Exemple #1
0
        //Serialize a set of rectangles(RectList) to SerializedRects
        public static SerializedRects RectsToSerializedRects(RectList rectSet)
        {
            GridConverter.BuildCircuit(rectSet, false);
            var sb = new StringBuilder();

            bool mode2D = false;// RectsAre2D(rectSet);

            //Sort the rectlist into sets of rectlists where rects have same properties
            IEnumerable <List <Rect> > superRects = SuperSortByProperties(rectSet);

            //Iterate through entire set of rectlists
            foreach (List <Rect> rectList in superRects)
            {
                string rectPropertiesSerialized = SerializeRectProperties(rectList[0].Properties, mode2D);
                sb.Append(rectPropertiesSerialized);

                //Iterate through each rect in the set (will all have same properties)
                //Each will inherit properties values when read later from last properties write
                foreach (Rect rect in rectList)
                {
                    string rectSerialized = Transcode64.SerializeRectPointsToString(rect, 1, mode2D);
                    rectSerialized += SerializeCircuitProperties(rectList[0].Properties);
                    sb.Append(rectSerialized);
                }
            }
            //Then return new serialized rect with that string
            return(new SerializedRects(sb.ToString()));
        }
Exemple #2
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        //Load a glyphics file, precompute rectangles and append them to codeString as speedy cache
        public static void PreSerializeGlyphicsFile(string filename)
        {
            CodeList codes = GlyToCodes(filename);

            foreach (Code t in codes)
            {
                string code = t.codeString;

                if (code.Contains("*"))
                {
                    code = code.Split('*')[0];
                }

                Grid grid = CodeConverter.TokensToGrid(CodeConverter.CodeToTokens(new Code(code)));

                if (grid != null)
                {
                    RectList rectSet         = GridConverter.GridToRects(grid);
                    string   serializedRects = RectConverter.RectsToSerializedRects(rectSet).SerializedData;
                    code         = code + serializedRects;
                    t.codeString = code;
                }
            }
            CodesToGly(filename, codes);
        }
Exemple #3
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        public static bool HasPathConstrained(RectList rects, bool[,] graph, int i, int j, int depth)
        {
            if (depth > 6)
            {
                return(false);
            }

            Rect rect1 = rects.GetRect(i);
            Rect rect2 = rects.GetRect(j);

            if (!DirectLinkingType((PhysicsType)rect1.Properties.PhysicsId, (PhysicsType)rect2.Properties.PhysicsId))
            {
                return(false);
            }

            if (graph[i, j]) //direct path
            {
                return(true);
            }

            //If didn't find, then recurse
            for (int q = 0; q < graph.GetLength(0); q++)
            {
                if (graph[i, q])
                {
                    if (HasPathConstrained(rects, graph, q, j, depth + 1))
                    {
                        return(true);
                    }
                }
            }

            return(false);
        }
Exemple #4
0
        public static void AssignCircuitIdsToNonGates(RectList rects, List <List <int> > touchGraph, List <List <int> > circuitIds)
        {
            int circuitId = 0;
            var listid    = 0;

            foreach (List <int> list in touchGraph)
            {
                circuitIds.Add(new List <int>());
                if (list.Count > 0)
                {
                    if (rects.GetRect(list[0]).Properties.PhysicsId >= (byte)PhysicsType.GateNot)
                    {
                    }
                    else
                    {
                        //Make sure that we don't assign circuitid 0 if circuit type
                        if (rects.GetRect(list[0]).Properties.PhysicsId > 0 && circuitId == 0)
                        {
                            circuitId = 1;
                        }
                        circuitIds[listid].Add(circuitId);
                        circuitId++;
                    }
                }
                listid++;
            }
        }
Exemple #5
0
        //Limits it to 255 strings between carriage returns
        public static string SerializeLimit255(RectList rectSet)
        {
            IEnumerable <List <Rect> > superRects = SuperSortByProperties(rectSet);
            string str    = "";
            string runStr = "";

            bool mode2D = false;// RectsAre2D(rectSet);

            foreach (List <Rect> rectList in superRects)
            {
                runStr += SerializeRectProperties(rectList[0].Properties, mode2D);
                foreach (Rect t in rectList)
                {
                    runStr += Transcode64.SerializeRectPointsToString(t, 1, mode2D);
                    runStr += SerializeCircuitProperties(rectList[0].Properties);
                    if (runStr.Length > 200)//236)
                    {
                        str   += runStr + CharLimit255;
                        runStr = SerializeRectProperties(rectList[0].Properties, mode2D);
                    }
                }
            }
            str += runStr + CharLimit255;

            str = str.TrimEnd('\n') + "\n";//ensure only one \n at end
            return(str);
        }
Exemple #6
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        public static void Vox2Glyc(string dirName, string name)
        {
            Console.Write("Vox2Glyc converting: " + name + " ... ");
            VoxFile_VoxelSet voxels = null;
            voxels = ReadVox(dirName + name + ".vox");

            Grid grid = RasterLib.RasterApi.CreateGrid(64, 64, 64, 4);

            for (int i = 0; i < voxels.voxels.Length; i++)
            {
                VoxFile_Voxel voxel = voxels.voxels[i];
                CellProperties cp = new CellProperties();

                byte r = (byte)voxel.I;
                byte g = (byte)voxel.I;
                byte b = (byte)voxel.I;
                byte a = (byte)voxel.I;
                r = (byte)((voxels.palette[voxel.I] >> 0) & 255);
                g = (byte)((voxels.palette[voxel.I] >> 8) & 255);
                b = (byte)((voxels.palette[voxel.I] >> 16) & 255);
                a = (byte)((voxels.palette[voxel.I] >> 24) & 255);

                cp.Rgba = RasterLib.RasterApi.Rgba2Ulong(r, g, b, a);
                grid.Plot(voxel.X, voxel.Y, voxel.Z, cp);
            }

            RectList rects = RasterLib.RasterApi.GridToRects(grid);
            RasterLib.Language.Code code = RasterLib.RasterApi.RectsToCode(rects);
            //Console.WriteLine(code.codeString);

            RasterLib.RasterApi.CodeToGlyC(dirName + name + ".glyc", name + ",\n" + code.codeString);
        }
Exemple #7
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 public static Rect RectsToBoundaries(RectList rectSet)
 {
     if (rectSet == null)
     {
         return(null);
     }
     return(rectSet.Boundaries);
 }
Exemple #8
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        public static Grid RectsToGrid(RectList rectSet)
        {
            Rect rect = RasterLib.RasterApi.RectsToBoundaries(rectSet);
            Grid grid = new Grid((int)rect.Pt2[0], (int)rect.Pt2[1], (int)rect.Pt2[2], 4);

            RasterLib.RasterApi.Renderer.RenderRectsToGrid(rectSet, grid);
            return(grid);
        }
Exemple #9
0
 //Rect(s)-To
 public static Code RectsToCode(RectList rectSet)
 {
     if (rectSet == null)
     {
         return(null);
     }
     return(RectConverter.RectsToCode(rectSet));
 }
Exemple #10
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            public static void WriteMesh(string filename, RectList rects)
            {
                List <ulong> palette = FindRgbaPalette(rects);

                _nodeid = 1;

                var scene = new ColladaScene {
                    Id = _nodeid++
                };

                var collada = new Collada();

                collada.Scenes.Add(scene);

                foreach (ulong rgba in palette)
                {
                    var effect = new ColladaEffect();
                    Converter.Ulong2Rgba(rgba, out effect.R, out effect.G, out effect.B, out effect.A);

                    var material = new ColladaMaterial {
                        Id = _nodeid++
                    };
                    effect.Id    = _nodeid++;
                    material.Url = effect.Id;
                    effect.Rgba  = rgba;

                    collada.Materials.Add(material);
                    collada.Effects.Add(effect);
                }

                foreach (Rect rect in rects)
                {
                    var geom = new ColladaGeometry
                    {
                        Id          = _nodeid++,
                        PositionId  = _nodeid++,
                        NormalId    = _nodeid++,
                        PositionId2 = _nodeid++,
                        NormalId2   = _nodeid++,
                        VertexId    = _nodeid++
                    };

                    int material = collada.FindMaterial(rect.Properties.Rgba);
                    geom.Materialid = material;
                    geom.X1         = rect.Pt1[0];
                    geom.Y1         = rect.Pt1[1];
                    geom.Z1         = rect.Pt1[2];
                    geom.X2         = rect.Pt2[0];
                    geom.Y2         = rect.Pt2[1];
                    geom.Z2         = rect.Pt2[2];

                    collada.Geometries.Add(geom);
                    scene.Geometry.Add(geom.Id);
                }


                collada.WriteMesh(filename);
            }
Exemple #11
0
 public static void AddPathsConstrained(RectList rects, bool[,] graph, List <int> list, int id)
 {
     for (int j = 0; j < graph.GetLength(0); j++)
     {
         if (HasPathConstrained(rects, graph, id, j, 0) && !list.Contains(j))
         {
             list.Add(j);
         }
     }
 }
Exemple #12
0
        //Convert an Scene to an RectList
        public static RectList SceneToRects(Scene scene)
        {
            RectList rects = new RectList();

            foreach (Element element in scene)
            {
                Rect rect = ElementToRect(element);
                rects.AddRect(rect);
            }
            return(rects);
        }
Exemple #13
0
 public static bool RectsAre2D(RectList rects)
 {
     foreach (Rect rect in rects)
     {
         if (rect.Pt2[1] > 1)
         {
             return(false);
         }
     }
     return(true);
 }
Exemple #14
0
        //Convert an RectList to an Scene
        public static Scene RectsToScene(RectList rects)
        {
            Scene scene = new Scene();

            foreach (Rect rect in rects)
            {
                Element element = RectToElement(rect);
                scene.AddElement(element);
            }
            return(scene);
        }
Exemple #15
0
            public static List <ulong> FindRgbaPalette(RectList rects)
            {
                var palette = new List <ulong>();

                foreach (Rect rect in rects)
                {
                    if (palette.Contains(rect.Properties.Rgba) == false)
                    {
                        palette.Add(rect.Properties.Rgba);
                    }
                }
                return(palette);
            }
Exemple #16
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        public void FromRects(RectList inRects)
        {
            Rects                   = inRects;
            SerializedRects         = RasterLib.RasterApi.RectsToSerializedRects(Rects);
            SerializedRectsLimit255 = RasterLib.RasterApi.RectsToSerializedRectsLimit255(Rects);

            JSON = SceneToJson.Convert(RasterLib.RasterApi.RectsToScene(Rects));

            if ((enableFlags & enables.DoScene) == enables.DoScene)
            {
                FromSerializedRects(SerializedRects);
            }
        }
Exemple #17
0
        //Input: Glyphics code
        //Output: Rectangles
        //Side-Effects: May use deserialized cache at end of codeString instead
        public static RectList CodeToRects(Code rasterCode)
        {
            string code = rasterCode.codeString;

            if (code.Contains("" + CharRgba))
            {
                string start = code.Substring(code.IndexOf('*'));
                return(SerializedRectsToRects(new SerializedRects(start)));
            }
            RectList rectSet = GridConverter.GridToRects(RasterApi.TokensToGrid(RasterApi.CodeToTokens(rasterCode)));

            return(rectSet);
        }
Exemple #18
0
 public static void CalculateTouchGraphPaths(bool[,] graph, RectList rects, List <List <int> > touchGraph)
 {
     for (int i = 0; i < graph.GetLength(0); i++)
     {
         if (!FindInList(touchGraph, i))
         {
             List <int> newList = new List <int> {
                 i
             };
             AddPathsConstrained(rects, graph, newList, i);
             touchGraph.Add(newList);
         }
     }
 }
Exemple #19
0
        //Convert Grid into minimal/optimal List of rectangles
        public static RectList GridToRects(Grid grid)
        {
            IEnumerable <Rect> rects    = GridToAabb(grid);
            RectList           rectList = new RectList();

            foreach (Rect rect in rects)
            {
                rectList.AddRect(rect);
            }

            rectList.SizeX = grid.SizeX;
            rectList.SizeY = grid.SizeY;
            rectList.SizeZ = grid.SizeZ;
            return(rectList);
        }
Exemple #20
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        public void FromSerializedRects(SerializedRects inSerializedRects)
        {
            SerializedRects = inSerializedRects;
            Rects           = RasterLib.RasterApi.SerializedRectsToRects(SerializedRects);

            if ((enableFlags & enables.DoQuads) == enables.DoQuads)
            {
                Quads = RasterLib.RasterApi.RectsToQuads(Rects);
            }

            if ((enableFlags & enables.DoTriangles) == enables.DoTriangles)
            {
                FromQuads(Quads);
            }
        }
Exemple #21
0
        public static List <List <int> > CreateTouchGraphFromRects(RectList rects)
        {
            var touchGraph = new List <List <int> > {
                new List <int>()
            };

            for (int i = 0; i < rects.Count; i++)
            {
                if (rects.GetRect(i).Properties.PhysicsId == 0)
                {
                    touchGraph[0].Add(i);
                }
            }
            return(touchGraph);
        }
Exemple #22
0
 public static void DisplayAdjacencyGraph(RectList rects, bool[,] graph)
 {
     Console.WriteLine("Adjacency graph:");
     for (int i = 0; i < rects.Count; i++)
     {
         Console.Write(i + "=" + rects.GetRect(i).Properties.PhysicsId + "\t: ");
         for (int j = 0; j < rects.Count; j++)
         {
             if (graph[i, j])
             {
                 Console.Write(j + "=" + rects.GetRect(j).Properties.PhysicsId + " ");
             }
         }
         Console.WriteLine();
     }
 }
Exemple #23
0
        //Converts a set of rectangles back into Glyphics codeString that can be modified/executed
        public static Code RectsToCode(RectList rects)
        {
            IEnumerable <List <Rect> > superRects = SuperSortByProperties(rects);
            //bool mode2D = false;// RectsAre2D(rectSet);

            ulong rgba = 0x12345678;//Set to unlikely initial color, then detect changes

            var sb = new StringBuilder();

            string sizeStr = "Size3D4 " + (rects.Boundaries.Width + 1) + " " + (rects.Boundaries.Height + 1) + " " + (rects.Boundaries.Depth + 1);

            sb.Append(sizeStr);

            foreach (List <Rect> rectList in superRects)
            {
                Rect rectfirst = rectList[0];
                rgba = rectfirst.Properties.Rgba;
                byte r, g, b, a;
                Converter.Ulong2Rgba(rectfirst.Properties.Rgba, out r, out g, out b, out a);
                string rgbaStr = ";PenColorD4 " + r + " " + g + " " + b + " " + a;
                sb.Append(rgbaStr);
                foreach (Rect rect in rectList)
                {
                    sb.Append(";FillRect " + rect.Pt1[0] + " " + rect.Pt1[1] + " " + rect.Pt1[2] + " " + (rect.Pt2[0] - 1) + " " + (rect.Pt2[1] - 1) + " " + (rect.Pt2[2] - 1));
                }
            }

            /*
             *
             * foreach (Rect rect in rects)
             * {
             *  if (rect.Properties.Rgba != rgba) //Only emit PenColor when it changes
             *  {
             *      rgba = rect.Properties.Rgba;
             *      byte r, g, b, a;
             *      Converter.Ulong2Rgba(rect.Properties.Rgba, out r, out g, out b, out a);
             *      string rgbaStr = ";\nPenColorD4 " + r + " " + g + " " + b + " " + a;
             *      sb.Append(rgbaStr);
             *  }
             *  sb.Append(";FillRect " + rect.Pt1[0] + " " + rect.Pt1[1] + " " + rect.Pt1[2] + " " + rect.Pt2[0] + " " + rect.Pt2[1] + " " + rect.Pt2[2]);
             * }
             */
            string codeStr = sb.ToString();

            return(new Code(codeStr));
        }
Exemple #24
0
        //Convert rectangles to their 6 quads
        public static QuadList RectsToQuads(RectList rectSet)
        {
            QuadList quadsMacro = new QuadList();

            foreach (Rect rect in rectSet)
            {
                QuadList quads = RectToQuads(rect);

                foreach (Quad quad in quads)
                {
                    quadsMacro.AddQuad(quad);
                }
            }

            //Remove redundant ones automatically
            RemoveRedundantQuads(quadsMacro);

            return(quadsMacro);
        }
Exemple #25
0
        //True if same
        public bool IsEqualTo(RectList rects)
        {
            if (rects == null || rects.Count != Count)
            {
                return(false);
            }

            for (int i = 0; i < Count; i++)
            {
                Rect rect1 = rects.GetRect(i);
                Rect rect2 = Rects[i];

                if (rect1.IsEqualTo(rect2) == false)
                {
                    return(false);
                }
            }
            return(true);
        }
Exemple #26
0
        public static void DisplayRectCircuits(RectList rects)
        {
            Console.WriteLine("\nTouch Graph : Optimized list results (multiple circuit):");
            int count = 0;

            foreach (Rect rect in rects)
            {
                Console.Write(count + " : " + rect + " ");
                if (rect.Properties.CircuitIds != null)
                {
                    foreach (int id in rect.Properties.CircuitIds)
                    {
                        Console.Write(id + " ");
                    }
                }
                Console.WriteLine();
                count++;
            }
            Console.WriteLine();
        }
Exemple #27
0
        public static void AssignCircuitIdsToRects(RectList rects, List <List <int> > touchGraph, List <List <int> > circuitIds)
        {
            int listid = 0;

            foreach (List <int> list in touchGraph)
            {
                foreach (int id in list)
                {
                    if (circuitIds[listid][0] > 0)
                    {
                        rects.GetRect(id).Properties.CircuitIds = new List <int>();
                        foreach (int cid in circuitIds[listid])
                        {
                            rects.GetRect(id).Properties.CircuitIds.Add(cid);
                        }
                    }
                }
                listid++;
            }
        }
Exemple #28
0
        //This should be deprecated as it creates it's own vertices instead of using STL
        public static Triangles RectsToTrianglesCube(RectList rectSet)
        {
            var triangles = new List <Triangle>();

            //Iterate through reach rectangle(volume/cube) creating triangles
            foreach (Rect rect in rectSet)
            {
                QuadList quads = RectToQuads(rect);
                //RectToTrianglesCube(ref triangles, rect);

                foreach (Quad quad in quads)
                {
                    Triangles twoTriangles = QuadToTwoTriangles(quad);
                    triangles.Add(twoTriangles.GetTriangleArray()[0]);
                    triangles.Add(twoTriangles.GetTriangleArray()[1]);
                }
            }

            return(new Triangles(triangles.ToArray()));
        }
Exemple #29
0
        public void FromGrid(Grid inGrid)
        {
            Grid = inGrid;

            int scale;

            if (Grid.SizeX > 128)
            {
                scale = 1;
            }
            else
            {
                //scale = (int)((256) / (float)(Grid.SizeX) * 1.3) & 254;
                scale = (int)((256) / (float)(Grid.SizeX) * 1.8) & 254;
            }
            //scale = 12;

            if ((enableFlags & enables.RenderIsometricThumb) == enables.RenderIsometricThumb)
            {
                GridIsometricThumb = RasterLib.RasterApi.Renderer.RenderIsometricCellsScaled(Grid, 0, 0, 0, 0, 1, 1, "Render Isometric (Thumbnail) ");
            }
            if ((enableFlags & enables.RenderIsometricRegular) == enables.RenderIsometricRegular)
            {
                GridIsometric = RasterLib.RasterApi.Renderer.RenderIsometricCellsScaled(Grid, 31, 31, 31, 0, scale, scale, "Render Isometric (Regular) ");
            }
            if ((enableFlags & enables.RenderIsometricLarge) == enables.RenderIsometricLarge)
            {
                GridIsometricLarge = RasterLib.RasterApi.Renderer.RenderIsometricCellsScaled(Grid, 0, 0, 0, 0, 8, 8, "Render Isometric (Large) ");
            }

            if ((enableFlags & enables.RenderOrthogonal) == enables.RenderOrthogonal)
            {
                GridOrthogonal = RasterLib.RasterApi.Renderer.RenderObliqueCells(Grid);
            }

            if ((enableFlags & enables.DoRects) == enables.DoRects)
            {
                Rects = GridConverter.GridToRects(Grid);
                FromRects(Rects);
            }
        }
Exemple #30
0
        public void FromCode(Code inCode)
        {
            code     = inCode;
            codename = RasterLib.RasterApi.CodeToCodename(code);
            try
            {
                Tokens = RasterLib.RasterApi.CodeToTokens(code);
                FromTokens(Tokens);
            }
            catch (Exception ex)
            {
                Console.WriteLine("Exception " + ex);
            }

            if ((enableFlags & enables.DoRectsMipMap) == enables.DoRectsMipMap)
            {
                Code     codeSmaller = RasterLib.RasterApi.CodeToRescaledCode(inCode, 16, 16, 16);
                Grid     gridSmall   = RasterLib.RasterApi.CodeToGrid(codeSmaller);
                RectList rectsSmall  = RasterLib.RasterApi.GridToRects(gridSmall);
                SerializedRectsMipMap = RasterLib.RasterApi.RectsToSerializedRects(rectsSmall);
            }
        }