共用方式為


Console.SetWindowPosition(Int32, Int32) 方法

定義

將主控台視窗的位置設定為與螢幕緩衝區相對的位置。

public:
 static void SetWindowPosition(int left, int top);
[System.Runtime.Versioning.SupportedOSPlatform("windows")]
public static void SetWindowPosition (int left, int top);
public static void SetWindowPosition (int left, int top);
[<System.Runtime.Versioning.SupportedOSPlatform("windows")>]
static member SetWindowPosition : int * int -> unit
static member SetWindowPosition : int * int -> unit
Public Shared Sub SetWindowPosition (left As Integer, top As Integer)

參數

left
Int32

主控台視窗左上角的資料行位置。

top
Int32

主控台視窗左上角的列位置。

屬性

例外狀況

lefttop 小於零。

-或-

left + WindowWidth 大於 BufferWidth

-或-

top + WindowHeight 大於 BufferHeight

使用者沒有執行這項動作的權限。

發生 I/O 錯誤。

目前的作業系統不是 Windows。

範例

下列範例示範 WindowLeftWindowTopWindowWidthWindowHeightBufferWidthBufferHeightCursorVisible 屬性,以及 SetWindowPositionSetBufferSizeReadKey 方法。 此範例會根據螢幕緩衝區寬度,在螢幕緩衝區中繪製格線圖樣。 然後,此範例會移動主控台視窗,以回應按下向上鍵、向下鍵、向左鍵或向右鍵。 格線模式可協助您查看相對於螢幕緩衝區的主控台視窗移動。

// This example demonstrates the Console.WindowLeft and
//                               Console.WindowTop properties.
using namespace System;
using namespace System::Text;
using namespace System::IO;

//
int saveBufferWidth;
int saveBufferHeight;
int saveWindowHeight;
int saveWindowWidth;
bool saveCursorVisible;

//
int main()
{
   String^ m1 = "1) Press the cursor keys to move the console window.\n"
   "2) Press any key to begin. When you're finished...\n"
   "3) Press the Escape key to quit.";
   String^ g1 = "+----";
   String^ g2 = "|    ";
   String^ grid1;
   String^ grid2;
   StringBuilder^ sbG1 = gcnew StringBuilder;
   StringBuilder^ sbG2 = gcnew StringBuilder;
   ConsoleKeyInfo cki;
   int y;
   
   //
   try
   {
      saveBufferWidth = Console::BufferWidth;
      saveBufferHeight = Console::BufferHeight;
      saveWindowHeight = Console::WindowHeight;
      saveWindowWidth = Console::WindowWidth;
      saveCursorVisible = Console::CursorVisible;
      
      //
      Console::Clear();
      Console::WriteLine( m1 );
      Console::ReadKey( true );
      
      // Set the smallest possible window size before setting the buffer size.
      Console::SetWindowSize( 1, 1 );
      Console::SetBufferSize( 80, 80 );
      Console::SetWindowSize( 40, 20 );
      
      // Create grid lines to fit the buffer. (The buffer width is 80, but
      // this same technique could be used with an arbitrary buffer width.)
      for ( y = 0; y < Console::BufferWidth / g1->Length; y++ )
      {
         sbG1->Append( g1 );
         sbG2->Append( g2 );

      }
      sbG1->Append( g1, 0, Console::BufferWidth % g1->Length );
      sbG2->Append( g2, 0, Console::BufferWidth % g2->Length );
      grid1 = sbG1->ToString();
      grid2 = sbG2->ToString();
      Console::CursorVisible = false;
      Console::Clear();
      for ( y = 0; y < Console::BufferHeight - 1; y++ )
      {
         if ( y % 3 == 0 )
                  Console::Write( grid1 );
         else
                  Console::Write( grid2 );

      }
      Console::SetWindowPosition( 0, 0 );
      do
      {
         cki = Console::ReadKey( true );
         switch ( cki.Key )
         {
            case ConsoleKey::LeftArrow:
               if ( Console::WindowLeft > 0 )
                              Console::SetWindowPosition( Console::WindowLeft - 1, Console::WindowTop );
               break;

            case ConsoleKey::UpArrow:
               if ( Console::WindowTop > 0 )
                              Console::SetWindowPosition( Console::WindowLeft, Console::WindowTop - 1 );
               break;

            case ConsoleKey::RightArrow:
               if ( Console::WindowLeft < (Console::BufferWidth - Console::WindowWidth) )
                              Console::SetWindowPosition( Console::WindowLeft + 1, Console::WindowTop );
               break;

            case ConsoleKey::DownArrow:
               if ( Console::WindowTop < (Console::BufferHeight - Console::WindowHeight) )
                              Console::SetWindowPosition( Console::WindowLeft, Console::WindowTop + 1 );
               break;
         }
      }
      while ( cki.Key != ConsoleKey::Escape );
   }
   catch ( IOException^ e ) 
   {
      Console::WriteLine( e->Message );
   }
   finally
   {
      Console::Clear();
      Console::SetWindowSize( 1, 1 );
      Console::SetBufferSize( saveBufferWidth, saveBufferHeight );
      Console::SetWindowSize( saveWindowWidth, saveWindowHeight );
      Console::CursorVisible = saveCursorVisible;
   }

} // end Main


/*
This example produces results similar to the following:

1) Press the cursor keys to move the console window.
2) Press any key to begin. When you're finished...
3) Press the Escape key to quit.

...

+----+----+----+-
|    |    |    |
|    |    |    |
+----+----+----+-
|    |    |    |
|    |    |    |
+----+----+----+-

*/
// This example demonstrates the Console.WindowLeft and
//                               Console.WindowTop properties.
using System;
using System.Text;
using System.IO;
//
class Sample
{
    public static int saveBufferWidth;
    public static int saveBufferHeight;
    public static int saveWindowHeight;
    public static int saveWindowWidth;
    public static bool saveCursorVisible;
//
    public static void Main()
    {
    string m1 = "1) Press the cursor keys to move the console window.\n" +
                "2) Press any key to begin. When you're finished...\n" +
                "3) Press the Escape key to quit.";
    string g1 = "+----";
    string g2 = "|    ";
    string grid1;
    string grid2;
    StringBuilder sbG1 = new StringBuilder();
    StringBuilder sbG2 = new StringBuilder();
    ConsoleKeyInfo cki;
    int y;
//
    try
    {
    saveBufferWidth  = Console.BufferWidth;
    saveBufferHeight = Console.BufferHeight;
    saveWindowHeight = Console.WindowHeight;
    saveWindowWidth  = Console.WindowWidth;
    saveCursorVisible = Console.CursorVisible;
//
    Console.Clear();
    Console.WriteLine(m1);
    Console.ReadKey(true);

// Set the smallest possible window size before setting the buffer size.
    Console.SetWindowSize(1, 1);
    Console.SetBufferSize(80, 80);
    Console.SetWindowSize(40, 20);

// Create grid lines to fit the buffer. (The buffer width is 80, but
// this same technique could be used with an arbitrary buffer width.)
    for (y = 0; y < Console.BufferWidth/g1.Length; y++)
        {
        sbG1.Append(g1);
        sbG2.Append(g2);
        }
    sbG1.Append(g1, 0, Console.BufferWidth%g1.Length);
    sbG2.Append(g2, 0, Console.BufferWidth%g2.Length);
    grid1 = sbG1.ToString();
    grid2 = sbG2.ToString();

    Console.CursorVisible = false;
    Console.Clear();
    for (y = 0; y < Console.BufferHeight-1; y++)
        {
        if (y%3 == 0)
            Console.Write(grid1);
        else
            Console.Write(grid2);
        }

    Console.SetWindowPosition(0, 0);
    do
        {
        cki = Console.ReadKey(true);
        switch (cki.Key)
            {
            case ConsoleKey.LeftArrow:
                if (Console.WindowLeft > 0)
                    Console.SetWindowPosition(
                            Console.WindowLeft-1, Console.WindowTop);
                break;
            case ConsoleKey.UpArrow:
                if (Console.WindowTop > 0)
                    Console.SetWindowPosition(
                            Console.WindowLeft, Console.WindowTop-1);
                break;
            case ConsoleKey.RightArrow:
                if (Console.WindowLeft < (Console.BufferWidth-Console.WindowWidth))
                    Console.SetWindowPosition(
                            Console.WindowLeft+1, Console.WindowTop);
                break;
            case ConsoleKey.DownArrow:
                if (Console.WindowTop < (Console.BufferHeight-Console.WindowHeight))
                    Console.SetWindowPosition(
                            Console.WindowLeft, Console.WindowTop+1);
                break;
            }
        }
    while (cki.Key != ConsoleKey.Escape);  // end do-while
    } // end try
    catch (IOException e)
        {
        Console.WriteLine(e.Message);
        }
    finally
        {
        Console.Clear();
        Console.SetWindowSize(1, 1);
        Console.SetBufferSize(saveBufferWidth, saveBufferHeight);
        Console.SetWindowSize(saveWindowWidth, saveWindowHeight);
        Console.CursorVisible = saveCursorVisible;
        }
    } // end Main
} // end Sample
/*
This example produces results similar to the following:

1) Press the cursor keys to move the console window.
2) Press any key to begin. When you're finished...
3) Press the Escape key to quit.

...

+----+----+----+-
|    |    |    |
|    |    |    |
+----+----+----+-
|    |    |    |
|    |    |    |
+----+----+----+-

*/
' This example demonstrates the Console.WindowLeft and
'                               Console.WindowTop properties.
Imports System.IO
Imports System.Text

Class Sample
   Public Shared saveBufferWidth As Integer
   Public Shared saveBufferHeight As Integer
   Public Shared saveWindowHeight As Integer
   Public Shared saveWindowWidth As Integer
   Public Shared saveCursorVisible As Boolean
   
   Public Shared Sub Main()
      Dim m1 As String = _
          "1) Press the cursor keys to move the console window." & vbCrlf & _
          "2) Press any key to begin. When you're finished..."   & vbCrlf & _
          "3) Press the Escape key to quit."
      Dim g1 As String = "+----"
      Dim g2 As String = "|    "
      Dim grid1 As String
      Dim grid2 As String
      Dim sbG1 As New StringBuilder()
      Dim sbG2 As New StringBuilder()
      Dim cki As ConsoleKeyInfo
      Dim y As Integer
      '
      Try
         saveBufferWidth = Console.BufferWidth
         saveBufferHeight = Console.BufferHeight
         saveWindowHeight = Console.WindowHeight
         saveWindowWidth = Console.WindowWidth
         saveCursorVisible = Console.CursorVisible
         '
         Console.Clear()
         Console.WriteLine(m1)
         Console.ReadKey(True)
         
         ' Set the smallest possible window size before setting the buffer size.
         Console.SetWindowSize(1, 1)
         Console.SetBufferSize(80, 80)
         Console.SetWindowSize(40, 20)
         
         ' Create grid lines to fit the buffer. (The buffer width is 80, but
         ' this same technique could be used with an arbitrary buffer width.)
         For y = 0 To (Console.BufferWidth / g1.Length) - 1
            sbG1.Append(g1)
            sbG2.Append(g2)
         Next y
         sbG1.Append(g1, 0, Console.BufferWidth Mod g1.Length)
         sbG2.Append(g2, 0, Console.BufferWidth Mod g2.Length)
         grid1 = sbG1.ToString()
         grid2 = sbG2.ToString()
         
         Console.CursorVisible = False
         Console.Clear()
         For y = 0 To (Console.BufferHeight - 2)
            If y Mod 3 = 0 Then
               Console.Write(grid1)
            Else
               Console.Write(grid2)
            End If
         Next y 
         '
         Console.SetWindowPosition(0, 0)
         Do
            cki = Console.ReadKey(True)
            Select Case cki.Key
               Case ConsoleKey.LeftArrow
                  If Console.WindowLeft > 0 Then
                     Console.SetWindowPosition(Console.WindowLeft - 1, Console.WindowTop)
                  End If
               Case ConsoleKey.UpArrow
                  If Console.WindowTop > 0 Then
                     Console.SetWindowPosition(Console.WindowLeft, Console.WindowTop - 1)
                  End If
               Case ConsoleKey.RightArrow
                  If Console.WindowLeft < Console.BufferWidth - Console.WindowWidth Then
                     Console.SetWindowPosition(Console.WindowLeft + 1, Console.WindowTop)
                  End If
               Case ConsoleKey.DownArrow
                  If Console.WindowTop < Console.BufferHeight - Console.WindowHeight Then
                     Console.SetWindowPosition(Console.WindowLeft, Console.WindowTop + 1)
                  End If
            End Select
         Loop While cki.Key <> ConsoleKey.Escape
      ' end do-while
      ' end try
      Catch e As IOException
         Console.WriteLine(e.Message)
      Finally
         Console.Clear()
         Console.SetWindowSize(1, 1)
         Console.SetBufferSize(saveBufferWidth, saveBufferHeight)
         Console.SetWindowSize(saveWindowWidth, saveWindowHeight)
         Console.CursorVisible = saveCursorVisible
      End Try
   End Sub
End Class
'
'This example produces results similar to the following:
'
'1) Press the cursor keys to move the console window.
'2) Press any key to begin. When you're finished...
'3) Press the Escape key to quit.
'
'...
'
'+----+----+----+-
'|    |    |    |
'|    |    |    |
'+----+----+----+-
'|    |    |    |
'|    |    |    |
'+----+----+----+-
'
// This example demonstrates the Console.WindowLeft and
//                               Console.WindowTop properties.
open System
open System.Text
open System.IO

[<EntryPoint>]
let main argv =
    let m1 = 
        "1) Press the cursor keys to move the console window.\n" + 
        "2) Press any key to begin. When you're finished...\n" + 
        "3) Press the Escape key to quit."
    let g1 = "+----";
    let g2 = "|    ";
    let sbG1 = StringBuilder()
    let sbG2 = StringBuilder()


    let saveBufferWidth = Console.BufferWidth
    let saveBufferHeight = Console.BufferHeight
    let saveWindowHeight = Console.WindowHeight
    let saveWindowWidth = Console.WindowWidth
    let saveCursorVisible = Console.CursorVisible

    try
        try
            Console.Clear()
            Console.WriteLine(m1)
            Console.ReadKey(true) |> ignore

            // Set the smallest possible window size before setting the buffer size.
            Console.SetWindowSize(1, 1)
            Console.SetBufferSize(80, 80)
            Console.SetWindowSize(40, 20)

            // Create grid lines to fit the buffer. (The buffer width is 80, but
            // this same technique could be used with an arbitrary buffer width.)
            // for y = 0 to (Console.BufferWidth / g1.Length - 1)
            for _ in 1..(Console.BufferWidth / g1.Length) do
                (sbG1.Append(g1)) |> ignore
                (sbG2.Append(g2)) |> ignore

            sbG1.Append(g1, 0, Console.BufferWidth % g1.Length) |> ignore
            sbG2.Append(g2, 0, Console.BufferWidth % g2.Length) |> ignore
            let grid1 = sbG1.ToString()
            let grid2 = sbG2.ToString()

            Console.CursorVisible <- false
            Console.Clear()
            for y in 0..(Console.BufferHeight - 1) do
                if (y % 3 = 0) then
                    Console.Write(grid1)
                else
                    Console.Write(grid2)

            Console.SetWindowPosition(0, 0)

            let interactiveKeySequence = 
                Seq.initInfinite (fun _ -> (Console.ReadKey(true)).Key)
                |> Seq.takeWhile (fun key -> key <> ConsoleKey.Escape)

            for key in interactiveKeySequence do
                match key with
                | ConsoleKey.LeftArrow ->
                    if Console.WindowLeft > 0
                    then Console.SetWindowPosition(Console.WindowLeft - 1, Console.WindowTop)
                | ConsoleKey.UpArrow ->
                    if Console.WindowTop > 0
                    then Console.SetWindowPosition(Console.WindowLeft, Console.WindowTop - 1)
                | ConsoleKey.RightArrow ->
                    if Console.WindowLeft < (Console.BufferWidth - Console.WindowWidth)
                    then Console.SetWindowPosition(Console.WindowLeft + 1, Console.WindowTop)
                | ConsoleKey.DownArrow ->
                    if Console.WindowTop < (Console.BufferHeight - Console.WindowHeight)
                    then Console.SetWindowPosition(Console.WindowLeft, Console.WindowTop + 1)
                | _ -> 
                    ()
            0
        with 
        | :? IOException as ex -> printf "%s" ex.Message; 1
    finally
        Console.Clear()
        Console.SetWindowSize(1, 1)
        Console.SetBufferSize(saveBufferWidth, saveBufferHeight)
        Console.SetWindowSize(saveWindowWidth, saveWindowHeight)
        Console.CursorVisible <- saveCursorVisible

備註

作業系統視窗會顯示主控台視窗,而主控台視窗會顯示幕幕緩衝區的一部分。 方法 SetWindowPosition 會影響主控台視窗相對於螢幕緩衝區的位置,但不會影響作業系統視窗相對於桌面的位置。

主控台和作業系統視窗通常不會影響彼此。 不過,如果螢幕緩衝區無法顯示在主控台視窗的目前界限中,作業系統會自動將捲軸附加至作業系統視窗。 在此情況下,移動作業系統視窗捲軸會影響主控台視窗的位置,而使用 方法移動主控台視窗會影響作業系統視窗 SetWindowPosition 捲軸的位置。

適用於