public static double CalcDistanceBetween3DPoints(Point3D p1, Point3D p2)
{
double distance = Math.Sqrt((p2.X - p1.X) * (p2.X - p1.X) +
(p2.Y - p1.Y) * (p2.Y - p1.Y) +
(p2.Z - p1.Z) * (p2.Z - p1.Z));
return distance;
}
public static void Main()
{
Console.WriteLine(FileUtils.GetFileExtension("example"));
Console.WriteLine(FileUtils.GetFileExtension("example.pdf"));
Console.WriteLine(FileUtils.GetFileExtension("example.new.pdf"));
Console.WriteLine(FileUtils.GetFileNameWithoutExtension("example"));
Console.WriteLine(FileUtils.GetFileNameWithoutExtension("example.pdf"));
Console.WriteLine(FileUtils.GetFileNameWithoutExtension("example.new.pdf"));
var pointOne2D = new Point2D(1, -2);
var pointTwo2D = new Point2D(3, 4);
Console.WriteLine("Distance in the 2D space = {0:f2}", GraphicUtils.CalculateDistance(pointOne2D, pointTwo2D));
var pointOne3D = new Point3D(5, 2, -1);
var pointTwo3D = new Point3D(3, -6, 4);
Console.WriteLine("Distance in the 3D space = {0:f2}", GraphicUtils.CalculateDistance(pointOne3D, pointTwo3D));
pointOne3D = new Point3D(0, 0, 0);
pointTwo3D = new Point3D(1, 0, 0);
var pointThree3D = new Point3D(0, 1, 0);
var pointFour3D = new Point3D(0, 0, 1);
var farPoint3D = new Point3D(1, 1, 1);
Console.WriteLine("Volume = {0:f2}", GraphicUtils.CalcVolume(pointOne3D, pointTwo3D, pointThree3D, pointFour3D));
Console.WriteLine("Diagonal XYZ = {0:f2}", GraphicUtils.CalcDistanceToCenter(farPoint3D));
Console.WriteLine("Diagonal XY = {0:f2}", GraphicUtils.CalcDistanceToCenter(pointTwo3D));
Console.WriteLine("Diagonal XZ = {0:f2}", GraphicUtils.CalcDistanceToCenter(pointFour3D));
Console.WriteLine("Diagonal YZ = {0:f2}", GraphicUtils.CalculateDistance(pointThree3D, pointFour3D));
}
static void Main()
{
Console.WriteLine(StringUtils.GetFileExtension("example"));
Console.WriteLine(StringUtils.GetFileExtension("example.pdf"));
Console.WriteLine(StringUtils.GetFileExtension("example.new.pdf"));
Console.WriteLine(StringUtils.GetFileNameWithoutExtension("example"));
Console.WriteLine(StringUtils.GetFileNameWithoutExtension("example.pdf"));
Console.WriteLine(StringUtils.GetFileNameWithoutExtension("example.new.pdf"));
Console.WriteLine("Distance in the 2D space = {0:f2}",
MathUtils.CalcDistance2D(new Point2D(1, -2), new Point2D(3, 4)));
Console.WriteLine("Distance in the 3D space = {0:f2}",
MathUtils.CalcDistance3D(new Point3D(5, 2, -1), new Point3D(3, -6, 4)));
double width = 3;
double height = 4;
double depth = 5;
Point3D start = new Point3D();
Point3D end = new Point3D(width, height, depth);
Console.WriteLine("Volume = {0:f2}", MathUtils.CalcParallelepipedVolume(width, height, depth));
Console.WriteLine("Diagonal XYZ = {0:f2}", MathUtils.ParallelepipedCalcDiagonalXYZ(start, end));
Console.WriteLine("Diagonal XY = {0:f2}", MathUtils.ParallelepipedCalcDiagonalXY(start, end));
Console.WriteLine("Diagonal XZ = {0:f2}", MathUtils.ParallelepipedCalcDiagonalXZ(start, end));
Console.WriteLine("Diagonal YZ = {0:f2}", MathUtils.ParallelepipedCalcDiagonalYZ(start, end));
}
static void Main()
{
Console.WriteLine(FileWorker.GetFileExtension("example.new.pdf"));
Console.WriteLine(FileWorker.GetFileName("example.pdf"));
var firstPoint = new Point2D(0, 10);
var secondPoint = new Point2D(15, 15);
var distance = PointMath.GetDistance(firstPoint, secondPoint);
Console.Write("Distance between two points 2D: ");
Console.WriteLine("{0:f2}", distance);
var firstPoint3D = new Point3D(0, 10, 15);
var secondPoint3D = new Point3D(0, 0, 0);
var distance3D = PointMath.GetDistance(firstPoint3D, secondPoint3D);
Console.Write("Distance between two points 3D: ");
Console.WriteLine("{0:f2}", distance3D);
var rectangle = new Rectangle(10, 10);
Console.Write("Diagonal of the 2d rectangle: ");
Console.WriteLine("{0:f2}", rectangle.CalculateDiagonal());
var cube = new Cube(10, 20, 30);
Console.Write("Volume of the cube: ");
Console.WriteLine("{0:f2}", cube.CalculateVolume());
Console.WriteLine("Two of the diagonals of the cube are: ");
Console.WriteLine("{0:f2}", cube.CalculateDiagonalXYZ());
Console.WriteLine("{0:f2}", cube.CalculateDiagonalXZ());
}
public static double GetDistance(Point3D first, Point3D second)
{
double distance = Math.Sqrt((second.X - first.X) * (second.X - first.X) +
(second.Y - first.Y) * (second.Y - first.Y) +
(second.Z - first.Z) * (second.Z - first.Z));
return distance;
}
/// <summary>
/// Calculates the volume of square shape by using coordinates of the four <see cref="Point3D"/>s.
/// </summary>
/// <param name="pointOne">Coordinates of the first <see cref="Point3D"/>.</param>
/// <param name="pointTwo">Coordinates of the second <see cref="Point3D"/>.</param>
/// <param name="pointThree">Coordinates of the third <see cref="Point3D"/>.</param>
/// <param name="pointFour">Coordinates of the fourth <see cref="Point3D"/>.</param>
/// <returns>Returns the volume of square shape.</returns>
public static double CalcVolume(Point3D pointOne, Point3D pointTwo, Point3D pointThree, Point3D pointFour)
{
double sideA = CalculateDistance(pointOne, pointTwo);
double sideB = CalculateDistance(pointOne, pointThree);
double sideC = CalculateDistance(pointOne, pointFour);
double volume = sideA * sideB * sideC;
return volume;
}
public double CalcDistance3D(Point3D a, Point3D b)
{
double distance = Math.Sqrt(
((b.X - a.X) * (b.X - a.X)) +
((b.Y - a.Y) * (b.Y - a.Y)) +
((b.Z - a.Z) * (b.Z - a.Z)));
return distance;
}
public static double CalculateDistance3D(Point3D firstPoint, Point3D secondPoint)
{
double diferenceX = Math.Pow(secondPoint.X - firstPoint.X, 2);
double diferenceY = Math.Pow(secondPoint.Y - firstPoint.Y, 2);
double diferenceZ = Math.Pow(secondPoint.Z - firstPoint.Z, 2);
double distance = Math.Sqrt(diferenceX + diferenceY + diferenceZ);
return distance;
}
public static double ParallelepipedCalcDiagonalYZ(Point3D start, Point3D end)
{
Point2D start2D = new Point2D(start.Y, start.Z);
Point2D end2D = new Point2D(end.Y, end.Z);
double distance = CalcDistance2D(start2D, end2D);
return distance;
}
public static double CalcDistance3D(Point3D first, Point3D second)
{
double xDistance = first.X - second.X;
double yDistance = first.Y = second.Y;
double zDistance = first.Z = second.Z;
double distance = Math.Sqrt(xDistance * xDistance + yDistance * yDistance + zDistance * zDistance);
return distance;
}
public static void Main()
{
IGeometryUtils geometryUtils = new GeometryUtils();
IFileUtils fileUtils = new FileUtils();
string[] fileNames = { "example", "example.pdf", "example.new.pdf" };
foreach (string fileName in fileNames)
{
try
{
Console.WriteLine(fileUtils.GetFileExtension(fileName));
}
catch (ArgumentException e)
{
Console.WriteLine(e.Message);
}
}
foreach (string fileName in fileNames)
{
try
{
Console.WriteLine(fileUtils.GetFileNameWithoutExtension(fileName));
}
catch (ArgumentException e)
{
Console.WriteLine(e.Message);
}
}
Point2D firstPoint2D = new Point2D(1, -2);
Point2D secondPoint2D = new Point2D(3, 4);
Console.WriteLine(
"Distance in the 2D space = {0:f2}",
geometryUtils.CalcDistance2D(firstPoint2D, secondPoint2D));
Point3D firstPoint3D = new Point3D(5, 2, -1);
Point3D secondPoint3D = new Point3D(3, -6, 4);
Console.WriteLine(
"Distance in the 3D space = {0:f2}",
geometryUtils.CalcDistance3D(firstPoint3D, secondPoint3D));
double width = 3;
double height = 4;
double depth = 5;
Volume volume = new Volume(width, height, depth);
Console.WriteLine("Volume = {0:f2}", volume.CalcVolume());
Console.WriteLine("Diagonal XYZ = {0:f2}", volume.CalcDiagonalXYZ(geometryUtils));
Console.WriteLine("Diagonal XY = {0:f2}", volume.CalcDiagonalXY(geometryUtils));
Console.WriteLine("Diagonal XZ = {0:f2}", volume.CalcDiagonalXZ(geometryUtils));
Console.WriteLine("Diagonal YZ = {0:f2}", volume.CalcDiagonalYZ(geometryUtils));
}
static void Main(string[] args)
{
// Tests for file extraction methods
{
Console.WriteLine(FileExtractor.GetFileExtension("example"));
Console.WriteLine(FileExtractor.GetFileExtension("example.pdf"));
Console.WriteLine(FileExtractor.GetFileExtension("example.new.pdf"));
Console.WriteLine(FileExtractor.GetFileNameWithoutExtension("example"));
Console.WriteLine(FileExtractor.GetFileNameWithoutExtension("example.pdf"));
Console.WriteLine(FileExtractor.GetFileNameWithoutExtension("example.new.pdf"));
}
Console.WriteLine();
// Tests for 2D point methods
{
Point2D firstPoint2D = new Point2D(2, 2);
Point2D secondPoint2D = new Point2D(3, 3);
double distance = Point2D.CalcDistanceBetween2DPoints(firstPoint2D, secondPoint2D);
Console.WriteLine("Distance in the 2D space = {0:f2}", distance);
Console.WriteLine("Diagonal XY = {0:f2}", firstPoint2D.CalcDiagonalXY());
}
Console.WriteLine();
// Tests for 3D point methods
{
Point3D firstPoint3D = new Point3D(1, 2, 3);
Point3D secondPoint3D = new Point3D(4, 5, 6);
double distance = Point3D.CalcDistanceBetween3DPoints(firstPoint3D, secondPoint3D);
Console.WriteLine("Distance in the 3D space = {0:f2}", distance);
// To calculate the Volume we should first create a 3D figure - i.e. a rectangular parallelepiped
// which has width, height and depth.
// GeometryMethods.CalcVolume(myParallepiped.Width, myParallepiped.Height, myParallepiped.Depth));
Console.WriteLine("Diagonal XYZ = {0:f2}", firstPoint3D.CalcDiagonalXYZ());
Console.WriteLine("Diagonal XY = {0:f2}", firstPoint3D.CalcDiagonalXY());
Console.WriteLine("Diagonal XZ = {0:f2}", firstPoint3D.CalcDiagonalXZ());
Console.WriteLine("Diagonal YZ = {0:f2}", firstPoint3D.CalcDiagonalYZ());
}
}
public static double CalcDistance3D(Point3D pointOne, Point3D pointTwo)
{
if (pointOne == null)
{
throw new ArgumentNullException("Point one cannot be null");
}
if (pointTwo == null)
{
throw new ArgumentNullException("Point two cannot be null");
}
double widthDistance = (pointTwo.X - pointOne.X) * (pointTwo.X - pointOne.X);
double heightDistance = (pointTwo.Y - pointOne.Y) * (pointTwo.Y - pointOne.Y);
double depthDistance = (pointTwo.Z - pointOne.Z) * (pointTwo.Z - pointOne.Z);
double distance = widthDistance + heightDistance + depthDistance;
distance = Math.Sqrt(distance);
return distance;
}
public static double ParallelepipedCalcDiagonalXYZ(Point3D start, Point3D end)
{
double distance = CalcDistance3D(start, end);
return distance;
}
/// <summary>
/// Calculates the distance between points in XY plane
/// </summary>
internal static double CalcDistance2D(Point3D p1, Point3D p2)
{
double distance = Math.Sqrt(((p2.X - p1.X) * (p2.X - p1.X)) + ((p2.Y - p1.Y) * (p2.Y - p1.Y)));
return distance;
}