Array.GetUpperBound(Int32) Metodo

Definizione

Spazio dei nomi:: System

Assembly:: mscorlib.dll, System.Runtime.dll

Assembly:: netstandard.dll, System.Runtime.dll

Assembly:: System.Runtime.dll

Assembly:: mscorlib.dll

Assembly:: netstandard.dll

Origine:: Array.cs

Origine:: Array.cs

Origine:: Array.CoreCLR.cs

Origine:: Array.CoreCLR.cs

Origine:: Array.CoreCLR.cs

Importante

Alcune informazioni sono relative alla release non definitiva del prodotto, che potrebbe subire modifiche significative prima della release definitiva. Microsoft non riconosce alcuna garanzia, espressa o implicita, in merito alle informazioni qui fornite.

Ottiene l'indice dell'ultimo elemento della dimensione specificata nella matrice.

public:
 int GetUpperBound(int dimension);

public int GetUpperBound(int dimension);

member this.GetUpperBound : int -> int

Public Function GetUpperBound (dimension As Integer) As Integer

Parametri

dimension: Int32

Dimensione in base zero della matrice il cui limite superiore deve essere determinato.

Valori restituiti

Int32

Indice dell'ultimo elemento della dimensione specificata nella matrice oppure -1 se la dimensione specificata è vuota.

Eccezioni

IndexOutOfRangeException

dimension è minore di zero.

oppure

dimension è uguale o maggiore di Rank.

Esempio

Nell'esempio seguente vengono utilizzati i GetLowerBound metodi e GetUpperBound per visualizzare i limiti di una matrice unidimensionale e bidimensionale e per visualizzare i valori dei relativi elementi di matrice.

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

Commenti

GetUpperBound(0) restituisce l'ultimo indice nella prima dimensione della matrice e GetUpperBound(Rank - 1) restituisce l'ultimo indice dell'ultima dimensione della matrice.

Questo metodo è un'operazione O(1).

Si applica a

Vedi anche

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