public void Generate() { poly = poly.Transform(Position, Rotation, Scale); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { poly = WatermanPoly.Build(1f, root, c, MergeFaces); if (ApplyOps) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; poly = poly.ApplyOp(op1, o1); var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; poly = poly.ApplyOp(op2, o2); } if (Canonicalize) { poly = poly.Canonicalize(0.1, 0.1); } poly = poly.Transform(Position, Rotation, Scale); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, Colors, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { var wythoff = new WythoffPoly(PolyType, PrismP, PrismQ); wythoff.BuildFaces(); poly = new ConwayPoly(wythoff); if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; poly = poly.ApplyOp(op1, o1); } if (Canonicalize) { poly = poly.Canonicalize(0.01, 0.01); } poly = poly.Transform(Position, Rotation, Scale); var pos = SlicePosition; if (animateSlice > 0) { pos.y = .1f + transform.position.y + ((Time.time % 2f) * animateSlice); } var result = poly.SliceByPlane(new Plane(Quaternion.Euler(SliceRotation) * Vector3.up, pos), Cap, includeTop, includeBottom); poly = result.bottom; var top = result.top.Transform(topTransform); poly.Append(top); // var sliceWythoff = new WythoffPoly(PolyTypes.Cube, 3, 3); // sliceWythoff.BuildFaces(); // var slicePoly = new ConwayPoly(wythoff); // slicePoly = slicePoly.Transform(SlicePosition, SliceRotation, Vector3.one * SliceScale); // var result = poly.SliceByPoly(slicePoly, Cap); // poly = result.outside; // var top = result.outside.Transform(topTransform); if (Weld) { poly = poly.Weld(0.0001f); } if (ApplyOp) { var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; poly = poly.ApplyOp(op2, o2); } var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { var wythoff = new WythoffPoly(PolyType, PrismP, PrismQ); wythoff.BuildFaces(); poly = new ConwayPoly(wythoff); if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; poly = poly.ApplyOp(op1, o1); } if (Canonicalize) { poly = poly.Canonicalize(0.01, 0.01); } poly = poly.Transform(Position, Rotation, Scale); var pos = SlicePosition; if (animateSlice > 0) { pos.y = .1f + transform.position.y + ((Time.time % 2f) * animateSlice); } var rot = Quaternion.Euler(SliceRotation) * Vector3.up; var slicePlane = new Plane(rot, pos); var result = poly.SliceByPlane(slicePlane, Cap, includeTop, includeBottom); poly = result.bottom; var slicePoint = slicePlane.normal * (-slicePlane.distance + SegmentHeight); slicePlane.SetNormalAndPosition(slicePlane.normal, slicePoint); var(top, segment, _) = result.top.SliceByPlane(slicePlane, Cap, includeTop, includeBottom); segment = segment.Transform(SegmentTransform); poly.Append(top); poly.Append(segment); if (Weld) { poly = poly.Weld(0.0001f); } if (ApplyOp) { var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; poly = poly.ApplyOp(op2, o2); } var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { var wythoff = new WythoffPoly(PolyType, PrismP, PrismQ); wythoff.BuildFaces(); var poly = new ConwayPoly(wythoff); ConwayPoly d, x, xd, dx, dxd; var o = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; d = poly.Dual(); x = poly.ApplyOp(op, o); xd = d.ApplyOp(op, o); dx = poly.ApplyOp(op, o); dx = dx.Dual(); dxd = d.ApplyOp(op, o); dxd = dxd.Dual(); if (Canonicalize) { x = x.Canonicalize(0.01, 0.01); dx = dx.Canonicalize(0.01, 0.01); dxd = dxd.Canonicalize(0.01, 0.01); xd = xd.Canonicalize(0.01, 0.01); } Debug.Log($"x: {x.vef.v},{x.vef.e},{x.vef.f}"); Debug.Log($"xd: {xd.vef.v},{xd.vef.e},{xd.vef.f}"); Debug.Log($"dx: {dx.vef.v},{dx.vef.e},{dx.vef.f}"); Debug.Log($"dxd: {dxd.vef.v},{dxd.vef.e},{dxd.vef.f}"); var allPoly = new ConwayPoly(); x = x.Transform(-Vector3.left); xd = xd.Transform(Vector3.left * 2); dx = dx.Transform(Vector3.left * 4); dxd = dxd.Transform(Vector3.left * 6); allPoly.Append(x); allPoly.Append(xd); allPoly.Append(dx); allPoly.Append(dxd); allPoly.Recenter(); allPoly = allPoly.Transform(Position, Rotation, Scale); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(allPoly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public virtual void AfterAllOps() { if (Canonicalize) { poly = poly.Canonicalize(0.01, 0.01); } if (Position != Vector3.zero || Rotation != Vector3.zero || Scale != Vector3.one) { poly = poly.Transform(Position, Rotation, Scale); } }
public void Generate() { poly = JohnsonPoly.Build(JohnsonPolyType, sides); Face face; var sidesFilter = poly.FaceselToFaceFilterFunc(FaceSelections.FourSided); var roleFilter = poly.FaceselToFaceFilterFunc(FaceSelections.New); Func <FilterParams, bool> filterFunc = x => sidesFilter(x); for (int i = 0; i < splits; i++) { face = poly.GetFace(new OpParams(filterFunc), 0); if (face != null) { var edges = face.GetHalfedges(); poly = poly.SplitLoop(poly.GetFaceLoop(edges[edgeIndex % edges.Count]), splitRatio); } // Change the filter after the first loop iteration as we can // ensure we get the right face based on it's role filterFunc = x => sidesFilter(x) && roleFilter(x); } if (ApplyOp) { var o1 = new OpParams(op1Amount1, op1Amount2, op1Facesel); poly = poly.ApplyOp(op1, o1); var o2 = new OpParams(op2Amount1, op2Amount2, op2Facesel); poly = poly.ApplyOp(op2, o2); } if (Canonicalize) { poly = poly.Canonicalize(0.1, 0.1); } poly = poly.Transform(Position, Rotation, Scale); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
void Start() { // 1. Create a starting shape ConwayPoly poly1 = JohnsonPoly.Build(PolyHydraEnums.JohnsonPolyTypes.Prism, 4); // 2. Apply an operator to the starting shape poly1 = poly1.ApplyOp(Ops.Chamfer, new OpParams(.3f)); // 3. Create a second shape ConwayPoly poly2 = JohnsonPoly.Build(PolyHydraEnums.JohnsonPolyTypes.Pyramid, 4); // 4. Move our second shape down by 0.5 poly2 = poly1.Transform(new Vector3(0, .5f, 0)); // 5. Join the two shapes poly1.Append(poly2); // 6. Build and apply the mesh var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly1); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { poly = JohnsonPoly.Polygon(sides); poly = poly.Loft(new OpParams(0.5f)); for (int i = 0; i < 3; i++) { poly = poly.SplitFaces(new OpParams(FaceSelections.Existing)); poly.ClearTags(); poly.TagFaces("split1", FaceSelections.New, introvert: true); poly.TagFaces("split2", FaceSelections.New, introvert: true); poly = poly.Loft(new OpParams(0.01f, 1f, FaceSelections.AllNew)); poly = poly.FaceSlide(new OpParams(amount1, direction1 * i, selectByTags: "split1")); poly = poly.FaceSlide(new OpParams(amount2, direction2 * i, selectByTags: "split2")); } poly = poly.Transform(Position, Rotation, Scale); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { poly = JohnsonPoly.Build(JohnsonPolyType, sides); if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; poly = poly.ApplyOp(op1, o1); } // Find and remove the edge loop var face = poly.Faces[ConwayPoly.ActualMod(StartingFace, poly.Faces.Count)]; var edges = face.GetHalfedges(); var startingEdge = edges[ConwayPoly.ActualMod(StartingEdge, edges.Count)]; loop = poly.GetFaceLoop(startingEdge); var faceIndices = loop.Select(x => x.Item1).ToList(); if (LoopAction == LoopActions.Remove) { poly = poly.FaceRemove(false, faceIndices); } else if (LoopAction == LoopActions.Keep) { poly = poly.FaceRemove(true, faceIndices); } else if (LoopAction == LoopActions.SplitFaces) { poly = poly.SplitLoop(loop); } else if (LoopAction == LoopActions.Split) { ConwayPoly otherPoly; (otherPoly, poly) = poly.Split(new OpParams(x => faceIndices.Contains(x.index))); poly.FaceRoles = Enumerable.Repeat(ConwayPoly.Roles.Existing, poly.Faces.Count).ToList(); poly.VertexRoles = Enumerable.Repeat(ConwayPoly.Roles.Existing, poly.Vertices.Count).ToList(); otherPoly.FaceRoles = Enumerable.Repeat(ConwayPoly.Roles.New, otherPoly.Faces.Count).ToList(); otherPoly.VertexRoles = Enumerable.Repeat(ConwayPoly.Roles.New, otherPoly.Vertices.Count).ToList(); poly.Append(otherPoly); } else if (LoopAction == LoopActions.SetRole) { var faceRoles = new List <ConwayPoly.Roles>(); for (var faceIndex = 0; faceIndex < poly.Faces.Count; faceIndex++) { faceRoles.Add(faceIndices.Contains(faceIndex) ? ConwayPoly.Roles.Existing : ConwayPoly.Roles.New); } poly.FaceRoles = faceRoles; } if (ApplyOp) { var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; poly = poly.ApplyOp(op2, o2); } if (Canonicalize) { poly = poly.Canonicalize(0.1, 0.1); } poly = poly.Transform(Position, Rotation, Scale); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { poly = JohnsonPoly.Build(JohnsonPolyType, Sides); poly = poly.Transform(PositionBefore, RotationBefore, ScaleBefore); if (ApplyOp) { var o0 = new OpParams { valueA = op0Amount1, valueB = op0Amount2, facesel = op0Facesel }; poly = poly.ApplyOp(op0, o0); } if (Canonicalize) { poly = poly.Canonicalize(0.01, 0.01); } poly.Recenter(); ConwayPoly DoSlices(ConwayPoly input, Vector3 axis) { var result = new ConwayPoly(); float offset = SliceStart; int failsafe = 100; do { offset += SliceDistance; var planePos = new Vector3(offset * axis.x, offset * axis.y, offset * axis.z); var sliced = input.SliceByPlane(new Plane(Quaternion.Euler(SliceAngle) * axis, planePos), Cap); var gapVector = new Vector3(-SliceGap * axis.x, -SliceGap * axis.y, -SliceGap * axis.z); result = result.Transform(gapVector); var lerp = Mathf.InverseLerp(SliceStart, SliceEnd, offset); var shift = new Vector3(Mathf.Sin(lerp * frequency) * amplitude, 0, 0); result.Append(sliced.bottom.Transform(shift)); input = sliced.top; failsafe--; } while (offset < SliceEnd && failsafe > 0); result.Append(input); if (Weld) { result = result.Weld(0.0001f); } return(result); } var output = new ConwayPoly(); output.Append(DoSlices(poly, Vector3.up)); if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; output = output.ApplyOp(op1, o1); if (Weld) { poly = poly.Weld(0.0001f); } var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; output = output.ApplyOp(op2, o2); } output.Recenter(); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(output, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { var wythoff = new WythoffPoly(PolyType, PrismP, PrismQ); wythoff.BuildFaces(); poly = new ConwayPoly(wythoff); if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; poly = poly.ApplyOp(op1, o1); } if (Canonicalize) { poly = poly.Canonicalize(0.01, 0.01); } poly = poly.Transform(Position, Rotation, Scale); var rot = SliceRotation; if (animateSlice > 0) { rot.y = Time.time * animateSlice; } SliceRotation = rot; var sliceWythoff = new WythoffPoly(SlicePolyType, 3, 3); sliceWythoff.BuildFaces(); var slicePoly = new ConwayPoly(sliceWythoff); slicePoly = slicePoly.Transform(SlicePosition, SliceRotation, Vector3.one * SliceScale); var result = poly.SliceByPoly(slicePoly, Cap, FaceCount); poly = result.outside; var inside = result.inside.Transform(insideTransform); poly.Append(inside); if (ShowSlicePoly) { poly.Append(slicePoly); } if (Weld) { poly = poly.Weld(0.0001f); } if (ApplyOp) { var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; poly = poly.ApplyOp(op2, o2); } var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { if (Random.seed != 0) { Random.seed = RandomSeed; } poly = JohnsonPoly.Build(JohnsonPolyType, Sides); poly = poly.Transform(PositionBefore, RotationBefore, ScaleBefore); if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; poly = poly.ApplyOp(op1, o1); } if (Canonicalize) { poly = poly.Canonicalize(0.01, 0.01); } // poly.Recenter(); ConwayPoly DoSlices(ConwayPoly input, Vector3 axis) { var result = new ConwayPoly(); float offset = SliceStart; do { offset += Random.Range(SliceMin, SliceMax); var planePos = new Vector3(offset * axis.x, offset * axis.y, offset * axis.z); var sliced = input.SliceByPlane(new Plane(Quaternion.Euler(SliceAngle) * axis, planePos), Cap); var gapVector = new Vector3(-Gap * axis.x, -Gap * axis.y, -Gap * axis.z); result = result.Transform(gapVector); float randomShift = Random.Range(ShiftMin, ShiftMax); var randomShiftVector = new Vector3(randomShift * axis.y, randomShift * axis.z, randomShift * axis.x); result.Append(sliced.bottom.Transform(randomShiftVector)); input = sliced.top; } while (offset < SliceEnd); result.Append(input); if (Weld) { result = result.Weld(0.0001f); } return(result); } if (SliceX) { poly = DoSlices(poly, Vector3.right); } if (SliceY) { poly = DoSlices(poly, Vector3.up); } if (SliceZ) { poly = DoSlices(poly, Vector3.forward); } // if (Weld) // { // poly = poly.Weld(0.0001f); // } if (ApplyOp) { var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; poly = poly.ApplyOp(op2, o2); } // poly.Recenter(); var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(poly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { switch (ShapeType) { case ShapeTypes.Wythoff: var wythoff = new WythoffPoly(PolyType, PrismP, PrismQ); wythoff.BuildFaces(); preOpPoly = new ConwayPoly(wythoff); break; case ShapeTypes.Johnson: preOpPoly = JohnsonPoly.Build(JohnsonPolyType, PrismP); break; case ShapeTypes.Grid: preOpPoly = Grids.Grids.MakeGrid(GridType, GridShape, PrismP, PrismQ); break; } // var animValue1 = Mathf.PerlinNoise(Time.time / AnimateAmountRate, 0) * Mathf.PerlinNoise(Time.time / AnimateAmountRate * 3.1f, Time.time); var animValue1 = 1; if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1 * animValue1, valueB = op1Amount2, facesel = op1Facesel }; preOpPoly = preOpPoly.ApplyOp(op1, o1); } if (PreCanonicalize) { preOpPoly = preOpPoly.Canonicalize(0.01, 0.01); } var postOpPoly = preOpPoly.Transform(Position, Rotation, Scale); var animValue2 = Mathf.Sin(Time.time / AnimateAmountRate); // var animValue2 = Mathf.PerlinNoise(Time.time / AnimateAmountRate, 0) * Mathf.PerlinNoise(Time.time / AnimateAmountRate * .3f, 10) -.5f; var _amount = AnimateAmount > 0 ? animValue2 * AnimateAmount : Amount; var o = new OpParams(_amount, NormalBlend, Facesel); postOpPoly = postOpPoly.Segment(o); if (Canonicalize) { postOpPoly = postOpPoly.Canonicalize(0.01, 0.01); } if (ApplyOp) { var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; postOpPoly = postOpPoly.ApplyOp(op2, o2); } var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(postOpPoly, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }
public void Generate() { poly = JohnsonPoly.Build(JohnsonPolyType, Sides); poly = poly.Transform(PositionBefore, RotationBefore, ScaleBefore); if (ApplyOp) { var o0 = new OpParams { valueA = op0Amount1, valueB = op0Amount2, facesel = op0Facesel }; poly = poly.ApplyOp(op0, o0); } if (Canonicalize) { poly = poly.Canonicalize(0.01, 0.01); } poly.Recenter(); ConwayPoly DoSlices(ConwayPoly input, Vector3 axis) { var result = new ConwayPoly(); if (SliceDistance < 0.01f) { return(result); } float offset = SliceStart; do { offset += SliceDistance; var planePos = new Vector3(offset * axis.x, offset * axis.y, offset * axis.z); var sliced = input.SliceByPlane(new Plane(Quaternion.Euler(SliceAngle) * axis, planePos), true, false, false, true); result.Append(sliced.cap); } while (offset < SliceEnd); return(result); } var output = new ConwayPoly(); if (SliceX) { output.Append(DoSlices(poly, Vector3.right)); } if (SliceY) { output.Append(DoSlices(poly, Vector3.up)); } if (SliceZ) { output.Append(DoSlices(poly, Vector3.forward)); } if (Shell) { var shellParams = new OpParams { valueA = SliceDistance - ShellSpacing }; output = output.ApplyOp(Ops.Shell, shellParams); } if (ApplyOp) { var o1 = new OpParams { valueA = op1Amount1, valueB = op1Amount2, facesel = op1Facesel }; output = output.ApplyOp(op1, o1); if (Weld) { poly = poly.Weld(0.0001f); } var o2 = new OpParams { valueA = op2Amount1, valueB = op2Amount2, facesel = op2Facesel }; output = output.ApplyOp(op2, o2); } var mesh = PolyMeshBuilder.BuildMeshFromConwayPoly(output, false, null, ColorMethod); GetComponent <MeshFilter>().mesh = mesh; }