Beispiel #1
0
        private Definition2D CreateDefinition2D(IDefinition def)
        {
            Definition2D result = new Definition2D();

            result.Id             = def.Id;
            result.DefinitionName = def.Name;
            // todo: get linkage names from export assests tags (in vex format)
            result.LinkageName = def.Name;
            result.Bounds      = def.StrokeBounds;

            if (def is Timeline)
            {
                Timeline tlDef = (Timeline)def;
                result.FrameCount = tlDef.FrameCount;
            }
            else if (def is Symbol)
            {
//              Symbol instDef = (Symbol)def;
//              result.StartTime = (int)instDef.StartTime;
//              result.EndTime = (int)instDef.EndTime;
                ParseBodyImage(result, def);
            }

            return(result);
        }
Beispiel #2
0
        private Definition2D GetTextDefinition(Matrix m, Text def)
        {
            Definition2D result = definitions.Find(d => d.DefinitionName == def.Name);

            if (result == null)
            {
                result = CreateTextDefinition(def);
                definitions.Add(result);
            }
            return(result);
        }
Beispiel #3
0
        private void WriteJointData(List <V2DJoint> defJoints, Definition2D def)
        {
            Joint2D[] jts = new Joint2D[def.Joints.Count];
            def.Joints.Values.CopyTo(jts, 0);
            List <Joint2D> jList = new List <Joint2D>(jts);

            jList.Sort();

            foreach (Joint2D j in jList)
            {
                defJoints.Add(j.GetV2DJoint());
            }
        }
Beispiel #4
0
        public void Init(DDW.Swf.SwfCompilationUnit scu)
        {
            root = new Definition2D();
            root.DefinitionName = V2D.ROOT_NAME;
            root.LinkageName    = V2D.ROOT_NAME;
            root.Bounds         = Rectangle.Empty;
            root.FrameCount     = 1;
            definitions.Add(root);

            rootInstance            = new Instance2D(V2D.ROOT_NAME, root.DefinitionName, 0, 0, 0, 1, 1);
            rootInstance.Definition = root;
            rootInstance.Transforms.Add(new Transform(
                                            0,
                                            (uint)(scu.Header.FrameCount * (1000 / scu.Header.FrameRate)),
                                            new Matrix(1, 0, 0, 1, 0, 0),
                                            1,
                                            ColorTransform.Identity));

            parentStack.Push(rootInstance);
        }
Beispiel #5
0
 private void GenerateJointActionData(Joint2D jnt, Definition2D body)
 {
     foreach (string k in codeData.Keys)
     {
         if (jnt.Name == k)
         {
             Dictionary <string, string> d = codeData[k];
             foreach (string s in d.Keys)
             {
                 if (jnt.data.ContainsKey(s))
                 {
                     jnt.data[s] = d[s];
                 }
                 else
                 {
                     jnt.data.Add(s, d[s]);
                 }
             }
         }
     }
 }
Beispiel #6
0
        private void GenerateJointData(Definition2D def)
        {
            if (!def.IsDefined)             // todo: really really need to do this isDefined crap right.
            {
                foreach (Joint2D j in def.Joints.Values)
                {
                    string jName = j.Name;
                    EnsureBodyTags(j);
                    string     b1Name = j.data["body1"];
                    string     b2Name = j.data["body2"];
                    Instance2D b1Body = (b1Name == V2D.ROOT_NAME) ? rootInstance : parentStack.Peek().Definition.GetChildByName(b1Name);
                    Instance2D b2Body = (b2Name == V2D.ROOT_NAME) ? rootInstance : parentStack.Peek().Definition.GetChildByName(b2Name);

                    V2DJointKind jointKind = j.JointKind;

                    if (!j.data.ContainsKey("location"))
                    {
                        if (V2D.OUTPUT_TYPE == OutputType.Swf)
                        {
                            j.data.Add("location", "#" + j.Locations[0].ToString());
                        }
                        else
                        {
                            j.data.Add("X", j.Locations[0].X.ToString());
                            j.data.Add("Y", j.Locations[0].Y.ToString());
                        }
                    }
                    if ((j.Locations.Count > 1) && (jointKind == V2DJointKind.Distance || jointKind == V2DJointKind.Pully))
                    {
                        if (!j.data.ContainsKey("location2"))
                        {
                            if (V2D.OUTPUT_TYPE == OutputType.Swf)
                            {
                                j.data.Add("location2", "#" + j.Locations[1].ToString());
                            }
                            else
                            {
                                j.data.Add("X2", j.Locations[1].X.ToString());
                                j.data.Add("Y2", j.Locations[1].Y.ToString());
                            }
                        }
                        if (jointKind == V2DJointKind.Pully)
                        {
                            Point groundAnchor1;
                            Point groundAnchor2;
                            if (b1Body.Transforms.Count > 1)
                            {
                                groundAnchor1 = new Point(
                                    b1Body.Transforms[1].Matrix.TranslateX,
                                    b1Body.Transforms[1].Matrix.TranslateY);
                                groundAnchor2 = new Point(
                                    b2Body.Transforms[1].Matrix.TranslateX,
                                    b2Body.Transforms[1].Matrix.TranslateY);
                            }
                            else
                            {
                                groundAnchor1 = j.Transforms[0];
                                groundAnchor2 = j.Transforms[1];
                            }

                            float d1x        = groundAnchor1.X - j.Locations[0].X;                     // m1a.TranslateX;
                            float d1y        = groundAnchor1.Y - j.Locations[0].Y;                     //m1a.TranslateY;
                            float d2x        = groundAnchor2.X - j.Locations[1].X;                     //m2a.TranslateX;
                            float d2y        = groundAnchor2.Y - j.Locations[1].Y;                     //m2a.TranslateY;
                            float maxLength1 = (float)Math.Sqrt(d1x * d1x + d1y * d1y);
                            float maxLength2 = (float)Math.Sqrt(d2x * d2x + d2y * d2y);
                            //j.data.Add("groundAnchor1", groundAnchor1.ToString());
                            //j.data.Add("groundAnchor2", groundAnchor2.ToString());
                            j.data.Add("groundAnchor1X", groundAnchor1.X.ToString());
                            j.data.Add("groundAnchor1Y", groundAnchor1.Y.ToString());
                            j.data.Add("groundAnchor2X", groundAnchor2.X.ToString());
                            j.data.Add("groundAnchor2Y", groundAnchor2.Y.ToString());
                            j.data.Add("maxLength1", maxLength1.ToString());
                            j.data.Add("maxLength2", maxLength2.ToString());
                        }
                    }
                    else if (b1Body.Transforms.Count > 1 || b2Body.Transforms.Count > 1)
                    {
                        List <Transform> tr = (b1Body.Transforms.Count > 1) ? b1Body.Transforms : b2Body.Transforms;
                        if (jointKind == V2DJointKind.Revolute)
                        {
                            float start = (float)(tr[0].Matrix.GetMatrixComponents().Rotation / 180 * Math.PI);
                            float rmin  = (float)(tr[1].Matrix.GetMatrixComponents().Rotation / 180 * Math.PI);
                            float rmax  = (float)(tr[2].Matrix.GetMatrixComponents().Rotation / 180 * Math.PI);
                            rmin = rmin - start;
                            rmax = rmax - start;
                            if (rmin > 0)
                            {
                                rmin = (float)(Math.PI * -2 + rmin);
                            }
                            j.data.Add("min", rmin.ToString());
                            j.data.Add("max", rmax.ToString());
                        }
                        else if (jointKind == V2DJointKind.Prismatic)
                        {
                            Point a = new Point(
                                tr[0].Matrix.TranslateX,
                                tr[0].Matrix.TranslateY);
                            Point p0 = new Point(
                                tr[1].Matrix.TranslateX,
                                tr[1].Matrix.TranslateY);
                            Point p1 = new Point(
                                tr[2].Matrix.TranslateX,
                                tr[2].Matrix.TranslateY);

                            double len = Math.Sqrt((p1.Y - p0.Y) * (p1.Y - p0.Y) + (p1.X - p0.X) * (p1.X - p0.X));
                            double r   = ((p0.Y - a.Y) * (p0.Y - p1.Y) - (p0.X - a.X) * (p0.X - p1.X)) / (len * len);

                            float axisX   = p1.X - p0.X;
                            float axisY   = p1.Y - p0.Y;
                            float maxAxis = Math.Abs(axisX) > Math.Abs(axisY) ? axisX : axisY;
                            axisX /= maxAxis;
                            axisY /= maxAxis;

                            Point ap0 = new Point(p0.X - a.X, p0.Y - a.Y);
                            Point ap1 = new Point(p1.X - a.X, p1.Y - a.Y);
                            float min = (float)-(Math.Abs(r * len));
                            float max = (float)((1 - Math.Abs(r)) * len);
                            // Point ab = new Point(b.X - a.X, b.Y - a.Y);

                            // float r0 = (ap0.X * ab.X + ap0.Y * ab.Y) / (w * w); // dot product
                            //float r1 = (ap1.X * ab.X + ap1.Y * ab.Y) / (w * w); // dot product

                            j.data.Add("axisX", axisX.ToString());
                            j.data.Add("axisY", axisY.ToString());
                            j.data.Add("min", min.ToString());
                            j.data.Add("max", max.ToString());
                        }
                    }
                }
            }
        }
Beispiel #7
0
 private void ParseBodyImage(Definition2D b2d, IDefinition sy)
 {
     string bmpPath = AddSymbolImage(sy);
 }
Beispiel #8
0
        private void EnsureDefinition(Instance inst, IDefinition def)
        {
            DefinitionKind dk      = (DefinitionKind)def.UserData;
            bool           addInst = (inst != null);
            Matrix         m       = (inst == null) ? Matrix.Identity : inst.Transformations[0].Matrix;

            if ((dk & DefinitionKind.Ignore) == 0)
            {
                if (((dk & DefinitionKind.JointMarker) != 0) && (inst != null))
                {
                    V2DJointKind jointKind = jointKindMap[jointKinds.IndexOf(def.Name)];
                    ParseJoint(jointKind, inst);
                }
                else if (((dk & DefinitionKind.ShapeMarker) != 0) && (inst != null))
                {
                    if (!parentStack.Peek().Definition.IsDefined)
                    {
                        parentStack.Peek().Definition.AddShapes(curVo, def, m);
                    }
                }

                if ((dk & DefinitionKind.TextField) != 0)
                {
                    Text txt = (Text)def;
                    if (def.Name == null)
                    {
                        def.Name = "$tx_" + def.Id;
                    }
                    Definition2D d2d = GetTextDefinition(m, txt);
                    if (txt.TextRuns.Count > 0 && !txt.TextRuns[0].isEditable)
                    {
                        AddSymbolImage(def);
                    }

                    if (addInst)
                    {
                        AddInstance(inst, def);
                    }
                }

                if ((dk & DefinitionKind.Timeline) != 0)
                {
                    Definition2D d2d = GetDefinition2D(m, def);

                    Instance2D i2d;
                    if (addInst)
                    {
                        i2d = AddInstance(inst, def);
                    }
                    else
                    {
                        i2d = CreateInstance2D(def);
                    }
                    parentStack.Push(i2d);
                    ParseTimeline((Timeline)def);
                    i2d.Definition.IsDefined = true;
                    parentStack.Pop();
                }

                if ((dk & DefinitionKind.Symbol) != 0)
                {
                    // todo: this is just adding images
                    //Body2D b2d = CreateBody2D(inst, def);
                    if (def.Name == null)
                    {
                        def.Name = "$sym_" + def.Id;
                    }
                    Definition2D d2d = GetDefinition2D(m, def);
                    AddSymbolImage(def);

                    if (addInst)
                    {
                        AddInstance(inst, def);
                    }
                }

                if ((dk & DefinitionKind.Vex2D) != 0)
                {
                    Definition2D d2d = GetDefinition2D(m, def);

                    if (!isDefined.Contains(def.Id))
                    {
                        isDefined.Add(def.Id);
                        d2d.AddShapes(curVo, def, m);
                        //parentStack.Peek().Definition.AddShapes(curVo, def, m);
                    }

                    Instance2D i2d;
                    if (addInst)
                    {
                        i2d = AddInstance(inst, def);
                    }
                    else
                    {
                        i2d = CreateInstance2D(def);
                    }

                    parentStack.Push(i2d);
                    ParseTimeline((Timeline)def);
                    i2d.Definition.IsDefined = true;
                    parentStack.Pop();
                }
            }

            if (!isDefined.Contains(def.Id))
            {
                isDefined.Add(def.Id);
            }
        }