Exemplo n.º 1
0
        public void ShouldShadeHitWithReflectiveTransparentMaterial()
        {
            var w          = World.CreateDefault();
            var floorPlane = new XZPlane
            {
                Transform = CreateTranslation(0, -1, 0),
                Material  =
                {
                    Reflective      = 0.5f,
                    Transparency    = 0.5f,
                    RefractiveIndex = 1.5f,
                }
            };

            w.Objects.Add(floorPlane);
            var ball = new Sphere
            {
                Material =
                {
                    Color   = VColor.LinearRGB(1, 0, 0),
                    Ambient =               0.5f,
                },
                Transform = CreateTranslation(0, -3.5f, -0.5f),
            };

            w.Objects.Add(ball);

            var r     = new Ray(CreatePoint(0, 0, -3), CreateVector(0, -Sqrt(2) / 2, Sqrt(2) / 2));
            var xs    = Intersection.CreateList((Sqrt(2), floorPlane));
            var comps = Computations.Prepare(xs[0], r, xs);
            var color = w.ShadeHit(comps, 5);

            AssertActualEqualToExpected(color, VColor.LinearRGB(0.93391f, 0.69643f, 0.69243f));
        }
Exemplo n.º 2
0
        public void ShouldCreateDefaultWorld()
        {
            var light = new PointLight(CreatePoint(-10, 10, -10), VColor.White);
            var s1    = new Sphere
            {
                Material =
                {
                    Color    = VColor.LinearRGB(0.8f, 1, 0.6f),
                    Diffuse  =                  0.7f,
                    Specular =                  0.2f,
                }
            };
            var s2 = new Sphere
            {
                Transform = CreateScale(0.5f, 0.5f, 0.5f),
            };

            var w = World.CreateDefault();

            w.Lights.Should().Contain(light);
            w.Objects.Count.Should().Be(2);
            w.Objects[0].Material.Should().Be(s1.Material);
            w.Objects[0].Transform.Should().Be(s1.Transform);
            w.Objects[1].Material.Should().Be(s2.Material);
            w.Objects[1].Transform.Should().Be(s2.Transform);
        }
Exemplo n.º 3
0
        public void ShouldLinearlyInterpolateColorsInGradientPattern(float x)
        {
            var pattern = new GradientPattern(VColor.White, VColor.Black);

            AssertActualEqualToExpected(
                pattern.GetColorAt(CreatePoint(x, 0, 0)),
                VColor.LinearRGB(1 - x, 1 - x, 1 - x));
        }
Exemplo n.º 4
0
        public void ShouldComputeColorWhenRayHits()
        {
            var w = World.CreateDefault();
            var r = CreateRay(CreatePoint(0, 0, -5), CreateVector(0, 0, 1));
            var c = w.ComputeColor(r);

            AssertActualEqualToExpected(c, VColor.LinearRGB(0.38066f, 0.47583f, 0.2855f));
        }
Exemplo n.º 5
0
        public void ShouldShadeIntersection()
        {
            var w     = World.CreateDefault();
            var r     = CreateRay(CreatePoint(0, 0, -5), CreateVector(0, 0, 1));
            var shape = w.Objects.First();
            var i     = new Intersection(4, shape);
            var comps = Computations.Prepare(i, r);
            var c     = w.ShadeHit(comps);

            AssertActualEqualToExpected(c, VColor.LinearRGB(0.38066f, 0.47583f, 0.2855f));
        }
Exemplo n.º 6
0
        public void ShouldComputeLightingWithEyeBetweenLightAndSurface()
        {
            var m       = new Material();
            var p       = CreatePoint(0, 0, 0);
            var eye     = CreateVector(0, 0, -1);
            var normalY = CreateVector(0, 0, -1);
            var light   = new PointLight(CreatePoint(0, 0, -10), VColor.White);

            var result = m.ComputeColor(light, new Sphere(), p, eye, normalY);

            AssertActualEqualToExpected(result, VColor.LinearRGB(1.9f, 1.9f, 1.9f));
        }
Exemplo n.º 7
0
        public void ShouldComputeLightingWithSurfaceInShadow()
        {
            var m      = new Material();
            var p      = CreatePoint(0, 0, 0);
            var eye    = CreateVector(0, 0, -1);
            var normal = CreateVector(0, 0, -1);
            var light  = new PointLight(CreatePoint(0, 0, -10), VColor.White);

            var result = m.ComputeColor(light, new Sphere(), p, eye, normal, inShadow: true);

            AssertActualEqualToExpected(result, VColor.LinearRGB(0.1f, 0.1f, 0.1f));
        }
Exemplo n.º 8
0
        public void ShouldComputeLightingWithEyeInPathOfReflectionVector()
        {
            var m       = new Material();
            var p       = CreatePoint(0, 0, 0);
            var eye     = CreateVector(0, -Sqrt(2) / 2, -Sqrt(2) / 2);
            var normalY = CreateVector(0, 0, -1);
            var light   = new PointLight(CreatePoint(0, 10, -10), VColor.White);

            var result = m.ComputeColor(light, new Sphere(), p, eye, normalY);

            AssertActualEqualToExpected(result, VColor.LinearRGB(1.6364f, 1.6364f, 1.6364f));
        }
Exemplo n.º 9
0
        public void ShouldComputeLightingWithEyeOppositeSurfaceWithLightOffset45Degrees()
        {
            var m       = new Material();
            var p       = CreatePoint(0, 0, 0);
            var eye     = CreateVector(0, 0, -1);
            var normalY = CreateVector(0, 0, -1);
            var light   = new PointLight(CreatePoint(0, 10, -10), VColor.White);

            var result = m.ComputeColor(light, new Sphere(), p, eye, normalY);

            AssertActualEqualToExpected(result, VColor.LinearRGB(0.7364f, 0.7364f, 0.7364f));
        }
Exemplo n.º 10
0
        public void ShouldShadeIntersectionFromTheInside()
        {
            var w = World.CreateDefault();

            w.Lights[0] = new PointLight(CreatePoint(0, 0.25f, 0), VColor.White);
            var r     = CreateRay(CreatePoint(0, 0, 0), CreateVector(0, 0, 1));
            var shape = w.Objects[1];
            var i     = new Intersection(0.5f, shape);
            var comps = Computations.Prepare(i, r);
            var c     = w.ShadeHit(comps);

            AssertActualEqualToExpected(c, VColor.LinearRGB(0.90498f, 0.90498f, 0.90498f));
        }
Exemplo n.º 11
0
        public void ShouldComputeColorForReflectiveMaterial()
        {
            var w     = World.CreateDefault();
            var shape = new XZPlane
            {
                Material  = { Reflective = 0.5f },
                Transform = CreateTranslation(0, -1, 0),
            };

            w.Objects.Add(shape);
            var r     = CreateRay(CreatePoint(0, 0, -3), CreateVector(0, -Sqrt(2) / 2, Sqrt(2) / 2));
            var i     = new Intersection(Sqrt(2), shape);
            var comps = Computations.Prepare(i, r);
            var color = w.ShadeHit(comps, 4);

            AssertActualEqualToExpected(color, VColor.LinearRGB(0.87677f, 0.92436f, 0.82918f));
        }
Exemplo n.º 12
0
        public void ShouldComputeRefractedColorWithRefractedRay()
        {
            var w = World.CreateDefault();

            var a = w.Objects.First();

            a.Material.Ambient = 1;
            a.Material.Pattern = new TestPattern();

            var b = w.Objects[1];

            b.Material.Transparency    = 1;
            b.Material.RefractiveIndex = 1.5f;

            var r     = new Ray(CreatePoint(0, 0, 0.1f), CreateVector(0, 1, 0));
            var xs    = Intersection.CreateList((-0.9899f, a), (-0.4899f, b), (0.4899f, b), (0.9899f, a));
            var comps = Computations.Prepare(xs[2], r, xs);
            var c     = w.ComputeRefractedColor(comps, 5);

            AssertActualEqualToExpected(c, VColor.LinearRGB(0, 0.99888f, 0.04725f));
        }
Exemplo n.º 13
0
        public void ShouldShowShadeIntersectionInShadow()
        {
            var w = new World
            {
                Lights  = { new PointLight(CreatePoint(0, 0, -10), VColor.White) },
                Objects =
                {
                    new Sphere(),
                    new Sphere
                    {
                        Transform = CreateTranslation(0, 0, 10)
                    },
                }
            };
            var r     = CreateRay(CreatePoint(0, 0, 5), CreateVector(0, 0, 1));
            var i     = new Intersection(4, w.Objects[1]);
            var comps = Computations.Prepare(i, r);
            var c     = w.ShadeHit(comps);

            AssertActualEqualToExpected(c, VColor.LinearRGB(0.1f, 0.1f, 0.1f));
        }
 public override Vector4 GetColorAt(Vector4 point) => VColor.LinearRGB(point.X, point.Y, point.Z);