using System;
using System.Collections;
using System.Collections.Generic;
using System.Drawing;
using System.Drawing.Imaging;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Reflection.Emit;
using System.Windows;
using System.Windows.Controls;
using System.Windows.Input;
using System.Windows.Media;
using System.Windows.Media.Animation;
using System.Windows.Media.Imaging;
using CyberX8_Core;
namespace CyberX8_Themes.UserControls
{
///
/// DrawGraphicsControl.xaml 的交互逻辑
///
public partial class DrawGraphicsControl : UserControl
{
private double m_WavePlotX = 0;//x轴起始点
private double m_WavePlotY = 0;//y轴起始点
private double m_WavePlotWidth = 5000;//x轴长度
private double m_WavePlotHeight = 100;//y轴长度
private double m_WavePlotMinX = double.MaxValue;
private double m_WavePlotMaxX = double.MinValue;
private double m_WavePlotMinY = double.MaxValue;
private double m_WavePlotMaxY = double.MinValue;
private double m_StartDrawLineX = 0;
private System.Drawing.Brush m_BrushText = System.Drawing.Brushes.Black;
private System.Drawing.Brush m_BrushXYText = System.Drawing.Brushes.DarkRed;
private System.Drawing.Pen m_PenLine;
private System.Drawing.Pen m_PenLightGray;
private System.Drawing.Pen m_PenBlue;
private System.Drawing.Pen m_PenData;
private System.Drawing.Pen m_PenSData;
private System.Drawing.Pen m_PenASData;
public System.Drawing.Pen[] m_PenCollencteions;
public System.Drawing.Pen[] m_PenCollencteionsnew;
private bool m_StartMouseMove = false;
private bool m_MouseMove = false;
private bool m_MouseEnter = false;
private System.Windows.Point m_StartPoint;
private System.Windows.Point m_EndPoint;
private System.Windows.Point m_CurrentPoint;
private float LineThickness = 3.0f;
#region Property
public PointCollection PlotDataPoints
{
get { return (PointCollection)GetValue(PlotDataProperty); }
set { SetValue(PlotDataProperty, value); GraphicDraw(); }
}
///
/// Identifies the DrawGraphicsControl.PlotDataPoints attached property.
///
public static readonly DependencyProperty PlotDataProperty =
DependencyProperty.RegisterAttached("PlotDataPoints", typeof(PointCollection), typeof(DrawGraphicsControl));
public PointCollection PlotSDataPoints
{
get { return (PointCollection)GetValue(PlotSDataProperty); }
set { SetValue(PlotSDataProperty, value); GraphicDraw(); }
}
///
/// Identifies the DrawGraphicsControl.PlotSDataPoints attached property.
///
public static readonly DependencyProperty PlotSDataProperty =
DependencyProperty.RegisterAttached("PlotSDataPoints", typeof(PointCollection), typeof(DrawGraphicsControl));
public PointCollection PlotASDataPoints
{
get { return (PointCollection)GetValue(PlotASDataProperty); }
set { SetValue(PlotASDataProperty, value); GraphicDraw(); }
}
///
/// Identifies the DrawGraphicsControl.PlotASDataPoints attached property.
///
public static readonly DependencyProperty PlotASDataProperty =
DependencyProperty.RegisterAttached("PlotASDataPoints", typeof(PointCollection), typeof(DrawGraphicsControl));
public List PointCollections
{
get { return (List)GetValue(PointCollectionsProperty); }
set { SetValue(PointCollectionsProperty, value); GraphicDraw(); }
}
///
/// Identifies the DrawGraphicsControl.PointCollections attached property.
///
public static readonly DependencyProperty PointCollectionsProperty =
DependencyProperty.RegisterAttached("PointCollections", typeof(List), typeof(DrawGraphicsControl));
public PointCollection Points
{
get { return (PointCollection)GetValue(PointsProperty); }
set { SetValue(PointsProperty, value); GraphicDraw(); }
}
///
/// Identifies the DrawGraphicsControl.Points attached property.
///
public static readonly DependencyProperty PointsProperty =
DependencyProperty.RegisterAttached("Points", typeof(PointCollection), typeof(DrawGraphicsControl));
public List YPoints
{
get { return (List)GetValue(YPointsProperty); }
set { SetValue(YPointsProperty, value); }
}
public static readonly DependencyProperty YPointsProperty =
DependencyProperty.RegisterAttached("YPoints", typeof(List), typeof(DrawGraphicsControl),new PropertyMetadata (new List()));
#region 起始坐标轴
public double WavePlotOriginX
{
get { return (double)GetValue(WavePlotOriginXProperty); }
set { SetValue(WavePlotOriginXProperty, value); }
}
public static readonly DependencyProperty WavePlotOriginXProperty =
DependencyProperty.Register("WavePlotOriginX", typeof(double), typeof(DrawGraphicsControl), new PropertyMetadata(0.0));
public double WavePlotOriginY
{
get { return (double)GetValue(WavePlotOriginYProperty); }
set { SetValue(WavePlotOriginYProperty, value); }
}
public static readonly DependencyProperty WavePlotOriginYProperty =
DependencyProperty.Register("WavePlotOriginY", typeof(double), typeof(DrawGraphicsControl), new PropertyMetadata(0.0));
public double WavePlotOriginWidth
{
get { return (double)GetValue(WavePlotOriginWidthProperty); }
set { SetValue(WavePlotOriginWidthProperty, value); }
}
public static readonly DependencyProperty WavePlotOriginWidthProperty =
DependencyProperty.Register("WavePlotOriginWidth", typeof(double), typeof(DrawGraphicsControl), new PropertyMetadata(1000.0));
public double WavePlotOriginHeight
{
get { return (double)GetValue(WavePlotOriginHeightProperty); }
set { SetValue(WavePlotOriginHeightProperty, value); }
}
public static readonly DependencyProperty WavePlotOriginHeightProperty =
DependencyProperty.Register("WavePlotOriginHeight", typeof(double), typeof(DrawGraphicsControl), new PropertyMetadata(1000.0));
#endregion
public bool IsHorizontalNavigationEnabled
{
get { return (bool)GetValue(IsHorizontalNavigationEnabledProperty); }
set { SetValue(IsHorizontalNavigationEnabledProperty, value); }
}
/// Identifies property
public static readonly DependencyProperty IsHorizontalNavigationEnabledProperty =
DependencyProperty.Register("IsHorizontalNavigationEnabled", typeof(bool), typeof(DrawGraphicsControl), new PropertyMetadata(true));
public bool IsVerticalNavigationEnabled
{
get { return (bool)GetValue(IsVerticalNavigationEnabledProperty); }
set { SetValue(IsVerticalNavigationEnabledProperty, value); }
}
/// Identifies property
public static readonly DependencyProperty IsVerticalNavigationEnabledProperty =
DependencyProperty.Register("IsVerticalNavigationEnabled", typeof(bool), typeof(DrawGraphicsControl), new PropertyMetadata(true));
public bool IsHorizontalDateTimeAxis
{
get { return (bool)GetValue(IsHorizontalDateTimeAxisProperty); }
set { SetValue(IsHorizontalDateTimeAxisProperty, value); }
}
/// Identifies property
public static readonly DependencyProperty IsHorizontalDateTimeAxisProperty =
DependencyProperty.Register("IsHorizontalDateTimeAxis", typeof(bool), typeof(DrawGraphicsControl), new PropertyMetadata(false));
#endregion Property
public DrawGraphicsControl()
{
InitializeComponent();
m_PenLine = new System.Drawing.Pen(System.Drawing.Brushes.Black, 1);
m_PenLightGray = new System.Drawing.Pen(System.Drawing.Brushes.DarkGray, 1);
m_PenBlue = new System.Drawing.Pen(System.Drawing.Brushes.DarkBlue, 1);
m_PenData = new System.Drawing.Pen(System.Drawing.Brushes.Green, 1);
m_PenSData = new System.Drawing.Pen(System.Drawing.Brushes.Blue, 1);
m_PenASData = new System.Drawing.Pen(System.Drawing.Brushes.Red, 1);
m_PenCollencteions = new System.Drawing.Pen[]
{
new System.Drawing.Pen(System.Drawing.Brushes.Green,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.Red,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.Blue,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.Orange,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.Yellow,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.YellowGreen,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.AliceBlue,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.Chocolate,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.Cyan,LineThickness),
new System.Drawing.Pen(System.Drawing.Brushes.DarkGreen,LineThickness),
//new System.Drawing.Pen(System.Drawing.Brushes.LightBlue,LineThickness),
//new System.Drawing.Pen(System.Drawing.Brushes.DarkBlue,LineThickness),
//new System.Drawing.Pen(System.Drawing.Brushes.Pink,LineThickness),
//new System.Drawing.Pen(System.Drawing.Brushes.DarkViolet,LineThickness),
//new System.Drawing.Pen(System.Drawing.Brushes.Cyan,LineThickness),
//new System.Drawing.Pen(System.Drawing.Brushes.HotPink,LineThickness),
};
IsHorizontalNavigationEnabled = false;
IsVerticalNavigationEnabled = false;
}
#region Public
public void ResetCoordinate()
{
m_WavePlotX = WavePlotOriginX;
m_WavePlotY = WavePlotOriginY;
m_WavePlotWidth = WavePlotOriginWidth;
m_WavePlotHeight = WavePlotOriginHeight;
GraphicDraw();
}
public void ResetControl()
{
GraphicDraw();
}
public void FitControl()
{
if (!double.IsNaN(m_WavePlotMinX) && !double.IsNaN(m_WavePlotMaxX) && !double.IsNaN(m_WavePlotMinY) && !double.IsNaN(m_WavePlotMaxY)
&& m_WavePlotMinX != double.MaxValue && m_WavePlotMaxX != double.MinValue && m_WavePlotMinY != double.MaxValue && m_WavePlotMaxY != double.MinValue)
{
m_WavePlotX = m_WavePlotMinX;
m_WavePlotWidth = m_WavePlotMaxX - m_WavePlotMinX;
m_WavePlotY = m_WavePlotMinY-1;
m_WavePlotHeight = m_WavePlotMaxY - m_WavePlotMinY+2;
GraphicDraw();
}
}
public void FitControlWithoutDrawing()
{
m_WavePlotX = m_WavePlotMinX;
m_WavePlotWidth = m_WavePlotMaxX - m_WavePlotMinX;
m_WavePlotY = m_WavePlotMinY - 1;
m_WavePlotHeight = m_WavePlotMaxY - m_WavePlotMinY + 2;
}
public void ClearPlot()
{
Points = new PointCollection();
}
public void ClearPlotPoints()
{
PointCollections = new List();
}
public void Plot(IEnumerable x, IEnumerable y, int count = 0)
{
if (x == null || y == null) return;
if (Points == null || count == 0) Points = new PointCollection();
var enx = x.GetEnumerator();
var eny = y.GetEnumerator();
while (true)
{
var nx = enx.MoveNext();
var ny = eny.MoveNext();
if (nx && ny)
Points.Add(new System.Windows.Point(Convert.ToSingle(enx.Current, CultureInfo.InvariantCulture),
Convert.ToSingle(eny.Current, CultureInfo.InvariantCulture)));
else if (!nx && !ny)
break;
else
throw new ArgumentException("x and y have different lengthes");
if (count > 0 && Points.Count > count) Points.RemoveAt(0);
}
}
public void PlotY(IEnumerable y, int count = 0)
{
if (y == null) return;
if (Points == null || count == 0) Points = new PointCollection();
int x = 0;
var en = y.GetEnumerator();
while (en.MoveNext())
{
Points.Add(new System.Windows.Point(x++, Convert.ToSingle(en.Current, CultureInfo.InvariantCulture)));
if (count > 0 && Points.Count > count) Points.RemoveAt(0);
}
}
public void PlotPoints(IEnumerable x, IEnumerable y, int count = 0)
{
if (x == null || y == null)
{
PointCollections = new List();
return;
}
if (PointCollections == null || count == 0) PointCollections = new List();
var points = new PointCollection();
var enx = x.GetEnumerator();
var eny = y.GetEnumerator();
while (true)
{
var nx = enx.MoveNext();
var ny = eny.MoveNext();
if (nx && ny)
points.Add(new System.Windows.Point(Convert.ToSingle(enx.Current, CultureInfo.InvariantCulture),
Convert.ToSingle(eny.Current, CultureInfo.InvariantCulture)));
else if (!nx && !ny)
break;
else
throw new ArgumentException("x and y have different lengthes");
}
PointCollections.Add(points);
if (count > 0 && PointCollections.Count > count) PointCollections.RemoveAt(0);
PointCollections = PointCollections;
}
public void PlotPointYs(IEnumerable y, int count = 0)
{
if (y == null) return;
if (PointCollections == null || count == 0) PointCollections = new List();
var points = new PointCollection();
int x = 0;
var en = y.GetEnumerator();
while (en.MoveNext())
{
points.Add(new System.Windows.Point(x++, Convert.ToSingle(en.Current, CultureInfo.InvariantCulture)));
}
PointCollections.Add(points);
if (count > 0 && PointCollections.Count > count) PointCollections.RemoveAt(0);
}
public void PlotData(IEnumerable x, IEnumerable y)
{
if (x == null || y == null)
{
PlotDataPoints = new PointCollection();
return;
}
var points = new PointCollection();
var enx = x.GetEnumerator();
var eny = y.GetEnumerator();
while (true)
{
var nx = enx.MoveNext();
var ny = eny.MoveNext();
if (nx && ny)
points.Add(new System.Windows.Point(Convert.ToDouble(enx.Current, CultureInfo.InvariantCulture),
Convert.ToDouble(eny.Current, CultureInfo.InvariantCulture)));
else if (!nx && !ny)
break;
else
throw new ArgumentException("x and y have different lengthes");
}
PlotDataPoints = points;
}
public void PlotSData(IEnumerable x, IEnumerable y)
{
if (x == null || y == null)
{
PlotSDataPoints = new PointCollection();
return;
}
var points = new PointCollection();
var enx = x.GetEnumerator();
var eny = y.GetEnumerator();
while (true)
{
var nx = enx.MoveNext();
var ny = eny.MoveNext();
if (nx && ny)
points.Add(new System.Windows.Point(Convert.ToDouble(enx.Current, CultureInfo.InvariantCulture),
Convert.ToDouble(eny.Current, CultureInfo.InvariantCulture)));
else if (!nx && !ny)
break;
else
throw new ArgumentException("x and y have different lengthes");
}
PlotSDataPoints = points;
}
public void PlotASData(IEnumerable x, IEnumerable y)
{
if (x == null || y == null)
{
PlotASDataPoints = new PointCollection();
return;
}
var points = new PointCollection();
var enx = x.GetEnumerator();
var eny = y.GetEnumerator();
while (true)
{
var nx = enx.MoveNext();
var ny = eny.MoveNext();
if (nx && ny)
points.Add(new System.Windows.Point(Convert.ToDouble(enx.Current, CultureInfo.InvariantCulture),
Convert.ToDouble(eny.Current, CultureInfo.InvariantCulture)));
else if (!nx && !ny)
break;
else
throw new ArgumentException("x and y have different lengthes");
}
PlotASDataPoints = points;
}
///
/// 获取小数位数
///
/// 小数
///
public int GetNumberOfDecimalPlaces(double decimalV)
{
string[] temp = decimalV.ToString().Split('.');
if (temp.Length == 2 && temp[1].Length > 0)
{
int index = temp[1].Length - 1;
while (temp[1][index] == '0' && index-- > 0) ;
return index + 1;
}
return 0;
}
#endregion Public
#region Private Draw
//public void GraphicDrawplotsally()
//{
// if (Canvas_Main.ActualWidth <= 0 || Canvas_Main.ActualHeight <= 0) return;
// m_WavePlotMinX = double.MaxValue;
// m_WavePlotMaxX = double.MinValue;
// m_WavePlotMinY = double.MaxValue;
// m_WavePlotMaxY = double.MinValue;
// using (Bitmap bitmap = new Bitmap((int)Canvas_Main.ActualWidth, (int)Canvas_Main.ActualHeight))
// {
// Graphics graphics = Graphics.FromImage(bitmap);
// if (m_WavePlotHeight < Math.Pow(10, -4))
// {
// double Min = m_WavePlotY;
// double Max = m_WavePlotY + m_WavePlotHeight;
// double delta = (Max - Min) / 2;
// double center = (Max + Min) / 2;
// Min = center - delta * 1.2;
// Max = center + delta * 1.2;
// m_WavePlotY = Min;
// m_WavePlotHeight = Max - Min;
// }
// }
//}
private void GraphicDraw()
{
if (Canvas_Main.ActualWidth <= 0 || Canvas_Main.ActualHeight <= 0) return;
m_WavePlotMinX = double.MaxValue;
m_WavePlotMaxX = double.MinValue;
m_WavePlotMinY = double.MaxValue;
m_WavePlotMaxY = double.MinValue;
using (Bitmap bitmap = new Bitmap((int)Canvas_Main.ActualWidth, (int)Canvas_Main.ActualHeight))
{
Graphics graphics = Graphics.FromImage(bitmap);
//纵坐标
if (m_WavePlotHeight < Math.Pow(10, -4))
{
double Min = m_WavePlotY;
double Max = m_WavePlotY + m_WavePlotHeight;
double delta = (Max - Min) / 2;
double center = (Max + Min) / 2;
Min = center - delta * 1.2;
Max = center + delta * 1.2;
m_WavePlotY = Min;
m_WavePlotHeight = Max - Min;
}
if (m_WavePlotHeight > Math.Pow(10, -4))
{
int IntervalTextY; int ExpCountY;
GetIntervalValue(m_WavePlotY, m_WavePlotY + m_WavePlotHeight, out IntervalTextY, out ExpCountY);
int StartIndexY = (int)(m_WavePlotY / (IntervalTextY * Math.Pow(10, ExpCountY)));
int EndIndexY = (int)((m_WavePlotY + m_WavePlotHeight) / (IntervalTextY * Math.Pow(10, ExpCountY)));
int DrawStringLength = 0;
//寻找显示最长字符串
for (int i = StartIndexY; i <= EndIndexY; i++)
{
if (DrawStringLength < ChangeDataToD((i * IntervalTextY * Math.Pow(10, ExpCountY)).ToString()).ToString().Length) DrawStringLength = ChangeDataToD((i * IntervalTextY * Math.Pow(10, ExpCountY)).ToString()).ToString().Length;
}
m_StartDrawLineX = (DrawStringLength + 5) * 5;
for (int i = StartIndexY; i <= EndIndexY; i++)
{
if (i == StartIndexY && (i * IntervalTextY * Math.Pow(10, ExpCountY)) < m_WavePlotY) continue;
if (i == EndIndexY && (i * IntervalTextY * Math.Pow(10, ExpCountY)) > m_WavePlotY + m_WavePlotHeight) continue;
double Y = Canvas_Main.ActualHeight - 50 - ((Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight) * (i * IntervalTextY * Math.Pow(10, ExpCountY) - m_WavePlotY);
if (Y < 0) Y = 0;
if (Y > Canvas_Main.ActualHeight - 50) Y = Canvas_Main.ActualHeight - 50;
graphics.DrawLine(m_PenLightGray, new PointF((float)m_StartDrawLineX, (float)Y), new PointF((float)(Canvas_Main.ActualWidth), (float)Y));
graphics.DrawLine(m_PenLine, new PointF((float)m_StartDrawLineX, (float)Y), new PointF((float)m_StartDrawLineX - 10, (float)Y));
graphics.DrawString(ChangeDataToD((i * IntervalTextY * Math.Pow(10, ExpCountY)).ToString()).ToString(), System.Drawing.SystemFonts.DefaultFont, m_BrushText, new PointF(0, (float)(Y - 5)));
}
}
//横坐标
if (m_WavePlotWidth < Math.Pow(10, -4))
{
double Min = m_WavePlotX;
double Max = m_WavePlotX + m_WavePlotWidth;
double delta = (Max - Min) / 2;
double center = (Max + Min) / 2;
Min = center - delta * 1.2;
Max = center + delta * 1.2;
m_WavePlotX = Min;
m_WavePlotWidth = Max - Min;
}
if (m_WavePlotWidth > Math.Pow(10, -4))
{
int IntervalTextX; int ExpCountX;
GetIntervalValue(m_WavePlotX, m_WavePlotX + m_WavePlotWidth, out IntervalTextX, out ExpCountX);
int StartIndexX = (int)(m_WavePlotX / (IntervalTextX * Math.Pow(10, ExpCountX)));
int EndIndexX = (int)((m_WavePlotX + m_WavePlotWidth) / (IntervalTextX * Math.Pow(10, ExpCountX)));
for (int i = StartIndexX; i <= EndIndexX; i++)
{
if (i == StartIndexX && (i * IntervalTextX * Math.Pow(10, ExpCountX)) < m_WavePlotX) continue;
if (i == EndIndexX && (i * IntervalTextX * Math.Pow(10, ExpCountX)) > m_WavePlotX + m_WavePlotWidth) continue;
double X = m_StartDrawLineX + ((Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth) * (i * IntervalTextX * Math.Pow(10, ExpCountX) - m_WavePlotX);
if (X < m_StartDrawLineX) X = m_StartDrawLineX;
if (X > Canvas_Main.ActualWidth) X = Canvas_Main.ActualWidth;
graphics.DrawLine(m_PenLightGray, new PointF((float)X, 0), new PointF((float)X, (float)Canvas_Main.ActualHeight - 50));
graphics.DrawLine(m_PenLine, new PointF((float)X, (float)Canvas_Main.ActualHeight - 30), new PointF((float)X, (float)Canvas_Main.ActualHeight - 50));
if (IsHorizontalDateTimeAxis)
{
graphics.DrawString(DateTime.FromOADate((double)ChangeDataToD((i * IntervalTextX * Math.Pow(10, ExpCountX)).ToString())).ToString("yyyy-MM-dd HH:mm:ss"), System.Drawing.SystemFonts.DefaultFont, m_BrushText, new PointF((float)X - 10, (float)Canvas_Main.ActualHeight - 30));
}
else
{
graphics.DrawString(ChangeDataToD((i * IntervalTextX * Math.Pow(10, ExpCountX)).ToString()).ToString(), System.Drawing.SystemFonts.DefaultFont, m_BrushText, new PointF((float)X - 10, (float)Canvas_Main.ActualHeight - 30));
}
}
}
//画边框
graphics.DrawLine(m_PenLine, new PointF((float)m_StartDrawLineX, 0), new PointF((float)m_StartDrawLineX, (float)Canvas_Main.ActualHeight - 50));
graphics.DrawLine(m_PenLine, new PointF((float)m_StartDrawLineX, 0), new PointF((float)(Canvas_Main.ActualWidth), 0));
graphics.DrawLine(m_PenLine, new PointF((float)m_StartDrawLineX, (float)(Canvas_Main.ActualHeight - 50)), new PointF((float)Canvas_Main.ActualWidth, (float)(Canvas_Main.ActualHeight - 50)));
graphics.DrawLine(m_PenLine, new PointF((float)Canvas_Main.ActualWidth - 1, 0), new PointF((float)Canvas_Main.ActualWidth - 1, (float)(Canvas_Main.ActualHeight - 50)));
if (this.PlotDataPoints != null && this.PlotDataPoints.Count > 0)
{
List points = new List();
for (int i = 0; i < PlotDataPoints.Count; i++)
{
if (PlotDataPoints[i].X >= m_WavePlotX && PlotDataPoints[i].X <= m_WavePlotX + m_WavePlotWidth)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (PlotDataPoints[i].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || PlotDataPoints[i].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || PlotDataPoints[i].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (PlotDataPoints[i].Y - m_WavePlotY);
if (StartY < 0 || PlotDataPoints[i].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || PlotDataPoints[i].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
points.Add(new PointF((float)StartX, (float)StartY));
}
if (m_WavePlotMinX == double.MaxValue || m_WavePlotMinX > PlotDataPoints[i].X) m_WavePlotMinX = PlotDataPoints[i].X;
if (m_WavePlotMaxX == double.MinValue || m_WavePlotMaxX < PlotDataPoints[i].X) m_WavePlotMaxX = PlotDataPoints[i].X;
if (m_WavePlotMinY == double.MaxValue || m_WavePlotMinY > PlotDataPoints[i].Y) m_WavePlotMinY = PlotDataPoints[i].Y;
if (m_WavePlotMaxY == double.MinValue || m_WavePlotMaxY < PlotDataPoints[i].Y) m_WavePlotMaxY = PlotDataPoints[i].Y;
}
if (points.Count > 1 && points.Where(_ => float.IsNaN(_.X) || float.IsNaN(_.Y)).ToList().Count == 0) graphics.DrawLines(m_PenData, points.ToArray());
}
if (this.PlotSDataPoints != null && this.PlotSDataPoints.Count > 0)
{
List points = new List();
for (int i = 0; i < PlotSDataPoints.Count; i++)
{
if (PlotSDataPoints[i].X >= m_WavePlotX && PlotSDataPoints[i].X <= m_WavePlotX + m_WavePlotWidth)
{
double StartX = 50 + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (PlotSDataPoints[i].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || PlotSDataPoints[i].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || PlotSDataPoints[i].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (PlotSDataPoints[i].Y - m_WavePlotY);
if (StartY < 0 || PlotSDataPoints[i].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || PlotSDataPoints[i].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
points.Add(new PointF((float)StartX, (float)StartY));
}
if (double.IsNaN(m_WavePlotMinX) || m_WavePlotMinX > PlotSDataPoints[i].X) m_WavePlotMinX = PlotSDataPoints[i].X;
if (double.IsNaN(m_WavePlotMaxX) || m_WavePlotMaxX < PlotSDataPoints[i].X) m_WavePlotMaxX = PlotSDataPoints[i].X;
if (double.IsNaN(m_WavePlotMinY) || m_WavePlotMinY > PlotSDataPoints[i].Y) m_WavePlotMinY = PlotSDataPoints[i].Y;
if (double.IsNaN(m_WavePlotMaxY) || m_WavePlotMaxY < PlotSDataPoints[i].Y) m_WavePlotMaxY = PlotSDataPoints[i].Y;
}
if (points.Count > 1 && points.Where(_ => float.IsNaN(_.X) || float.IsNaN(_.Y)).ToList().Count == 0) graphics.DrawLines(m_PenSData, points.ToArray());
}
if (this.PlotASDataPoints != null && this.PlotASDataPoints.Count > 0)
{
List points = new List();
for (int i = 0; i < PlotASDataPoints.Count; i++)
{
if (PlotASDataPoints[i].X >= m_WavePlotX && PlotASDataPoints[i].X <= m_WavePlotX + m_WavePlotWidth)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (PlotASDataPoints[i].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || PlotASDataPoints[i].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || PlotASDataPoints[i].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (PlotASDataPoints[i].Y - m_WavePlotY);
if (StartY < 0 || PlotASDataPoints[i].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || PlotASDataPoints[i].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
points.Add(new PointF((float)StartX, (float)StartY));
}
if (m_WavePlotMinX == double.MaxValue || m_WavePlotMinX > PlotASDataPoints[i].X) m_WavePlotMinX = PlotASDataPoints[i].X;
if (m_WavePlotMaxX == double.MinValue || m_WavePlotMaxX < PlotASDataPoints[i].X) m_WavePlotMaxX = PlotASDataPoints[i].X;
if (m_WavePlotMinY == double.MaxValue || m_WavePlotMinY > PlotASDataPoints[i].Y) m_WavePlotMinY = PlotASDataPoints[i].Y;
if (m_WavePlotMaxY == double.MinValue || m_WavePlotMaxY < PlotASDataPoints[i].Y) m_WavePlotMaxY = PlotASDataPoints[i].Y;
}
if (points.Count > 1 && points.Where(_ => float.IsNaN(_.X) || float.IsNaN(_.Y)).ToList().Count == 0) graphics.DrawLines(m_PenASData, points.ToArray());
}
if (this.Points != null && this.Points.Count > 0)
{
List points = new List();
for (int i = 0; i < Points.Count; i++)
{
if (Points[i].X >= m_WavePlotX && Points[i].X <= m_WavePlotX + m_WavePlotWidth)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (Points[i].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || Points[i].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || Points[i].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (Points[i].Y - m_WavePlotY);
if (StartY < 0 || Points[i].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || Points[i].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
points.Add(new PointF((float)StartX, (float)StartY));
}
if (m_WavePlotMinX == double.MaxValue || m_WavePlotMinX > Points[i].X) m_WavePlotMinX = Points[i].X;
if (m_WavePlotMaxX == double.MinValue || m_WavePlotMaxX < Points[i].X) m_WavePlotMaxX = Points[i].X;
if (m_WavePlotMinY == double.MaxValue || m_WavePlotMinY > Points[i].Y) m_WavePlotMinY = Points[i].Y;
if (m_WavePlotMaxY == double.MinValue || m_WavePlotMaxY < Points[i].Y) m_WavePlotMaxY = Points[i].Y;
}
if (points.Count > 1 && points.Where(_ => float.IsNaN(_.X) || float.IsNaN(_.Y)).ToList().Count == 0) graphics.DrawLines(m_PenData, points.ToArray());
}
if (this.PointCollections != null && this.PointCollections.Count > 0)
{
for (int i = 0; i < this.PointCollections.Count; i++)
{
List points = new List();
for (int j = 0; j < this.PointCollections[i].Count; j++)
{
if (this.PointCollections[i][j].X >= m_WavePlotX && this.PointCollections[i][j].X <= m_WavePlotX + m_WavePlotWidth)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (this.PointCollections[i][j].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || this.PointCollections[i][j].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || this.PointCollections[i][j].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (this.PointCollections[i][j].Y - m_WavePlotY);
if (StartY < 0 || this.PointCollections[i][j].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || this.PointCollections[i][j].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
points.Add(new PointF((float)StartX, (float)StartY));
}
if (m_WavePlotMinX == double.MaxValue || m_WavePlotMinX > this.PointCollections[i][j].X) m_WavePlotMinX = this.PointCollections[i][j].X;
if (m_WavePlotMaxX == double.MinValue || m_WavePlotMaxX < this.PointCollections[i][j].X) m_WavePlotMaxX = this.PointCollections[i][j].X;
if (m_WavePlotMinY == double.MaxValue || m_WavePlotMinY > this.PointCollections[i][j].Y) m_WavePlotMinY = this.PointCollections[i][j].Y;
if (m_WavePlotMaxY == double.MinValue || m_WavePlotMaxY < this.PointCollections[i][j].Y) m_WavePlotMaxY = this.PointCollections[i][j].Y;
}
if (points.Count > 1 && points.Where(_ => float.IsNaN(_.X) || float.IsNaN(_.Y)).ToList().Count == 0)
{
graphics.DrawLines(m_PenCollencteions[i % 10], points.ToArray());
}
}
}
if (YPoints.Count > 0)
{
YPoints.ForEach(p =>
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (p.StartValue - m_WavePlotX);
if (StartX < m_StartDrawLineX || p.StartValue < m_WavePlotX)
{
StartX = m_StartDrawLineX;
}
if (StartX > Canvas_Main.ActualWidth || p.StartValue > m_WavePlotX + m_WavePlotWidth)
{
StartX = Canvas_Main.ActualWidth;
}
graphics.DrawLine(Pens.Red, (float)StartX, (float)Canvas_Main.ActualHeight-50, (float)StartX,0);
graphics.DrawString(p.Information, System.Drawing.SystemFonts.DefaultFont, System.Drawing.Brushes.Red, (float)StartX, (float)Canvas_Main.ActualHeight/6);
});
}
//框选
if (m_StartMouseMove && m_MouseMove)
{
if (m_StartPoint != null && m_EndPoint != null)
{
int x = m_StartPoint.X > m_EndPoint.X ? (int)m_EndPoint.X : (int)m_StartPoint.X;
int y = m_StartPoint.Y > m_EndPoint.Y ? (int)m_EndPoint.Y : (int)m_StartPoint.Y;
int width = (int)Math.Abs(m_EndPoint.X - m_StartPoint.X);
int height = (int)Math.Abs(m_EndPoint.Y - m_StartPoint.Y);
System.Drawing.Rectangle rectangle = new System.Drawing.Rectangle(x, y, width, height);
SolidBrush shadowBrush = new SolidBrush(System.Drawing.Color.FromArgb(100,100,100,100));
graphics.FillRectangle(shadowBrush, rectangle);
graphics.DrawRectangle(new System.Drawing.Pen (System.Drawing.Color.Transparent), rectangle);
}
}
else
{
//拾取坐标
if (m_MouseEnter && m_CurrentPoint != null)
{
double X = m_WavePlotX + (m_CurrentPoint.X - m_StartDrawLineX) / ((this.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth);
double Y = m_WavePlotY + (this.ActualHeight - 50 - m_CurrentPoint.Y) / ((this.ActualHeight - 50) / m_WavePlotHeight);
if (this.PointCollections == null || this.PointCollections.Count <= 10)
{
graphics.DrawLine(m_PenBlue, new System.Drawing.PointF((float)m_StartDrawLineX, (float)m_CurrentPoint.Y), new PointF((float)Canvas_Main.ActualWidth, (float)m_CurrentPoint.Y));
graphics.DrawLine(m_PenBlue, new System.Drawing.PointF((float)m_CurrentPoint.X, 0), new PointF((float)m_CurrentPoint.X, (float)Canvas_Main.ActualHeight - 50));
//if (IsHorizontalDateTimeAxis)
//{
// graphics.DrawString(string.Format("X={0};Y={1}", DateTime.FromOADate(X), Y.ToString("0.00")), System.Drawing.SystemFonts.DefaultFont, m_BrushXYText, new PointF((float)m_CurrentPoint.X + 10, (float)m_CurrentPoint.Y + 10));
//}
//else
//{
// graphics.DrawString(string.Format("X={0};Y={1}", X.ToString("0.00"), Y.ToString("0.00")), System.Drawing.SystemFonts.DefaultFont, m_BrushXYText, new PointF((float)m_CurrentPoint.X + 10, (float)m_CurrentPoint.Y + 10));
//}
}
//
if (this.PlotDataPoints != null && this.PlotDataPoints.Count > 0)
{
if (X >= this.PlotDataPoints[0].X && X <= this.PlotDataPoints[this.PlotDataPoints.Count - 1].X)
{
//int index = this.PlotDataX.IndexOf((int)Math.Round(X, 0));
var minDistance = this.PlotDataPoints.Min(x => Math.Abs(x.X - X));
var closest = this.PlotDataPoints.First(x => Math.Abs(Math.Abs(x.X - X) - minDistance) < 0.0001f);
int index = this.PlotDataPoints.IndexOf(closest);
if (index >= 0)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (PlotDataPoints[index].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || PlotDataPoints[index].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || PlotDataPoints[index].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (PlotDataPoints[index].Y - m_WavePlotY);
if (StartY < 0 || PlotDataPoints[index].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || PlotDataPoints[index].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
if (!double.IsNaN(StartX) && !double.IsNaN(StartY))
{
System.Drawing.Rectangle rectangle = new System.Drawing.Rectangle((int)StartX, (int)StartY, 5, 5);
graphics.FillRectangle(System.Drawing.Brushes.Blue, rectangle);
graphics.DrawEllipse(m_PenBlue, rectangle);
if (IsHorizontalDateTimeAxis)
{
graphics.DrawString(string.Format("X={0};Y={1}", DateTime.FromOADate(PlotDataPoints[index].X), PlotDataPoints[index].Y.ToString("0.00")), System.Drawing.SystemFonts.DefaultFont, m_BrushXYText, new PointF((float)StartX + 10, (float)StartY + 10));
}
else
{
graphics.DrawString(string.Format("X={0};Y={1}", PlotDataPoints[index].X.ToString("0.00"), PlotDataPoints[index].Y.ToString("0.00")), System.Drawing.SystemFonts.DefaultFont, m_BrushXYText, new PointF((float)StartX + 10, (float)StartY + 10));
}
}
}
}
}
//
if (this.PlotSDataPoints != null && this.PlotSDataPoints.Count > 0)
{
if (X >= this.PlotSDataPoints[0].X && X <= this.PlotSDataPoints[this.PlotSDataPoints.Count - 1].X)
{
//int index = this.PlotSDataX.IndexOf((int)Math.Round(X, 0));
var minDistance = this.PlotSDataPoints.Min(x => Math.Abs(x.X - X));
var closest = this.PlotSDataPoints.First(x => Math.Abs(Math.Abs(x.X - X) - minDistance) < 0.0001f);
int index = this.PlotSDataPoints.IndexOf(closest);
if (index >= 0)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (PlotSDataPoints[index].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || PlotSDataPoints[index].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || PlotSDataPoints[index].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (PlotSDataPoints[index].Y - m_WavePlotY);
if (StartY < 0 || PlotSDataPoints[index].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || PlotSDataPoints[index].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
if (!double.IsNaN(StartX) && !double.IsNaN(StartY))
{
System.Drawing.Rectangle rectangle = new System.Drawing.Rectangle((int)StartX, (int)StartY, 5, 5);
graphics.FillRectangle(System.Drawing.Brushes.Blue, rectangle);
graphics.DrawEllipse(m_PenBlue, rectangle);
graphics.DrawString(string.Format("X={0};Y={1}", PlotSDataPoints[index].X.ToString("0.00"), PlotSDataPoints[index].Y.ToString("0.00")), System.Drawing.SystemFonts.DefaultFont, m_BrushXYText, new PointF((float)StartX + 10, (float)StartY + 10));
}
}
}
}
//
if (this.PlotASDataPoints != null && this.PlotASDataPoints.Count > 0)
{
if (X >= this.PlotASDataPoints[0].X && X <= this.PlotASDataPoints[this.PlotASDataPoints.Count - 1].X)
{
//int index = this.PlotASDataX.IndexOf((int)Math.Round(X, 0));
var minDistance = this.PlotASDataPoints.Min(x => Math.Abs(x.X - X));
var closest = this.PlotASDataPoints.First(x => Math.Abs(x.X - X) == minDistance);
int index = this.PlotASDataPoints.IndexOf(closest);
if (index >= 0)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (PlotASDataPoints[index].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || PlotASDataPoints[index].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || PlotASDataPoints[index].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (PlotASDataPoints[index].Y - m_WavePlotY);
if (StartY < 0 || PlotASDataPoints[index].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || PlotASDataPoints[index].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
if (!double.IsNaN(StartX) && !double.IsNaN(StartY))
{
System.Drawing.Rectangle rectangle = new System.Drawing.Rectangle((int)StartX, (int)StartY, 5, 5);
graphics.FillRectangle(System.Drawing.Brushes.Blue, rectangle);
graphics.DrawEllipse(m_PenBlue, rectangle);
graphics.DrawString(string.Format("X={0};Y={1}", PlotASDataPoints[index].X.ToString("0.00"), PlotASDataPoints[index].Y.ToString("0.00")), System.Drawing.SystemFonts.DefaultFont, m_BrushXYText, new PointF((float)StartX + 10, (float)StartY + 10));
}
}
}
}
//
if (this.PointCollections != null && this.PointCollections.Count <= 10)
{
foreach (PointCollection point in this.PointCollections)
{
//if (X >= point[0].X && X <= point[point.Count - 1].X)
{
//int index = this.PlotASDataX.IndexOf((int)Math.Round(X, 0));
var minDistance = point.Min(x => Math.Abs(x.X - X));
var closest = point.First(x => Math.Abs(x.X - X) == minDistance);
int index = point.IndexOf(closest);
if (index >= 0)
{
double StartX = m_StartDrawLineX + (Canvas_Main.ActualWidth - m_StartDrawLineX) / m_WavePlotWidth * (point[index].X - m_WavePlotX);
if (StartX < m_StartDrawLineX || point[index].X < m_WavePlotX) StartX = m_StartDrawLineX;
if (StartX > Canvas_Main.ActualWidth || point[index].X > m_WavePlotX + m_WavePlotWidth) StartX = Canvas_Main.ActualWidth;
double StartY = Canvas_Main.ActualHeight - 50 - (Canvas_Main.ActualHeight - 50.0) / m_WavePlotHeight * (point[index].Y - m_WavePlotY);
if (StartY < 0 || point[index].Y > m_WavePlotY + m_WavePlotHeight) StartY = 0;
if (StartY > Canvas_Main.ActualHeight - 50 || point[index].Y < m_WavePlotY) StartY = Canvas_Main.ActualHeight - 50;
if (!double.IsNaN(StartX) && !double.IsNaN(StartY))
{
System.Drawing.Rectangle rectangle = new System.Drawing.Rectangle((int)StartX, (int)StartY, 5, 5);
graphics.FillRectangle(System.Drawing.Brushes.Blue, rectangle);
graphics.DrawEllipse(m_PenBlue, rectangle);
if (IsHorizontalDateTimeAxis)
{
graphics.DrawString(string.Format("X={0};Y={1}", DateTime.FromOADate(point[index].X), point[index].Y.ToString("0.00")), new Font("Times New Roman", 15.0F), m_BrushXYText, new PointF((float)StartX + 10, (float)StartY + 10));
}
else
{
graphics.DrawString(string.Format("X={0};Y={1}", point[index].X.ToString("0.00"), point[index].Y.ToString("0.00")), new Font("Times New Roman", 15.0F), m_BrushXYText, new PointF((float)StartX + 10, (float)StartY + 10));
}
}
}
}
}
}
}
}
ImageBrush_BK.ImageSource = BitmapToBitmapImage(bitmap);
}
this.InvalidateVisual();
}
#endregion Private Draw
#region Private
private void Canvas_Main_SizeChanged(object sender, SizeChangedEventArgs e)
{
GraphicDraw();
}
private void Canvas_Main_MouseWheel(object sender, MouseWheelEventArgs e)
{
double factor = e.Delta < 0 ? 1.2 : 1 / 1.2;
if (IsVerticalNavigationEnabled)
{
double Min = m_WavePlotY;
double Max = m_WavePlotY + m_WavePlotHeight;
double delta = (Max - Min) / 2;
double center = (Max + Min) / 2;
Min = center - delta * factor;
Max = center + delta * factor;
m_WavePlotY = Min;
m_WavePlotHeight = Max - Min;
}
if (IsHorizontalNavigationEnabled)
{
double Min = m_WavePlotX;
double Max = m_WavePlotX + m_WavePlotWidth;
double delta = (Max - Min) / 2;
double center = (Max + Min) / 2;
Min = center - delta * factor;
Max = center + delta * factor;
m_WavePlotX = Min;
m_WavePlotWidth = Max - Min;
}
GraphicDraw();
}
private void Canvas_Main_MouseLeftButtonDown(object sender, MouseButtonEventArgs e)
{
this.Cursor = Cursors.Hand;
if (e.ClickCount == 2)
{
FitControl();
}
else
{
m_StartPoint = Mouse.GetPosition(e.Source as FrameworkElement);
if (e.LeftButton == MouseButtonState.Pressed)
{
m_StartMouseMove = true;
}//开始绘制矩形
}
}
private void Canvas_Main_MouseMove(object sender, MouseEventArgs e)
{
m_EndPoint = Mouse.GetPosition(e.Source as FrameworkElement);
m_CurrentPoint = Mouse.GetPosition(e.Source as FrameworkElement);
if ((Keyboard.Modifiers == ModifierKeys.Control || m_MouseMove) && m_StartMouseMove)
{
m_MouseMove = true;
GraphicDraw();
}//移动矩形位置
else if (m_StartMouseMove)
{
m_WavePlotX = m_WavePlotX - (m_EndPoint.X - m_StartPoint.X) / (this.ActualWidth - 50) * m_WavePlotWidth;
m_WavePlotY = m_WavePlotY + (m_EndPoint.Y - m_StartPoint.Y) / (this.ActualHeight - 50) * m_WavePlotHeight;
m_StartPoint = m_EndPoint;
GraphicDraw();
}
else if (this.PointCollections == null || this.PointCollections.Count <= 10)
{
GraphicDraw();
}
}
private void Canvas_Main_MouseLeftButtonUp(object sender, MouseButtonEventArgs e)
{
this.Cursor = Cursors.Arrow;
if (m_StartMouseMove && m_MouseMove && e.LeftButton == MouseButtonState.Released)
{
m_StartMouseMove = false;
m_MouseMove = false;
if (m_StartPoint.X == m_EndPoint.X || m_StartPoint.Y == m_EndPoint.Y) return;
double x = m_StartPoint.X > m_EndPoint.X ? m_EndPoint.X : m_StartPoint.X;
double y = m_StartPoint.Y < m_EndPoint.Y ? m_EndPoint.Y : m_StartPoint.Y;
double width = Math.Abs(m_EndPoint.X - m_StartPoint.X);
double height = Math.Abs(m_EndPoint.Y - m_StartPoint.Y);
//设置坐标轴起始位置
this.m_WavePlotX = this.m_WavePlotX + (x - m_StartDrawLineX) / ((this.ActualWidth - m_StartDrawLineX) / this.m_WavePlotWidth);
this.m_WavePlotY = this.m_WavePlotY + (this.ActualHeight - 50 - y) / ((this.ActualHeight - 50) / this.m_WavePlotHeight);
this.m_WavePlotWidth = this.m_WavePlotWidth * (width / (this.ActualWidth - m_StartDrawLineX));
this.m_WavePlotHeight = this.m_WavePlotHeight * (height / (this.ActualHeight - 50));
GraphicDraw();
}//结束绘制矩形
m_StartMouseMove = false;
m_MouseMove = false;
}
private void Canvas_Main_MouseEnter(object sender, MouseEventArgs e)
{
if (this.PointCollections == null || this.PointCollections.Count <= 10)
{
m_MouseEnter = true;
}
}
private void Canvas_Main_MouseLeave(object sender, MouseEventArgs e)
{
if (this.PointCollections == null || this.PointCollections.Count <= 10) m_MouseEnter = false;
GraphicDraw();
}
private void Canvas_Main_MouseRightButtonUp(object sender, MouseButtonEventArgs e)
{
m_WavePlotX = WavePlotOriginX;
m_WavePlotY = WavePlotOriginY;
m_WavePlotWidth = WavePlotOriginWidth;
m_WavePlotHeight = WavePlotOriginHeight;
ResetControl();
}
///
/// 获取坐标间隔
///
///
private void GetIntervalValue(double min, double max, out int IntervalValue, out int expCount)
{
IntervalValue = 0;
expCount = 0;
double ActualValue = Math.Abs(max - min);
if (ActualValue < 1)
{
while (ActualValue < 1)
{
ActualValue *= 10;
expCount -= 1;
}
}
else
{
while (ActualValue >= 10)
{
ActualValue /= 10;
expCount += 1;
}
}
if (ActualValue <= 1.2)
{
IntervalValue = 1;
expCount -= 1;
}
else if (ActualValue <= 3)
{
IntervalValue = 2;
expCount -= 1;
}
else if (ActualValue <= 5)
{
IntervalValue = 5;
expCount -= 1;
}
else
{
IntervalValue = 1;
}
}
///
/// 字符串值中包含E等科学计数法
///
///
///
private Decimal ChangeDataToD(string strData)
{
Decimal dData = 0.0M;
if (strData.ToString().Contains("E"))
{
dData = Decimal.Parse(strData, System.Globalization.NumberStyles.Float);
}
else
{
dData = Decimal.Parse(strData);
}
return dData;
}
///
/// Bitmap --> BitmapImage
///
///
///
private BitmapImage BitmapToBitmapImage(Bitmap bitmap)
{
using (MemoryStream stream = new MemoryStream())
{
bitmap.Save(stream, ImageFormat.Png); // 坑点:格式选Bmp时,不带透明度
stream.Position = 0;
BitmapImage result = new BitmapImage();
result.BeginInit();
// According to MSDN, "The default OnDemand cache option retains access to the stream until the image is needed."
// Force the bitmap to load right now so we can dispose the stream.
result.CacheOption = BitmapCacheOption.OnLoad;
result.StreamSource = stream;
result.EndInit();
result.Freeze();
return result;
}
}
#endregion Private
}
}