public EffectiveSRUAreaGraphics( Position A, Position B, Position C, Position D, int id, String labelName) { super(); verticalBearing = Calculator.bearing(A, C, Heading.RL); horizontalBearing = Calculator.bearing(A, B, Heading.RL); this.A = A; this.B = B; this.C = C; this.D = D; double width = Converter.metersToNm(A.distanceTo(B, CoordinateSystem.CARTESIAN)); double height = Converter.metersToNm(A.distanceTo(C, CoordinateSystem.CARTESIAN)); System.out.println("Width is " + width); System.out.println("Height is : " + height); effectiveArea = new AreaInternalGraphics( A, B, C, D, width, height, this, verticalBearing, horizontalBearing, labelName); topLine = new SarEffectiveAreaLines(A, B, LineType.TOP, this); bottomLine = new SarEffectiveAreaLines(C, D, LineType.BOTTOM, this); leftLine = new SarEffectiveAreaLines(A, C, LineType.LEFT, this); rightLine = new SarEffectiveAreaLines(B, D, LineType.RIGHT, this); add(effectiveArea); add(bottomLine); add(topLine); add(leftLine); add(rightLine); }
public EffectiveSRUAreaGraphics( Double width, Double height, SARData data, int id, String labelName) { super(); this.id = id; this.sarData = data; totalSize = width * height; // Find center point Position centerPosition = null; if (sarData instanceof RapidResponseData) { RapidResponseData rapidResponseData = (RapidResponseData) data; centerPosition = rapidResponseData.getDatum(); verticalBearing = Calculator.bearing(rapidResponseData.getA(), rapidResponseData.getD(), Heading.RL); horizontalBearing = Calculator.bearing(rapidResponseData.getA(), rapidResponseData.getB(), Heading.RL); // Vertical and horizontal must be swapped since the direction has // been set to very east or very west if (verticalBearing < 280 && verticalBearing > 260 || verticalBearing < 100 && verticalBearing > 70) { double newVer = verticalBearing; System.out.println("swapping"); verticalBearing = horizontalBearing; horizontalBearing = newVer; } // Reversing if direction is opposite way of assumed, assumed to be // headed in 90 direction ie. right if (horizontalBearing > 180 || horizontalBearing < 0) { horizontalBearing = Calculator.reverseDirection(horizontalBearing); } if (verticalBearing > 270 || verticalBearing < 90) { verticalBearing = Calculator.reverseDirection(verticalBearing); } System.out.println("Vertical bearing is: " + verticalBearing); System.out.println("Horizontal bearing is: " + horizontalBearing); } if (sarData instanceof DatumPointData) { DatumPointData datumData = (DatumPointData) data; verticalBearing = Calculator.bearing(datumData.getA(), datumData.getD(), Heading.RL); horizontalBearing = Calculator.bearing(datumData.getA(), datumData.getB(), Heading.RL); centerPosition = datumData.getDatumDownWind(); // Vertical and horizontal must be swapped since the direction has // been set to very east or very west if (verticalBearing < 280 && verticalBearing > 260 || verticalBearing < 100 && verticalBearing > 70) { double newVer = verticalBearing; System.out.println("swapping"); verticalBearing = horizontalBearing; horizontalBearing = newVer; } // Reversing if direction is opposite way of assumed, assumed to be // headed in 90 direction ie. right if (horizontalBearing > 180 || horizontalBearing < 0) { horizontalBearing = Calculator.reverseDirection(horizontalBearing); } if (verticalBearing > 270 || verticalBearing < 90) { verticalBearing = Calculator.reverseDirection(verticalBearing); } System.out.println("Vertical bearing is: " + verticalBearing); System.out.println("Horizontal bearing is: " + horizontalBearing); } // Find A position Position topCenter = Calculator.findPosition( centerPosition, Calculator.reverseDirection(verticalBearing), Converter.nmToMeters(height / 2)); A = Calculator.findPosition( topCenter, Calculator.reverseDirection(horizontalBearing), Converter.nmToMeters(width / 2)); B = Calculator.findPosition(A, horizontalBearing, Converter.nmToMeters(width)); C = Calculator.findPosition(A, verticalBearing, Converter.nmToMeters(height)); D = Calculator.findPosition(C, horizontalBearing, Converter.nmToMeters(width)); sarData.getEffortAllocationData().get(id).setEffectiveAreaA(A); sarData.getEffortAllocationData().get(id).setEffectiveAreaB(B); sarData.getEffortAllocationData().get(id).setEffectiveAreaC(C); sarData.getEffortAllocationData().get(id).setEffectiveAreaD(D); effectiveArea = new AreaInternalGraphics( A, B, C, D, width, height, this, verticalBearing, horizontalBearing, labelName); topLine = new SarEffectiveAreaLines(A, B, LineType.TOP, this); bottomLine = new SarEffectiveAreaLines(C, D, LineType.BOTTOM, this); leftLine = new SarEffectiveAreaLines(A, C, LineType.LEFT, this); rightLine = new SarEffectiveAreaLines(B, D, LineType.RIGHT, this); add(effectiveArea); add(bottomLine); add(topLine); add(leftLine); add(rightLine); }
private Position findIntersectionBottom(Position newPos) { // The mouse can be in 4 different areas int lengthMax = 500000; double bearing = C.rhumbLineBearingTo(newPos); System.out.println("Vertical bearing " + verticalBearing); System.out.println("Horizontal bearing " + horizontalBearing); Geo intersectionPoint = null; if (bearing >= 0 && bearing <= 180) { // if (bearing > 90 && bearing < 180){ // Create a line going from C, in reverse vertical direction eg up Position verticalEndPosition = Calculator.findPosition(A, verticalBearing, lengthMax); Geo a1 = new Geo(A.getLatitude(), A.getLongitude()); Geo a2 = new Geo(verticalEndPosition.getLatitude(), verticalEndPosition.getLongitude()); // Create a line going from newPos in reverse horizontal direction // eg left Position horizontalEndPosition = Calculator.findPosition( newPos, Calculator.reverseDirection(horizontalBearing), lengthMax); Geo b1 = new Geo(newPos.getLatitude(), newPos.getLongitude()); Geo b2 = new Geo(horizontalEndPosition.getLatitude(), horizontalEndPosition.getLongitude()); intersectionPoint = Intersection.segmentsIntersect(a1, a2, b1, b2); } if (bearing > 180) { // Create a line going from C, in reverse vertical direction eg up Position verticalEndPosition = Calculator.findPosition(C, verticalBearing, lengthMax); Geo a1 = new Geo(C.getLatitude(), C.getLongitude()); Geo a2 = new Geo(verticalEndPosition.getLatitude(), verticalEndPosition.getLongitude()); // Create a line going from newPos in horizontal direction eg right Position horizontalEndPosition = Calculator.findPosition(newPos, horizontalBearing, lengthMax); Geo b1 = new Geo(newPos.getLatitude(), newPos.getLongitude()); Geo b2 = new Geo(horizontalEndPosition.getLatitude(), horizontalEndPosition.getLongitude()); intersectionPoint = Intersection.segmentsIntersect(a1, a2, b1, b2); } if (intersectionPoint != null) { newPos = Position.create(intersectionPoint.getLatitude(), intersectionPoint.getLongitude()); return newPos; } else { System.out.println("something went bad... for mouse bearing " + bearing); return null; } }
public void updateLength(LineType type, Position newPos) { double height = 0; double width = 0; System.out.println(type); if (type == LineType.BOTTOM) { newPos = findIntersectionBottom(newPos); if (newPos != null) { // Check that we haven't moved the cursor to the "opposite" side // of the line ie. inversing double deltaValue = A.getLatitude() - (newPos.getLatitude() + deltaCorrection); // System.out.println(deltaValue); if (deltaValue > 0) { // if (Calculator.bearing(A, newPos, Heading.RL) > 0){ // We update C point C = newPos; // New length height = Calculator.range(A, C, Heading.GC); // Recalculate width width = totalSize / height; // if (height > 1 && width > 1) { // Recalculate B and D B = Calculator.findPosition(A, horizontalBearing, Converter.nmToMeters(width)); D = Calculator.findPosition(C, horizontalBearing, Converter.nmToMeters(width)); effectiveArea.updatePosition(A, B, C, D, width, height); updateLines(A, B, C, D); // } } } } if (type == LineType.TOP) { newPos = findIntersectionTop(newPos); if (newPos != null) { double deltaValue = newPos.getLatitude() - (C.getLatitude() + deltaCorrection); // System.out.println(deltaValue); // Make sure it doesn\t go over and place A under C // if (newPos.getLatitude() - 0.001 > C.getLatitude()) { // C latitude must always be below As latitude if (deltaValue > 0) { // We update A point A = newPos; // New length height = Calculator.range(A, C, Heading.RL); // Recalculate width width = totalSize / height; // Recalculate B and D B = Calculator.findPosition(A, horizontalBearing, Converter.nmToMeters(width)); D = Calculator.findPosition(C, horizontalBearing, Converter.nmToMeters(width)); effectiveArea.updatePosition(A, B, C, D, width, height); updateLines(A, B, C, D); } } } if (type == LineType.LEFT) { newPos = findIntersectionLeft(newPos); if (newPos != null) { double deltaValue = B.getLongitude() - (newPos.getLongitude() + deltaCorrection); // System.out.println(deltaValue); if (deltaValue > 0) { // We update C point A = newPos; // New width // New length width = Calculator.range(A, B, Heading.RL); // Recalculate width height = totalSize / width; // Recalculate C and D C = Calculator.findPosition(A, verticalBearing, Converter.nmToMeters(height)); D = Calculator.findPosition(C, horizontalBearing, Converter.nmToMeters(width)); effectiveArea.updatePosition(A, B, C, D, width, height); updateLines(A, B, C, D); } } } if (type == LineType.RIGHT) { newPos = findIntersectionRight(newPos); if (newPos != null) { double deltaValue = newPos.getLongitude() - (A.getLongitude() + deltaCorrection); // System.out.println(deltaValue); if (deltaValue > 0) { // We update B point B = newPos; // New width // New length width = Calculator.range(A, B, Heading.RL); // Recalculate width height = totalSize / width; // Recalculate C and D C = Calculator.findPosition(A, verticalBearing, Converter.nmToMeters(height)); D = Calculator.findPosition(C, horizontalBearing, Converter.nmToMeters(width)); effectiveArea.updatePosition(A, B, C, D, width, height); updateLines(A, B, C, D); } } else { System.out.println("Its null"); } } }