Console.SetWindowPosition(Int32, Int32) Metoda
Definicja
Ważne
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Ustawia położenie okna konsoli względem buforu ekranu.
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 -> unitstatic member SetWindowPosition : int * int -> unitPublic Shared Sub SetWindowPosition (left As Integer, top As Integer)Parametry
- left
- Int32
Położenie kolumny w lewym górnym rogu okna konsoli.
- top
- Int32
Położenie wiersza lewego górnego rogu okna konsoli.
- Atrybuty
Wyjątki
left wartość lub top jest mniejsza niż zero.
-lub-
left
+
WindowWidth wartość jest większa niż BufferWidth.
-lub-
top
+
WindowHeight wartość jest większa niż BufferHeight.
Użytkownik nie ma uprawnienia do wykonania tej czynności.
Wystąpił błąd we/wy.
Bieżący system operacyjny nie jest systemem Windows.
Przykłady
W poniższym przykładzie przedstawiono WindowLeftwłaściwości , WindowTop, , WindowHeightWindowWidthBufferWidth, , BufferHeighti CursorVisible , SetBufferSizeoraz SetWindowPositionmetody .ReadKey Przykład rysuje wzorzec siatki w buforze ekranu na podstawie szerokości buforu ekranu. Następnie przykład przenosi okno konsoli w odpowiedzi na naciśnięcie klawiszy konsoli STRZAŁKA W GÓRĘ, STRZAŁKA W DÓŁ, STRZAŁKA W LEWO lub STRZAŁKA W PRAWO. Wzorzec siatki pomaga zobaczyć ruch okna konsoli względem buforu ekranu.
// 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
Uwagi
W oknie systemu operacyjnego zostanie wyświetlone okno konsoli, a w oknie konsoli zostanie wyświetlona część buforu ekranu. Metoda SetWindowPosition wpływa na położenie okna konsoli względem buforu ekranu, ale nie wpływa na położenie okna systemu operacyjnego względem pulpitu.
Okna konsoli i systemu operacyjnego zazwyczaj nie wpływają na siebie. Jeśli jednak bufor ekranu nie może być wyświetlany w bieżących granicach okna konsoli, system operacyjny automatycznie dołącza paski przewijania do okna systemu operacyjnego. W takim przypadku przeniesienie pasków przewijania okna systemu operacyjnego wpływa na położenie okna konsoli, a przeniesienie okna konsoli za SetWindowPosition pomocą metody wpływa na położenie pasków przewijania okna systemu operacyjnego.
Dotyczy
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