public bool isInButton(Location l) { if (this.sprite == null) { return(false); } if (this.sprite.getTexture() == null) { return(false); } if (this.sprite.getWidth() <= 0) { return(false); } if (this.sprite.getHeight() <= 0) { return(false); } l = l.getAbsoluteLocation(); Location sl = this.sprite.getLocation().getAbsoluteLocation(); double minX = sl.getX(); double minY = sl.getY(); double maxX = minX + this.sprite.getWidth(); double maxY = minY + this.sprite.getHeight(); bool xVal = minX <= l.getX() && maxX >= l.getX(); bool yVal = minY <= l.getY() && maxY >= l.getY(); sl.Dispose(); l.Dispose(); return(xVal && yVal); }
public Location getCrossProduct(Location between) { Location thisabs = this; Location betabs = between; double x = thisabs.getY() * betabs.getZ() - thisabs.getZ() * betabs.getY(); double y = thisabs.getZ() * betabs.getX() - thisabs.getX() * betabs.getZ(); double z = thisabs.getX() * betabs.getY() - thisabs.getY() * betabs.getX(); //thisabs.Dispose(); //betabs.Dispose(); return(new Location(x, y, z)); }
public static bool isHitting(BoundingBox box1, BoundingBox box2) { Location box1RefinedMin = box1.getRefinedMinPoint(); Location box1RefinedMax = box1.getRefinedMaxPoint(); Location box2RefinedMin = box2.getRefinedMinPoint(); Location box2RefinedMax = box2.getRefinedMaxPoint(); Location box1Min = box1RefinedMin.getAbsoluteLocation(); Location box1Max = box1RefinedMax.getAbsoluteLocation(); Location box2Min = box2RefinedMin.getAbsoluteLocation(); Location box2Max = box2RefinedMax.getAbsoluteLocation(); double myMinX = box1Min.getX(); double myMinY = box1Min.getY(); double myMinZ = box1Min.getZ(); double myMaxX = box1Max.getX(); double myMaxY = box1Max.getY(); double myMaxZ = box1Max.getZ(); double notMinX = box2Min.getX(); double notMinY = box2Min.getY(); double notMinZ = box2Min.getZ(); double notMaxX = box2Max.getX(); double notMaxY = box2Max.getY(); double notMaxZ = box2Max.getZ(); box1RefinedMin.Dispose(); box1RefinedMax.Dispose(); box2RefinedMin.Dispose(); box2RefinedMax.Dispose(); box1Min.Dispose(); box1Max.Dispose(); box2Min.Dispose(); box2Max.Dispose(); bool myXInside = (myMinX >= notMinX && myMinX <= notMaxX) || (myMaxX >= notMinX && myMaxX <= notMaxX); bool myYInside = (myMinY >= notMinY && myMinY <= notMaxY) || (myMaxY >= notMinY && myMaxY <= notMaxY); bool myZinside = (myMinZ >= notMinZ && myMinZ <= notMaxZ) || (myMaxZ >= notMinZ && myMaxZ <= notMaxZ); if (myXInside && myYInside && myZinside) { return(true); } bool notXInside = (notMinX >= myMinX && notMinX <= myMaxX) || (notMaxX >= myMinX && notMaxX <= myMaxX); bool notYInside = (notMinY >= myMinY && notMinY <= myMaxY) || (notMaxY >= myMinY && notMaxY <= myMaxY); bool notZInside = (notMinZ >= myMinZ && notMinZ <= myMaxZ) || (notMaxZ >= myMinZ && notMaxZ <= myMaxZ); if (notXInside && notYInside && notZInside) { return(true); } return(false); }
public Location getRefinedMaxPoint() { Location max = this.max.clone(); max.setX(max.getX() * this.getModel().getScaleX()); max.setY(max.getY() * this.getModel().getScaleY()); max.setZ(max.getZ() * this.getModel().getScaleZ()); max.setOwner(this.getModel().getLocation()); return(max); }
public Location getRefinedMinPoint() { Location min = this.min.clone(); min.setX(min.getX() * this.getModel().getScaleX()); min.setY(min.getY() * this.getModel().getScaleY()); min.setZ(min.getZ() * this.getModel().getScaleZ()); min.setOwner(this.getModel().getLocation()); return(min); }
public Location[] getAbsoluteMinMaxPoints() { /* * This will check children for their min X Y and Z values RELATIVE TO THIS OBJECT * THE RETURNED VALUE WILL BE RELATIVE TO THIS OBJECT, EXAMPLE; * THIS OBJECT IS AT 14, 14, 14 * THIS MIN POINT IS -4, -2, -4 (MAKING ITS ABS POSITION AT 10, 12, 10) * THE CHILD IS AT 3, 3, 3 OF THIS, MAKING ITS ABS 17, 17, 17 * THE CHILD MIN POINT IS -6, -6, -6 OF IT, MAKING ITS POSITION RELATIVE TO ITS OBJECT -3, -3, -3 * THAT MAKES THE RELATAIVE MIN POINT -4, -3, -4 (X FROM THIS MIN, Y FROM CHILD MIN, Z FROM THIS MIN) * THAT MAKES THE ABSOLUTE MIN POINT AT 10, 11, 10 * * RETURNS ARRAY TO INCREASE EFFICIENCY, BE SURE TO DISPOSE BOTH * getAbsoluteMinMaxPoints()[0] = min_point; * getAbsoluteMinMaxPoints()[1] = max_point; */ double minX = (this.min == null ? 0 : this.min.getX()); double minY = (this.min == null ? 0 : this.min.getY()); double minZ = (this.min == null ? 0 : this.min.getZ()); double maxX = (this.max == null ? 0 : this.max.getX()); double maxY = (this.max == null ? 0 : this.max.getY()); double maxZ = (this.max == null ? 0 : this.max.getZ()); foreach (Model child in this.children) { Location[] minMaxPoints = child.getAbsoluteMinMaxPoints(); Location minPoint = minMaxPoints[0]; Location maxPoint = minMaxPoints[1]; minPoint.add(child.getLocation()); maxPoint.add(child.getLocation()); //COMPARE VALUES if (minPoint.getX() < minX) { minX = minPoint.getX(); } if (minPoint.getY() < minY) { minY = minPoint.getY(); } if (minPoint.getZ() < minZ) { minZ = minPoint.getZ(); } //MAX VALUES if (maxPoint.getX() > maxX) { maxX = maxPoint.getX(); } if (maxPoint.getY() > maxY) { maxY = maxPoint.getY(); } if (maxPoint.getZ() > maxZ) { maxZ = maxPoint.getZ(); } //Clean.. soo clean minPoint.Dispose(); maxPoint.Dispose(); } Location aMinPoint = new Location(minX, minY, minZ); Location aMaxPoint = new Location(maxX, maxY, maxZ); return(new Location[] { aMinPoint, aMaxPoint }); }
public void scale(double amt) { min.setX(min.getX() * amt).setY(min.getY() * amt).setZ(min.getZ() * amt); max.setX(max.getX() * amt).setY(max.getY() * amt).setZ(max.getZ() * amt); }
public Vertice(Location l) : this() { this.x = l.getX(); this.y = l.getY(); this.z = l.getZ(); }