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Array.GetUpperBound(Int32) Méthode

Définition

Obtient l'index du dernier élément de la dimension spécifiée dans le tableau.

public:
 int GetUpperBound(int dimension);
public int GetUpperBound (int dimension);
member this.GetUpperBound : int -> int
Public Function GetUpperBound (dimension As Integer) As Integer

Paramètres

dimension
Int32

Dimension de base zéro du tableau dont la limite supérieure doit être déterminée.

Retours

Int32

Index du dernier élément de la dimension spécifiée dans le tableau, ou -1 si la dimension spécifiée est vide.

Exceptions

dimension est inférieur à zéro.

  • ou -

dimension est supérieur ou égal à Rank.

Exemples

L’exemple suivant utilise les méthodes et GetUpperBound les GetLowerBound méthodes pour afficher les limites d’un tableau unidimensionnel et à deux dimensions et pour afficher les valeurs de leurs éléments de tableau.

using namespace System;

void main()  
{
   // Create a one-dimensional integer array.
   array<int>^ integers = { 2, 4, 6, 8, 10, 12, 14, 16, 18, 20 };
   // Get the upper and lower bound of the array.
   int upper = integers->GetUpperBound(0);
   int lower = integers->GetLowerBound(0);
   Console::WriteLine("Elements from index {0} to {1}:", lower, upper);
   // Iterate the array.
   for (int ctr = lower; ctr <= upper; ctr++)
     Console::Write("{0}{1}{2}", ctr == lower ? "   " : "", 
                                 integers[ctr], 
                                 ctr < upper ? ", " : Environment::NewLine);

   Console::WriteLine();
   
   // Create a two-dimensional integer array.
   array<int, 2>^ integers2d = { {2, 4}, {3, 9}, {4, 16}, {5, 25}, 
                                 {6, 36}, {7, 49}, {8, 64}, {9, 81} }; 
   // Get the number of dimensions.                               
   int rank = integers2d->Rank;  
   Console::WriteLine("Number of dimensions: {0}", rank);      
   for (int ctr = 0; ctr < rank; ctr++)
     Console::WriteLine("   Dimension {0}: from {1} to {2}",
                        ctr, integers2d->GetLowerBound(ctr),
                        integers2d->GetUpperBound(ctr));

   // Iterate the 2-dimensional array and display its values.
   Console::WriteLine("   Values of array elements:");
   for (int outer = integers2d->GetLowerBound(0); outer <= integers2d->GetUpperBound(0);
        outer++)
     for (int inner = integers2d->GetLowerBound(1); inner <= integers2d->GetUpperBound(1);
          inner++)
        Console::WriteLine("      {3}{0}, {1}{4} = {2}", outer, inner,
                           integers2d->GetValue(outer, inner), "{", "}");
}
// The example displays the following output:
//       Elements from index 0 to 9:
//          2, 4, 6, 8, 10, 12, 14, 16, 18, 20
//       
//       Number of dimensions: 2
//          Dimension 0: from 0 to 7
//          Dimension 1: from 0 to 1
//          Values of array elements:
//             {0, 0} = 2
//             {0, 1} = 4
//             {1, 0} = 3
//             {1, 1} = 9
//             {2, 0} = 4
//             {2, 1} = 16
//             {3, 0} = 5
//             {3, 1} = 25
//             {4, 0} = 6
//             {4, 1} = 36
//             {5, 0} = 7
//             {5, 1} = 49
//             {6, 0} = 8
//             {6, 1} = 64
//             {7, 0} = 9
//             {7, 1} = 81
using System;

public class Example
{
   public static void Main()
   {
      // Create a one-dimensional integer array.
      int[] integers = { 2, 4, 6, 8, 10, 12, 14, 16, 18, 20 };
      // Get the upper and lower bound of the array.
      int upper = integers.GetUpperBound(0);
      int lower = integers.GetLowerBound(0);
      Console.WriteLine($"Elements from index {lower} to {upper}:");
      // Iterate the array.
      for (int ctr = lower; ctr <= upper; ctr++)
        Console.Write($"{(ctr == lower ?"   " : "")}{integers[ctr]}" +
                      $"{(ctr < upper ? ", " : Environment.NewLine)}");

      Console.WriteLine();

      // Create a two-dimensional integer array.
      int[,] integers2d= { {2, 4}, {3, 9}, {4, 16}, {5, 25},
                           {6, 36}, {7, 49}, {8, 64}, {9, 81} };
      // Get the number of dimensions.
      int rank = integers2d.Rank;
      Console.WriteLine($"Number of dimensions: {rank}");
      for (int ctr = 0; ctr < rank; ctr++)
        Console.WriteLine($"   Dimension {ctr}: " +
                          $"from {integers2d.GetLowerBound(ctr)} to {integers2d.GetUpperBound(ctr)}");

      // Iterate the 2-dimensional array and display its values.
      Console.WriteLine("   Values of array elements:");
      for (int outer = integers2d.GetLowerBound(0); outer <= integers2d.GetUpperBound(0);
           outer++)
        for (int inner = integers2d.GetLowerBound(1); inner <= integers2d.GetUpperBound(1);
             inner++)
           Console.WriteLine($"      {'\u007b'}{outer}, {inner}{'\u007d'} = " +
                             $"{integers2d.GetValue(outer, inner)}");
   }
}
// The example displays the following output:
//       Elements from index 0 to 9:
//          2, 4, 6, 8, 10, 12, 14, 16, 18, 20
//
//       Number of dimensions: 2
//          Dimension 0: from 0 to 7
//          Dimension 1: from 0 to 1
//          Values of array elements:
//             {0, 0} = 2
//             {0, 1} = 4
//             {1, 0} = 3
//             {1, 1} = 9
//             {2, 0} = 4
//             {2, 1} = 16
//             {3, 0} = 5
//             {3, 1} = 25
//             {4, 0} = 6
//             {4, 1} = 36
//             {5, 0} = 7
//             {5, 1} = 49
//             {6, 0} = 8
//             {6, 1} = 64
//             {7, 0} = 9
//             {7, 1} = 81
open System


// Create a one-dimensional integer array.
let integers = [| 2..2..20 |]

// Get the upper and lower bound of the array.
let upper = integers.GetUpperBound 0
let lower = integers.GetLowerBound 0
printfn $"Elements from index {lower} to {upper}:"

// Iterate the array.
for i = lower to upper do
    if i = lower then printf "   "
    printf $"{integers[i]}"
    if i < upper then ", " else Environment.NewLine
    |> printf "%s"

printfn ""

// Create a two-dimensional integer array.
let integers2d = 
    array2D [ [ 2; 4 ]; [ 3; 9 ]; [ 4; 16 ]; [ 5; 25 ]
              [ 6; 36 ]; [ 7; 49 ]; [ 8; 64 ]; [ 9; 81 ] ]

// Get the number of dimensions.
let rank = integers2d.Rank
printfn $"Number of dimensions: {rank}"
for i = 0 to rank - 1 do
    printfn $"   Dimension {i}: from {integers2d.GetLowerBound i} to {integers2d.GetUpperBound i}"

// Iterate the 2-dimensional array and display its values.
printfn "   Values of array elements:"
for outer = integers2d.GetLowerBound 0 to integers2d.GetUpperBound 0 do

    for inner = integers2d.GetLowerBound 1 to integers2d.GetUpperBound 1 do
        printfn $"      {'\u007b'}{outer}, {inner}{'\u007d'} = {integers2d.GetValue(outer, inner)}"
   
// The example displays the following output:
//       Elements from index 0 to 9:
//          2, 4, 6, 8, 10, 12, 14, 16, 18, 20
//
//       Number of dimensions: 2
//          Dimension 0: from 0 to 7
//          Dimension 1: from 0 to 1
//          Values of array elements:
//             {0, 0} = 2
//             {0, 1} = 4
//             {1, 0} = 3
//             {1, 1} = 9
//             {2, 0} = 4
//             {2, 1} = 16
//             {3, 0} = 5
//             {3, 1} = 25
//             {4, 0} = 6
//             {4, 1} = 36
//             {5, 0} = 7
//             {5, 1} = 49
//             {6, 0} = 8
//             {6, 1} = 64
//             {7, 0} = 9
//             {7, 1} = 81
Public Module Example    
    Public Sub Main()
        ' Create a one-dimensional integer array.
        Dim integers() As Integer = { 2, 4, 6, 8, 10, 12, 14, 16, 18, 20 }
        ' Get the upper and lower bound of the array.
        Dim upper As Integer = integers.GetUpperBound(0)
        Dim lower As Integer = integers.GetLowerBound(0)
        Console.WriteLine($"Elements from index {lower} to {upper}:")
        ' Iterate the array.
        For ctr As Integer = lower To upper
           Console.Write("{0}{1}{2}", If(ctr = lower, "   ", ""), 
                                     integers(ctr), 
                                     If(ctr < upper, ", ", vbCrLf))
        Next
        Console.WriteLine()
        
        ' Create a two-dimensional integer array.
        Dim integers2d(,) As Integer = {{2, 4}, {3, 9}, {4, 16}, {5, 25}, 
                                       {6, 36}, {7, 49}, {8, 64}, {9, 81} } 
        ' Get the number of dimensions.                               
        Dim rank As Integer = integers2d.Rank  
        Console.WriteLine($"Number of dimensions: {rank}")      
        For ctr As Integer = 0 To rank - 1
           Console.WriteLine($"   Dimension {ctr}: " +
                             $"from {integers2d.GetLowerBound(ctr)} to {integers2d.GetUpperBound(ctr)}")
        Next
        ' Iterate the 2-dimensional array and display its values.
        Console.WriteLine("   Values of array elements:")
        For outer = integers2d.GetLowerBound(0) To integers2d.GetUpperBound(0)
           For inner = integers2d.GetLowerBound(1) To integers2d.GetUpperBound(1)
              Console.WriteLine($"      {ChrW(&h07b)}{outer}, {inner}{ChrW(&h007d)} = " +
                                $"{integers2d.GetValue(outer, inner)}")
           Next
        Next
    End Sub
End Module
' The example displays the following output.
'       Elements from index 0 to 9:
'          2, 4, 6, 8, 10, 12, 14, 16, 18, 20
'       
'       Number of dimensions: 2
'          Dimension 0: from 0 to 7
'          Dimension 1: from 0 to 1
'          Values of array elements:
'             {0, 0} = 2
'             {0, 1} = 4
'             {1, 0} = 3
'             {1, 1} = 9
'             {2, 0} = 4
'             {2, 1} = 16
'             {3, 0} = 5
'             {3, 1} = 25
'             {4, 0} = 6
'             {4, 1} = 36
'             {5, 0} = 7
'             {5, 1} = 49
'             {6, 0} = 8
'             {6, 1} = 64
'             {7, 0} = 9
'             {7, 1} = 81

Remarques

GetUpperBound(0) retourne le dernier index dans la première dimension du tableau et GetUpperBound(Rank - 1) retourne le dernier index de la dernière dimension du tableau.

Cette méthode est une opération O(1).

S’applique à

Voir aussi