Exemple #1
0
        public static bool GenerateCapsule(ref BrushMesh brushMesh, ref ChiselCapsuleDefinition definition)
        {
            Vector3[] vertices = null;
            if (!BrushMeshFactory.GenerateCapsuleVertices(ref definition, ref vertices))
            {
                brushMesh.Clear();
                return(false);
            }

            // TODO: share this with GenerateCapsuleVertices
            var bottomCap    = !definition.haveRoundedBottom;
            var topCap       = !definition.haveRoundedTop;
            var sides        = definition.sides;
            var segments     = definition.segments;
            var bottomVertex = definition.bottomVertex;
            var topVertex    = definition.topVertex;

            if (!BrushMeshFactory.GenerateSegmentedSubMesh(ref brushMesh,
                                                           sides, segments,
                                                           vertices,
                                                           topCap, bottomCap,
                                                           topVertex, bottomVertex,
                                                           definition.surfaceDefinition))
            {
                brushMesh.Clear();
                return(false);
            }
            return(true);
        }
Exemple #2
0
        public static bool GenerateCapsule(ref ChiselBrushContainer brushContainer, ref ChiselCapsuleDefinition definition)
        {
            definition.Validate();
            Vector3[] vertices = null;
            if (!BrushMeshFactory.GenerateCapsuleVertices(ref definition, ref vertices))
            {
                return(false);
            }

            // TODO: share this with GenerateCapsuleVertices
            var bottomCap    = !definition.haveRoundedBottom;
            var topCap       = !definition.haveRoundedTop;
            var sides        = definition.sides;
            var segments     = definition.segments;
            var bottomVertex = definition.bottomVertex;
            var topVertex    = definition.topVertex;

            brushContainer.EnsureSize(1);

            return(BrushMeshFactory.GenerateSegmentedSubMesh(ref brushContainer.brushMeshes[0],
                                                             sides, segments,
                                                             vertices,
                                                             topCap, bottomCap,
                                                             topVertex, bottomVertex,
                                                             definition.surfaceDefinition));
        }
Exemple #3
0
        static void DrawOutline(IChiselHandleRenderer renderer, ChiselCapsuleDefinition definition, Vector3[] vertices, LineMode lineMode)
        {
            var sides = definition.sides;

            // TODO: share this logic with GenerateCapsuleVertices

            var topHemisphere    = definition.haveRoundedTop;
            var bottomHemisphere = definition.haveRoundedBottom;
            var topSegments      = topHemisphere    ? definition.topSegments    : 0;
            var bottomSegments   = bottomHemisphere ? definition.bottomSegments : 0;

            var extraVertices = definition.extraVertexCount;
            var bottomVertex  = definition.bottomVertex;
            var topVertex     = definition.topVertex;

            var rings      = definition.ringCount;
            var bottomRing = (bottomHemisphere) ? (rings - bottomSegments) : rings - 1;
            var topRing    = (topHemisphere) ? (topSegments - 1) : 0;

            var prevColor = renderer.color;
            var color     = prevColor;

            color.a *= 0.6f;

            for (int i = 0, j = extraVertices; i < rings; i++, j += sides)
            {
                if ((!definition.haveRoundedTop && i == topRing) ||
                    (!definition.haveRoundedBottom && i == bottomRing))
                {
                    continue;
                }
                bool isCapRing = (i == topRing || i == bottomRing);
                if (isCapRing)
                {
                    continue;
                }
                renderer.color = (isCapRing ? prevColor : color);
                renderer.DrawLineLoop(vertices, j, sides, lineMode: lineMode, thickness: (isCapRing ? kCapLineThickness : kHorzLineThickness), dashSize: (isCapRing ? 0 : kLineDash));
            }

            renderer.color = color;
            for (int k = 0; k < sides; k++)
            {
                if (topHemisphere)
                {
                    renderer.DrawLine(vertices[topVertex], vertices[extraVertices + k], lineMode: lineMode, thickness: kVertLineThickness);
                }
                for (int i = 0, j = extraVertices; i < rings - 1; i++, j += sides)
                {
                    renderer.DrawLine(vertices[j + k], vertices[j + k + sides], lineMode: lineMode, thickness: kVertLineThickness);
                }
                if (bottomHemisphere)
                {
                    renderer.DrawLine(vertices[bottomVertex], vertices[extraVertices + k + ((rings - 1) * sides)], lineMode: lineMode, thickness: kVertLineThickness);
                }
            }
            renderer.color = prevColor;
        }
Exemple #4
0
        // possible situations:
        //	capsule with top AND bottom set to >0 height
        //	capsule with top OR bottom set to 0 height
        //	capsule with both top AND bottom set to 0 height
        //	capsule with height equal to top and bottom height
        public static bool GenerateCapsuleVertices(ref ChiselCapsuleDefinition definition, ref Vector3[] vertices)
        {
            definition.Validate();
            var haveTopHemisphere    = definition.haveRoundedTop;
            var haveBottomHemisphere = definition.haveRoundedBottom;
            var haveMiddleCylinder   = definition.haveCylinder;

            if (!haveBottomHemisphere && !haveTopHemisphere && !haveMiddleCylinder)
            {
                return(false);
            }

            var radiusX        = definition.diameterX * 0.5f;
            var radiusZ        = definition.diameterZ * 0.5f;
            var topHeight      = haveTopHemisphere    ? definition.topHeight    : 0;
            var bottomHeight   = haveBottomHemisphere ? definition.bottomHeight : 0;
            var totalHeight    = definition.height;
            var cylinderHeight = definition.cylinderHeight;

            var sides = definition.sides;

            var extraVertices = definition.extraVertexCount;

            var bottomRings = definition.bottomRingCount;
            var topRings    = definition.topRingCount;
            var ringCount   = definition.ringCount;
            var vertexCount = definition.vertexCount;

            var bottomVertex = definition.bottomVertex;
            var topVertex    = definition.topVertex;

            var topOffset    = definition.topOffset + definition.offsetY;
            var bottomOffset = definition.bottomOffset + definition.offsetY;

            if (vertices == null ||
                vertices.Length != vertexCount)
            {
                vertices = new Vector3[vertexCount];
            }

            if (haveBottomHemisphere)
            {
                vertices[bottomVertex] = new Vector3(0, 1, 0) * (bottomOffset - bottomHeight);                       // bottom
            }
            if (haveTopHemisphere)
            {
                vertices[topVertex] = new Vector3(0, 1, 0) * (topOffset + topHeight);                                // top
            }
            var degreePerSegment = (360.0f / sides) * Mathf.Deg2Rad;
            var angleOffset      = definition.rotation + (((sides & 1) == 1) ? 0.0f : 0.5f * degreePerSegment);

            var topVertexOffset    = extraVertices + ((topRings - 1) * sides);
            var bottomVertexOffset = extraVertices + ((ringCount - bottomRings) * sides);
            var unitCircleOffset   = topVertexOffset;
            var vertexIndex        = unitCircleOffset;

            {
                for (int h = sides - 1; h >= 0; h--, vertexIndex++)
                {
                    var hRad = (h * degreePerSegment) + angleOffset;
                    vertices[vertexIndex] = new Vector3(math.cos(hRad) * radiusX,
                                                        0.0f,
                                                        math.sin(hRad) * radiusZ);
                }
            }
            for (int v = 1; v < topRings; v++)
            {
                vertexIndex = topVertexOffset - (v * sides);
                var segmentFactor = ((v - (topRings * 0.5f)) / topRings) + 0.5f;        // [0.0f ... 1.0f]
                var segmentDegree = (segmentFactor * 90);                               // [0 .. 90]
                var segmentHeight = topOffset +
                                    (math.sin(segmentDegree * Mathf.Deg2Rad) *
                                     topHeight);
                var segmentRadius = math.cos(segmentDegree * Mathf.Deg2Rad);                    // [0 .. 0.707 .. 1 .. 0.707 .. 0]
                for (int h = 0; h < sides; h++, vertexIndex++)
                {
                    vertices[vertexIndex].x = vertices[h + unitCircleOffset].x * segmentRadius;
                    vertices[vertexIndex].y = segmentHeight;
                    vertices[vertexIndex].z = vertices[h + unitCircleOffset].z * segmentRadius;
                }
            }
            vertexIndex = bottomVertexOffset;
            {
                for (int h = 0; h < sides; h++, vertexIndex++)
                {
                    vertices[vertexIndex] = new Vector3(vertices[h + unitCircleOffset].x,
                                                        bottomOffset,
                                                        vertices[h + unitCircleOffset].z);
                }
            }
            for (int v = 1; v < bottomRings; v++)
            {
                var segmentFactor = ((v - (bottomRings * 0.5f)) / bottomRings) + 0.5f;          // [0.0f ... 1.0f]
                var segmentDegree = (segmentFactor * 90);                                       // [0 .. 90]
                var segmentHeight = bottomOffset - bottomHeight +
                                    ((1 - math.sin(segmentDegree * Mathf.Deg2Rad)) *
                                     bottomHeight);
                var segmentRadius = math.cos(segmentDegree * Mathf.Deg2Rad);                                    // [0 .. 0.707 .. 1 .. 0.707 .. 0]
                for (int h = 0; h < sides; h++, vertexIndex++)
                {
                    vertices[vertexIndex].x = vertices[h + unitCircleOffset].x * segmentRadius;
                    vertices[vertexIndex].y = segmentHeight;
                    vertices[vertexIndex].z = vertices[h + unitCircleOffset].z * segmentRadius;
                }
            }
            {
                for (int h = 0; h < sides; h++, vertexIndex++)
                {
                    vertices[h + unitCircleOffset].y = topOffset;
                }
            }
            return(true);
        }