﻿/*==========================================================================*/
/*                      Copyright (c) 2003 Macromedia.                      */
/*                           All rights reserved.                           */
/*==========================================================================*/


/*==========================================================================*/
/*                             Frame Smart Shape                            */
/*==========================================================================*/


/*==========================================================================*/
/* Localizable Strings                                                      */
/*==========================================================================*/
fw.runScript(Files.getLanguageDirectory() + "/JSFStrings/Frame.jsf");
var WidthToolTip = __tooltips["WidthToolTip"];
var FillToolTip = __tooltips["FillToolTip"];
var RepositionToolTip = __tooltips["RepositionToolTip"];
var cornerToolTip = __tooltips["cornerToolTip"] ;


/*==========================================================================*/
/* Constants                                                                */
/*==========================================================================*/
var kInitialObjectSize = 20;
var kInitialFrameWidth = 40;
var FillIDStr = "Frame_SS_FillPattern"
var WidthIDStr = "Frame_SS_WidthID"
var insideWidthCPIndex = 0;
var outsideWidthCPIndex = 1;
var fillCPIndex = 2;
var repositionCPIndex = 3;
var cornerCPIndex = 4;
var gCornerType = 0;	// 0=Beveled, 1=Rounded, 2=Chamfer
var gCPD = 0.552;
var gFillOffset = -10.0;
var gDefaultPattern = "Wood 2";  // This is an internal name - do NOT localize.

/*==========================================================================*/
/* main switch                                                              */
/*==========================================================================*/
switch(smartShape.operation) {

	case "BeginDragInsert":
	case "InsertSmartShapeAt":
		InsertSmartShapeAt(true);
		break;

	case "BeginDragControlPoint":
		BeginDragControlPoint();
		break;

	case "DragControlPoint":
		DragControlPoint();
		break;
		
	case "EndDragControlPoint":
		EndDragControlPoint();
		break;

	case "SmartShapeEdited":
		PlaceControlPoints();
		break;
}

/*==========================================================================*/
/* functions                                                                */
/*==========================================================================*/
function AddPoint(contour, x, y)
{
	contour.nodes.length++;
	contour.nodes[contour.nodes.length - 1].predX = x;
	contour.nodes[contour.nodes.length - 1].x = x;
	contour.nodes[contour.nodes.length - 1].succX = x;
	contour.nodes[contour.nodes.length - 1].predY = y;
	contour.nodes[contour.nodes.length - 1].y = y;
	contour.nodes[contour.nodes.length - 1].succY = y;
}

function PlaceFillHandles(elem)
{
	// Fist, ask Fireworks to place the fill handles in the default location
	elem.pathAttributes.setDefaultFillHandles();
	
	// Then offset them a little so they don't get in the way of the center Control Point
	OffsetFillHandles(elem, 0.0, gFillOffset);
}

function OffsetFillHandles(elem, x, y)
{
	// This function moves each fill handle the specified amount

	var h = elem.pathAttributes.fillHandle1;
	h.x += x;
	h.y += y;
	elem.pathAttributes.fillHandle1 = h;

	var h = elem.pathAttributes.fillHandle2;
	h.x += x;
	h.y += y;
	elem.pathAttributes.fillHandle2 = h;

	var h = elem.pathAttributes.fillHandle3;
	h.x += x;
	h.y += y;
	elem.pathAttributes.fillHandle3 = h;
}

function SetPatternFill(elem, patternName)
{
	elem.pathAttributes.fill = { category:"fc_Pattern", ditherColors:[ "#000000", "#000000" ], edgeType:"antialiased", feather:0, gradient:null, name:"fn_Pattern", pattern:{ image:null, name:patternName }, shape:"pattern", stampingMode:"blend opaque", textureBlend:0, webDitherTransparent:false };
	PlaceFillHandles(elem);
}

function InsertSmartShapeAt(firstTime)
{
	var elem = smartShape.elem;
	if (firstTime) {
		elem.customData[FillIDStr] = gDefaultPattern;
		elem.customData[WidthIDStr] = kInitialFrameWidth;
	} else {
		elem.removeTransformation();
	}
	
	var frameWidth = elem.customData[WidthIDStr];

	// Give the frame a default size and location if its not dropped over an elem
	var p = smartShape.currentMousePos;
	
	p = smartShape.elem.smartShapeToGlobalCoords(p);
	
	var left = p.x - kInitialObjectSize;
	var right = p.x + kInitialObjectSize;
	var top = p.y - kInitialObjectSize;
	var bottom = p.y + kInitialObjectSize;
	
	// Place it around the element if its dropped on top of one
	var overElem = fw.getDocumentDOM().elementsAt({left:p.x, right:p.x, top:p.y, bottom:p.y})[0];
	if (overElem != null) {
		left = overElem.left;
		right = left + overElem.width;
		top = overElem.top;
		bottom = top + overElem.height;
	}
	
	// Only create the path the first time through so it retains any path attrs set
	if (firstTime) {
		elem.elements[0] = new Path;
	}

	elem.elements[elem.elements.length - 1].contours[0] = new Contour;
	elem.elements[elem.elements.length - 1].contours[0].isClosed = true;
	elem.elements[elem.elements.length - 1].contours[0].nodes.length = 0;
	AddPoint(elem.elements[elem.elements.length - 1].contours[0], left, top);
	AddPoint(elem.elements[elem.elements.length - 1].contours[0], right, top);
	AddPoint(elem.elements[elem.elements.length - 1].contours[0], right, bottom);
	AddPoint(elem.elements[elem.elements.length - 1].contours[0], left, bottom);

	elem.elements[elem.elements.length - 1].contours[1] = new Contour;
	elem.elements[elem.elements.length - 1].contours[1].isClosed = true;
	elem.elements[elem.elements.length - 1].contours[1].nodes.length = 0;
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], left - frameWidth, top - frameWidth);
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], left - frameWidth, top - frameWidth);
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], right + frameWidth, top - frameWidth);
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], right + frameWidth, top - frameWidth);
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], right + frameWidth, bottom + frameWidth);
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], right + frameWidth, bottom + frameWidth);
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], left - frameWidth, bottom + frameWidth);
	AddPoint(elem.elements[elem.elements.length - 1].contours[1], left - frameWidth, bottom + frameWidth);

	if (firstTime) {
		elem.elements[elem.elements.length - 1].effectList = { category:"Untitled", effects:[ { AngleSoftness:3, BevelContrast:75, BevelType:0, BevelWidth:7, ButtonState:0, DownBlendColor:"#0000003f", EdgeThreshold:0, EffectIsVisible:true, EffectMoaID:"{7fe61102-6ce2-11d1-8c76000502701850}", EmbossFaceColor:"#ffffff00", GlowStartDistance:0, GlowWidth:0, HiliteColor:"#ffffff", HitBlendColor:"#ffffff3f", LightAngle:135, LightDistance:100, MaskSoftness:0, OuterBevelColor:"#df0000", ShadowColor:"#000000", ShowObject:false, SlopeMultiplier:1, SlopeType:3, category:"Inner Bevel", name:"Inner Bevel" } ], name:"Untitled" };
		SetPatternFill(elem.elements[elem.elements.length - 1], elem.customData[FillIDStr]);
		elem.elements[elem.elements.length - 1].pathAttributes.brush = null;
	} else {
		PlaceFillHandles(elem.elements[elem.elements.length - 1]);
	}
	
	PlaceControlPoints();
}

function GetCenter(contour)
{
	var center = new Object();
	center.midX = 0;
	center.midY = 0;
	
	var n = contour.nodes.length;
	for (var i = 0; i < n; i++) {
		center.midX += contour.nodes[i].x;
		center.midY += contour.nodes[i].y;
	}
	
	if (n > 0) {
		center.midX = center.midX / n;
		center.midY = center.midY / n;
	}
	
	return(center);	
}

function PlaceControlPoints()
{
	// delete any previous control points
	smartShape.elem.controlPoints.length = 0;

	// place the width control point at the middle-left
	smartShape.elem.controlPoints.length++;
	cp = smartShape.elem.controlPoints[insideWidthCPIndex];
	cp.x = smartShape.elem.elements[0].contours[0].nodes[0].x;
	cp.y = (smartShape.elem.elements[0].contours[0].nodes[0].y + smartShape.elem.elements[0].contours[0].nodes[3].y) / 2;
	cp.toolTip = WidthToolTip;

	// place the width control point at the middle-left
	smartShape.elem.controlPoints.length++;
	cp = smartShape.elem.controlPoints[outsideWidthCPIndex];
	cp.x = smartShape.elem.elements[0].contours[1].nodes[0].x;
	cp.y = (smartShape.elem.elements[0].contours[1].nodes[0].y + smartShape.elem.elements[0].contours[1].nodes[7].y) / 2;
	cp.toolTip = WidthToolTip;

	// place the fill control point at the middle-bottom
	smartShape.elem.controlPoints.length++;
	cp = smartShape.elem.controlPoints[fillCPIndex];
	cp.x = (smartShape.elem.elements[0].contours[0].nodes[2].x + smartShape.elem.elements[0].contours[0].nodes[3].x + smartShape.elem.elements[0].contours[1].nodes[4].x + smartShape.elem.elements[0].contours[1].nodes[7].x) / 4;
	var y1 = (smartShape.elem.elements[0].contours[0].nodes[2].y + smartShape.elem.elements[0].contours[0].nodes[3].y) / 2;
	var y2 = (smartShape.elem.elements[0].contours[1].nodes[4].y + smartShape.elem.elements[0].contours[1].nodes[6].y) / 2;
	if (y1 > y2)
		cp.y = y1;
	else
		cp.y = y2;
	cp.toolTipTracksDrag = true;
	cp.toolTip = FillToolTip;

	smartShape.elem.controlPoints.length++;
	cp = smartShape.elem.controlPoints[repositionCPIndex];
	var center = GetCenter(smartShape.elem.elements[0].contours[0]);
	cp.x = center.midX;
	cp.y = center.midY;
	cp.toolTip = RepositionToolTip;
	cp.type = "defaultInverted";
	cp.hiliteDragOverObject = true;

	smartShape.elem.controlPoints.length++
	cp         = smartShape.elem.controlPoints[cornerCPIndex];
	cp.x       = smartShape.elem.elements[0].contours[1].nodes[0].x;
	cp.y       = smartShape.elem.elements[0].contours[1].nodes[0].y;
	cp.name    = gCornerType;
	cp.toolTip = cornerToolTip;
	
}

function EndDragControlPoint()
{
	switch (smartShape.currentControlPointIndex) {
		case insideWidthCPIndex:
		case outsideWidthCPIndex:
//			PlaceControlPoints();
			PlaceFillControlPoint();
			// remember the new width
			var x1 = smartShape.elem.controlPoints[insideWidthCPIndex].x;
			var x2 = smartShape.elem.controlPoints[outsideWidthCPIndex].x;
			if (x1 > x2)
				smartShape.elem.customData[WidthIDStr] = x1 - x2;
			else
				smartShape.elem.customData[WidthIDStr] = x2 - x1;
			break;

		case fillCPIndex:
			// reset the tooltip
			smartShape.currentControlPoint.toolTip = FillToolTip;
			break;

		case repositionCPIndex:
			var cp = smartShape.currentControlPoint;
			var me = smartShape.elem;
			if (cp.x < me.left || cp.x > (me.left + me.width) || cp.y < me.top || cp.y > (me.top + me.height))
				InsertSmartShapeAt(false);
			else
				PlaceControlPoints();
			break;

		case cornerCPIndex:
			var dm = smartShape.mouseDownPos;
			var cm = smartShape.currentMousePos;
			var d  = Math.abs(cm.x - dm.x);
			if (d<1)
				switchType();
			break;
	}
}

function BeginDragControlPoint()
{
	switch (smartShape.currentControlPointIndex) {
		case insideWidthCPIndex:

			// move the control point
			var parms = smartShape.GetDefaultMoveParms();
			parms.deltaYtoY = 0.0;
			smartShape.elem.controlPoints[smartShape.currentControlPointIndex].RegisterMove(parms);

			parms.deltaXtoX = 1.0;
			parms.deltaXtoY = 1.0;
			smartShape.elem.elements[0].contours[smartShape.currentControlPointIndex].nodes[0].RegisterMove(parms);
			parms.deltaXtoX = -1.0;
			smartShape.elem.elements[0].contours[smartShape.currentControlPointIndex].nodes[1].RegisterMove(parms);
			parms.deltaXtoY = 1.0;
			parms.deltaXtoY = -1.0;
			smartShape.elem.elements[0].contours[smartShape.currentControlPointIndex].nodes[2].RegisterMove(parms);
			parms.deltaXtoX = 1.0;
			smartShape.elem.elements[0].contours[smartShape.currentControlPointIndex].nodes[3].RegisterMove(parms);
			break;

		case outsideWidthCPIndex:

			var contour = smartShape.elem.elements[0].contours[1];

			// move the control point
			var parms = smartShape.GetDefaultMoveParms();
			parms.deltaYtoY = 0.0;
			smartShape.elem.controlPoints[smartShape.currentControlPointIndex].RegisterMove(parms);

			params           = smartShape.GetDefaultMoveParms();
			params.deltaYtoY = 0;
			params.deltaXtoY = 1;
			smartShape.elem.controlPoints[cornerCPIndex].RegisterMove(params);

			contour.nodes[0].RegisterMove(params);
			contour.nodes[1].RegisterMove(params);

			params.deltaXtoX = -1;
			params.deltaXtoY =  1;

			contour.nodes[2].RegisterMove(params);
			contour.nodes[3].RegisterMove(params);

			params.deltaXtoX = -1;
			params.deltaXtoY = -1;

			contour.nodes[4].RegisterMove(params);
			contour.nodes[5].RegisterMove(params);

			params.deltaXtoX =  1;
			params.deltaXtoY = -1;

			contour.nodes[6].RegisterMove(params);
			contour.nodes[7].RegisterMove(params);

			var w2 = (contour.nodes[3].x - contour.nodes[0].x)/2;

			params.deltaXtoX = -(smartShape.elem.controlPoints[fillCPIndex].x-((contour.nodes[3].x+contour.nodes[0].x)/2))/w2;

			smartShape.elem.controlPoints[fillCPIndex].RegisterMove(params);

			break;

		case fillCPIndex:
			smartShape.livePreview = true;
			break;
		
		case repositionCPIndex:
			var parms = smartShape.GetDefaultMoveParms();
			smartShape.elem.controlPoints[repositionCPIndex].RegisterMove(parms);
			break;

		case cornerCPIndex:

			var c0      = smartShape.elem.controlPoints[0];
			var c1      = smartShape.elem.controlPoints[1];
			var contour0= smartShape.elem.elements[0].contours[0];
			var contour = smartShape.elem.elements[0].contours[1];
			var W       = (c1.x<c0.x)? (contour0.nodes[0].x - contour.nodes[0].x) : ((contour.nodes[3].x - contour.nodes[0].x)/2);
			var H       = (c1.x<c0.x)? (contour0.nodes[0].y - contour.nodes[1].y) : ((contour.nodes[6].y - contour.nodes[1].y)/2);
			var lim     = (W<H)? W : H;
			var lim_    = lim * gCPD;
			var t       = parseInt(smartShape.elem.controlPoints[cornerCPIndex].name);

			// corner 0
			var dxx = 1;
			var dxy = 1;

			params           = smartShape.GetDefaultMoveParms();
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.minX      = contour.nodes[0].x;
			params.maxX      = contour.nodes[0].x + lim;

			smartShape.elem.controlPoints[cornerCPIndex].RegisterMove(params);

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = true;
			params.movePt    = true;
			params.moveSucc  = false;
			params.deltaXtoX = 0;
			params.deltaYtoY = 0;
			params.deltaXtoY = dxy;
			params.minX      = contour.nodes[0].x;
			params.maxX      = contour.nodes[0].x;
			params.minY      = contour.nodes[1].y;
			params.maxY      = contour.nodes[1].y + lim;
			contour.nodes[0].RegisterMove(params);

			params.movePred  = false;
			params.movePt    = false;
			params.moveSucc  = true;
			params.deltaXtoX = (t==2)? dxx*(lim_/lim) : 0;
			params.deltaXtoY = (t==1)? dxy*(lim_/lim) : dxy;
			params.maxX     += (t==2)? (lim * gCPD) : 0;
			params.maxY     -= (t==1)? (lim * gCPD) : 0;
			contour.nodes[0].RegisterMove(params);

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = false;
			params.movePt    = true;
			params.moveSucc  = true;
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.minX      = contour.nodes[0].x;
			params.maxX      = contour.nodes[0].x + lim;
			params.minY      = contour.nodes[1].y;
			params.maxY      = contour.nodes[1].y;
			contour.nodes[1].RegisterMove(params);

			params.movePred  = true;
			params.movePt    = false;
			params.moveSucc  = false;
			params.deltaXtoX = (t==1)? dxx*(lim_/lim) : dxx;
			params.deltaXtoY = (t==2)? dxy*(lim_/lim) : 0;
			params.maxX     -= (t==1)? (lim * gCPD) : 0;
			params.maxY     += (t==2)? (lim * gCPD) : 0;
			contour.nodes[1].RegisterMove(params);

			// corner 1
			dxx = -1;
			dxy =  1;

			params           = smartShape.GetDefaultMoveParms();
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.minX      = contour.nodes[3].x - lim;
			params.maxX      = contour.nodes[3].x;

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = true;
			params.movePt    = true;
			params.moveSucc  = false;
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.deltaXtoY = 0;
			params.minX      = contour.nodes[3].x - lim;
			params.maxX      = contour.nodes[3].x;
			params.minY      = contour.nodes[2].y;
			params.maxY      = contour.nodes[2].y;
			contour.nodes[2].RegisterMove(params);

			params.movePred  = false;
			params.movePt    = false;
			params.moveSucc  = true;
			params.deltaXtoX = (t==1)? dxx*(lim_/lim) : dxx;
			params.deltaXtoY = (t==2)? dxy*(lim_/lim) : -dxy;
			params.minX     += (t==1)? (lim * gCPD) : 0;
			params.maxY     += (t==2)? (lim * gCPD) : 0;
			contour.nodes[2].RegisterMove(params);

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = false;
			params.movePt    = true;
			params.moveSucc  = true;
			params.deltaXtoX = 0;
			params.deltaYtoY = 0;
			params.deltaXtoY = dxy;
			params.minX      = contour.nodes[3].x;
			params.maxX      = contour.nodes[3].x;
			params.minY      = contour.nodes[2].y;
			params.maxY      = contour.nodes[2].y + lim;
			contour.nodes[3].RegisterMove(params);

			params.movePred  = true;
			params.movePt    = false;
			params.moveSucc  = false;
			params.deltaXtoX = (t==2)? dxx*(lim_/lim) : 0;
			params.deltaXtoY = (t==1)? dxy*(lim_/lim) : dxy;
			params.minX     -= (t==2)? (lim * gCPD) : 0;
			params.maxY     -= (t==1)? (lim * gCPD) : 0;
			contour.nodes[3].RegisterMove(params);

			// corner 2
			dxx = -1;
			dxy = -1;

			params           = smartShape.GetDefaultMoveParms();
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.minX      = contour.nodes[4].x - lim;
			params.maxX      = contour.nodes[4].x;

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = true;
			params.movePt    = true;
			params.moveSucc  = false;
			params.deltaXtoX = 0;
			params.deltaYtoY = 0;
			params.deltaXtoY = dxy;
			params.minX      = contour.nodes[4].x;
			params.maxX      = contour.nodes[4].x;
			params.minY      = contour.nodes[5].y - lim;
			params.maxY      = contour.nodes[5].y;
			contour.nodes[4].RegisterMove(params);

			params.movePred  = false;
			params.movePt    = false;
			params.moveSucc  = true;
			params.deltaXtoX = (t==2)? dxx*(lim_/lim) : 0;
			params.deltaXtoY = (t==1)? dxy*(lim_/lim) : dxy;
			params.minX     -= (t==2)? (lim * gCPD) : 0;
			params.minY     += (t==1)? (lim * gCPD) : 0;
			contour.nodes[4].RegisterMove(params);

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = false;
			params.movePt    = true;
			params.moveSucc  = true;
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.minX      = contour.nodes[4].x - lim;
			params.maxX      = contour.nodes[4].x;
			params.minY      = contour.nodes[5].y;
			params.maxY      = contour.nodes[5].y;
			contour.nodes[5].RegisterMove(params);

			params.movePred  = true;
			params.movePt    = false;
			params.moveSucc  = false;
			params.deltaXtoX = (t==1)? dxx*(lim_/lim) : dxx;
			params.deltaXtoY = (t==2)? dxy*(lim_/lim) : 0;
			params.minX     += (t==1)? (lim * gCPD) : 0;
			params.minY     -= (t==2)? (lim * gCPD) : 0;
			contour.nodes[5].RegisterMove(params);

			// corner 3
			dxx =  1;
			dxy = -1;

			params           = smartShape.GetDefaultMoveParms();
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.minX      = contour.nodes[7].x;
			params.maxX      = contour.nodes[7].x + lim;

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = true;
			params.movePt    = true;
			params.moveSucc  = false;
			params.deltaXtoX = dxx;
			params.deltaYtoY = 0;
			params.deltaXtoY = 0;
			params.minX      = contour.nodes[7].x;
			params.maxX      = contour.nodes[7].x + lim;
			params.minY      = contour.nodes[6].y;
			params.maxY      = contour.nodes[6].y;
			contour.nodes[6].RegisterMove(params);

			params.movePred  = false;
			params.movePt    = false;
			params.moveSucc  = true;
			params.deltaXtoX = (t==1)? dxx*(lim_/lim) : dxx;
			params.deltaXtoY = (t==2)? dxy*(lim_/lim) : 0;
			params.maxX     -= (t==1)? (lim * gCPD) : 0;
			params.minY     -= (t==2)? (lim * gCPD) : 0;
			contour.nodes[6].RegisterMove(params);

			params           = smartShape.GetDefaultMoveParms();
			params.movePred  = false;
			params.movePt    = true;
			params.moveSucc  = true;
			params.deltaXtoX = 0;
			params.deltaYtoY = 0;
			params.deltaXtoY = dxy;
			params.minX      = contour.nodes[7].x;
			params.maxX      = contour.nodes[7].x;
			params.minY      = contour.nodes[6].y - lim;
			params.maxY      = contour.nodes[6].y;
			contour.nodes[7].RegisterMove(params);

			params.movePred  = true;
			params.movePt    = false;
			params.moveSucc  = false;
			params.deltaXtoX = (t==2)? dxx*(lim_/lim) : 0;
			params.deltaXtoY = (t==1)? dxy*(lim_/lim) : dxy;
			params.maxX     += (t==2)? (lim * gCPD) : 0;
			params.minY     += (t==1)? (lim * gCPD) : 0;
			contour.nodes[7].RegisterMove(params);

			break;
	}
}

function DragControlPoint()
{
	switch (smartShape.currentControlPointIndex) {
		case fillCPIndex:

			var x1 = (smartShape.elem.elements[0].contours[0].nodes[0].x + smartShape.elem.elements[0].contours[0].nodes[3].x) / 2;
			var x2 = (smartShape.elem.elements[0].contours[1].nodes[0].x + smartShape.elem.elements[0].contours[1].nodes[7].x) / 2;
			if (x1 < x2)
				var minX = x1;
			else
				var minX = x2;

			var x1 = (smartShape.elem.elements[0].contours[0].nodes[0].x + smartShape.elem.elements[0].contours[0].nodes[2].x) / 2;
			var x2 = (smartShape.elem.elements[0].contours[1].nodes[2].x + smartShape.elem.elements[0].contours[1].nodes[4].x) / 2;
			if (x1 > x2)
				var maxX = x1;
			else
				var maxX = x2;

			var cp = smartShape.currentControlPoint;
			cp.x = smartShape.currentMousePos.x;
			if (cp.x < minX)
				cp.x = minX;
			if (cp.x > maxX)
				cp.x = maxX;


			var width = maxX - minX;
			var delta = cp.x - minX;

			var patterns = fw.getDocumentDOM().patterns;
			var numPatterns = patterns.length;
			
			var each = width / numPatterns;

			var id = (delta - each / 2) / each;
			if (id < 0)
				id = 0;
			if (id > (numPatterns - 1))
				id = numPatterns - 1;
			id = Math.round(id);
			var thePattern = patterns[id];
			if (thePattern != smartShape.elem.customData[FillIDStr]) {
				smartShape.elem.customData[FillIDStr] = thePattern;
				SetPatternFill(smartShape.elem.elements[smartShape.elem.elements.length - 1], smartShape.elem.customData[FillIDStr]);
			}
			cp.toolTip = fw.internalNameToUIName(smartShape.elem.elements[smartShape.elem.elements.length - 1].pathAttributes.fill.pattern.name);
			break;
	}
}

function PlaceFillControlPoint()
{
}

function switchType()
{
	var cp      = smartShape.elem.controlPoints[cornerCPIndex];
	var contour = smartShape.elem.elements[0].contours[1];
	var t       = parseInt(cp.name);
	var offsets = new Array(0, 0, 0,0, 0,0, 0, 0,  0,0,0, 0,  0, 0,0,0,
	                        0,-1,-1,0, 1,0, 0,-1,  0,1,1, 0, -1, 0,0,1,
	                        1, 0, 0,1, 0,1,-1, 0, -1,0,0,-1,  0,-1,1,0);

	var n0, n1, d, i, sx0, sy0, px1, py1;

	t   = (t<2)? t+1 : 0;

	d   = Math.abs(cp.x - contour.nodes[0].x) * gCPD;

	for (i=0; i<4; i++)
	{
		sx0 = sy0 = px1 = py1 = 0;
		n   = i*2;
		n0  = contour.nodes[n  ];
		n1  = contour.nodes[n+1];
		sx0 = (t==0)? 0 : d*offsets[(t*16)+(i*4)+0];
		sy0 = (t==0)? 0 : d*offsets[(t*16)+(i*4)+1];
		px1 = (t==0)? 0 : d*offsets[(t*16)+(i*4)+2];
		py1 = (t==0)? 0 : d*offsets[(t*16)+(i*4)+3];

		n0.predX = n0.x;
		n0.predY = n0.y;
		n0.succX = n0.x + sx0;
		n0.succY = n0.y + sy0;
		n1.predX = n1.x + px1;
		n1.predY = n1.y + py1;
		n1.succX = n1.x;
		n1.succY = n1.y;
	}
	cp.name = t;
}

