コード例 #1
0
        /// <summary>
        /// Builds the bottom side of a cube into this Geometry (Built up of 4 vertices, so texture coordinates and normals are set)
        /// </summary>
        public static BuiltVerticesRange BuildCubeBottom(this GeometrySurface target, Vector3 start, Vector3 size)
        {
            var dest = start + size;

            return(target.BuildRect(
                       new Vector3(start.X, start.Y, dest.Z),
                       new Vector3(dest.X, start.Y, dest.Z),
                       new Vector3(dest.X, start.Y, start.Z),
                       new Vector3(start.X, start.Y, start.Z),
                       new Vector3(0f, -1f, 0f)));
        }
コード例 #2
0
        /// <summary>
        /// Create a 4 Side Pyramid
        /// </summary>
        public static BuiltVerticesRange BuildPyramid(this GeometrySurface target, float width, float height)
        {
            width  = Math.Max(EngineMath.TOLERANCE_FLOAT_POSITIVE, width);
            height = Math.Max(EngineMath.TOLERANCE_FLOAT_POSITIVE, height);

            var halfWidth             = width / 2f;
            var lowerMiddle           = new Vector3(0f, -(height / 2f), 0f);
            var start                 = new Vector3(lowerMiddle.X - halfWidth, lowerMiddle.Y, lowerMiddle.Z - halfWidth);
            var dest                  = start + new Vector3(width, 0f, width);
            var centerTopCoordination = new Vector3((dest.X + start.X) / 2, start.Y + height, (dest.Z + start.Z) / 2);

            target.BuildRect(
                new Vector3(start.X, dest.Y, start.Z),
                new Vector3(start.X, dest.Y, dest.Z),
                new Vector3(dest.X, dest.Y, dest.Z),
                new Vector3(dest.X, dest.Y, start.Z),
                new Vector3(0f, -1f, 0f));

            target.BuildTriangle(
                new Vector3(start.X, dest.Y, start.Z),
                new Vector3(dest.X, dest.Y, start.Z),
                centerTopCoordination);
            target.BuildTriangle(
                new Vector3(start.X, dest.Y, dest.Z),
                new Vector3(start.X, dest.Y, start.Z),
                centerTopCoordination);
            target.BuildTriangle(
                new Vector3(dest.X, dest.Y, dest.Z),
                new Vector3(start.X, dest.Y, dest.Z),
                centerTopCoordination);
            target.BuildTriangle(
                new Vector3(dest.X, dest.Y, start.Z),
                new Vector3(dest.X, dest.Y, dest.Z),
                centerTopCoordination);

            return(new BuiltVerticesRange(target.Owner, target.Owner.CountVertices - 4, 4));
        }
コード例 #3
0
        /// <summary>
        /// Builds a cylinder into the geometry with correct texture coordinates and normals.
        /// </summary>
        /// <param name="target">Target <see cref="GeometrySurface"/>.</param>
        /// <param name="bottomMiddle">Coordinate of bottom middle.</param>
        /// <param name="radius">The radius of the cylinder.</param>
        /// <param name="height">The height of the cylinder.</param>
        /// <param name="countOfSegments">Total count of segments to generate.</param>
        /// <param name="buildBottom">Build bottom of the cylinder.</param>
        /// <param name="buildSides">Build sides of the cylinder.</param>
        /// <param name="buildTop">Build top side of the cylinder.</param>
        public static BuiltVerticesRange BuildCylinder(
            this GeometrySurface target,
            Vector3 bottomMiddle, float radius, float height, int countOfSegments,
            bool buildSides, bool buildBottom, bool buildTop)
        {
            var startVertex = target.Owner.CountVertices;

            radius          = Math.Max(EngineMath.TOLERANCE_FLOAT_POSITIVE, radius);
            height          = Math.Max(EngineMath.TOLERANCE_FLOAT_POSITIVE, height);
            countOfSegments = Math.Max(3, countOfSegments);

            var diameter = radius * 2f;

            // Get texture offsets
            var texX        = 1f;
            var texY        = 1f;
            var texSegmentY = 1f;
            var texSegmentX = 1f;

            if (target.IsTextureTileModeEnabled(out var tileSize))
            {
                texX        = diameter / tileSize.X;
                texY        = diameter / tileSize.Y;
                texSegmentY = height / tileSize.Y;
                texSegmentX = EngineMath.RAD_180DEG * diameter / tileSize.X;
            }

            // Specify bottom and top middle coordinates
            var bottomCoordinate = bottomMiddle;
            var topCoordinate    = new Vector3(bottomMiddle.X, bottomMiddle.Y + height, bottomMiddle.Z);

            // Create bottom and top vertices
            var bottomVertex = new VertexBasic(bottomCoordinate, new Vector2(texX / 2f, texY / 2f), new Vector3(0f, -1f, 0f));
            var topVertex    = new VertexBasic(topCoordinate, new Vector2(texX / 2f, texY / 2f), new Vector3(0f, 1f, 0f));

            // AddObject bottom and top vertices to the geometry
            var bottomVertexIndex = target.Owner.AddVertex(bottomVertex);
            var topVertexIndex    = target.Owner.AddVertex(topVertex);

            // Generate all segments
            var fullRadian       = EngineMath.RAD_360DEG;
            var countOfSegmentsF = (float)countOfSegments;

            for (var loop = 0; loop < countOfSegments; loop++)
            {
                // Calculate rotation values for each segment border
                var startRadian  = fullRadian * (loop / countOfSegmentsF);
                var targetRadian = fullRadian * ((loop + 1) / countOfSegmentsF);
                var normalRadian = startRadian + (targetRadian - startRadian) / 2f;

                // Generate all normals
                var sideNormal      = Vector3Ex.NormalFromHVRotation(normalRadian, 0f);
                var sideLeftNormal  = Vector3Ex.NormalFromHVRotation(startRadian, 0f);
                var sideRightNormal = Vector3Ex.NormalFromHVRotation(targetRadian, 0f);

                //
                var sideLeftTexCoord  = new Vector2(0.5f + sideLeftNormal.X * radius, 0.5f + sideLeftNormal.Z * radius);
                var sideRightTexCoord = new Vector2(0.5f + sideRightNormal.X * radius, 0.5f + sideRightNormal.Z * radius);

                // Generate all points
                var sideLeftBottomCoord  = bottomCoordinate + sideLeftNormal * radius;
                var sideRightBottomCoord = bottomCoordinate + sideRightNormal * radius;
                var sideLeftTopCoord     = new Vector3(sideLeftBottomCoord.X, sideLeftBottomCoord.Y + height, sideLeftBottomCoord.Z);
                var sideRightTopCoord    = new Vector3(sideRightBottomCoord.X, sideRightBottomCoord.Y + height, sideRightBottomCoord.Z);

                // AddObject segment bottom triangle
                if (buildBottom)
                {
                    var segmentBottomLeft  = bottomVertex.Copy(sideLeftBottomCoord, sideLeftTexCoord);
                    var segmentBottomRight = bottomVertex.Copy(sideRightBottomCoord, sideRightTexCoord);
                    target.AddTriangle(
                        bottomVertexIndex, target.Owner.AddVertex(segmentBottomLeft), target.Owner.AddVertex(segmentBottomRight));
                }

                // AddObject segment top triangle
                if (buildTop)
                {
                    var segmentTopLeft  = topVertex.Copy(sideLeftTopCoord, sideLeftTexCoord);
                    var segmentTopRight = topVertex.Copy(sideRightTopCoord, sideRightTexCoord);
                    target.AddTriangle(
                        topVertexIndex, target.Owner.AddVertex(segmentTopRight), target.Owner.AddVertex(segmentTopLeft));
                }

                if (buildSides)
                {
                    // Calculate texture coords for side segment
                    var texCoordSegmentStart  = new Vector2(texSegmentX * (loop / (float)countOfSegments), 0f);
                    var texCoordSegmentTarget = new Vector2(texSegmentX * ((loop + 1) / (float)countOfSegments), texSegmentY);

                    // AddObject segment side
                    target.BuildRect(sideLeftBottomCoord, sideRightBottomCoord, sideRightTopCoord, sideLeftTopCoord, sideNormal, texCoordSegmentStart, texCoordSegmentTarget);
                }
            }

            return(new BuiltVerticesRange(target.Owner, startVertex, target.Owner.CountVertices - startVertex));
        }