public void SetProjectionOffCenterTest()
        {
            OrthographicProjection projection = new OrthographicProjection();

            projection.SetOffCenter(0, 4, 1, 4, 2, 10);

            OrthographicProjection camera2 = new OrthographicProjection();

            camera2.SetOffCenter(0, 4, 1, 4);
            camera2.Near = 2;
            camera2.Far  = 10;

            Projection camera3 = new OrthographicProjection
            {
                Left   = 0,
                Right  = 4,
                Bottom = 1,
                Top    = 4,
                Near   = 2,
                Far    = 10,
            };

            Matrix expected = Matrix.CreateOrthographicOffCenter(0, 4, 1, 4, 2, 10);

            Assert.IsTrue(Matrix.AreNumericallyEqual(expected, projection));
            Assert.IsTrue(Matrix.AreNumericallyEqual(expected, camera2));
            Assert.IsTrue(Matrix.AreNumericallyEqual(expected, camera3.ToMatrix()));
        }
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        public void GetScreenSizeWithOrthographic()
        {
            // Camera
            var projection = new OrthographicProjection();

            projection.SetOffCenter(0, 4, 0, 2);
            var camera     = new Camera(projection);
            var cameraNode = new CameraNode(camera);

            cameraNode.PoseWorld = new Pose(new Vector3(123, 456, -789), Matrix.CreateRotation(new Vector3(1, -2, 3), MathHelper.ToRadians(75)));

            // 2:1 viewport
            var viewport = new Viewport(10, 10, 200, 100);

            // Test object
            var shape           = new SphereShape();
            var geometricObject = new GeometricObject(shape);

            // Empty sphere at camera position.
            shape.Radius         = 0;
            geometricObject.Pose = cameraNode.PoseWorld;
            Vector2F screenSize = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);

            Assert.AreEqual(0, screenSize.X);
            Assert.AreEqual(0, screenSize.Y);

            // Empty sphere centered at near plane.
            shape.Radius         = 0;
            geometricObject.Pose = cameraNode.PoseWorld * new Pose(new Vector3(0.123f, -0.543f, -1));
            screenSize           = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
            Assert.AreEqual(0, screenSize.X);
            Assert.AreEqual(0, screenSize.Y);

            // Create sphere which as a bounding sphere of ~1 unit diameter:
            // Since the bounding sphere is based on the AABB, we need to make the
            // actual sphere a bit smaller.
            shape.Radius = 1 / (2 * (float)Math.Sqrt(3)) + Numeric.EpsilonF;

            // Sphere at camera position.
            geometricObject.Pose = cameraNode.PoseWorld;
            screenSize           = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
            Assert.IsTrue(Numeric.AreEqual(screenSize.X, 50.0f, 10f));
            Assert.IsTrue(Numeric.AreEqual(screenSize.Y, 50.0f, 10f));

            // Sphere at near plane.
            geometricObject.Pose = cameraNode.PoseWorld * new Pose(new Vector3(0.123f, -0.543f, -1));
            screenSize           = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
            Assert.IsTrue(Numeric.AreEqual(screenSize.X, 50.0f, 10f));
            Assert.IsTrue(Numeric.AreEqual(screenSize.Y, 50.0f, 10f));

            // Double distance --> same size
            geometricObject.Pose = cameraNode.PoseWorld * new Pose(new Vector3(0.123f, -0.543f, -2));
            screenSize           = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
            Assert.IsTrue(Numeric.AreEqual(screenSize.X, 50.0f, 10f));
            Assert.IsTrue(Numeric.AreEqual(screenSize.Y, 50.0f, 10f));
        }
Esempio n. 3
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        public void GetScreenSizeWithOrthographic()
        {
            // Camera
              var projection = new OrthographicProjection();
              projection.SetOffCenter(0, 4, 0, 2);
              var camera = new Camera(projection);
              var cameraNode = new CameraNode(camera);
              cameraNode.PoseWorld = new Pose(new Vector3F(123, 456, -789), Matrix33F.CreateRotation(new Vector3F(1, -2, 3), MathHelper.ToRadians(75)));

              // 2:1 viewport
              var viewport = new Viewport(10, 10, 200, 100);

              // Test object
              var shape = new SphereShape();
              var geometricObject = new GeometricObject(shape);

              // Empty sphere at camera position.
              shape.Radius = 0;
              geometricObject.Pose = cameraNode.PoseWorld;
              Vector2F screenSize = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
              Assert.AreEqual(0, screenSize.X);
              Assert.AreEqual(0, screenSize.Y);

              // Empty sphere centered at near plane.
              shape.Radius = 0;
              geometricObject.Pose = cameraNode.PoseWorld * new Pose(new Vector3F(0.123f, -0.543f, -1));
              screenSize = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
              Assert.AreEqual(0, screenSize.X);
              Assert.AreEqual(0, screenSize.Y);

              // Create sphere which as a bounding sphere of ~1 unit diameter:
              // Since the bounding sphere is based on the AABB, we need to make the
              // actual sphere a bit smaller.
              shape.Radius = 1 / (2 * (float)Math.Sqrt(3)) + Numeric.EpsilonF;

              // Sphere at camera position.
              geometricObject.Pose = cameraNode.PoseWorld;
              screenSize = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
              Assert.IsTrue(Numeric.AreEqual(screenSize.X, 50.0f, 10f));
              Assert.IsTrue(Numeric.AreEqual(screenSize.Y, 50.0f, 10f));

              // Sphere at near plane.
              geometricObject.Pose = cameraNode.PoseWorld * new Pose(new Vector3F(0.123f, -0.543f, -1));
              screenSize = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
              Assert.IsTrue(Numeric.AreEqual(screenSize.X, 50.0f, 10f));
              Assert.IsTrue(Numeric.AreEqual(screenSize.Y, 50.0f, 10f));

              // Double distance --> same size
              geometricObject.Pose = cameraNode.PoseWorld * new Pose(new Vector3F(0.123f, -0.543f, -2));
              screenSize = GraphicsHelper.GetScreenSize(cameraNode, viewport, geometricObject);
              Assert.IsTrue(Numeric.AreEqual(screenSize.X, 50.0f, 10f));
              Assert.IsTrue(Numeric.AreEqual(screenSize.Y, 50.0f, 10f));
        }
        public void SetProjectionOffCenterTest()
        {
            OrthographicProjection projection = new OrthographicProjection();
              projection.SetOffCenter(0, 4, 1, 4, 2, 10);

              OrthographicProjection camera2 = new OrthographicProjection();
              camera2.SetOffCenter(0, 4, 1, 4);
              camera2.Near = 2;
              camera2.Far = 10;

              Projection camera3 = new OrthographicProjection
              {
            Left = 0,
            Right = 4,
            Bottom = 1,
            Top = 4,
            Near = 2,
            Far = 10,
              };

              Matrix44F expected = Matrix44F.CreateOrthographicOffCenter(0, 4, 1, 4, 2, 10);
              Assert.IsTrue(Matrix44F.AreNumericallyEqual(expected, projection));
              Assert.IsTrue(Matrix44F.AreNumericallyEqual(expected, camera2));
              Assert.IsTrue(Matrix44F.AreNumericallyEqual(expected, camera3.ToMatrix44F()));
        }