v = new PVector(3, 4, 5); + float[] arr = v.array(); + Assert.assertEquals(3, arr[0], 0.0001f); + Assert.assertEquals(4, arr[1], 0.0001f); + Assert.assertEquals(5, arr[2], 0.0001f); + } + + @Test + public void testRandom2D() { + PVector v = PVector.random2D(); + Assert.assertEquals(1, v.mag(), 0.0001f); + Assert.assertEquals(0, v.z, 0.0001f); + + PVector target = new PVector(); + PVector result = PVector.random2D(target); + Assert.assertSame(target, result); + Assert.assertEquals(1, result.mag(), 0.0001f); + } + + @Test + public void testRandom3D() { + PVector v = PVector.random3D(); + Assert.assertEquals(1, v.mag(), 0.0001f); + + PVector target = new PVector(); + PVector result = PVector.random3D(target); + Assert.assertSame(target, result); + Assert.assertEquals(1, result.mag(), 0.0001f); + } + + + @Test + public void testEqualsAndHashCode() { + PVector v1 = new PVector(1, 2, 3); + PVector v2 = new PVector(1, 2, 3); + PVector v3 = new PVector(3, 2, 1); + + Assert.assertTrue(v1.equals(v2)); + Assert.assertFalse(v1.equals(v3)); + Assert.assertEquals(v1.hashCode(), v2.hashCode()); + } + + @Test + public void testToString() { + PVector v = new PVector(1, 2, 3); + String expected = "[ 1.0, 2.0, 3.0 ]"; + Assert.assertEquals(expected, v.toString()); + } + +}