GraphicsPathIterator.CopyData(PointF[], Byte[], Int32, Int32) Méthode

Définition

Espace de noms:

System.Drawing.Drawing2D

Assembly:

System.Drawing.Common.dll

Paquet:

System.Drawing.Common v8.0.0

Source:

GraphicsPathIterator.cs

Copie la propriété PathPoints et les tableaux de propriétés PathTypes du GraphicsPath associé dans les deux tableaux spécifiés.

public:
 int CopyData(cli::array <System::Drawing::PointF> ^ % points, cli::array <System::Byte> ^ % types, int startIndex, int endIndex);

public int CopyData (ref System.Drawing.PointF[] points, ref byte[] types, int startIndex, int endIndex);

member this.CopyData : PointF[] * Byte[] * int * int -> int

Public Function CopyData (ByRef points As PointF(), ByRef types As Byte(), startIndex As Integer, endIndex As Integer) As Integer

Paramètres

points

PointF[]

Au retour, contient un tableau de structures PointF qui représente les points du tracé.

types

Byte[]

Au retour, contient un tableau d'octets qui représente les types de points du tracé.

startIndex

Int32

Spécifie l'index de début des tableaux.

endIndex

Int32

Spécifie l'index de fin des tableaux.

Retours

Int32

Nombre de points copiés.

Exemples

L’exemple suivant est conçu pour être utilisé avec Windows Forms et nécessite PaintEventArgse, un objet d’événementOnPaint. Le code effectue les actions suivantes :

• Crée un chemin d’accès graphique.

• Le remplit avec plusieurs primitives et quelques marqueurs.

• Listes les données de chemin sur le côté gauche de l’écran.

• Crée un GraphicsPathIterator et le rembobine.

• Incrémente l’index des données de chemin d’accès au deuxième marqueur.

• Appelle la CopyData méthode pour copier les données de chemin d’accès contenues entre les index de début et de fin dans les tableaux de points et de types.

• Listes ces données copiées sur le côté droit de l’écran.

public:
   void CopyDataExample( PaintEventArgs^ e )
   {
      // Create a graphics path.
      GraphicsPath^ myPath = gcnew GraphicsPath;

      // Set up a points array.
      array<Point>^ myPoints = {Point(20,20),Point(120,120),Point(20,120),Point(20,20)};

      // Create a rectangle.
      Rectangle myRect = Rectangle(120,120,100,100);

      // Add the points, rectangle, and an ellipse to the path.
      myPath->AddLines( myPoints );
      myPath->SetMarkers();
      myPath->AddRectangle( myRect );
      myPath->SetMarkers();
      myPath->AddEllipse( 220, 220, 100, 100 );

      // Get the total number of points for the path, and arrays of
      // the  points and types.
      int myPathPointCount = myPath->PointCount;
      array<PointF>^myPathPoints = myPath->PathPoints;
      array<Byte>^myPathTypes = myPath->PathTypes;

      // Set up variables for listing the array of points on the left
      // side of the screen.
      int i;
      float j = 20;
      System::Drawing::Font^ myFont = gcnew System::Drawing::Font( "Arial",8 );
      SolidBrush^ myBrush = gcnew SolidBrush( Color::Black );

      // List the set of points and types and types to the left side
      // of the screen.
      for ( i = 0; i < myPathPointCount; i++ )
      {
         e->Graphics->DrawString( myPathPoints[ i ].X + ", " + myPathPoints[ i ].Y + ", " + myPathTypes[ i ], myFont, myBrush, 20, j );
         j += 20;
      }

      // Create a GraphicsPathIterator for myPath and rewind it.
      GraphicsPathIterator^ myPathIterator = gcnew GraphicsPathIterator( myPath );
      myPathIterator->Rewind();

      // Set up the arrays to receive the copied data.
      array<PointF>^points = gcnew array<PointF>(myPathIterator->Count);
      array<Byte>^types = gcnew array<Byte>(myPathIterator->Count);
      int myStartIndex;
      int myEndIndex;
      
      // Increment the starting index to the second marker in the
      // path.
      myPathIterator->NextMarker( myStartIndex, myEndIndex );
      myPathIterator->NextMarker( myStartIndex, myEndIndex );
      
      // Copy all the points and types from the starting index to the
      // ending index to the points array and the types array
      // respectively.
      int numPointsCopied = myPathIterator->CopyData( points, types, myStartIndex, myEndIndex );
      
      // List the copied points to the right side of the screen.
      j = 20;
      int copiedStartIndex = 0;
      for ( i = 0; i < numPointsCopied; i++ )
      {
         copiedStartIndex = myStartIndex + i;
         e->Graphics->DrawString( String::Format( "Point: {0}, Value: {1}, Type: {2}", copiedStartIndex, points[ i ], types[ i ] ), myFont, myBrush, 200, j );
         j += 20;

      }
   }

public void CopyDataExample(PaintEventArgs e)
{
             
    // Create a graphics path.
    GraphicsPath myPath = new GraphicsPath();
             
    // Set up a points array.
    Point[] myPoints =
             {
                 new Point(20, 20),
                 new Point(120, 120),
                 new Point(20, 120),
                 new Point(20, 20)
             };
             
    // Create a rectangle.
    Rectangle myRect = new Rectangle(120, 120, 100, 100);
             
    // Add the points, rectangle, and an ellipse to the path.
    myPath.AddLines(myPoints);
    myPath.SetMarkers();
    myPath.AddRectangle(myRect);
    myPath.SetMarkers();
    myPath.AddEllipse(220, 220, 100, 100);
             
    // Get the total number of points for the path, and arrays of
    // the  points and types.
    int myPathPointCount = myPath.PointCount;
    PointF[] myPathPoints = myPath.PathPoints;
    byte[] myPathTypes = myPath.PathTypes;
             
    // Set up variables for listing the array of points on the left
    // side of the screen.
    int i;
    float j = 20;
    Font myFont = new Font("Arial", 8);
    SolidBrush myBrush = new SolidBrush(Color.Black);
             
    // List the set of points and types and types to the left side
    // of the screen.
    for(i=0; i<myPathPointCount; i++)
    {
        e.Graphics.DrawString(myPathPoints[i].X.ToString()+
            ", " + myPathPoints[i].Y.ToString() + ", " +
            myPathTypes[i].ToString(),
            myFont,
            myBrush,
            20,
            j);
        j+=20;
    }
             
    // Create a GraphicsPathIterator for myPath and rewind it.
    GraphicsPathIterator myPathIterator =
        new GraphicsPathIterator(myPath);
    myPathIterator.Rewind();
             
    // Set up the arrays to receive the copied data.
    PointF[] points = new PointF[myPathIterator.Count];
    byte[] types = new byte[myPathIterator.Count];
    int myStartIndex;
    int myEndIndex;
             
    // Increment the starting index to the second marker in the
    // path.
    myPathIterator.NextMarker(out myStartIndex, out myEndIndex);
    myPathIterator.NextMarker(out myStartIndex, out myEndIndex);
             
    // Copy all the points and types from the starting index to the
    // ending index to the points array and the types array
    // respectively.
    int numPointsCopied = myPathIterator.CopyData(
        ref points,
        ref types,
        myStartIndex,
        myEndIndex);
             
    // List the copied points to the right side of the screen.
    j = 20;
    int copiedStartIndex = 0;
    for(i=0; i<numPointsCopied; i++)
    {
        copiedStartIndex = myStartIndex + i;
        e.Graphics.DrawString(
            "Point: " + copiedStartIndex.ToString() +
            ", Value: " + points[i].ToString() +
            ", Type: " + types[i].ToString(),
            myFont,
            myBrush,
            200,
            j);
        j+=20;
    }
}

Public Sub CopyDataExample(ByVal e As PaintEventArgs)

    ' Create a graphics path.
    Dim myPath As New GraphicsPath

    ' Set up a points array.
    Dim myPoints As Point() = {New Point(20, 20), _
    New Point(120, 120), New Point(20, 120), New Point(20, 20)}

    ' Create a rectangle.
    Dim myRect As New Rectangle(120, 120, 100, 100)

    ' Add the points, rectangle, and an ellipse to the path.
    myPath.AddLines(myPoints)
    myPath.SetMarkers()
    myPath.AddRectangle(myRect)
    myPath.SetMarkers()
    myPath.AddEllipse(220, 220, 100, 100)

    ' Get the total number of points for the path, and arrays of the
    ' points and types.
    Dim myPathPointCount As Integer = myPath.PointCount
    Dim myPathPoints As PointF() = myPath.PathPoints
    Dim myPathTypes As Byte() = myPath.PathTypes

    ' Set up variables for listing the array of points on the left side
    ' of the screen.
    Dim i As Integer
    Dim j As Single = 20
    Dim myFont As New Font("Arial", 8)
    Dim myBrush As New SolidBrush(Color.Black)

    ' List the set of points and types and types to the left side of
    ' the screen.
    For i = 0 To myPathPointCount - 1
        e.Graphics.DrawString(myPathPoints(i).X.ToString() + ", " + _
        myPathPoints(i).Y.ToString() + ", " + _
        myPathTypes(i).ToString(), myFont, myBrush, 20, j)
        j += 20
    Next i

    ' Create a GraphicsPathIterator for myPath and rewind it.
    Dim myPathIterator As New GraphicsPathIterator(myPath)
    myPathIterator.Rewind()

    ' Set up the arrays to receive the copied data.
    Dim points(myPathIterator.Count) As PointF
    Dim types(myPathIterator.Count) As Byte
    Dim myStartIndex As Integer
    Dim myEndIndex As Integer

    ' Increment the starting index to the second marker in the path.
    myPathIterator.NextMarker(myStartIndex, myEndIndex)
    myPathIterator.NextMarker(myStartIndex, myEndIndex)

    ' Copy all the points and types from the starting index to the
    ' ending index to the  points array and the types array
    ' respectively.
    Dim numPointsCopied As Integer = myPathIterator.CopyData(points, _
    types, myStartIndex, myEndIndex)

    ' List the copied points to the right side of the screen.
    j = 20
    Dim copiedStartIndex As Integer = 0
    For i = 0 To numPointsCopied - 1
        copiedStartIndex = myStartIndex + i
        e.Graphics.DrawString("Point: " + _
        copiedStartIndex.ToString() + ", Value: " + _
        points(i).ToString() + ", Type: " + types(i).ToString(), _
        myFont, myBrush, 200, j)
        j += 20
    Next i
End Sub

Remarques

Utilisez les startIndex paramètres et endIndex pour copier une plage spécifiée des données de chemin d’accès.