public Analyzer(double meanX, double meanY, GraphicsPath path)
{
Counters = new RunningCount[Enum.GetValues(typeof(AnalysisMetric)).Length];
foreach(AnalysisMetric metric in Enum.GetValues(typeof(AnalysisMetric)))
Counters[(int)metric] = new RunningCount(metric);
MeanX = meanX;
MeanY = meanY;
path.Flatten();
using(GraphicsPathIterator PathIterator = new GraphicsPathIterator(path))
{
using(GraphicsPath Subpath = new GraphicsPath())
{
Paths = new List<PointF[]>();
bool Closed;
while(PathIterator.NextSubpath(Subpath, out Closed) > 0)
{
Paths.Add(Subpath.PathPoints);
Subpath.Reset();
}
}
}
}
public static void WarpPath(GraphicsPath path, PointF[] destPoints, RectangleF srcRect, Matrix matrix = null, WarpMode warpMode = WarpMode.Perspective, float flatness = 0.25f)
{
if (path.PointCount == 0)
return;
path.Flatten(matrix, flatness);
var pathData = path.PathData;
var pnts = path.PathPoints;
var srcPoints = new PointF[] { new PointF(srcRect.Left, srcRect.Top),
new PointF(srcRect.Right, srcRect.Top),
new PointF(srcRect.Left, srcRect.Bottom),
new PointF(srcRect.Right, srcRect.Bottom) };
var count = pnts.Length;
float x1, y1;
int i;
if (warpMode == WarpMode.Perspective)
{
CalcProjectiveXformCoeffs(srcPoints, destPoints, out coeffs);
for (i = 0; i < count; i++)
{
x1 = pnts[i].X;
y1 = pnts[i].Y;
var factor = 1.0f / (coeffs[6] * x1 + coeffs[7] * y1 + 1.0f);
pnts[i].X = (float)(factor * (coeffs[0] * x1 + coeffs[1] * y1 + coeffs[2]));
pnts[i].Y = (float)(factor * (coeffs[3] * x1 + coeffs[4] * y1 + coeffs[5]));
}
}
else
{
CalcBilinearXformCoeffs(srcPoints, destPoints, out coeffs);
for (i = 0; i < count; i++)
{
x1 = pnts[i].X;
y1 = pnts[i].Y;
pnts[i].X = (float)(coeffs[0] * x1 + coeffs[1] * y1 + coeffs[2] * x1 * y1 + coeffs[3]);
pnts[i].Y = (float)(coeffs[4] * x1 + coeffs[5] * y1 + coeffs[6] * x1 * y1 + coeffs[7]);
}
}
GraphicsPath warpedPath = new GraphicsPath(pnts, pathData.Types);
if (warpedPath != null)
{
FillMode fm = path.FillMode;
path.Reset();
path.FillMode = fm;
path.AddPath(warpedPath, true);
warpedPath.Dispose();
}
}
/// <summary>
/// Get the desired Rounded Rectangle path.
/// </summary>
private static GraphicsPath GetEllipse(RectangleF baseRect)
{
GraphicsPath mPath = new GraphicsPath();
mPath.AddEllipse(baseRect);
mPath.CloseFigure();
mPath.Flatten();
return mPath;
}
private void Form2_Paint(object sender, PaintEventArgs e)
{
//패스 그래디언트
Point[] pts = { new Point(100, 0), new Point(0, 100), new Point(200, 100) };
PathGradientBrush B = new PathGradientBrush(pts, WrapMode.Tile);
e.Graphics.FillRectangle(B, ClientRectangle);
//패스 그래디언트 끝
//패스변형
GraphicsPath Path = new GraphicsPath();
Path.AddString("한글", new FontFamily("궁서"), 0, 100, new Point(10, 30), new StringFormat());
//확장 후 외곽선 그리기
Path.Widen(new Pen(Color.Black, 3));
e.Graphics.DrawPath(Pens.Black, Path);
//확장 후 채우기
Path.Widen(new Pen(Color.Blue, 3));
e.Graphics.DrawPath(Pens.Black, Path);
//곡선 펴기
Path.Flatten(new Matrix(), 12f);
e.Graphics.DrawPath(Pens.Black, Path);
//회전
Matrix M = new Matrix();
M.Rotate(-10);
Path.Transform(M);
e.Graphics.FillPath(Brushes.Blue, Path);
//휘기
RectangleF R = Path.GetBounds();
PointF[] arPoint = new PointF[4];
arPoint[0] = new PointF(R.Left, R.Top + 30);
arPoint[1] = new PointF(R.Right, R.Top - 10);
arPoint[2] = new PointF(R.Left + 10, R.Bottom - 10);
arPoint[3] = new PointF(R.Right + 30, R.Bottom + 30);
Path.Warp(arPoint, R);
e.Graphics.FillPath(Brushes.Blue, Path);
//클리핑
//graphicspath path= new graphicspath();
//path.fillmode = fillmode.winding;
//path.addellipse(50, 10, 100, 80);
//path.addellipse(20, 45, 160, 120);
//e.graphics.fillpath(brushes.white, path);
//e.graphics.setclip(path);
//for (int y = 0; y < bottom; y+= 20)
//{
// string str = "눈사람의 모양의클리핑 영역에 글자를 쓴것입니다";
// e.graphics.drawstring(str, font, brushes.blue, 0, y);
//}
//클리핑 끝
}
private static void DrawColorWheel(Graphics gr, Color outline_color, int xmin, int ymin, int wid, int hgt)
{
Rectangle rect = new Rectangle(xmin, ymin, wid, hgt);
GraphicsPath wheel_path = new GraphicsPath();
wheel_path.AddEllipse(rect);
wheel_path.Flatten();
float num_pts = (wheel_path.PointCount - 1) / 6;
Color[] surround_colors = new Color[wheel_path.PointCount];
int index = 0;
InterpolateColors(surround_colors, ref index,
1 * num_pts, 255, 255, 0, 0, 255, 255, 0, 255);
InterpolateColors(surround_colors, ref index,
2 * num_pts, 255, 255, 0, 255, 255, 0, 0, 255);
InterpolateColors(surround_colors, ref index,
3 * num_pts, 255, 0, 0, 255, 255, 0, 255, 255);
InterpolateColors(surround_colors, ref index,
4 * num_pts, 255, 0, 255, 255, 255, 0, 255, 0);
InterpolateColors(surround_colors, ref index,
5 * num_pts, 255, 0, 255, 0, 255, 255, 255, 0);
InterpolateColors(surround_colors, ref index,
wheel_path.PointCount, 255, 255, 255, 0, 255, 255, 0, 0);
using (PathGradientBrush path_brush =
new PathGradientBrush(wheel_path))
{
path_brush.CenterColor = Color.White;
path_brush.SurroundColors = surround_colors;
gr.FillPath(path_brush, wheel_path);
// It looks better if we outline the wheel.
using (Pen thick_pen = new Pen(outline_color, 2))
{
gr.DrawPath(thick_pen, wheel_path);
}
}
}
public void Flatten_Polygon ()
{
GraphicsPath path = new GraphicsPath ();
path.AddPolygon (new Point[4] {
new Point (0, 0), new Point (10, 10),
new Point (20, 20), new Point (40, 40)
});
GraphicsPath clone = (GraphicsPath) path.Clone ();
path.Flatten ();
ComparePaths (path, clone);
}
public void Flatten_Pie ()
{
GraphicsPath path = new GraphicsPath ();
path.AddPie (0, 0, 100, 100, 30, 30);
GraphicsPath clone = (GraphicsPath) path.Clone ();
path.Flatten ();
CompareFlats (path, clone);
}
public void DrawTextOnPath()
{
PointF[] tmpPoints;
PointF[] points = new PointF[25001];
int count = 0;
GraphicsPath gp = new GraphicsPath(_pathdata.Points, _pathdata.Types) { FillMode = FillMode.Winding };
_regionList.Clear();
gp.Flatten(null, 1);
try
{
PointF tmpPoint = gp.PathPoints[0];
int i;
for (i = 0; i <= gp.PathPoints.Length - 2; i++)
{
if (gp.PathTypes[i + 1] == (byte)PathPointType.Start | (gp.PathTypes[i] & (byte)PathPointType.CloseSubpath) == (byte)PathPointType.CloseSubpath)
{
tmpPoints = GetLinePoints(gp.PathPoints[i], tmpPoint, 1);
Array.ConstrainedCopy(tmpPoints, 0, points, count, tmpPoints.Length);
count += 1;
tmpPoint = gp.PathPoints[i + 1];
}
else
{
tmpPoints = GetLinePoints(gp.PathPoints[i], gp.PathPoints[i + 1], 1);
Array.ConstrainedCopy(tmpPoints, 0, points, count, tmpPoints.Length);
count += tmpPoints.Length - 1;
}
}
tmpPoints = new PointF[count];
Array.Copy(points, tmpPoints, count);
points = CleanPoints(tmpPoints);
count = points.Length - 1;
DrawText(points, count);
}
catch (Exception ex)
{
LastError = ex;
}
}
//---------------------------------------------------------------------
private void GenerateAustPlusRandomEllipses(int count)
{
subjects.Clear();
//load map of Australia from resource ...
_assembly = Assembly.GetExecutingAssembly();
polyStream = _assembly.GetManifestResourceStream("GuiDemo.aust.bin");
int len = (int)polyStream.Length;
byte[] b = new byte[len];
polyStream.Read(b, 0, len);
int polyCnt = BitConverter.ToInt32(b, 0);
int k = 4;
for (int i = 0; i < polyCnt; ++i)
{
int vertCnt = BitConverter.ToInt32(b, k);
k += 4;
Polygon pg = new Polygon(vertCnt);
for (int j = 0; j < vertCnt; ++j)
{
float x = BitConverter.ToSingle(b, k) * scale;
float y = BitConverter.ToSingle(b, k + 4) * scale;
k += 8;
pg.Add(new IntPoint((int)x, (int)y));
}
subjects.Add(pg);
}
clips.Clear();
Random rand = new Random();
GraphicsPath path = new GraphicsPath();
Point pt = new Point();
const int ellipse_size = 100, margin = 10;
for (int i = 0; i < count; ++i)
{
int w = pictureBox1.ClientRectangle.Width - ellipse_size - margin *2;
int h = pictureBox1.ClientRectangle.Height - ellipse_size - margin * 2 - statusStrip1.Height;
pt.X = rand.Next(w) + margin;
pt.Y = rand.Next(h) + margin;
int size = rand.Next(ellipse_size - 20) + 20;
path.Reset();
path.AddEllipse(pt.X, pt.Y, size, size);
path.Flatten();
Polygon clip = new Polygon(path.PathPoints.Count());
foreach (PointF p in path.PathPoints)
clip.Add(new IntPoint((int)(p.X * scale), (int)(p.Y * scale)));
clips.Add(clip);
}
}
/// <summary>
/// Produces DXF output for Flowchart shape
/// </summary>
/// <param name="rect">Bounding Rectangle</param>
/// <param name="ShapeStyle">Flowchart shape style</param>
/// <param name="st">ElementTemplate reference if shape is complex null otherwise</param>
/// <param name="crLine">Line color</param>
/// <param name="RA">Rotation angle</param>
/// <param name="dash">DashStyle</param>
/// <param name="LineWidth">Line width ( not used)</param>
/// <param name="Offset">Offset if it's necessary</param>
/// <param name="WCS2UCS">if true conversion for world-coordinate to user-coordinate is required</param>
/// <param name="gr">GraphicsPath to be assigned</param>
/// <param name="result">>DXF output string</param>
/// <returns>true if successfull otherwise false</returns>
public bool Shape2Str( RectangleF rect, BoxStyle ShapeStyle, ElementTemplate[] st,
Color crLine, float RA, DashStyle dash, Single LineWidth,
float Offset, bool WCS2UCS, ref GraphicsPath gr, ref string result )
{
float X = 0, Y = 0, X1 = 0, Y1 = 0,
X2 = 0, Y2 = 0, X3 = 0, Y3 = 0;
bool DisableStringOutput = false;
PointF[] pts = null;
bool bOk = false;
string PathPart = "";
GraphicsPath gr_temp = new GraphicsPath(FillMode.Winding);
try
{
if ( gr == null )
throw new Exception("Empty Graphics Path reference passed");
DisableStringOutput = ( result == null );
// Detecting box's style
switch (ShapeStyle)
{
case BoxStyle.Rectangle:
gr.AddRectangle(rect);
break;
case BoxStyle.Ellipse:
gr.AddEllipse(rect.X,rect.Y,rect.Width, rect.Height);
break;
case BoxStyle.RoundedRectangle:
gr = Utilities.getRoundRect(rect.X, rect.Y, rect.Width, rect.Height,10);
break;
case BoxStyle.Delay:
gr.AddRectangle(rect);
break;
case BoxStyle.Rhombus:
pts = new PointF[4] {new PointF((rect.Left + rect.Right) / 2, rect.Top - Offset),
new PointF(Math.Max(rect.Right, rect.Left) + Offset, (rect.Top + rect.Bottom) / 2),
new PointF((rect.Left + rect.Right) / 2, Math.Max(rect.Bottom, rect.Top) + Offset),
new PointF(rect.Left - Offset,(rect.Top + rect.Bottom) / 2)};
gr.AddPolygon(pts);
break;
case BoxStyle.Shape: // if shape is complex then processing all its elements
if (st == null)
throw new Exception("Empty shape reference in the complex shape");
foreach (ElementTemplate et in st )
{
switch ( et.getClassId())
{
case 28: // If shape element is arc
ArcTemplate at = et as ArcTemplate;
double rx = 0, ry = 0 , cx = 0, cy = 0;
rx = rect.Width * (at.Bounds.Width/200);
ry = rect.Height * (at.Bounds.Height/200);
cx = rect.X + rect.Width*(at.Bounds.X/100) + rx;
cy = rect.Y + rect.Height*(at.Bounds.Y/100) + ry;
gr.AddArc((float) (cx - rx), (float) ( cy - ry) , (float) rx*2, (float) ry*2, at.StartAngle ,at.SweepAngle);
float StartAngle = 180 + at.StartAngle + (360 - at.SweepAngle) - RA, EndAngle = StartAngle + at.SweepAngle;
if ( rx != ry )
{
float iAngleC = 0;
double majorx = 0, majory = 0;
if (at.StartAngle<0)
iAngleC = 360 - Math.Abs(at.StartAngle);
else
iAngleC = at.StartAngle;
majorx = (rx < ry) ? 0 : rx;
majory = (rx < ry) ? ry : 0;
if (( iAngleC >=0 ) && (iAngleC<90))
{
majorx*=-1;
majory*=-1;
}
else if (( iAngleC >=90 ) && (iAngleC<180))
{
}
else if (( iAngleC >=180 ) && (iAngleC<270))
{
majorx*=-1;
majory*=-1;
}
else if (( iAngleC >=270 ) && (iAngleC<=360))
{
}
StartAngle = at.StartAngle + RA;
EndAngle = StartAngle + at.SweepAngle;
if ((at.SweepAngle>=270) && (at.SweepAngle<360))
{
if ( ry > rx )
{
StartAngle = at.StartAngle + RA + 90 + ( 360 - at.SweepAngle);
EndAngle = at.StartAngle + RA + 90;
}
}
else if (at.SweepAngle>=180)
{
if (ry>rx)
{
StartAngle-=90;
EndAngle-=90;
}
}
PathPart = String.Format(provider, " 0\nELLIPSE\n 100\nAcDbEntity\n{0:HAN} 8\n{5}\n 62\n{6:ACI}\n 100\nAcDbEllipse\n 10\n{0:U}\n 20\n{1:U}\n 11\n{7:U}\n 21\n{8:U}\n 40\n{9:U}\n 41\n{3:U}\n 42\n{4:U}\n",
cx, m_FlowChart.DocExtents.Height - cy,0, (StartAngle*Math.PI)/180 , (EndAngle*Math.PI)/180, SHAPE_LAYER, crLine, majorx , majory , (rx < ry) ? rx/ry : ry/rx);
}
else
{
PathPart = String.Format(provider, " 0\nARC\n 100\nAcDbEntity\n{0:HAN} 8\n{5}\n 62\n{6:ACI}\n 100\nAcDbCircle\n 10\n{0:U}\n 20\n{1:U}\n 40\n{2:U}\n 100\nAcDbArc\n 50\n{3}\n 51\n{4}\n",
cx, m_FlowChart.DocExtents.Height - cy,rx, StartAngle , EndAngle, SHAPE_LAYER, crLine);
}
break;
case 29: // If shape element is bezier curve
BezierTemplate bt = et as BezierTemplate;
X = rect.X + rect.Width * (bt.Coordinates[0]/100);
Y = rect.Y + rect.Height* (bt.Coordinates[1]/100);
X1 = rect.X + rect.Width * (bt.Coordinates[2]/100);
Y1 = rect.Y + rect.Height* (bt.Coordinates[3]/100);
X2 = rect.X + rect.Width * (bt.Coordinates[4]/100);
Y2 = rect.Y + rect.Height* (bt.Coordinates[5]/100);
X3 = rect.X + rect.Width * (bt.Coordinates[6]/100);
Y3 = rect.Y + rect.Height* (bt.Coordinates[7]/100);
gr_temp.Reset();
gr_temp.AddBezier(X,Y,X1,Y1,X2,Y2,X3,Y3);
gr.AddBezier(X,Y,X1,Y1,X2,Y2,X3,Y3);
// Applying rotation if it's necessary
pts = RotatePoints(RA , new PointF(rect.X + rect.Width/2,rect.Y + rect.Height/2), gr_temp);
gr_temp.Flatten();
PointF[] pts2 = gr_temp.PathData.Points.Clone() as PointF[];
PathPart = String.Format(provider, "0\nPOLYLINE\n{0:HAN} 100\nAcDbEntity\n8\n{0}\n 62\n{1:ACI}\n 100\nAcDb2dPolyline\n 66\n1\n 70\n4\n 75\n6\n{2}{3}0\nSEQEND\n 100\nAcDbEntity\n{0:HAN}",
SHAPE_LAYER,
crLine,
Pt2String(pts,crLine,SHAPE_LAYER,DxLineType.ltVertex, dash, 16),
Pt2String(pts2,crLine,SHAPE_LAYER,DxLineType.ltVertex, dash, 8));
break;
case 30: // If shape element is line
LineTemplate lt = et as LineTemplate;
X1 = rect.X + rect.Width * (lt.Coordinates[0]/100);
Y1 = rect.Y + rect.Height* (lt.Coordinates[1]/100);
X2 = rect.X + rect.Width * (lt.Coordinates[2]/100);
Y2 = rect.Y + rect.Height* (lt.Coordinates[3]/100);
gr_temp.Reset();
gr_temp.AddLine(X1,Y1,X2,Y2);
gr.AddLine(X1,Y1,X2,Y2);
// Applying rotation if it's necessary
pts = RotatePoints(RA , new PointF(rect.X + rect.Width/2,rect.Y + rect.Height/2), gr_temp);
PathPart = Pt2String(pts, crLine,SHAPE_LAYER,DxLineType.ltSingle,DashStyle.Solid, 1);
break;
}
result+=PathPart;
}
break;
default:
gr.AddRectangle(rect);
break;
}
// Converting shapes coordinates from UCS to WSC
TranslateCoords(RA , new PointF(rect.X + rect.Width/2,rect.Y + rect.Height/2), WCS2UCS, ref gr);
gr.Flatten();
// If string output is required producing DXF string
if (!DisableStringOutput)
{
if ( result=="" )
{
pts = gr.PathPoints.Clone() as PointF[];
result = Pt2String(pts, crLine, SHAPE_LAYER, DxLineType.ltClosedSingle, dash, LineWidth);
}
}
bOk = true;
}
catch ( Exception ex)
{
Trace.WriteLine(String.Format("{0} error {1}\n","Box2Str",ex.Message));
bOk = false;
}
return bOk;
}
/// <summary>
/// Creates a rectangular <see cref="GraphicsPath"/> with rounded edges, optionally with an open title
/// region specified by the parameters <paramref name="titleInset"/> and <paramref name="titleWidth"/>.
/// </summary>
/// <param name="baseRect">The rect which surrounds the created path.</param>
/// <param name="radiusX">The X radius of the rounded edges.</param>
/// <param name="radiusY">The Y radius of the rounded edges.</param>
/// <param name="withTitleRegion">If set to <c>true</c>, a title region will be left out.</param>
/// <param name="titleInset">Inset of the title region behind the corner. This parameter will only be used if
/// <paramref name="withTitleRegion"/> is set to <c>true</c>.</param>
/// <param name="titleWidth">Width of the title region to leave out. This parameter will only be used if
/// <paramref name="withTitleRegion"/> is set to <c>true</c>.</param>
public static GraphicsPath CreateRoundedRectWithTitleRegionPath(RectangleF baseRect, float radiusX, float radiusY,
bool withTitleRegion, float titleInset, float titleWidth)
{
GraphicsPath result = new GraphicsPath();
if (radiusX <= 0.0f && radiusY <= 0.0f || baseRect.Width == 0 || baseRect.Height == 0)
{
// if corner radius is less than or equal to zero, return the original rectangle
if (withTitleRegion)
{ // If we should leave out a title region, we need to do it manually, because we need to start next to the
// title.
titleWidth = Math.Min(titleWidth, baseRect.Width - 2 * titleInset);
// Right from the title to the upper right edge
result.AddLine(baseRect.Left + 2* titleInset + titleWidth, baseRect.Top,
baseRect.Right, baseRect.Top);
// Upper right edge to lower right edge
result.AddLine(baseRect.Right, baseRect.Top,
baseRect.Right, baseRect.Bottom);
// Lower right edge to lower left edge
result.AddLine(baseRect.Right, baseRect.Bottom,
baseRect.Left, baseRect.Bottom);
// Lower left edge to upper left edge
result.AddLine(baseRect.Left, baseRect.Bottom,
baseRect.Left, baseRect.Top);
// Upper left edge to the left side of the title
result.AddLine(baseRect.Left, baseRect.Top, baseRect.Left + titleInset, baseRect.Top);
}
else
result.AddRectangle(baseRect);
}
else
{
if (radiusX >= baseRect.Width / 2f)
radiusX = baseRect.Width/2f;
if (radiusY >= baseRect.Height / 2f)
radiusY = baseRect.Height/2f;
// create the arc for the rectangle sides and declare a graphics path object for the drawing
SizeF sizeF = new SizeF(radiusX * 2f, radiusY * 2f);
RectangleF arc = new RectangleF(baseRect.Location, sizeF);
if (withTitleRegion)
{
titleWidth = Math.Min(titleWidth, baseRect.Width - 2 * (radiusX + titleInset));
// Right of the title to the upper right edge
result.AddLine(baseRect.Left + radiusX + titleInset + titleWidth, baseRect.Top,
baseRect.Right - radiusX, baseRect.Top);
}
// Top right arc
arc.X = baseRect.Right - radiusX * 2f;
result.AddArc(arc, 270, 90);
// Bottom right arc
arc.Y = baseRect.Bottom - radiusY * 2f;
result.AddArc(arc, 0, 90);
// Bottom left arc
arc.X = baseRect.Left;
result.AddArc(arc, 90, 90);
// Top left arc
arc.Y = baseRect.Top;
result.AddArc(arc, 180, 90);
if (withTitleRegion)
// Upper left edge to the left side of the title
result.AddLine(baseRect.Left + radiusX, baseRect.Top, baseRect.Left + radiusX + titleInset, baseRect.Top);
else
result.CloseFigure();
}
result.Flatten();
return result;
}
/// <summary>
/// Repaints the form with cool background and stuff
/// </summary>
/// <param name="graph">The graphics object to paint to, the element will be drawn to 0, 0</param>
public override void Paint(Graphics graph)
{
//Draws Rectangular Shapes
if (Shape == ModelShape.Arrow)
{
_arrowPath = new GraphicsPath();
//Draws the basic shape
Pen arrowPen;
if (Highlight < 1)
arrowPen = new Pen(Color.Cyan, 3F);
else
arrowPen = new Pen(Color.Black, 3F);
//Draws the curved arrow
Point[] lineArray = new Point[4];
lineArray[0] = new Point(_startPoint.X, _startPoint.Y);
lineArray[1] = new Point(_startPoint.X - ((_startPoint.X - _stopPoint.X) / 3), _startPoint.Y);
lineArray[2] = new Point(_stopPoint.X - ((_stopPoint.X - _startPoint.X) / 3), _stopPoint.Y);
lineArray[3] = new Point(_stopPoint.X, _stopPoint.Y);
graph.DrawBeziers(arrowPen, lineArray);
_arrowPath.AddBeziers(lineArray);
_arrowPath.Flatten();
//Draws the arrow head
Point[] arrowArray = new Point[3];
arrowArray[0] = _stopPoint;
arrowArray[1] = new Point(_stopPoint.X - (5 * Math.Sign(_stopPoint.X - _startPoint.X)), _stopPoint.Y - 2);
arrowArray[2] = new Point(_stopPoint.X - (5 * Math.Sign(_stopPoint.X - _startPoint.X)), _stopPoint.Y + 2);
graph.DrawPolygon(arrowPen, arrowArray);
//Garbage collection
arrowPen.Dispose();
}
}
public void Flatten_Empty ()
{
GraphicsPath path = new GraphicsPath ();
GraphicsPath clone = (GraphicsPath) path.Clone ();
// this is a no-op as there's nothing in the path
path.Flatten ();
ComparePaths (path, clone);
}
//---------------------------------------------------------------------
private void GenerateAustPlusRandomEllipses(int count)
{
subjects.Clear();
//load map of Australia from resource ...
Assembly _assembly = Assembly.GetExecutingAssembly();
using (BinaryReader polyStream = new BinaryReader(_assembly.GetManifestResourceStream("GuiDemo.aust.bin")))
{
int polyCnt = polyStream.ReadInt32();
for (int i = 0; i < polyCnt; ++i)
{
int vertCnt = polyStream.ReadInt32();
Polygon pg = new Polygon(vertCnt);
for (int j = 0; j < vertCnt; ++j)
{
float x = polyStream.ReadSingle() * scale;
float y = polyStream.ReadSingle() * scale;
pg.Add(new IntPoint((int)x, (int)y));
}
subjects.Add(pg);
}
}
clips.Clear();
Random rand = new Random();
using (GraphicsPath path = new GraphicsPath())
{
const int ellipse_size = 100, margin = 10;
for (int i = 0; i < count; ++i)
{
int w = pictureBox1.ClientRectangle.Width - ellipse_size - margin * 2;
int h = pictureBox1.ClientRectangle.Height - ellipse_size - margin * 2 - statusStrip1.Height;
int x = rand.Next(w) + margin;
int y = rand.Next(h) + margin;
int size = rand.Next(ellipse_size - 20) + 20;
path.Reset();
path.AddEllipse(x, y, size, size);
path.Flatten();
Polygon clip = new Polygon(path.PathPoints.Count());
foreach (PointF p in path.PathPoints)
clip.Add(new IntPoint((int)(p.X * scale), (int)(p.Y * scale)));
clips.Add(clip);
}
}
}
/// <summary>
/// Get the desired Rounded Rectangle path.
/// </summary>
private GraphicsPath GetLine(RectangleF baseRect)
{
float x1 = (float) X1;
float y1 = (float) Y1;
float x2 = (float) X2;
float y2 = (float) Y2;
float w = (float) Math.Sqrt((x2 - x1) * (x2 - x1) + (y2 - y1) * (y2 - y1));
float ang = (y2 - y1) / (x2 - x1);
ang = (float) Math.Atan(ang);
ang *= (float) (180.0f / Math.PI);
GraphicsPath mPath = new GraphicsPath();
System.Drawing.Rectangle r = new System.Drawing.Rectangle((int) x1, (int) y1, (int) w, (int) StrokeThickness);
mPath.AddRectangle(r);
mPath.CloseFigure();
using (Matrix matrix = new Matrix())
{
matrix.RotateAt(ang, new PointF(x1, y1), MatrixOrder.Append);
matrix.Translate(baseRect.X, baseRect.Y, MatrixOrder.Append);
RectangleF bounds = mPath.GetBounds(matrix);
matrix.Scale(baseRect.Width / bounds.Width, baseRect.Height / bounds.Height);
mPath.Transform(matrix);
}
mPath.Flatten();
return mPath;
}
/// <summary>
/// Build new polygon from ellipse. The ellipse is
/// defined by the specified bounding rectangle. The
/// second parameter specifies how close the
/// polygon approximates the ellipse.
/// Factor of 0 specifies simplest polygon, while
/// factor 100 specifies the most complex polygon.
/// </summary>
/// <param name="bounds"></param>
/// <param name="factor"></param>
public Polygon(RectangleF bounds, int factor)
{
if (factor < 0)
factor = 0;
if (factor > 100)
factor = 100;
GraphicsPath path = new GraphicsPath();
path.AddEllipse(bounds);
path.Flatten(new Matrix(), (float)factor / 100f);
_points = new PointList(path.PathPoints);
path.Dispose();
Complete();
}
public void buildObjectToLua(StringBuilder sb, float XRatio, float YRatio, CoronaObject objectToBuild)
{
float moyenneRatio = (XRatio + YRatio) / 2;
if (objectToBuild.isEntity == false)
{
DisplayObject obj = objectToBuild.DisplayObject;
string objName = obj.Name.Replace(" ", "");
string paramsName = "params_" + objName;
//Create Gradient color if enabled
string gradient = "nil";
if (obj.GradientColor.isEnabled == true)
{
string color1 = "{" + obj.GradientColor.color1.R + ","
+ obj.GradientColor.color1.G + ","
+ obj.GradientColor.color1.B + "}";
string color2 = "{" + obj.GradientColor.color2.R + ","
+ obj.GradientColor.color2.G + ","
+ obj.GradientColor.color2.B + "}";
string direction = "\"" + obj.GradientColor.direction.ToString() + "\"";
gradient = "{" + color1 + "," + color2 + "," + direction + "}";
}
sb.AppendLine("\tlocal " + paramsName + " = {}");
if (objectToBuild.EntityParent != null)
{
sb.AppendLine("\t" + paramsName + ".entityParent = " + this.Name.Replace(" ", "") + "." + objectToBuild.EntityParent.Name);
}
if (obj.Type.Equals("IMAGE"))
{
Size finalSize = new Size(Convert.ToInt32(obj.SurfaceRect.Size.Width * XRatio), Convert.ToInt32(obj.SurfaceRect.Size.Height * YRatio));
String paramsObj = "\t" + paramsName + ".name = \"" + objName + "\"\n" +
"\t" + paramsName + ".type = \"IMAGE\" \n" +
"\t" + paramsName + ".isHandledByTilesMap = " + obj.CoronaObjectParent.IsHandledByTilesMap.ToString().ToLower() + "\n" +
"\t" + paramsName + ".x = " + ((float)obj.SurfaceRect.X * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".y = " + ((float)obj.SurfaceRect.Y * YRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".width = " + finalSize.Width.ToString() + "\n" +
"\t" + paramsName + ".height = " + finalSize.Height.ToString() + "\n" +
"\t" + paramsName + ".blendMode = \"" + obj.blendMode + "\"\n" +
"\t" + paramsName + ".rotation = " + obj.Rotation + "\n" +
"\t" + paramsName + ".alpha = " + obj.Alpha.ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".gradient = " + gradient + "\n" +
"\t" + paramsName + ".pathImage = \"" + obj.OriginalAssetName.ToLower() + finalSize.Width + "x" + finalSize.Height + ".png\"\n" +
"\t" + paramsName + ".displayGroupParent = " + this.Name.Replace(" ", "") + ".displayGroup\n\n";
sb.Append(paramsObj);
sb.AppendLine("\t" + paramsName + ".isDraggable = " + obj.CoronaObjectParent.isDraggable.ToString().ToLower());
if (obj.CoronaObjectParent.isDraggable == true)
{
sb.AppendLine("\t" + paramsName + ".dragDamping = " + obj.CoronaObjectParent.DragDamping.ToString().Replace(",", "."));
sb.AppendLine("\t" + paramsName + ".dragMaxForce = " + obj.CoronaObjectParent.DragMaxForce);
sb.AppendLine("\t" + paramsName + ".dragFrequency = " + obj.CoronaObjectParent.DragFrequency);
}
if (obj.CoronaObjectParent.isDraggable == true)
sb.AppendLine("\t" + paramsName + ".dragBody = dragBody");
String createObj = "\t" + this.Name + "." + objName + " = objectInstance.Object.create(" + paramsName + ")";
sb.AppendLine(createObj);
if (obj.ImageFillColor.IsEmpty == false)
{
sb.AppendLine("\t" + this.Name + "." + objName + ".object:setFillColor(" +
obj.ImageFillColor.R + "," + obj.ImageFillColor.G + "," + obj.ImageFillColor.B + ")");
}
}
//Sinon si c'est un SPRITE
else if (obj.Type.Equals("SPRITE"))
{
string sequenceName = obj.CurrentSequence;
if (sequenceName == "DEFAULT" || sequenceName == "") sequenceName = "nil";
else
{
sequenceName = "\"" + sequenceName + "\"";
}
//Creer les params de l'objet
String paramsSprite = "\t" + paramsName + ".name = \"" + objName + "\"\n" +
"\t" + paramsName + ".type = \"SPRITE\" \n" +
"\t" + paramsName + ".isHandledByTilesMap = " + obj.CoronaObjectParent.IsHandledByTilesMap.ToString().ToLower() + "\n" +
"\t" + paramsName + ".x = " + ((float)obj.SurfaceRect.X * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".y = " + ((float)obj.SurfaceRect.Y * YRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".spriteSet = " + obj.SpriteSet.Name + "\n" +
"\t" + paramsName + ".rotation = " + obj.Rotation + "\n" +
"\t" + paramsName + ".blendMode = \"" + obj.blendMode + "\"\n" +
"\t" + paramsName + ".sequenceName = " + sequenceName+ "\n" +
"\t" + paramsName + ".firstFrameIndex = " + (obj.CurrentFrame +1) + "\n" +
"\t" + paramsName + ".autoPlay = " + obj.AutoPlay.ToString().ToLower() + "\n" +
"\t" + paramsName + ".alpha = " + obj.Alpha.ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".gradient = " + gradient + "\n" +
"\t" + paramsName + ".scale = 1/currentSuffix.value\n" +
"\t" + paramsName + ".displayGroupParent = " + this.Name.Replace(" ", "") + ".displayGroup\n\n";
//Ajouter la sprite set de l'objet
sb.Append(paramsSprite);
sb.AppendLine("\t" + paramsName + ".isDraggable = " + obj.CoronaObjectParent.isDraggable.ToString().ToLower());
if (obj.CoronaObjectParent.isDraggable == true)
{
sb.AppendLine("\t" + paramsName + ".dragBody = dragBody");
sb.AppendLine("\t" + paramsName + ".dragDamping = " + obj.CoronaObjectParent.DragDamping.ToString().Replace(",", "."));
sb.AppendLine("\t" + paramsName + ".dragMaxForce = " + obj.CoronaObjectParent.DragMaxForce);
sb.AppendLine("\t" + paramsName + ".dragFrequency = " + obj.CoronaObjectParent.DragFrequency);
}
sb.AppendLine("\t" + this.Name + "." + objName + " = objectInstance.Object.create(" + paramsName + ")");
//if (obj.SpriteSet.Sequences.Count > 0)
// sb.AppendLine("\t" + this.Name + "." + objName + ".currentSequence = \"" + obj.SpriteSet.Sequences[0].Name + "\"");
}
else if (obj.Type.Equals("FIGURE"))
{
//Si c'est un rectangle
if (obj.Figure.ShapeType.Equals("RECTANGLE"))
{
//Recuperer le rectangle
Rect rect = obj.Figure as Rect;
String paramsObj = "\t" + paramsName + ".name = \"" + objName + "\"\n" +
"\t" + paramsName + ".type = \"RECTANGLE\" \n" +
"\t" + paramsName + ".isHandledByTilesMap = " + obj.CoronaObjectParent.IsHandledByTilesMap.ToString().ToLower() + "\n" +
"\t" + paramsName + ".isRounded = " + rect.isRounded.ToString().ToLower() + "\n" +
"\t" + paramsName + ".x = " + ((float)rect.Position.X * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".y = " + ((float)rect.Position.Y * YRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".width = " + ((float)rect.Width * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".height = " + ((float)rect.Height * YRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".rotation = " + obj.Rotation + "\n" +
"\t" + paramsName + ".blendMode = \"" + obj.blendMode + "\"\n" +
"\t" + paramsName + ".gradient = " + gradient + "\n" +
"\t" + paramsName + ".alpha = " + obj.Alpha.ToString().Replace(",", ".") + "\n";
if (rect.isRounded == true)
{
paramsObj += "\t" + paramsName + ".cornerRadius = " + rect.cornerRadius + "\n";
}
if (obj.Figure.Fill == true)
paramsObj += "\t" + paramsName + ".backColor = { R = " + rect.FillColor.R + ",G = " + rect.FillColor.G + ", B = " + rect.FillColor.B + "}\n";
else
paramsObj += "\t" + paramsName + ".backColor = { R = 0, G = 0, B= 0}\n";
paramsObj += "\t" + paramsName + ".strokeColor = { R = " + rect.StrokeColor.R + ",G = " + rect.StrokeColor.G + ", B = " + rect.StrokeColor.B + "}\n" +
"\t" + paramsName + ".strokeWidth = " + rect.StrokeSize + "\n" +
"\t" + paramsName + ".displayGroupParent = " + this.Name.Replace(" ", "") + ".displayGroup\n\n";
sb.Append(paramsObj);
sb.AppendLine("\t" + paramsName + ".isDraggable = " + obj.CoronaObjectParent.isDraggable.ToString().ToLower());
if (obj.CoronaObjectParent.isDraggable == true)
{
sb.AppendLine("\t" + paramsName + ".dragBody = dragBody");
sb.AppendLine("\t" + paramsName + ".dragDamping = " + obj.CoronaObjectParent.DragDamping.ToString().Replace(",", "."));
sb.AppendLine("\t" + paramsName + ".dragMaxForce = " + obj.CoronaObjectParent.DragMaxForce);
sb.AppendLine("\t" + paramsName + ".dragFrequency = " + obj.CoronaObjectParent.DragFrequency);
}
String createObj = "\t" + this.Name + "." + objName + " = objectInstance.Object.create(" + paramsName + ")";
sb.AppendLine(createObj);
}
else if (obj.Figure.ShapeType.Equals("CIRCLE"))
{
//Recuperer le cercle
Cercle cercle = obj.Figure as Cercle;
String paramsObj = "\t" + paramsName + ".name = \"" + objName + "\"\n" +
"\t" + paramsName + ".type = \"CIRCLE\" \n" +
"\t" + paramsName + ".isHandledByTilesMap = " + obj.CoronaObjectParent.IsHandledByTilesMap.ToString().ToLower() + "\n" +
"\t" + paramsName + ".x = " + ((float)cercle.Position.X * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".y = " + ((float)cercle.Position.Y * YRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".radius = " + ((float)cercle.Rayon * moyenneRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".rotation = " + obj.Rotation + "\n" +
"\t" + paramsName + ".blendMode = \"" + obj.blendMode + "\"\n" +
"\t" + paramsName + ".alpha = " + obj.Alpha.ToString().Replace(",", ".") + "\n";
if (obj.Figure.Fill == true)
paramsObj += "\t" + paramsName + ".backColor = { R = " + cercle.FillColor.R + ",G = " + cercle.FillColor.G + ", B = " + cercle.FillColor.B + "}\n";
else
paramsObj += "\t" + paramsName + ".backColor = { R = 0, G = 0, B= 0}\n";
paramsObj += "\t" + paramsName + ".strokeColor = { R = " + cercle.StrokeColor.R + ",G = " + cercle.StrokeColor.G + ", B = " + cercle.StrokeColor.B + "}\n" +
"\t" + paramsName + ".strokeWidth = " + cercle.StrokeSize + "\n" +
"\t" + paramsName + ".displayGroupParent = " + this.Name.Replace(" ", "") + ".displayGroup\n\n";
sb.Append(paramsObj);
sb.AppendLine("\t" + paramsName + ".isDraggable = " + obj.CoronaObjectParent.isDraggable.ToString().ToLower());
if (obj.CoronaObjectParent.isDraggable == true)
{
sb.AppendLine("\t" + paramsName + ".dragBody = dragBody");
sb.AppendLine("\t" + paramsName + ".dragDamping = " + obj.CoronaObjectParent.DragDamping.ToString().Replace(",", "."));
sb.AppendLine("\t" + paramsName + ".dragMaxForce = " + obj.CoronaObjectParent.DragMaxForce);
sb.AppendLine("\t" + paramsName + ".dragFrequency = " + obj.CoronaObjectParent.DragFrequency);
}
String createObj = "\t" + this.Name + "." + objName + " = objectInstance.Object.create(" + paramsName + ")";
sb.AppendLine(createObj);
}
else if (obj.Figure.ShapeType.Equals("LINE"))
{
//Recuperer le cercle
Line line = obj.Figure as Line;
//Create table of points
string tabPoints = "\tlocal points_" + objName + "= {";
for (int k = 0; k < line.Points.Count; k++)
{
if (k % 50 == 0)
tabPoints += "\n\t\t";
tabPoints += (((float)line.Points[k].X * XRatio).ToString().Replace(",", ".")) + "," + (((float)line.Points[k].Y * YRatio).ToString().Replace(",", "."));
if (k != line.Points.Count - 1)
tabPoints += ",";
}
tabPoints += "\t}";
String paramsObj = "\t" + paramsName + ".name = \"" + objName + "\"\n" +
"\t" + paramsName + ".type = \"LINE\"\n" +
"\t" + paramsName + ".isHandledByTilesMap = " + obj.CoronaObjectParent.IsHandledByTilesMap.ToString().ToLower() + "\n" +
"\t" + paramsName + ".tabPoints = points_" + objName + "\n" +
"\t" + paramsName + ".rotation = " + obj.Rotation + "\n" +
"\t" + paramsName + ".blendMode = \"" + obj.blendMode + "\"\n" +
"\t" + paramsName + ".alpha = " + obj.Alpha.ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".gradient = " + gradient + "\n" +
"\t" + paramsName + ".backColor = { R = " + line.StrokeColor.R + ",G = " + line.StrokeColor.G + ", B = " + line.StrokeColor.B + "}\n" +
"\t" + paramsName + ".strokeWidth = " + line.StrokeSize + "\n" +
"\t" + paramsName + ".displayGroupParent = " + this.Name.Replace(" ", "") + ".displayGroup\n\n";
sb.Append(tabPoints);
sb.Append(paramsObj);
sb.AppendLine("\t" + paramsName + ".isDraggable = " + obj.CoronaObjectParent.isDraggable.ToString().ToLower());
if (obj.CoronaObjectParent.isDraggable == true)
{
sb.AppendLine("\t" + paramsName + ".dragBody = dragBody");
sb.AppendLine("\t" + paramsName + ".dragDamping = " + obj.CoronaObjectParent.DragDamping.ToString().Replace(",", "."));
sb.AppendLine("\t" + paramsName + ".dragMaxForce = " + obj.CoronaObjectParent.DragMaxForce);
sb.AppendLine("\t" + paramsName + ".dragFrequency = " + obj.CoronaObjectParent.DragFrequency);
}
String createObj = "\t" + this.Name + "." + objName + " = objectInstance.Object.create(" + paramsName + ")";
sb.AppendLine(createObj);
}
else if (obj.Figure.ShapeType.Equals("CURVE"))
{
//Recuperer le cercle
CourbeBezier courbe = obj.Figure as CourbeBezier;
GraphicsPath path = new GraphicsPath(FillMode.Winding);
path.AddCurve(courbe.UserPoints.ToArray());
path.Flatten();
PointF[] finalPoints = path.PathPoints;
//Create table of points
string tabPoints = "\tlocal points_" + objName + "= {";
for (int k = 0; k < finalPoints.Length; k++)
{
if (k % 10 == 0)
tabPoints += "\n\t\t";
tabPoints += ((float)finalPoints[k].X * XRatio).ToString().Replace(",", ".") + "," + ((float)finalPoints[k].Y * YRatio).ToString().Replace(",", ".");
if (k != finalPoints.Length - 1)
tabPoints += ",";
}
tabPoints += "\t}\n";
String paramsObj = "\t" + paramsName + ".name = \"" + objName + "\"\n" +
"\t" + paramsName + ".type = \"CURVE\"\n" +
"\t" + paramsName + ".isHandledByTilesMap = " + obj.CoronaObjectParent.IsHandledByTilesMap.ToString().ToLower() + "\n" +
"\t" + paramsName + ".tabPoints = points_" + objName + "\n" +
"\t" + paramsName + ".rotation = " + obj.Rotation + "\n" +
"\t" + paramsName + ".blendMode = \"" + obj.blendMode + "\"\n" +
"\t" + paramsName + ".alpha = " + obj.Alpha.ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".gradient = " + gradient + "\n" +
"\t" + paramsName + ".backColor = { R = " + courbe.StrokeColor.R + ",G = " + courbe.StrokeColor.G + ", B = " + courbe.StrokeColor.B + "}\n" +
"\t" + paramsName + ".strokeWidth = " + courbe.StrokeSize + "\n" +
"\t" + paramsName + ".displayGroupParent = " + this.Name.Replace(" ", "") + ".displayGroup\n\n";
sb.Append(tabPoints);
sb.Append(paramsObj);
sb.AppendLine("\t" + paramsName + ".isDraggable = " + obj.CoronaObjectParent.isDraggable.ToString().ToLower());
if (obj.CoronaObjectParent.isDraggable == true)
{
sb.AppendLine("\t" + paramsName + ".dragBody = dragBody");
sb.AppendLine("\t" + paramsName + ".dragDamping = " + obj.CoronaObjectParent.DragDamping.ToString().Replace(",", "."));
sb.AppendLine("\t" + paramsName + ".dragMaxForce = " + obj.CoronaObjectParent.DragMaxForce);
sb.AppendLine("\t" + paramsName + ".dragFrequency = " + obj.CoronaObjectParent.DragFrequency);
}
String createObj = "\t" + this.Name + "." + objName + " = objectInstance.Object.create(" + paramsName + ")";
sb.AppendLine(createObj);
}
else if (obj.Figure.ShapeType.Equals("TEXT"))
{
//Recuperer le cercle
Texte text = obj.Figure as Texte;
if (text.font2.FontItem == null) text.font2.FontItem = new GameEditor.FontManager.FontItem("DEFAULT", this.SceneParent.projectParent);
if (!text.font2.FontItem.NameForAndroid.Equals("DEFAULT"))
{
string fontDeclaration = text.font2.FontItem.GenerateCode();
sb.AppendLine(fontDeclaration);
}
else
{
sb.AppendLine("\tlocal font = nil");
}
String paramsObj = "\t" + paramsName + ".name = \"" + objName + "\"\n" +
"\t" + paramsName + ".type = \"TEXT\" \n" +
"\t" + paramsName + ".isHandledByTilesMap = " + obj.CoronaObjectParent.IsHandledByTilesMap.ToString().ToLower() + "\n" +
"\t" + paramsName + ".x = " + ((float)text.Position.X * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".y = " + ((float)text.Position.Y * YRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".width = " + ((float)obj.SurfaceRect.Width * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".height = "+((float)0 * YRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".text = \"" + @text.Txt.Replace("\r\n",@"\n").Replace("\"","\\\"") + "\"\n" +
"\t" + paramsName + ".rotation = " + obj.Rotation + "\n" +
"\t" + paramsName + ".blendMode = \"" + obj.blendMode + "\"\n" +
"\t" + paramsName + ".alpha = " + obj.Alpha.ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".gradient = " + gradient + "\n" +
"\t" + paramsName + ".textColor = { R = " + text.FillColor.R + ",G = " + text.FillColor.G + ", B = " + text.FillColor.B + "}\n" +
"\t" + paramsName + ".textSize = " + (((float)text.font2.Size * 1.4f) * XRatio).ToString().Replace(",", ".") + "\n" +
"\t" + paramsName + ".textFont = font\n" +
"\t" + paramsName + ".displayGroupParent = " + this.Name.Replace(" ", "") + ".displayGroup\n\n";
sb.Append(paramsObj);
sb.AppendLine("\t" + paramsName + ".isDraggable = " + obj.CoronaObjectParent.isDraggable.ToString().ToLower());
if (obj.CoronaObjectParent.isDraggable == true)
{
sb.AppendLine("\t" + paramsName + ".dragBody = dragBody");
sb.AppendLine("\t" + paramsName + ".dragDamping = " + obj.CoronaObjectParent.DragDamping.ToString().Replace(",", "."));
sb.AppendLine("\t" + paramsName + ".dragMaxForce = " + obj.CoronaObjectParent.DragMaxForce);
sb.AppendLine("\t" + paramsName + ".dragFrequency = " + obj.CoronaObjectParent.DragFrequency);
}
String createObj = "\t" + this.Name + "." + objName + " = objectInstance.Object.create(" + paramsName + ")";
sb.AppendLine(createObj);
}
}
//Ajouter l'object dans les interactions de la tilesmap si elle existe dans le layer
if (this.TilesMap != null && obj.CoronaObjectParent.IsHandledByTilesMap == true)
{
if (this.TilesMap.isEnabled == true)
{
sb.AppendLine("\t" + this.Name + "." + this.TilesMap.TilesMapName + ":addExternalObjectToInteractWith(" + objName + ")");
}
}
//CREER Le mask DE L OBJET SI ELLE EXISTE -----------------------------------------
if (obj.CoronaObjectParent.BitmapMask != null && obj.CoronaObjectParent.BitmapMask.MaskImage != null && obj.CoronaObjectParent.BitmapMask.IsMaskEnabled == true)
{
sb.AppendLine("\tlocal " + objName + "_mask = graphics.newMask(\"" + objName.ToLower() + "_mask.png\")");
sb.AppendLine("\t" + this.Name + "." + objName + ".object:setMask(" + objName + "_mask)");
}
//CREER LA PHYSIC DE L OBJET SI ELLE EXISTE -----------------------------------------
if (obj.CoronaObjectParent.PhysicsBody != null)
{
PhysicsBody ph = obj.CoronaObjectParent.PhysicsBody;
if (ph.Mode != PhysicsBody.PhysicBodyMode.Inactive)
{
CoronaObject coronaObject = obj.CoronaObjectParent;
////Creer le fichier lua associé
//PhysicBodyLuaGenerator gen = new PhysicBodyLuaGenerator(coronaObject.PhysicsBody);
//gen.writeToLua(new DirectoryInfo(this.SceneParent.projectParent.BuildFolderPath), XRatio, YRatio);
//if(File.Exists(this.SceneParent.projectParent.SourceFolderPath+"\\body" + objName.ToLower()+".lua"))
// File.Delete(this.SceneParent.projectParent.SourceFolderPath+"\\body" + objName.ToLower()+".lua");
//Faire le require correspondant
sb.AppendLine("\tlocal body_" + objName + " = require(\"body" + objName.ToLower() + "\")" + ".startBody(" + this.Name + "." + objName + ")");
}
}
//CREER Le PATH FOLLOW DE L OBJET SI ELLE EXISTE -----------------------------------------
if (obj.CoronaObjectParent.PathFollow != null)
{
PathFollow path = obj.CoronaObjectParent.PathFollow;
if (path.isEnabled == true)
{
CoronaObject coronaObject = obj.CoronaObjectParent;
sb.AppendLine("\tlocal " + objName + "_pathFollow = " + path.getPointsTableLua(XRatio, YRatio));
sb.AppendLine("\tlocal " + objName + "_pathFollow_params = {}");
sb.AppendLine("\t" + objName + "_pathFollow_params.isCyclic = " + coronaObject.PathFollow.isCyclic.ToString().ToLower());
sb.AppendLine("\t" + objName + "_pathFollow_params.removeOnComplete = " + coronaObject.PathFollow.removeOnComplete.ToString().ToLower());
sb.AppendLine("\t" + objName + "_pathFollow_params.rotate = " + coronaObject.PathFollow.Rotate.ToString().ToLower());
sb.AppendLine("\t" + objName + "_pathFollow_params.targetObject = " + this.Name + "." + objName);
sb.AppendLine("\t" + objName + "_pathFollow_params.path = " + objName + "_pathFollow");
sb.AppendLine("\t" + objName + "_pathFollow_params.speed = " + coronaObject.PathFollow.speed);
sb.AppendLine("\t" + objName + "_pathFollow_params.iteration = " + coronaObject.PathFollow.Iteration);
sb.AppendLine("\t" + this.Name + "." + objName + ".pathFollow = pathFollowInstance.PathFollow.create(" + objName + "_pathFollow_params)");
}
}
/* sb.AppendLine("\t" + this.Name + "." + objName + ":setOnStartBehaviour(" + obj.CoronaObjectParent.onStartFunction + ")");
sb.AppendLine("\t" + this.Name + "." + objName + ":setOnPauseBehaviour(" + obj.CoronaObjectParent.onPauseFunction + ")");
sb.AppendLine("\t" + this.Name + "." + objName + ":setOnDeleteBehaviour(" + obj.CoronaObjectParent.onDeleteFunction + ")");*/
}
}
protected override void OnPaint(PaintEventArgs e)
{
#region Declare the internal variables
SolidBrush bSolid = null;
LinearGradientBrush bGradient = null;
Pen p;
Bitmap bmp;
Graphics g;
GraphicsPath gpTitlePath, gpRegion;
Rectangle rectTopArea, rectBottomArea;
Rectangle rectLeftCorner, rectRightCorner;
Rectangle rectTitleBar/*, rectTitleIcon*/;
StringFormat sf;
SizeF sizeTitleText;
Size sizeTitleBar, sizeTitleBody;
#endregion
#region Initialize the common variables
// Create a new Bitmap object
bmp = new Bitmap(this.Width, this.Height);
// Initialize the Form Graphics instance
g = Graphics.FromImage(bmp);
g.SmoothingMode = SmoothingMode.HighSpeed;
g.CompositingQuality = CompositingQuality.HighQuality;
g.InterpolationMode = InterpolationMode.High;
// Create a new Brush object
bSolid = new SolidBrush(this.transparentColor);
// Fill all the area with pink (will be used to create the transparent region)
g.FillRectangle(bSolid, 0, 0, this.Width, this.Height);
// Dispose the Brush object
bSolid.Dispose();
bSolid = null;
// Create the rectangles that will be used to round the corners of the form
rectLeftCorner = new Rectangle(0, 0, (edgeRadius * 2), (edgeRadius * 2));
rectRightCorner = new Rectangle(this.Width - (edgeRadius * 2) - 1, 0, (edgeRadius * 2), (edgeRadius * 2));
// Create the remaining rectangles to complete the form
rectTopArea = new Rectangle(edgeRadius, 0, this.Width - (edgeRadius * 2), this.Height);
rectBottomArea = new Rectangle(0, edgeRadius, this.Width, this.Height);
#endregion
#region Calculate the TitleBar and Body dimensions
sizeTitleText = g.MeasureString(this.Text, this.TitleFont);
sizeTitleBar = new Size(0, 0);
sizeTitleBar.Width = this.Width;
sizeTitleBar.Height = Convert.ToInt32(sizeTitleText.Height) + (padding * 2);
if (this.Icon != null && sizeTitleBar.Height < 16 + (padding * 2))
{
sizeTitleBar.Height = 16 + (padding * 2);
}
sizeTitleBody = new Size(0, 0);
sizeTitleBody.Width = this.Width;
sizeTitleBody.Height = this.Height - sizeTitleBar.Height;
rectTitleBar = new Rectangle(0, 0, sizeTitleBar.Width, sizeTitleBar.Height);
rectBody = new Rectangle(0, sizeTitleBar.Height, sizeTitleBody.Width, sizeTitleBody.Height);
#endregion
#region Draw the TitleBar background color
// Create a GraphicsPath instance to map our form title shape
gpTitlePath = new GraphicsPath();
gpTitlePath.AddArc(rectLeftCorner, 180, 90);
gpTitlePath.AddArc(rectRightCorner, 270, 90);
GraphicsPath gTitlePath2 = new GraphicsPath();
gTitlePath2.AddRectangle(new Rectangle(0, edgeRadius, rectTitleBar.Width - 1, rectTitleBar.Height));
gTitlePath2.AddPath(gpTitlePath, true);
gTitlePath2.Flatten();
if (this.TitleStyle == ColorStyle.Solid)
{
// Create a new Brush object
bSolid = new SolidBrush(this.TitleForeColor);
// Fill the title area
g.FillPath(bSolid, gTitlePath2);
// Dispose the Brush object
bSolid.Dispose();
bSolid = null;
}
else
{
switch (this.TitleStyle)
{
case ColorStyle.BackwardDiagonalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectTitleBar, this.TitleForeColor, this.TitleBackColor, LinearGradientMode.BackwardDiagonal);
break;
case ColorStyle.ForwardDiagonalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectTitleBar, this.TitleForeColor, this.TitleBackColor, LinearGradientMode.ForwardDiagonal);
break;
case ColorStyle.HorizontalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectTitleBar, this.TitleForeColor, this.TitleBackColor, LinearGradientMode.Horizontal);
break;
case ColorStyle.VerticalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectTitleBar, this.TitleForeColor, this.TitleBackColor, LinearGradientMode.Vertical);
break;
}
g.FillPath(bGradient, gTitlePath2);
// Dispose the LinearGradientBrush object
bGradient.Dispose();
bGradient = null;
}
#endregion
#region Draw the Title icons and text
// Draw the Title icon and text
bSolid = new SolidBrush(this.TitleColor);
sf = new StringFormat();
sf.Alignment = StringAlignment.Near;
sf.FormatFlags = StringFormatFlags.NoWrap;
sf.Trimming = StringTrimming.None;
rectTitleArea = new Rectangle(0, 0, 0, 0);
rectTitleArea.X = edgeRadius / 2 + padding;
rectTitleArea.Y = Convert.ToInt32((rectTitleBar.Height - sizeTitleText.Height) / 2);
rectTitleArea.Width = this.Width - (edgeRadius * 2) - padding;
rectTitleArea.Height = padding + Convert.ToInt32(sizeTitleText.Height);
#region Draw the Application icon
// commented out because it generated an unreachable code warning
//if (this.Icon != null && 1 == 2)
//{
// if (this.bmpIcon == null)
// {
// bmpIcon = this.Icon.ToBitmap();
// }
// rectTitleIcon = new Rectangle(0, 0, 0, 0);
// rectTitleIcon.X = edgeRadius / 2 + padding;
// rectTitleIcon.Y = Convert.ToInt32((rectTitleBar.Height - sizeTitleText.Height) / 2);
// rectTitleIcon.Width = 16;
// rectTitleIcon.Height = 16;
// g.SmoothingMode = SmoothingMode.HighQuality;
// g.DrawImage(bmpIcon, rectTitleIcon, 0, 0, 32,32, GraphicsUnit.Pixel);
// g.SmoothingMode = SmoothingMode.None;
// // Compensate for the space taken by the icon image
// rectTitleArea.X = rectTitleArea.X + 16 + padding;
//}
#endregion
#region Draw the Close icon
rectCloseIcon = new Rectangle(0, 0, 0, 0);
rectCloseIcon.X = this.Width - edgeRadius - padding - 16 + 2;
rectCloseIcon.Y = Convert.ToInt32((rectTitleBar.Height - sizeTitleText.Height) / 2) + 2;
rectCloseIcon.Width = 16 - 2;
rectCloseIcon.Height = 16 - 2;
// Create a new Pen object
if (this.onCloseIcon == false)
p = new Pen(this.IconsNormalColor, 1);
else
p = new Pen(this.IconsHiLiteColor, 1);
g.DrawLine(p, rectCloseIcon.X + 1, rectCloseIcon.Y, rectCloseIcon.X + rectCloseIcon.Width - 1, rectCloseIcon.Y);
g.DrawLine(p, rectCloseIcon.X, rectCloseIcon.Y + 1, rectCloseIcon.X, rectCloseIcon.Y + rectCloseIcon.Height - 1);
g.DrawLine(p, rectCloseIcon.X + rectCloseIcon.Width, rectCloseIcon.Y + 1, rectCloseIcon.X + rectCloseIcon.Width, rectCloseIcon.Y + rectCloseIcon.Height - 1);
g.DrawLine(p, rectCloseIcon.X + 1, rectCloseIcon.Y + rectCloseIcon.Height, rectCloseIcon.X + rectCloseIcon.Width - 1, rectCloseIcon.Y + rectCloseIcon.Height);
// Dispose the Pen object
p.Dispose();
p = null;
// Create a new Pen object
if (this.onCloseIcon == false)
p = new Pen(this.IconsNormalColor, 2);
else
p = new Pen(this.IconsHiLiteColor, 2);
g.DrawLine(p, rectCloseIcon.X + 3, rectCloseIcon.Y + 3, rectCloseIcon.X + rectCloseIcon.Width - 3, rectCloseIcon.Y + rectCloseIcon.Height - 3);
g.DrawLine(p, rectCloseIcon.X + rectCloseIcon.Width - 3, rectCloseIcon.Y + 3, rectCloseIcon.X + 3, rectCloseIcon.Y + rectCloseIcon.Height - 3);
rectCloseIcon.Width += 1;
rectCloseIcon.Height += 1;
#endregion
#region Draw the Minimize icon
rectMinimizeIcon = new Rectangle(0, 0, 0, 0);
rectMinimizeIcon.X = this.Width - edgeRadius - (padding * 2) - (16 * 2) + 2;
rectMinimizeIcon.Y = Convert.ToInt32((rectTitleBar.Height - sizeTitleText.Height) / 2) + 2;
rectMinimizeIcon.Width = 16 - 2;
rectMinimizeIcon.Height = 16 - 2;
// Create a new Pen object
if (this.onMinimizeIcon == false)
p = new Pen(this.IconsNormalColor, 1);
else
p = new Pen(this.IconsHiLiteColor, 1);
g.DrawLine(p, rectMinimizeIcon.X + 1, rectMinimizeIcon.Y, rectMinimizeIcon.X + rectMinimizeIcon.Width - 1, rectMinimizeIcon.Y);
g.DrawLine(p, rectMinimizeIcon.X, rectMinimizeIcon.Y + 1, rectMinimizeIcon.X, rectMinimizeIcon.Y + rectMinimizeIcon.Height - 1);
g.DrawLine(p, rectMinimizeIcon.X + rectMinimizeIcon.Width, rectMinimizeIcon.Y + 1, rectMinimizeIcon.X + rectMinimizeIcon.Width, rectMinimizeIcon.Y + rectMinimizeIcon.Height - 1);
g.DrawLine(p, rectMinimizeIcon.X + 1, rectMinimizeIcon.Y + rectMinimizeIcon.Height, rectMinimizeIcon.X + rectMinimizeIcon.Width - 1, rectMinimizeIcon.Y + rectMinimizeIcon.Height);
// Dispose the Pen object
p.Dispose();
p = null;
// Create a new Pen object
if (this.onMinimizeIcon == false)
p = new Pen(this.IconsNormalColor, 2);
else
p = new Pen(this.IconsHiLiteColor, 2);
g.DrawLine(p, rectMinimizeIcon.X + 3, rectMinimizeIcon.Y + rectMinimizeIcon.Height - 3, rectMinimizeIcon.X + rectMinimizeIcon.Width - 2, rectMinimizeIcon.Y + rectMinimizeIcon.Height - 3);
rectMinimizeIcon.Width += 1;
rectMinimizeIcon.Height += 1;
#endregion
// Compensate for the space taken by the icon image
rectTitleArea.Width = rectTitleArea.Width - 50;
g.SmoothingMode = SmoothingMode.AntiAlias;
g.DrawString(this.Text, this.TitleFont, bSolid, rectTitleArea, sf);
g.SmoothingMode = SmoothingMode.None;
// Make sure that TitleArea Rectangle values covers the whole title area
rectTitleArea.X = 0;
rectTitleArea.Y = 0;
rectTitleArea.Width = this.Width;
// Dispose the StringFormat object
sf.Dispose();
sf = null;
// Dispose the Brush object
bSolid.Dispose();
bSolid = null;
#endregion
#region Draw the Body background color
if (this.windowMaximized == true)
{
if (this.BodyStyle == ColorStyle.Solid)
{
// Create a new Brush object
bSolid = new SolidBrush(this.BodyForeColor);
// Fill the body area
g.FillRectangle(bSolid, rectBody);
// Dispose the Brush object
bSolid.Dispose();
bSolid = null;
}
else
{
switch (this.BodyStyle)
{
case ColorStyle.BackwardDiagonalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectBody, this.BodyForeColor, this.BodyBackColor, LinearGradientMode.BackwardDiagonal);
break;
case ColorStyle.ForwardDiagonalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectBody, this.BodyForeColor, this.BodyBackColor, LinearGradientMode.ForwardDiagonal);
break;
case ColorStyle.HorizontalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectBody, this.BodyForeColor, this.BodyBackColor, LinearGradientMode.Horizontal);
break;
case ColorStyle.VerticalGradient :
// Create a new Brush object
bGradient = new LinearGradientBrush(rectBody, this.BodyForeColor, this.BodyBackColor, LinearGradientMode.Vertical);
break;
}
// Fill the body area
g.FillRectangle(bGradient, rectBody);
// Dispose the LinearGradientBrush object
bGradient.Dispose();
bGradient = null;
}
}
#endregion
#region Draw the Resizable symbol
if (this.IsResizable == true && this.windowMaximized == true)
{
rectResizableArea = new Rectangle(0, 0, 0, 0);
rectResizableArea.X = this.Width - padding - 11;
rectResizableArea.Y = this.Height - padding - 11;
rectResizableArea.Height = padding + 11;
rectResizableArea.Width = padding + 11;
// Create a new Pen object
p = new Pen(this.ResizableColor, 2);
// Draw the resizable symbol
g.DrawLine(p, this.Width - padding - 11, this.Height - padding, this.Width - padding, this.Height - padding - 11);
g.DrawLine(p, this.Width - padding - 7, this.Height - padding, this.Width - padding, this.Height - padding - 7);
g.DrawLine(p, this.Width - padding - 3, this.Height - padding, this.Width - padding, this.Height - padding - 3);
// Dispose the Pen object
p.Dispose();
p = null;
}
#endregion
#region Draw the Form Outline
// Create a new Pen object
p = new Pen(this.OutlineColor, this.OutlineSize);
// Draw the form outline
g.DrawArc(p, rectLeftCorner, 180, 90);
g.DrawArc(p, rectRightCorner, 270, 90);
g.DrawLine(p, edgeRadius, 0, this.Width - edgeRadius, 0);
g.DrawLine(p, 0, edgeRadius, 0, this.Height);
g.DrawLine(p, this.Width - 1, edgeRadius, this.Width - 1, this.Height);
g.DrawLine(p, 0, this.Height - 1, this.Width, this.Height - 1);
// Dispose the Pen object
p.Dispose();
p = null;
#endregion
#region Create/Apply a transparent region
if (this.Region != null)
{
this.Region.Dispose();
this.Region = null;
}
// Create GraphicsPath to be used to crop the region required
gpRegion = new GraphicsPath();
// Loop through every pixel in the top left corner.
// Create a 1 x 1 rectangle regions of pixels that do not match the transparent color
for (int x = rectLeftCorner.X; x < rectLeftCorner.Width; x++)
{
for (int y = rectLeftCorner.Y; y < rectLeftCorner.Height / 2; y++)
{
if (isSameColor(bmp.GetPixel(x, y), this.transparentColor) == false)
{
gpRegion.AddRectangle(new Rectangle(x, y, 1, 1));
}
}
}
// Loop through every pixel in the top right corner.
// Create a 1 x 1 rectangle regions of pixels that do not match the transparent color
for (int x = rectRightCorner.X + 1; x < rectRightCorner.X + rectRightCorner.Width + 1; x++)
{
for (int y = rectRightCorner.Y; y < rectRightCorner.Y + rectRightCorner.Height / 2; y++)
{
if (isSameColor(bmp.GetPixel(x, y), this.transparentColor) == false)
{
gpRegion.AddRectangle(new Rectangle(x, y, 1, 1));
}
}
}
// Create the remaining rectangular regions to complete cover all the windows form area
gpRegion.AddRectangle(new Rectangle(rectLeftCorner.Width, 0, this.Width - (edgeRadius * 4), rectLeftCorner.Height / 2));
gpRegion.AddRectangle(new Rectangle(0, rectLeftCorner.Height / 2, this.Width, this.Height));
// Apply region
this.Region = new Region(gpRegion);
#endregion
#region Draw the buffered image on the windows form Graphics object
// Draw the buffered image on the windows form Graphics object
e.Graphics.DrawImageUnscaled(bmp, 0, 0, this.Width, this.Height);
// Dispose the Graphics object
g.Dispose();
g = null;
// Dispose the Bitmap object
bmp.Dispose();
bmp = null;
#endregion
}
private void Flatten1(Graphics g)
{
GraphicsPath myPath = new GraphicsPath();
Matrix translateMatrix = new Matrix();
translateMatrix.Translate(0, 10);
Point point1 = new Point(20, 120);
Point point2 = new Point(70, 30);
Point point3 = new Point(130, 220);
Point point4 = new Point(180, 120);
Point[] points = {point1, point2, point3, point4};
myPath.AddCurve(points);
g.DrawPath(new Pen(Color.Black, 1), myPath);
var pathPoints = myPath.PathPoints;
var pathTypes = myPath.PathTypes;
Console.WriteLine("Flatten before Flattening");
for (int i = 0; i < myPath.PathTypes.Length; i++)
{
Console.WriteLine("{0} - {1},{2}", (PathPointType)pathTypes[i], pathPoints[i].X, pathPoints[i].Y);
}
myPath.Flatten(translateMatrix, 10);
pathPoints = myPath.PathPoints;
pathTypes = myPath.PathTypes;
Console.WriteLine("Flatten after Flattening");
for (int i = 0; i < myPath.PathTypes.Length; i++)
{
Console.WriteLine("{0} - {1},{2}", (PathPointType)pathTypes[i], pathPoints[i].X, pathPoints[i].Y);
}
g.DrawPath(new Pen(Color.Red, 1), myPath);
}
public void Flatten_Rectangle ()
{
GraphicsPath path = new GraphicsPath ();
path.AddRectangle (new Rectangle (0, 0, 100, 100));
GraphicsPath clone = (GraphicsPath) path.Clone ();
path.Flatten ();
ComparePaths (path, clone);
}
public IEnumerable<MapObject> Create(IDGenerator generator, Box box, ITexture texture, int roundDecimals)
{
var width = box.Width;
var length = Math.Max(1, Math.Abs((int) box.Length));
var height = box.Height;
var flatten = (float) _flattenFactor.Value;
var text = _text.GetValue();
var family = _fontChooser.GetFontFamily();
var style = Enum.GetValues(typeof (FontStyle)).OfType<FontStyle>().FirstOrDefault(fs => family.IsStyleAvailable(fs));
if (!family.IsStyleAvailable(style)) family = FontFamily.GenericSansSerif;
var set = new PolygonSet();
var sizes = new List<RectangleF>();
using (var bmp = new Bitmap(1,1))
{
using (var g = System.Drawing.Graphics.FromImage(bmp))
{
using (var font = new Font(family, length, style, GraphicsUnit.Pixel))
{
for (var i = 0; i < text.Length; i += 32)
{
using (var sf = new StringFormat(StringFormat.GenericTypographic))
{
var rem = Math.Min(text.Length, i + 32) - i;
var range = Enumerable.Range(0, rem).Select(x => new CharacterRange(x, 1)).ToArray();
sf.SetMeasurableCharacterRanges(range);
var reg = g.MeasureCharacterRanges(text.Substring(i, rem), font, new RectangleF(0, 0, float.MaxValue, float.MaxValue), sf);
sizes.AddRange(reg.Select(x => x.GetBounds(g)));
}
}
}
}
}
var xOffset = box.Start.DX;
var yOffset = box.End.DY;
for (var ci = 0; ci < text.Length; ci++)
{
var c = text[ci];
var size = sizes[ci];
var gp = new GraphicsPath();
gp.AddString(c.ToString(CultureInfo.InvariantCulture), family, (int)style, length, new PointF(0, 0), StringFormat.GenericTypographic);
gp.Flatten(new System.Drawing.Drawing2D.Matrix(), flatten);
var polygons = new List<Polygon>();
var poly = new List<PolygonPoint>();
for (var i = 0; i < gp.PointCount; i++)
{
var type = gp.PathTypes[i];
var point = gp.PathPoints[i];
poly.Add(new PolygonPoint(point.X + xOffset, -point.Y + yOffset));
if ((type & 0x80) == 0x80)
{
polygons.Add(new Polygon(poly));
poly.Clear();
}
}
var tri = new List<Polygon>();
Polygon polygon = null;
foreach (var p in polygons)
{
if (polygon == null)
{
polygon = p;
tri.Add(p);
}
else if (p.CalculateWindingOrder() != polygon.CalculateWindingOrder())
{
polygon.AddHole(p);
}
else
{
polygon = null;
tri.Add(p);
}
}
foreach (var pp in tri)
{
try
{
P2T.Triangulate(pp);
set.Add(pp);
}
catch
{
// Ignore
}
}
xOffset += size.Width;
}
var zOffset = box.Start.Z;
foreach (var polygon in set.Polygons)
{
foreach (var t in polygon.Triangles)
{
var points = t.Points.Select(x => new Coordinate((decimal) x.X, (decimal) x.Y, zOffset).Round(roundDecimals)).ToList();
var faces = new List<Coordinate[]>();
// Add the vertical faces
var z = new Coordinate(0, 0, height).Round(roundDecimals);
for (var j = 0; j < points.Count; j++)
{
var next = (j + 1) % points.Count;
faces.Add(new[] {points[j], points[j] + z, points[next] + z, points[next]});
}
// Add the top and bottom faces
faces.Add(points.ToArray());
faces.Add(points.Select(x => x + z).Reverse().ToArray());
// Nothing new here, move along
var solid = new Solid(generator.GetNextObjectID()) {Colour = Colour.GetRandomBrushColour()};
foreach (var arr in faces)
{
var face = new Face(generator.GetNextFaceID())
{
Parent = solid,
Plane = new Plane(arr[0], arr[1], arr[2]),
Colour = solid.Colour,
Texture = {Texture = texture}
};
face.Vertices.AddRange(arr.Select(x => new Vertex(x, face)));
face.UpdateBoundingBox();
face.AlignTextureToFace();
solid.Faces.Add(face);
}
solid.UpdateBoundingBox();
yield return solid;
}
}
}
public void Flatten_NullFloat ()
{
GraphicsPath path = new GraphicsPath ();
GraphicsPath clone = (GraphicsPath) path.Clone ();
// this is a no-op as there's nothing in the path
// an no matrix to apply
path.Flatten (null, 1f);
ComparePaths (path, clone);
}
public void Flatten_Arc ()
{
GraphicsPath path = new GraphicsPath ();
path.AddArc (0f, 0f, 100f, 100f, 30, 30);
GraphicsPath clone = (GraphicsPath) path.Clone ();
path.Flatten ();
CompareFlats (path, clone);
}
private int getNearestLine(RectangleF hit)
{
int result = -1;
if (LineList.Items.Count == 0) return -1;
for (int i = 0; i < LineList.Items.Count; i++)
{
PointF[] tmp = (Lines[i] as PData).Lines;
using (GraphicsPath gp = new GraphicsPath())
{
gp.AddLines(tmp);
gp.Flatten(null, .1f);
tmp = gp.PathPoints;
for (int j = 0; j < tmp.Length; j++)
{
PointF p = new PointF(tmp[j].X * pb.ClientSize.Width,
tmp[j].Y * pb.ClientSize.Height);
if (hit.Contains(p))
{
result = i;
break;
}
}
if (result > -1) break;
}
}
return result;
}
static List<PointF> GetArrowLinePoints(float x1, float y1, float x2, float y2, out float centerX, out float centerY, float extra_thickness = 0)
{
var widthX = (x2 - x1);
var lengthX = Math.Max(60, Math.Abs(widthX / 2))
//+ Math.Max(0, -widthX / 2)
;
var lengthY = 0;// Math.Max(-170, Math.Min(-120.0f, widthX - 120.0f)) + 120.0f;
if (widthX < 120)
lengthX = 60;
var yB = ((y1 + y2) / 2) + lengthY;// (y2 + ((y1 - y2) / 2) * 0.75f) + lengthY;
var yC = y2 + yB;
var xC = (x1 + x2) / 2;
var xA = x1 + lengthX;
var xB = x2 - lengthX;
/*
if (widthX >= 120)
{
xA = xB = xC = x2 - 60;
}
//*/
var points = new List<PointF> {
new PointF(x1, y1),
new PointF(xA, y1),
new PointF(xB, y2),
new PointF(x2 - GraphConstants.ConnectorSize - extra_thickness, y2)
};
var t = 1.0f;//Math.Min(1, Math.Max(0, (widthX - 30) / 60.0f));
var yA = (yB * t) + (yC * (1 - t));
if (widthX <= 120)
{
points.Insert(2, new PointF(xB, yA));
points.Insert(2, new PointF(xC, yA));
points.Insert(2, new PointF(xA, yA));
}
//*
using (var tempPath = new GraphicsPath())
{
tempPath.AddBeziers(points.ToArray());
tempPath.Flatten();
points = tempPath.PathPoints.ToList();
}
//*/
var angles = new PointF[points.Count - 1];
var lengths = new float[points.Count - 1];
float totalLength = 0;
centerX = 0;
centerY = 0;
points.Add(points[points.Count - 1]);
for (int i = 0; i < points.Count - 2; i++)
{
var pt1 = points[i];
var pt2 = points[i + 1];
var pt3 = points[i + 2];
var deltaX = (float)((pt2.X - pt1.X) + (pt3.X - pt2.X));
var deltaY = (float)((pt2.Y - pt1.Y) + (pt3.Y - pt2.Y));
var length = (float)Math.Sqrt((deltaX * deltaX) + (deltaY * deltaY));
if (length <= 1.0f)
{
points.RemoveAt(i);
i--;
continue;
}
lengths[i] = length;
totalLength += length;
angles[i].X = deltaX / length;
angles[i].Y = deltaY / length;
}
float midLength = (totalLength / 2.0f);// * 0.75f;
float startWidth = extra_thickness + 0.75f;
float endWidth = extra_thickness + (GraphConstants.ConnectorSize / 3.5f);
float currentLength = 0;
var newPoints = new List<PointF>();
newPoints.Add(points[0]);
for (int i = 0; i < points.Count - 2; i++)
{
var angle = angles[i];
var point = points[i + 1];
var length = lengths[i];
var width = (((currentLength * (endWidth - startWidth)) / totalLength) + startWidth);
var angleX = angle.X * width;
var angleY = angle.Y * width;
var newLength = currentLength + length;
if (currentLength <= midLength &&
newLength >= midLength)
{
var dX = point.X - points[i].X;
var dY = point.Y - points[i].Y;
var t1 = midLength - currentLength;
var l = length;
centerX = points[i].X + ((dX * t1) / l);
centerY = points[i].Y + ((dY * t1) / l);
}
var pt1 = new PointF(point.X - angleY, point.Y + angleX);
var pt2 = new PointF(point.X + angleY, point.Y - angleX);
if (Math.Abs(newPoints[newPoints.Count - 1].X - pt1.X) > 1.0f ||
Math.Abs(newPoints[newPoints.Count - 1].Y - pt1.Y) > 1.0f)
newPoints.Add(pt1);
if (Math.Abs(newPoints[0].X - pt2.X) > 1.0f ||
Math.Abs(newPoints[0].Y - pt2.Y) > 1.0f)
newPoints.Insert(0, pt2);
currentLength = newLength;
}
return newPoints;
}
public void Flatten_Ellipse ()
{
GraphicsPath path = new GraphicsPath ();
path.AddEllipse (10f, 10f, 100f, 100f);
GraphicsPath clone = (GraphicsPath) path.Clone ();
path.Flatten ();
CompareFlats (path, clone);
}
/// <summary>
/// Produces DXF output from various type of lines
/// </summary>
/// <param name="pt">Point array of the line points</param>
/// <param name="crLine">Line color</param>
/// <param name="LayerName">Name of the layer to place the line</param>
/// <param name="dlt">Line type according to DxLineType enum</param>
/// <param name="dash">Line dash style</param>
/// <param name="LineWidth">Used for bezier curves ( if 8 - points, 16 - controls points )</param>
/// <returns>DXF output string</returns>
public string Pt2String(PointF[] pt, Color crLine , string LayerName, DxLineType dlt , DashStyle dash , Single LineWidth )
{
string sResult = "";
bool IsClosedLine = false;
long SegCount = 0;
bool FirstOrLast = false;
try
{
// Validating input parameters
if ( pt == null )
throw new Exception("Null points array passed");
if ( pt.Length == 0 )
throw new Exception("Empty points array passed");
IsClosedLine = (pt[0] == pt[pt.Length-1]);
if (( dlt == DxLineType.ltSingle) || (dlt == DxLineType.ltClosedSingle))
SegCount = pt.Length - 1;
else
SegCount = pt.Length;
// Processing all line points according to its type
for ( int i=0; i< SegCount ; i++)
{
FirstOrLast =((i ==0) || (i == SegCount-1));
switch ( dlt)
{
case DxLineType.ltSingle:
case DxLineType.ltClosedSingle:
sResult+=String.Format(provider, "0\nLINE\n 100\nAcDbEntity\n{0:HAN} 8\n{1}\n 6\n{6:DASH_STYLE}\n62\n{0:ACI}\n 100\nAcDbLine\n 10\n{2:U}\n 20\n{3:U}\n 11\n{4:U}\n 21\n{5:U}\n",
crLine, LayerName, pt[i].X, pt[i].Y, pt[i+1].X, pt[i+1].Y, dash);
break;
case DxLineType.ltBezier:
sResult+=String.Format(provider, " 0\nVERTEX\n 100\nAcDbEntity\n{0:HAN} 8\n{2}\n 62\n{4:ACI}\n100\nAcDbVertex\n 100\nAcDb2dVertex\n 10\n{0:U}\n 20\n{1:U}\n 70\n{3}\n", pt[i].X, pt[i].Y, LayerName, 16 , crLine, dash);
break;
case DxLineType.ltVertex:
sResult+=String.Format(provider, " 0\nVERTEX\n 100\nAcDbEntity\n{0:HAN} 8\n{2}\n 62\n{4:ACI}\n100\nAcDbVertex\n 100\nAcDb2dVertex\n 10\n{0:U}\n 20\n{1:U}\n 70\n{3}\n", pt[i].X, pt[i].Y, LayerName, LineWidth, crLine);
break;
case DxLineType.ltPoly:
sResult+=String.Format(provider, " 10\n{0:U}\n 20\n{1:U}\n", pt[i].X, pt[i].Y);
break;
case DxLineType.ltHatch:
sResult+=String.Format(provider, " 10\n{0:U}\n 20\n{1:U}\n", pt[i].X, pt[i].Y);
break;
default:
throw new Exception("Line type is not supported");
}
}
// Post - processing some types of line
if (dlt == DxLineType.ltClosedSingle)
sResult+=String.Format(provider, "0\nLINE\n 100\nAcDbEntity\n{0:HAN} 8\n{1}\n 6\n{6:DASH_STYLE}\n62\n{0:ACI}\n 100\nAcDbLine\n 10\n{2:U}\n 20\n{3:U}\n 11\n{4:U}\n 21\n{5:U}\n",
crLine, LayerName, pt[pt.Length - 1].X, pt[pt.Length - 1].Y, pt[0].X, pt[0].Y, dash);
if ( dlt == DxLineType.ltPoly )
sResult = String.Format(provider, "0\nLWPOLYLINE\n 100\nAcDbEntity\n{0:HAN} 8\n{1}\n 6\n{5:DASH_STYLE}\n62\n{0:ACI}\n 100\nAcDbPolyline\n 90\n{2}\n 70\n{4}\n{3}",
crLine, LayerName, pt.Length , sResult, IsClosedLine ? "1" : "0", dash);
if ( dlt == DxLineType.ltBezier )
{
GraphicsPath gr_temp = new GraphicsPath(FillMode.Winding);
gr_temp.AddBeziers(pt);
gr_temp.Flatten();
PointF[] pts2 = gr_temp.PathData.Points as PointF[];
sResult = String.Format(provider, "0\nPOLYLINE\n{0:HAN} 100\nAcDbEntity\n 8\n{0}\n 6\n{4:DASH_STYLE}\n 62\n{1:ACI}\n 100\nAcDb2dPolyline\n 66\n1\n 70\n4\n 75\n6\n{2}{3} 0\nSEQEND\n 100\nAcDbEntity\n{0:HAN}",
LayerName,
crLine,
sResult,
Pt2String(pts2,crLine,LayerName,DxLineType.ltVertex, dash, 8), dash);
gr_temp.Dispose();
}
}
catch ( Exception ex)
{
sResult = "";
m_status = ex.Message;
Trace.WriteLine(String.Format("{0} error {1}\n","DxfHelper.Pt2String",ex.Message));
}
return sResult;
}
public void Flatten_Line ()
{
GraphicsPath path = new GraphicsPath ();
path.AddLine (10f, 10f, 100f, 100f);
GraphicsPath clone = (GraphicsPath) path.Clone ();
path.Flatten ();
ComparePaths (path, clone);
}
public void Flatten_Curve ()
{
GraphicsPath path = new GraphicsPath ();
path.AddCurve (new Point[4] {
new Point (0, 0), new Point (40, 20),
new Point (20, 40), new Point (40, 40)
});
GraphicsPath clone = (GraphicsPath) path.Clone ();
path.Flatten ();
CompareFlats (path, clone);
}
private void DrawText(PointF[] points, int maxPoints)
{
GraphicsPath gp = new GraphicsPath(_pathdata.Points, _pathdata.Types) { FillMode = FillMode.Winding };
gp.Flatten();
gp.Dispose();
Graphics g = _graphics;
GraphicsContainer graphicsContainer = g.BeginContainer();
//g.TranslateTransform(_graphicsPath.GetBounds().X, _graphicsPath.GetBounds().Y);
int count = 0;
PointF point1 = default(PointF);
int charStep = 0;
double maxWidthText = default(double);
int i;
for (i = 0; i <= _text.Length - 1; i++)
{
maxWidthText += StringRegion(g, i);
}
switch (_pathalign)
{
case TextPathAlign.Left:
point1 = points[0];
count = 0;
break;
case TextPathAlign.Center:
count = (int)((maxPoints - maxWidthText) / 2);
if (count > 0)
{
point1 = points[count];
}
else
{
point1 = points[0];
}
break;
case TextPathAlign.Right:
count = (int)(maxPoints - maxWidthText - (double)StringRegion(g, _text.Length - 1) * LetterSpacePercentage / 100);
if (count > 0)
{
point1 = points[count];
}
else
{
point1 = points[0];
}
break;
}
while (!(charStep > _text.Length - 1))
{
int lStrWidth = (int)(StringRegion(g, charStep) * LetterSpacePercentage / 100);
if ((count + lStrWidth / 2) >= 0 & (count + lStrWidth) < maxPoints)
{
count += lStrWidth;
PointF point2 = points[count];
PointF point = points[count - lStrWidth / 2];
double angle = GetAngle(point1, point2);
DrawRotatedText(g, _text[charStep].ToString(), (float)angle, point);
point1 = points[count];
}
else
{
count += lStrWidth;
}
charStep += 1;
}
g.EndContainer(graphicsContainer);
}