using ComPDFKit.Import;
using ComPDFKit.PDFAnnotation;
using ComPDFKit.Tool.Help;
using ComPDFKit.Tool.SettingParam;
using ComPDFKit.Viewer.Helper;
using ComPDFKitViewer;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Windows;
using System.Windows.Controls;
using System.Windows.Input;
using System.Windows.Media;
namespace ComPDFKit.Tool.DrawTool
{
public enum PointControlType
{
None = -1,
LeftTop,
LeftMiddle,
LeftBottom,
MiddleBottom,
RightBottom,
RightMiddle,
RightTop,
MiddleTop,
Body,
Line,
Rotate
}
public enum SelectedType
{
None = -1,
Annot,
PDFEdit
}
public enum DrawPointType
{
Circle,
Square,
Crop,
}
public enum DrawMoveType
{
kDefault,
kReferenceLine,
kRotatable
}
public class SelectedAnnotData
{
///
/// Current size of the rectangle
///
public Rect Square { get; set; }
///
/// Current points of the rectangle
///
public PointCollection Points { get; set; }
public AnnotData annotData { get; set; }
public int rotationAngle { get; set; }
}
public partial class SelectedRect : DrawingVisual
{
///
/// Re-layout child elements
///
public void Arrange()
{
foreach (Visual child in Children)
{
if (!(child is UIElement))
{
continue;
}
UIElement checkChild = child as UIElement;
try
{
double left = Canvas.GetLeft(checkChild);
double top = Canvas.GetTop(checkChild);
double width = (double)checkChild.GetValue(FrameworkElement.WidthProperty);
double height = (double)checkChild.GetValue(FrameworkElement.HeightProperty);
checkChild.Measure(new Size(double.PositiveInfinity, double.PositiveInfinity));
checkChild.Arrange(new Rect(
double.IsNaN(left) ? 0 : left,
double.IsNaN(top) ? 0 : top,
double.IsNaN(width) ? checkChild.DesiredSize.Width : width,
double.IsNaN(height) ? checkChild.DesiredSize.Height : height));
}
catch (Exception ex)
{
}
}
}
protected DefaultDrawParam DrawParam = new DefaultDrawParam();
protected DrawingContext drawDC { get; set; }
///
/// Data changing event
///
public event EventHandler DataChanging;
///
/// Data changed event
///
public event EventHandler DataChanged;
protected bool isHover = false;
protected bool isSelected = false;
protected bool canRotate = false;
protected SelectedType selectedType = SelectedType.None;
public SelectedType GetSelectedType()
{
return selectedType;
}
public void SetIsHover(bool hover)
{
isHover = hover;
}
public bool GetIsHover()
{
return isHover;
}
public void SetIsSelected(bool selected)
{
isSelected = selected;
}
public bool GetIsSelected()
{
return isSelected;
}
public void SetCurrentDrawPointType(DrawPointType type)
{
currentDrawPointType = type;
}
public DrawPointType GetCurrentDrawPointType()
{
return currentDrawPointType;
}
public virtual void OnMouseLeftButtonDown(Point downPoint)
{
isMouseDown = true;
hitControlType = PointControlType.None;
mouseDownPoint = downPoint;
moveOffset = new Point(0, 0);
HitTestResult hitResult = VisualTreeHelper.HitTest(this, downPoint);
if (hitResult != null && hitResult.VisualHit is DrawingVisual)
{
//Crop judgment point
if (currentDrawPointType == DrawPointType.Crop)
{
hitControlType = GetHitCropControlIndex(downPoint);
}
else
{
hitControlType = GetHitControlIndex(downPoint);
}
if (hitControlType != PointControlType.None)
{
cacheRect = drawRect;
rotateRect = drawRect;
rotateControlPoints = controlPoints.ToList();
if (hitControlType != PointControlType.Rotate)
{
isInScaling = true;
}
else
{
isInRotate = true;
}
}
}
}
public virtual void OnMouseLeftButtonUp(Point upPoint)
{
if (isMouseDown && hitControlType != PointControlType.None)
{
isMouseDown = false;
isInScaling = false;
isInRotate = false;
cacheRect = SetDrawRect = drawRect;
Draw();
if ((int)upPoint.X != (int)mouseDownPoint.X || (int)upPoint.Y != (int)mouseDownPoint.Y)
{
InvokeDataChangEvent(true);
}
}
moveOffset = new Point(0, 0);
}
public virtual void OnMouseMove(Point mousePoint, out bool Tag, double width, double height)
{
PDFViewerActualWidth = width;
PDFViewerActualHeight = height;
Tag = false;
if (isMouseDown && hitControlType != PointControlType.None)
{
Tag = isMouseDown;
if (CalcHitPointMove(mousePoint))
{
Draw();
if ((int)mousePoint.X != (int)mouseDownPoint.X || (int)mousePoint.Y != (int)mouseDownPoint.Y)
{
InvokeDataChangEvent(false);
}
}
}
}
public Cursor GetCursor(Point downPoint, Cursor cursor)
{
if (isMouseDown)
{
return cursor;
}
hitControlType = GetHitControlIndex(downPoint);
switch (hitControlType)
{
case PointControlType.LeftTop:
case PointControlType.RightBottom:
return Cursors.SizeNWSE;
case PointControlType.LeftMiddle:
case PointControlType.RightMiddle:
return Cursors.SizeWE;
case PointControlType.LeftBottom:
case PointControlType.RightTop:
return Cursors.SizeNESW;
case PointControlType.MiddleBottom:
case PointControlType.MiddleTop:
return Cursors.SizeNS;
case PointControlType.Body:
return Cursors.Arrow;
case PointControlType.Line:
return Cursors.SizeAll;
case PointControlType.Rotate:
return CommonHelper.RotationCursor;
default:
return Cursors.Arrow;
}
}
public SelectedRect(DefaultDrawParam defaultDrawParam, SelectedType type) : base()
{
DrawParam = defaultDrawParam;
currentDrawPointType = DrawPointType.Square;
selectedType = type;
}
public void Draw()
{
Dispatcher.Invoke(() =>
{
Rect currentRect = SetDrawRect;
drawDC = RenderOpen();
switch (currentDrawMoveType)
{
case DrawMoveType.kDefault:
currentRect = drawRect;
CalcControlPoint(currentRect);
break;
case DrawMoveType.kReferenceLine:
CalcControlPoint(currentRect);
if (isMouseDown == true)
{
SolidColorBrush moveBrush = DrawParam.AnnotMoveBrush;
Pen movepen = DrawParam.AnnotMovePen;
GetMoveBrushAndPen(ref moveBrush, ref movepen);
if (selectedType == SelectedType.PDFEdit)
{
DrawMoveBounds(drawDC, hitControlType, movepen, moveBrush, drawRect, DrawParam.PDFEditMoveRectPen);
}
else
{
DrawMoveBounds(drawDC, hitControlType, movepen, moveBrush, drawRect);
}
}
break;
default:
break;
}
SolidColorBrush solidColorBrush = DrawParam.AnnotRectFillBrush;
Pen pen = DrawParam.AnnotRectLinePen;
GetBrushAndPen(ref solidColorBrush, ref pen);
RotateTransform rotateTransform = new RotateTransform(rotateAngle, centerPoint.X, centerPoint.Y);
drawDC.PushTransform(rotateTransform);
drawDC?.DrawRectangle(solidColorBrush, pen, currentRect);
drawDC.Pop();
SolidColorBrush PointBrush = DrawParam.AnnotPointBorderBrush;
Pen PointPen = DrawParam.AnnotPointPen;
GetPointBrushAndPen(ref PointBrush, ref PointPen);
switch (currentDrawPointType)
{
case DrawPointType.Circle:
if (selectedType == SelectedType.PDFEdit)
{
DrawCirclePoint(drawDC, GetIgnorePoints(), pointSize, PointPen, PointBrush);
}
else
{
DrawCirclePoint(drawDC, GetIgnorePoints(), pointSize, PointPen, PointBrush);
}
break;
case DrawPointType.Square:
DrawSquarePoint(drawDC, GetIgnorePoints(), pointSize, PointPen, PointBrush);
break;
case DrawPointType.Crop:
DrawCropPoint(drawDC, GetIgnorePoints(), pointSize, PointPen, PointBrush);
break;
}
drawDC?.Close();
drawDC = null;
});
}
private void GetMoveBrushAndPen(ref SolidColorBrush colorBrush, ref Pen pen)
{
switch (selectedType)
{
case SelectedType.None:
break;
case SelectedType.Annot:
colorBrush = DrawParam.AnnotMoveBrush;
pen = DrawParam.AnnotMovePen;
break;
case SelectedType.PDFEdit:
colorBrush = DrawParam.PDFEditMoveBrush;
pen = DrawParam.PDFEditMovePen;
break;
default:
break;
}
}
private void GetPointBrushAndPen(ref SolidColorBrush colorBrush, ref Pen pen)
{
switch (selectedType)
{
case SelectedType.None:
break;
case SelectedType.Annot:
colorBrush = DrawParam.AnnotPointBorderBrush;
pen = DrawParam.AnnotPointPen;
break;
case SelectedType.PDFEdit:
if (isHover)
{
colorBrush = DrawParam.PDFEditRectFillHoverBrush;
pen = DrawParam.PDFEditPointHoverPen;
}
else if (currentDrawPointType == DrawPointType.Crop)
{
colorBrush = DrawParam.SPDFEditCropBorderBrush;
//new SolidColorBrush((DrawParam.SPDFEditPointPen.Brush as SolidColorBrush).Color);
pen = DrawParam.SPDFEditPointPen.Clone();
pen.DashStyle = DashStyles.Solid;
}
else
{
if (isSelected)
{
colorBrush = DrawParam.SPDFEditPointBorderBrush;
pen = DrawParam.SPDFEditPointPen;
}
else
{
colorBrush = DrawParam.PDFEditPointBorderBrush;
pen = DrawParam.PDFEditPointPen;
}
}
break;
default:
break;
}
}
private void GetBrushAndPen(ref SolidColorBrush colorBrush, ref Pen pen)
{
switch (selectedType)
{
case SelectedType.None:
break;
case SelectedType.Annot:
if (isHover)
{
colorBrush = DrawParam.AnnotRectFillBrush;
pen = DrawParam.AnnotRectHoverPen;
}
else
{
colorBrush = DrawParam.AnnotRectFillBrush;
pen = DrawParam.AnnotRectLinePen;
}
break;
case SelectedType.PDFEdit:
if (isHover)
{
colorBrush = DrawParam.PDFEditRectFillHoverBrush;
pen = editHoverPen;//DrawParam.PDFEditRectLineHoverPen;
}
else
{
if (isSelected)
{
colorBrush = DrawParam.SPDFEditRectFillBrush;
pen = DrawParam.SPDFEditRectLinePen;
}
else
{
colorBrush = DrawParam.PDFEditRectFillBrush;
//init Color
if (showCreatTextRect)
{
pen = DrawParam.PDFEditRectLinePen;
}
else
{
pen = editPen;
}
// editPen; //editPen;//// DrawParam.PDFEditRectLinePen;
}
}
break;
default:
break;
}
}
public void SetShowCreatTextRect(bool ShowCreatTextRect)
{
showCreatTextRect = ShowCreatTextRect;
}
public void SetEditPen(Pen editPen = null, Pen editHoverPen = null)
{
if (editPen == null)
{
this.editPen = DrawParam.PDFEditRectLinePen;
}
else
{
this.editPen = new Pen(editPen.Brush, editPen.Thickness);
}
if (editHoverPen == null)
{
this.editHoverPen = DrawParam.PDFEditRectLineHoverPen;
}
else
{
this.editHoverPen = editHoverPen;
}
}
public virtual void ClearDraw()
{
SetDrawRect = drawRect = new Rect();
rotateAngle = 0;
drawDC = RenderOpen();
drawDC?.Close();
drawDC = null;
}
///
/// Hide the drawing
///
public virtual void HideDraw()
{
drawDC = RenderOpen();
drawDC?.Close();
}
public void SetRect(Rect newRect, double zoom)
{
if (newRect == Rect.Empty || newRect == null)
{
return;
}
newRect = new Rect((newRect.X - rectPadding * zoom), (newRect.Y - rectPadding * zoom), (newRect.Width + 2 * rectPadding * zoom), (newRect.Height + 2 * rectPadding * zoom));
currentZoom = zoom;
SetDrawRect = drawRect = newRect;
drawCenterPoint = new Point(drawRect.Left + drawRect.Width / 2, drawRect.Top + drawRect.Height / 2);
}
///
/// Get the original set Rect, not the calculated fill
///
///
/// The new rect to set
///
public Rect GetRect()
{
Rect rect = new Rect(drawRect.X + rectPadding * currentZoom, drawRect.Y + rectPadding * currentZoom, Math.Max(RectMinWidth, drawRect.Width - 2 * rectPadding * currentZoom), Math.Max(RectMinHeight, drawRect.Height - 2 * rectPadding * currentZoom));
return rect;
}
public int GetRotation()
{
return rotateAngle;
}
public void SetRotation(int rotationAngle)
{
this.rotateAngle = rotationAngle;
}
public void SetRectPadding(double rectPadding)
{
this.rectPadding = rectPadding;
}
public double GetRectPadding()
{
return rectPadding;
}
public Rect GetDrawRect()
{
return drawRect;
}
///
/// Obtain cropped and actual region margin
///
///
public Thickness GetClipThickness()
{
return clipThickness;
}
///
/// Get ClipRect
///
///
public Rect GetClipRect()
{
Rect drawrect = new Rect(0, 0, 0, 0);
drawrect.X = SetDrawRect.X - clipThickness.Left * currentZoom;
drawrect.Y = SetDrawRect.Y - clipThickness.Top * currentZoom;
drawrect.Width = SetDrawRect.Width - clipThickness.Right * currentZoom + clipThickness.Left * currentZoom;
drawrect.Height = SetDrawRect.Height - clipThickness.Bottom * currentZoom + clipThickness.Top * currentZoom;
return drawrect;
}
///
/// Set cropping and actual area margins
///
///
public void SetClipThickness(Thickness rect)
{
try
{
Rect drawrect = new Rect(0, 0, 0, 0);
drawrect.X = SetDrawRect.X - rect.Left * currentZoom;
drawrect.Y = SetDrawRect.Y - rect.Top * currentZoom;
drawrect.Width = SetDrawRect.Width - rect.Right * currentZoom + rect.Left * currentZoom;
drawrect.Height = SetDrawRect.Height - rect.Bottom * currentZoom + rect.Top * currentZoom;
drawRect = drawrect;
clipThickness = rect;
}
catch { }
}
public void SetMaxRect(Rect rect)
{
maxRect = rect;
}
public Rect GetMaxRect()
{
return maxRect;
}
public void SetAnnotData(AnnotData annotData, CPDFViewer viewer)
{
SetIgnorePoints(new List());
SetIsProportionalScaling(false);
SetRoationHandle(false);
isProportionalScaling = false;
switch (annotData.AnnotType)
{
case C_ANNOTATION_TYPE.C_ANNOTATION_HIGHLIGHT:
case C_ANNOTATION_TYPE.C_ANNOTATION_UNDERLINE:
case C_ANNOTATION_TYPE.C_ANNOTATION_SQUIGGLY:
case C_ANNOTATION_TYPE.C_ANNOTATION_STRIKEOUT:
case C_ANNOTATION_TYPE.C_ANNOTATION_RICHMEDIA:
case C_ANNOTATION_TYPE.C_ANNOTATION_MOVIE:
case C_ANNOTATION_TYPE.C_ANNOTATION_REDACT:
DisableAll();
break;
case C_ANNOTATION_TYPE.C_ANNOTATION_TEXT:
case C_ANNOTATION_TYPE.C_ANNOTATION_SOUND:
SetIgnorePointsAll();
break;
case C_ANNOTATION_TYPE.C_ANNOTATION_STAMP:
SetIsProportionalScaling(true);
SetRoationHandle(true);
break;
case C_ANNOTATION_TYPE.C_ANNOTATION_LINK:
SetIgnorePointsAll();
break;
default:
break;
}
SetMaxRect(annotData.PaintOffset);
if(annotData.AnnotType == C_ANNOTATION_TYPE.C_ANNOTATION_STAMP)
{
CRect sourceRect = new CRect();
annotData.Annot.GetSourceRect(ref sourceRect);
if (!sourceRect.IsEmpty)
{
RenderData renderData = viewer.GetCurrentRenderPageForIndex(annotData.PageIndex);
Rect zoomRect = new Rect(sourceRect.left / 72 * 96 * annotData.CurrentZoom, sourceRect.top / 72 * 96 * annotData.CurrentZoom, sourceRect.width() / 72 * 96 * annotData.CurrentZoom, sourceRect.height() / 72 * 96 * annotData.CurrentZoom);
Rect rotateRect = zoomRect;
rotateRect.X += renderData.PageBound.X - renderData.CropLeft * annotData.CurrentZoom;
rotateRect.Y += renderData.PageBound.Y - renderData.CropTop * annotData.CurrentZoom;
SetRect(rotateRect, annotData.CurrentZoom);
rotateAngle = -(annotData.Annot as CPDFStampAnnotation).AnnotationRotator.GetRotation();
}
else
{
SetRect(annotData.PaintRect, annotData.CurrentZoom);
}
}
else
{
SetRect(annotData.PaintRect, annotData.CurrentZoom);
}
//SetRotation(annotData.Rotation);
selectedRectData = new SelectedAnnotData();
selectedRectData.annotData = annotData;
}
private void SetRoationHandle(bool canRotate)
{
this.canRotate = canRotate;
}
public void SetIsProportionalScaling(bool isProportionalScaling)
{
this.isProportionalScaling = isProportionalScaling;
ignorePoints.Clear();
if (isProportionalScaling)
{
ignorePoints.Add(PointControlType.LeftMiddle);
ignorePoints.Add(PointControlType.MiddleBottom);
ignorePoints.Add(PointControlType.RightMiddle);
ignorePoints.Add(PointControlType.MiddleTop);
ignorePoints.Add(PointControlType.Rotate);
}
}
public void SetDrawType(DrawPointType drawType)
{
currentDrawPointType = drawType;
}
public void SetDrawMoveType(DrawMoveType drawType)
{
currentDrawMoveType = drawType;
}
///
/// Set the types that need to be ignored
///
///
/// The collection of point types that need to be ignored
///
public void SetIgnorePoints(List types)
{
ignorePoints.Clear();
foreach (PointControlType type in types)
{
ignorePoints.Add(type);
}
}
///
/// Set Edit that need to be ignored
///
///
/// The collection of point types that need to be ignored
///
public void SetEditIgnorePoints(List ignoreTextPoints, List ignoreImagePoints, DrawPointType drawEditPointType, bool IsText = true)
{
SetCurrentDrawPointType(drawEditPointType);
if (IsText)
{
ignorePoints.Clear();
foreach (PointControlType type in ignoreTextPoints)
{
ignorePoints.Add(type);
}
}
else
{
ignorePoints.Clear();
foreach (PointControlType type in ignoreImagePoints)
{
ignorePoints.Add(type);
}
}
}
///
/// Ignore all points
///
public void SetIgnorePointsAll()
{
ignorePoints.Clear();
ignorePoints.Add(PointControlType.LeftTop);
ignorePoints.Add(PointControlType.LeftMiddle);
ignorePoints.Add(PointControlType.LeftBottom);
ignorePoints.Add(PointControlType.MiddleBottom);
ignorePoints.Add(PointControlType.RightBottom);
ignorePoints.Add(PointControlType.RightMiddle);
ignorePoints.Add(PointControlType.RightTop);
ignorePoints.Add(PointControlType.MiddleTop);
}
///
/// Disable all functions
///
public void DisableAll()
{
ignorePoints.Clear();
ignorePoints.Add(PointControlType.LeftTop);
ignorePoints.Add(PointControlType.LeftMiddle);
ignorePoints.Add(PointControlType.LeftBottom);
ignorePoints.Add(PointControlType.MiddleBottom);
ignorePoints.Add(PointControlType.RightBottom);
ignorePoints.Add(PointControlType.RightMiddle);
ignorePoints.Add(PointControlType.RightTop);
ignorePoints.Add(PointControlType.MiddleTop);
ignorePoints.Add(PointControlType.Rotate);
ignorePoints.Add(PointControlType.Body);
ignorePoints.Add(PointControlType.Line);
}
///
/// Set the left alignment in the set maximum rectangle
///
public virtual void SetAlignLeftForMaxRect()
{
DrawAlignRect(AlignmentsHelp.SetAlignLeft(drawRect, maxRect));
}
///
/// Set horizontal center alignment in the set maximum rectangle
///
public virtual void SetAlignHorizonCenterForMaxRect()
{
DrawAlignRect(AlignmentsHelp.SetAlignHorizonCenter(drawRect, maxRect));
}
///
/// Set horizontal right alignment in the set maximum rectangle
///
public virtual void SetAlignRightForMaxRect()
{
DrawAlignRect(AlignmentsHelp.SetAlignRight(drawRect, maxRect));
}
///
/// Set the top alignment in the set maximum rectangle
///
public virtual void SetAlignTopForMaxRect()
{
DrawAlignRect(AlignmentsHelp.SetAlignTop(drawRect, maxRect));
}
///
/// Set vertical center alignment in the set maximum rectangle
///
public virtual void SetAlignVerticalCenterForMaxRect()
{
DrawAlignRect(AlignmentsHelp.SetAlignVerticalCenter(drawRect, maxRect));
}
///
/// Set vertical center alignment in the set maximum rectangle
///
public virtual void SetAlignHorizonVerticalCenterForMaxRect()
{
DrawAlignRect(AlignmentsHelp.SetAlignHorizonVerticalCenter(drawRect, maxRect));
}
///
/// Set the bottom alignment in the set maximum rectangle
///
public virtual void SetAlignBottomForMaxRect()
{
DrawAlignRect(AlignmentsHelp.SetAlignBottom(drawRect, maxRect));
}
///
/// Get which control point the coordinate is on
///
///
/// The point to check
///
///
/// The control point type
///
public PointControlType GetHitControlIndex(Point point, bool isIgnore = true)
{
HitTestResult hitResult = VisualTreeHelper.HitTest(this, point);
if (hitResult != null && hitResult.VisualHit is DrawingVisual)
{
List ignoreList = GetIgnorePoints();
List IgnorePointsList = new List();
foreach (PointControlType type in ignoreList)
{
if ((int)type < controlPoints.Count)
{
IgnorePointsList.Add(controlPoints[(int)type]);
}
}
for (int i = 0; i < controlPoints.Count; i++)
{
Point checkPoint = controlPoints[i];
if (canRotate)
{
// Convert the rotation angle from degrees to radians
double angleRad = rotateAngle * Math.PI / 180.0;
// Calculate the sine and cosine of the angle
double cosAngle = Math.Cos(angleRad);
double sinAngle = Math.Sin(angleRad);
// Translate checkPoint to the origin (centerPoint becomes the origin)
double translatedX = checkPoint.X - centerPoint.X;
double translatedY = checkPoint.Y - centerPoint.Y;
// Apply the rotation matrix
double rotatedX = translatedX * cosAngle - translatedY * sinAngle;
double rotatedY = translatedX * sinAngle + translatedY * cosAngle;
// Translate the point back to its original position
checkPoint.X = rotatedX + centerPoint.X;
checkPoint.Y = rotatedY + centerPoint.Y;
}
if (isIgnore && IgnorePointsList.Contains(checkPoint))
{
continue;
}
switch (currentDrawPointType)
{
case DrawPointType.Circle:
if (IgnorePointsList.Contains(checkPoint))
{
continue;
}
Vector checkVector = checkPoint - point;
double wlen = drawRect.Width;
if (wlen > 50)
{
wlen = 20;
}
else
{
wlen = wlen / 3;
}
double hlen = drawRect.Height;
if (hlen > 50)
{
hlen = 20;
}
else
{
hlen = wlen / 3;
}
if ((PointControlType)i == PointControlType.RightMiddle)
{
if (Math.Abs(point.X - checkPoint.X) < wlen && checkVector.Length < drawRect.Height/3)
{
return (PointControlType)i;
}
}
if ((PointControlType)i == PointControlType.LeftMiddle)
{
if (Math.Abs(point.X - checkPoint.X) < wlen && checkVector.Length < drawRect.Height/3)
{
return (PointControlType)i;
}
}
if ((PointControlType)i == PointControlType.MiddleTop)
{
if (Math.Abs(point.Y - checkPoint.Y) < hlen && checkVector.Length < drawRect.Width/3)
{
return (PointControlType)i;
}
}
if ((PointControlType)i == PointControlType.MiddleBottom)
{
if (Math.Abs(point.Y - checkPoint.Y) < hlen && checkVector.Length < drawRect.Width/3)
{
return (PointControlType)i;
}
}
if (checkVector.Length < pointSize)
{
return (PointControlType)i;
}
break;
case DrawPointType.Square:
Rect checkRect = new Rect(Math.Max(checkPoint.X - pointSize, 0), Math.Max(checkPoint.Y - pointSize, 0), pointSize * 2, pointSize * 2);
if (checkRect.Contains(point))
{
return (PointControlType)i;
}
if (canRotate)
{
Point hitRotationPoint = new Point(centerPoint.X + (rotationPoint.X - centerPoint.X) * Math.Cos(rotateAngle * Math.PI / 180) - (rotationPoint.Y - centerPoint.Y) * Math.Sin(rotateAngle * Math.PI / 180),
centerPoint.Y + (rotationPoint.X - centerPoint.X) * Math.Sin(rotateAngle * Math.PI / 180) + (rotationPoint.Y - centerPoint.Y) * Math.Cos(rotateAngle * Math.PI / 180));
Vector checkVector1 = point - hitRotationPoint;
if (checkVector1.Length < pointSize)
{
return PointControlType.Rotate;
}
}
break;
case DrawPointType.Crop:
Rect cropRect = new Rect(Math.Max(checkPoint.X - pointSize, 0), Math.Max(checkPoint.Y - pointSize, 0), pointSize * 2, pointSize * 2);
if (cropRect.Contains(point))
{
return (PointControlType)i;
}
break;
default:
break;
}
}
if (canRotate)
{
bool isIn = DataConversionForWPF.IsPointInRotatedRectangle(point, drawRect, rotateAngle);
if(isIn)
{
double rectWidth = (drawRect.Width - 2 * rectPadding > 0) ? drawRect.Width - 2 * rectPadding : 0;
double rectHeight = (drawRect.Height - 2 * rectPadding > 0) ? drawRect.Height - 2 * rectPadding : 0;
Rect rect = new Rect(Math.Max(drawRect.X + rectPadding, 0), Math.Max(drawRect.Y + rectPadding, 0), rectWidth, rectHeight);
isIn = DataConversionForWPF.IsPointInRotatedRectangle(point, rect, rotateAngle);
if (isIn)
{
if (!ignoreList.Contains(PointControlType.Body))
{
return PointControlType.Body;
}
}
if (!ignoreList.Contains(PointControlType.Body))
{
return PointControlType.Line;
}
}
}
else
{
if (drawRect.Contains(point))
{
double rectWidth = (drawRect.Width - 2 * rectPadding > 0) ? drawRect.Width - 2 * rectPadding : 0;
double rectHeight = (drawRect.Height - 2 * rectPadding > 0) ? drawRect.Height - 2 * rectPadding : 0;
Rect rect = new Rect(Math.Max(drawRect.X + rectPadding, 0), Math.Max(drawRect.Y + rectPadding, 0), rectWidth, rectHeight);
if (rect.Contains(point))
{
if (!ignoreList.Contains(PointControlType.Body))
{
return PointControlType.Body;
}
}
if (!ignoreList.Contains(PointControlType.Body))
{
return PointControlType.Line;
}
}
}
}
return PointControlType.None;
}
///
/// The position of the points in the cropping box
///
///
///
///
public PointControlType GetHitCropControlIndex(Point point, bool isIgnore = true)
{
List controlCurrentPoints = GetControlPoint(drawRect);
HitTestResult hitResult = VisualTreeHelper.HitTest(this, point);
if (hitResult != null && hitResult.VisualHit is DrawingVisual)
{
List ignoreList = GetIgnorePoints();
List IgnorePointsList = new List();
foreach (PointControlType type in ignoreList)
{
if ((int)type < controlCurrentPoints.Count)
{
IgnorePointsList.Add(controlCurrentPoints[(int)type]);
}
}
for (int i = 0; i < controlCurrentPoints.Count; i++)
{
Point checkPoint = controlCurrentPoints[i];
if (isIgnore && IgnorePointsList.Contains(checkPoint))
{
continue;
}
switch (currentDrawPointType)
{
case DrawPointType.Circle:
Vector checkVector = checkPoint - point;
if (checkVector.Length < pointSize)
{
return (PointControlType)i;
}
break;
case DrawPointType.Square:
Rect checkRect = new Rect(Math.Max(checkPoint.X - pointSize, 0), Math.Max(checkPoint.Y - pointSize, 0), pointSize * 2, pointSize * 2);
if (checkRect.Contains(point))
{
return (PointControlType)i;
}
break;
case DrawPointType.Crop:
Rect cropRect = new Rect(Math.Max(checkPoint.X - pointSize, 0), Math.Max(checkPoint.Y - pointSize, 0), pointSize * 2, pointSize * 2);
if (cropRect.Contains(point))
{
return (PointControlType)i;
}
break;
default:
break;
}
}
if (drawRect.Contains(point))
{
double rectWidth = (drawRect.Width - 2 * rectPadding > 0) ? drawRect.Width - 2 * rectPadding : 0;
double rectHeight = (drawRect.Height - 2 * rectPadding > 0) ? drawRect.Height - 2 * rectPadding : 0;
Rect rect = new Rect(Math.Max(drawRect.X + rectPadding, 0), Math.Max(drawRect.Y + rectPadding, 0), rectWidth, rectHeight);
if (rect.Contains(point))
{
if (!ignoreList.Contains(PointControlType.Body))
{
return PointControlType.Body;
}
}
if (!ignoreList.Contains(PointControlType.Body))
{
return PointControlType.Line;
}
}
}
return PointControlType.None;
}
}
}