Esempio n. 1
0
    public void ParseShape(MegaXMLNode node, MegaShape shape)
    {
        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            //Debug.Log("Shape val " + val.name);
            switch (val.name)
            {
            case "name": break;

            case "p": break;

            case "r": break;

            case "s": break;
            }
        }

        foreach (MegaXMLNode n in node.children)
        {
            //Debug.Log("Shape tagName " + n.tagName);

            switch (n.tagName)
            {
            case "Spline":
                ParseSpline(n, shape);
                break;
            }
        }
    }
Esempio n. 2
0
    public void ParseSpline(MegaXMLNode node, MegaShape shape)
    {
        MegaSpline spline = new MegaSpline();

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            //Debug.Log("Spline val " + val.name);
            switch (val.name)
            {
            case "flags": break;

            case "closed": spline.closed = int.Parse(val.value) > 0 ? true : false; break;
            }
        }

        foreach (MegaXMLNode n in node.children)
        {
            //Debug.Log("Spline tagName " + n.tagName);
            switch (n.tagName)
            {
            case "K": ParseKnot(n, shape, spline); break;
            }
        }

        //Debug.Log("************** Add Spline");
        shape.splines.Add(spline);
    }
Esempio n. 3
0
    public void ParseKnot(MegaXMLNode node, MegaShape shape, MegaSpline spline)
    {
        Vector3 p      = Vector3.zero;
        Vector3 invec  = Vector3.zero;
        Vector3 outvec = Vector3.zero;

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            //Debug.Log("Knot val " + val.name);
            switch (val.name)
            {
            case "p": p = ParseV3Split(val.value, 0); break;

            case "i": invec = ParseV3Split(val.value, 0); break;

            case "o": outvec = ParseV3Split(val.value, 0); break;

            case "l": break;
            }
        }

        spline.AddKnot(p, invec, outvec);
    }
Esempio n. 4
0
    public void ParseTag(MegaXMLNode node, MegaShapeOSMWay way)
    {
        MegaShapeOSMTag tag = null;

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];


            switch (val.name)
            {
            case "k":
                tag = FindTagK(val.value);

                if (tag == null)
                {
                    tag   = new MegaShapeOSMTag();
                    tag.k = val.value;
                    tags.Add(tag);
                }

                break;

            case "v":
                way.tags.Add(AddV(tag, val.value));
                break;
            }
        }
    }
Esempio n. 5
0
    public void ParseWay(MegaXMLNode node)
    {
        MegaShapeOSMWay way = new MegaShapeOSMWay();

        way.name = "";

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            switch (val.name)
            {
            case "id": way.id = ulong.Parse(val.value); break;
            }
        }

        foreach (MegaXMLNode n in node.children)
        {
            switch (n.tagName)
            {
            case "nd": ParseND(n, way); break;

            case "tag": ParseTag(n, way); break;
            }
        }

        osmways.Add(way);
    }
Esempio n. 6
0
    public void ParseND(MegaXMLNode node, MegaShapeOSMWay way)
    {
        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            switch (val.name)
            {
            case "ref":     way.nodes.Add(ulong.Parse(val.value));  break;
            }
        }
    }
Esempio n. 7
0
    void ParseRect(MegaXMLNode node, MegaShape shape)
    {
        MegaSpline spline = GetSpline(shape);

        Vector3[] ppoints = new Vector3[4];

        float w = 0.0f;
        float h = 0.0f;
        float x = 0.0f;
        float y = 0.0f;

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            switch (val.name)
            {
            case "x": x = float.Parse(val.value); break;

            case "y": y = float.Parse(val.value); break;

            case "width": w = float.Parse(val.value); break;

            case "height": h = float.Parse(val.value); break;

            case "transform": Debug.Log("SVG Transform not implemented yet");
                break;
            }
        }

        ppoints[0] = new Vector3(x, 0.0f, y);
        ppoints[1] = new Vector3(x, 0.0f, y + h);
        ppoints[2] = new Vector3(x + w, 0.0f, y + h);
        ppoints[3] = new Vector3(x + w, 0.0f, y);

        spline.closed = true;
        spline.knots.Clear();
        //spline.AddKnot(ppoints[0], ppoints[0], ppoints[0]);
        //spline.AddKnot(ppoints[1], ppoints[1], ppoints[1]);
        //spline.AddKnot(ppoints[2], ppoints[2], ppoints[2]);
        //spline.AddKnot(ppoints[3], ppoints[3], ppoints[3]);
        AddKnot(spline, ppoints[0], ppoints[0], ppoints[0], shape.axis);
        AddKnot(spline, ppoints[1], ppoints[1], ppoints[1], shape.axis);
        AddKnot(spline, ppoints[2], ppoints[2], ppoints[2], shape.axis);
        AddKnot(spline, ppoints[3], ppoints[3], ppoints[3], shape.axis);
    }
    public MegaXMLNode parseAttributes(String xmlTag, MegaXMLNode node)
    {
        int index         = 0;
        int attrNameIndex = 0;
        int lastIndex     = 0;

        while (true)
        {
            index = xmlTag.IndexOf(BEGIN_QUOTE, lastIndex);
            if (index < 0 || index > xmlTag.Length)
            {
                break;
            }

            attrNameIndex = xmlTag.LastIndexOf(SPACE, index);
            if (attrNameIndex < 0 || attrNameIndex > xmlTag.Length)
            {
                break;
            }

            attrNameIndex++;
            String attrName = xmlTag.Substring(attrNameIndex, index - attrNameIndex);

            index += 2;

            lastIndex = xmlTag.IndexOf(QUOTE, index);
            if (lastIndex < 0 || lastIndex > xmlTag.Length)
            {
                break;
            }

            int    tagLength = lastIndex - index;
            String attrValue = xmlTag.Substring(index, tagLength);

            MegaXMLValue val = new MegaXMLValue();
            val.name  = attrName;
            val.value = attrValue;
            node.values.Add(val);
        }

        return(node);
    }
Esempio n. 9
0
    void ParsePolygon(MegaXMLNode node, MegaShape shape)
    {
        MegaSpline spline = GetSpline(shape);

        spline.knots.Clear();
        spline.closed = true;

        char[] charSeparators = new char[] { ' ' };

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            switch (val.name)
            {
            case "points":

                string[] coordinates = val.value.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);

                for (int j = 0; j < coordinates.Length; j++)
                {
                    Vector3 p = ParseV2Split(coordinates[j], 0);

                    MegaKnot k = new MegaKnot();
                    k.p      = SwapAxis(new Vector3(p.x, 0.0f, p.y), shape.axis);
                    k.invec  = k.p;
                    k.outvec = k.p;
                    spline.knots.Add(k);
                }

                break;
            }
        }

        if (spline.closed)
        {
            Vector3 delta1 = spline.knots[0].outvec - spline.knots[0].p;
            spline.knots[0].invec = spline.knots[0].p - delta1;
        }
    }
Esempio n. 10
0
    public MegaXMLNode parseAttributes(String xmlTag, MegaXMLNode node)
    {
        int index = 0;
        int attrNameIndex = 0;
        int lastIndex = 0;

        while ( true )
        {
            index = xmlTag.IndexOf(BEGIN_QUOTE, lastIndex);
            if ( index < 0 || index > xmlTag.Length )
                break;

            attrNameIndex = xmlTag.LastIndexOf(SPACE, index);
            if ( attrNameIndex < 0 || attrNameIndex > xmlTag.Length )
                break;

            attrNameIndex++;
            String attrName = xmlTag.Substring(attrNameIndex, index - attrNameIndex);

            index += 2;

            lastIndex = xmlTag.IndexOf(QUOTE, index);
            if ( lastIndex < 0 || lastIndex > xmlTag.Length )
            {
                break;
            }

            int tagLength = lastIndex - index;
            String attrValue = xmlTag.Substring(index, tagLength);

            MegaXMLValue val = new MegaXMLValue();
            val.name = attrName;
            val.value = attrValue;
            node.values.Add(val);
        }

        return node;
    }
Esempio n. 11
0
    void ParseCircle(MegaXMLNode node, MegaShape shape)
    {
        MegaSpline spline = GetSpline(shape);

        float cx = 0.0f;
        float cy = 0.0f;
        float r  = 0.0f;

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            switch (val.name)
            {
            case "cx": cx = float.Parse(val.value); break;

            case "cy": cy = float.Parse(val.value); break;

            case "r": r = float.Parse(val.value); break;
            }
        }

        float vector = CIRCLE_VECTOR_LENGTH * r;

        spline.knots.Clear();
        for (int ix = 0; ix < 4; ++ix)
        {
            float   angle  = (Mathf.PI * 2.0f) * (float)ix / (float)4;
            float   sinfac = Mathf.Sin(angle);
            float   cosfac = Mathf.Cos(angle);
            Vector3 p      = new Vector3((cosfac * r) + cx, 0.0f, (sinfac * r) + cy);
            Vector3 rotvec = new Vector3(sinfac * vector, 0.0f, -cosfac * vector);
            //spline.AddKnot(p, p + rotvec, p - rotvec);
            AddKnot(spline, p, p + rotvec, p - rotvec, shape.axis);
        }

        spline.closed = true;
    }
Esempio n. 12
0
    public void ParseNode(MegaXMLNode node)
    {
        MegaShapeOSMNode onode = new MegaShapeOSMNode();

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            switch (val.name)
            {
            case "id":
                //Debug.Log("id " + val.value);
                onode.id = ulong.Parse(val.value);
                break;

            case "lat": onode.pos.x = float.Parse(val.value); break;

            case "lon": onode.pos.z = float.Parse(val.value); break;
            }
        }

        osmnodes.Add(onode);
    }
Esempio n. 13
0
    void ParsePath(MegaXMLNode node, MegaShape shape)
    {
        Vector3 cp = Vector3.zero;
        Vector2 cP1;
        Vector2 cP2;

        char[] charSeparators = new char[] { ',', ' ' };

        MegaSpline spline = null;
        MegaKnot   k;

        string[] coord;

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            //Debug.Log("val name " + val.name);

            switch (val.name)
            {
            case "d":
#if UNITY_FLASH || UNITY_WP8 || UNITY_METRO
                string[] coordinates = null;                            //string.Split(val.value, @"(?=[MmLlCcSsZzHhVv])");
#else
                string[] coordinates = Regex.Split(val.value, @"(?=[MmLlCcSsZzHhVv])");
#endif

                for (int j = 0; j < coordinates.Length; j++)
                {
                    if (coordinates[j].Length > 0)
                    {
                        string v = coordinates[j].Substring(1);
                        if (v != null && v.Length > 0)
                        {
                            //v = v.Replace("-", ",-");

                            while (v.Length > 0 && (v[0] == ',' || v[0] == ' '))
                            {
                                v = v.Substring(1);
                            }
                        }

                        switch (coordinates[j][0])
                        {
                        case 'Z':
                        case 'z':
                            if (spline != null)
                            {
                                spline.closed = true;
#if false
                                Vector3 delta1 = spline.knots[0].outvec - spline.knots[0].p;
                                spline.knots[0].invec = spline.knots[0].p - delta1;

                                if (spline.knots[0].p == spline.knots[spline.knots.Count - 1].p)
                                {
                                    spline.knots.Remove(spline.knots[spline.knots.Count - 1]);
                                }
#else
                                int kc = spline.knots.Count - 1;
                                spline.knots[0].invec = spline.knots[kc].invec;
                                spline.knots.Remove(spline.knots[kc]);
#endif
                            }
                            break;

                        case 'M':
                            spline = GetSpline(shape);
                            spline.knots.Clear();

                            cp       = ParseV2Split(v, 0);
                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = k.p;
                            k.outvec = k.p;
                            spline.knots.Add(k);
                            break;

                        case 'm':
                            spline = GetSpline(shape);
                            spline.knots.Clear();

                            //Debug.Log("v: " + v);
                            coord = v.Split(" "[0]);
                            //Debug.Log("m coords " + coord.Length);
                            //Debug.Log("v2 " + coord[0]);
                            for (int k0 = 0; k0 < coord.Length - 1; k0 = k0 + 1)
                            {
                                //Debug.Log("v2 " + coord[k0]);
                                Vector3 cp1 = ParseV2Split(coord[k0], 0);
                                //Debug.Log("cp1 " + cp1);

                                cp.x += cp1.x;                                                  //ParseV2Split(coord[k0], 0);	// ParseV2(coord, k0);
                                cp.y += cp1.y;

                                k        = new MegaKnot();
                                k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                                k.invec  = k.p;
                                k.outvec = k.p;
                                spline.knots.Add(k);
                            }

#if false
                            Vector3 cp1 = ParseV2Split(v, 0);
                            cp.x    += cp1.x;
                            cp.y    += cp1.y;
                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = k.p;
                            k.outvec = k.p;
                            spline.knots.Add(k);
#endif
                            break;

                        case 'l':
                            //coord = v.Split(","[0]);
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);
                            for (int k0 = 0; k0 < coord.Length; k0 = k0 + 2)
                            {
                                cp += ParseV2(coord, k0);
                            }

                            spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);

                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.outvec = k.p - (k.invec - k.p);
                            spline.knots.Add(k);

                            break;

                        case 'c':
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);

                            for (int k2 = 0; k2 < coord.Length; k2 += 6)
                            {
                                cP1 = cp + ParseV2(coord, k2);
                                cP2 = cp + ParseV2(coord, k2 + 2);
                                cp += ParseV2(coord, k2 + 4);

                                spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cP1.x, 0.0f, cP1.y), shape.axis);

                                k        = new MegaKnot();
                                k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                                k.invec  = SwapAxis(new Vector3(cP2.x, 0.0f, cP2.y), shape.axis);
                                k.outvec = k.p - (k.invec - k.p);
                                spline.knots.Add(k);
                            }
                            break;

                        case 'L':
                            //coord = v.Split(","[0]);
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);
                            //Debug.Log("v " + v);
                            //Debug.Log("coords " + coord.Length);
                            for (int k3 = 0; k3 < coord.Length; k3 = k3 + 2)
                            {
                                cp = ParseV2(coord, k3);
                            }

                            spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);

                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.outvec = k.p - (k.invec - k.p);
                            spline.knots.Add(k);

                            break;

                        case 'v':
                            //Debug.Log("v: " + v);
                            coord = v.Split(","[0]);
                            for (int k4 = 0; k4 < coord.Length; k4++)
                            {
                                cp.y += float.Parse(coord[k4]);
                            }
                            spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);

                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.outvec = k.p - (k.invec - k.p);
                            spline.knots.Add(k);

                            break;

                        case 'V':
                            //coord = v.Split(","[0]);
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);

                            for (int k9 = 0; k9 < coord.Length; k9++)
                            {
                                cp.y = float.Parse(coord[k9]);
                            }

                            spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);

                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.outvec = k.p - (k.invec - k.p);
                            spline.knots.Add(k);

                            break;

                        case 'h':
                            //coord = v.Split(","[0]);
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);

                            for (int k5 = 0; k5 < coord.Length; k5++)
                            {
                                cp.x += float.Parse(coord[k5]);
                            }

                            spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);

                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.outvec = k.p - (k.invec - k.p);
                            spline.knots.Add(k);

                            break;

                        case 'H':
                            coord = v.Split(","[0]);
                            for (int k6 = 0; k6 < coord.Length; k6++)
                            {
                                cp.x = float.Parse(coord[k6]);
                            }

                            spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);

                            k        = new MegaKnot();
                            k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.invec  = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                            k.outvec = k.p - (k.invec - k.p);
                            spline.knots.Add(k);

                            break;

                        case 'S':
                            //coord = v.Split(","[0]);
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);

                            for (int k7 = 0; k7 < coord.Length; k7 = k7 + 4)
                            {
                                cp       = ParseV2(coord, k7 + 2);
                                cP1      = ParseV2(coord, k7);
                                k        = new MegaKnot();
                                k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                                k.invec  = SwapAxis(new Vector3(cP1.x, 0.0f, cP1.y), shape.axis);
                                k.outvec = k.p - (k.invec - k.p);
                                spline.knots.Add(k);
                            }
                            break;

                        case 's':
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);

                            for (int k7 = 0; k7 < coord.Length; k7 = k7 + 4)
                            {
                                cP1 = cp + ParseV2(coord, k7);
                                cp += ParseV2(coord, k7 + 2);

                                k        = new MegaKnot();
                                k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                                k.invec  = SwapAxis(new Vector3(cP1.x, 0.0f, cP1.y), shape.axis);
                                k.outvec = k.p - (k.invec - k.p);
                                spline.knots.Add(k);
                            }
                            break;

                        case 'C':
                            //Debug.Log("v " + v);
                            coord = v.Split(charSeparators, StringSplitOptions.RemoveEmptyEntries);
                            //Debug.Log("crds " + coord.Length);
                            for (int k2 = 0; k2 < coord.Length; k2 += 6)
                            {
                                cP1 = ParseV2(coord, k2);
                                cP2 = ParseV2(coord, k2 + 2);
                                cp  = ParseV2(coord, k2 + 4);

                                spline.knots[spline.knots.Count - 1].outvec = SwapAxis(new Vector3(cP1.x, 0.0f, cP1.y), shape.axis);

                                k        = new MegaKnot();
                                k.p      = SwapAxis(new Vector3(cp.x, 0.0f, cp.y), shape.axis);
                                k.invec  = SwapAxis(new Vector3(cP2.x, 0.0f, cP2.y), shape.axis);
                                k.outvec = k.p - (k.invec - k.p);
                                spline.knots.Add(k);
                            }
                            break;

                        default:
                            break;
                        }
                    }
                }
                break;
            }
        }
    }
Esempio n. 14
0
    void ParseEllipse(MegaXMLNode node, MegaShape shape)
    {
        MegaSpline spline = GetSpline(shape);

        float cx = 0.0f;
        float cy = 0.0f;
        float rx = 0.0f;
        float ry = 0.0f;

        for (int i = 0; i < node.values.Count; i++)
        {
            MegaXMLValue val = node.values[i];

            switch (val.name)
            {
            case "cx": cx = float.Parse(val.value); break;

            case "cy": cy = float.Parse(val.value); break;

            case "rx": rx = float.Parse(val.value); break;

            case "ry": ry = float.Parse(val.value); break;
            }
        }

        ry = Mathf.Clamp(ry, 0.0f, float.MaxValue);
        rx = Mathf.Clamp(rx, 0.0f, float.MaxValue);

        float radius, xmult, ymult;

        if (ry < rx)
        {
            radius = rx;
            xmult  = 1.0f;
            ymult  = ry / rx;
        }
        else
        {
            if (rx < ry)
            {
                radius = ry;
                xmult  = rx / ry;
                ymult  = 1.0f;
            }
            else
            {
                radius = ry;
                xmult  = ymult = 1.0f;
            }
        }


        float vector = CIRCLE_VECTOR_LENGTH * radius;

        Vector3 mult = new Vector3(xmult, ymult, 1.0f);

        for (int ix = 0; ix < 4; ++ix)
        {
            float   angle  = 6.2831853f * (float)ix / 4.0f;
            float   sinfac = Mathf.Sin(angle);
            float   cosfac = Mathf.Cos(angle);
            Vector3 p      = new Vector3(cosfac * radius + cx, 0.0f, sinfac * radius + cy);
            Vector3 rotvec = new Vector3(sinfac * vector, 0.0f, -cosfac * vector);
            //spline.AddKnot(Vector3.Scale(p, mult), Vector3.Scale((p + rotvec), mult), Vector3.Scale((p - rotvec), mult));	//, tm);
            AddKnot(spline, Vector3.Scale(p, mult), Vector3.Scale((p + rotvec), mult), Vector3.Scale((p - rotvec), mult), shape.axis);                  //, tm);
        }

        spline.closed = true;
    }