Expression.ArrayAccess メソッド
定義
重要
一部の情報は、リリース前に大きく変更される可能性があるプレリリースされた製品に関するものです。 Microsoft は、ここに記載されている情報について、明示または黙示を問わず、一切保証しません。
配列にアクセスするための IndexExpression を作成します。
オーバーロード
ArrayAccess(Expression, IEnumerable<Expression>) |
多次元配列にアクセスするための IndexExpression を作成します。 |
ArrayAccess(Expression, Expression[]) |
配列にアクセスするための IndexExpression を作成します。 |
ArrayAccess(Expression, IEnumerable<Expression>)
多次元配列にアクセスするための IndexExpression を作成します。
public:
static System::Linq::Expressions::IndexExpression ^ ArrayAccess(System::Linq::Expressions::Expression ^ array, System::Collections::Generic::IEnumerable<System::Linq::Expressions::Expression ^> ^ indexes);
public static System.Linq.Expressions.IndexExpression ArrayAccess (System.Linq.Expressions.Expression array, System.Collections.Generic.IEnumerable<System.Linq.Expressions.Expression> indexes);
public static System.Linq.Expressions.IndexExpression ArrayAccess (System.Linq.Expressions.Expression array, System.Collections.Generic.IEnumerable<System.Linq.Expressions.Expression>? indexes);
static member ArrayAccess : System.Linq.Expressions.Expression * seq<System.Linq.Expressions.Expression> -> System.Linq.Expressions.IndexExpression
Public Shared Function ArrayAccess (array As Expression, indexes As IEnumerable(Of Expression)) As IndexExpression
パラメーター
- array
- Expression
多次元配列を表す式。
- indexes
- IEnumerable<Expression>
配列のインデックス化に使用する式を格納している IEnumerable<T>。
戻り値
作成された IndexExpression。
例
次のコード例は、 メソッドを使用して多次元配列内の要素の値を変更する方法を ArrayAccess
示しています。
// Add the following directive to your file:
// using System.Linq.Expressions;
// This parameter expression represents a variable that will hold the two-dimensional array.
ParameterExpression arrayExpr = Expression.Parameter(typeof(int[,]), "Array");
// This parameter expression represents a first array index.
ParameterExpression firstIndexExpr = Expression.Parameter(typeof(int), "FirstIndex");
// This parameter expression represents a second array index.
ParameterExpression secondIndexExpr = Expression.Parameter(typeof(int), "SecondIndex");
// The list of indexes.
List<Expression> indexes = new List<Expression> { firstIndexExpr, secondIndexExpr };
// This parameter represents the value that will be added to a corresponding array element.
ParameterExpression valueExpr = Expression.Parameter(typeof(int), "Value");
// This expression represents an access operation to a multidimensional array.
// It can be used for assigning to, or reading from, an array element.
Expression arrayAccessExpr = Expression.ArrayAccess(
arrayExpr,
indexes
);
// This lambda expression assigns a value provided to it to a specified array element.
// The array, the index of the array element, and the value to be added to the element
// are parameters of the lambda expression.
Expression<Func<int[,], int, int, int, int>> lambdaExpr =
Expression.Lambda<Func<int[,], int, int, int, int>>(
Expression.Assign(arrayAccessExpr, Expression.Add(arrayAccessExpr, valueExpr)),
arrayExpr,
firstIndexExpr,
secondIndexExpr,
valueExpr
);
// Print out expressions.
Console.WriteLine("Array Access Expression:");
Console.WriteLine(arrayAccessExpr.ToString());
Console.WriteLine("Lambda Expression:");
Console.WriteLine(lambdaExpr.ToString());
Console.WriteLine("The result of executing the lambda expression:");
// The following statement first creates an expression tree,
// then compiles it, and then executes it.
// Parameters passed to the Invoke method are passed to the lambda expression.
int[,] sampleArray = { {10, 20, 30},
{100, 200, 300}};
Console.WriteLine(lambdaExpr.Compile().Invoke(sampleArray, 1, 1, 5));
// This code example produces the following output:
//
// Array Access Expression:
// Array[FirstIndex, SecondIndex]
// Lambda Expression:
// (Array, FirstIndex, SecondIndex Value) =>
// (Array[FirstIndex, SecondIndex] = (Array[FirstIndex, SecondIndex] + Value))
// The result of executing the lambda expression:
// 205
' Add the following directive to your file:
' Imports System.Linq.Expressions
' This parameter expression represents a variable that will hold the two-dimensional array.
Dim arrayExpr As ParameterExpression = Expression.Parameter(GetType(Integer(,)), "Array")
' This parameter expression represents a first array index.
Dim firstIndexExpr As ParameterExpression = Expression.Parameter(GetType(Integer), "FirstIndex")
' This parameter expression represents a second array index.
Dim secondIndexExpr As ParameterExpression = Expression.Parameter(GetType(Integer), "SecondIndex")
' The list of indexes.
Dim indexes As List(Of Expression) = New List(Of Expression) From
{firstIndexExpr, secondIndexExpr}
' This parameter represents the value that will be added to a corresponding array element.
Dim valueExpr As ParameterExpression = Expression.Parameter(GetType(Integer), "Value")
' This expression represents an access operation to a multidimensional array.
' It can be used for assigning to, or reading from, an array element.
Dim arrayAccessExpr As Expression = Expression.ArrayAccess(
arrayExpr,
indexes
)
' This lambda expression assigns a value provided to it to a specified array element.
' The array, the index of the array element, and the value to be added to the element
' are parameters of the lambda expression.
Dim lambdaExpr As Expression(Of Func(Of Integer(,), Integer, Integer, Integer, Integer)) =
Expression.Lambda(Of Func(Of Integer(,), Integer, Integer, Integer, Integer))(
Expression.Assign(arrayAccessExpr, Expression.Add(arrayAccessExpr, valueExpr)),
arrayExpr,
firstIndexExpr,
secondIndexExpr,
valueExpr
)
' Print expressions.
Console.WriteLine("Array Access Expression:")
Console.WriteLine(arrayAccessExpr.ToString())
Console.WriteLine("Lambda Expression:")
Console.WriteLine(lambdaExpr.ToString())
Console.WriteLine("The result of executing the lambda expression:")
' The following statement first creates an expression tree,
' then compiles it, and then executes it.
' Parameters passed to the Invoke method are passed to the lambda expression.
Dim sampleArray = {{10, 20, 30},
{100, 200, 300}}
Console.WriteLine(lambdaExpr.Compile().Invoke(sampleArray, 1, 1, 5))
' This code example produces the following output:
'
' Array Access Expression:
' Array[FirstIndex, SecondIndex]
' Lambda Expression:
' (Array, FirstIndex, SecondIndex Value) =>
' (Array[FirstIndex, SecondIndex] = (Array[FirstIndex, SecondIndex] + Value))
' The result of executing the lambda expression:
' 205
注釈
配列を表す式は、 メソッドを使用するか、 または NewArrayInitを使用MakeMemberAccessしてNewArrayBounds取得できます。
適用対象
ArrayAccess(Expression, Expression[])
配列にアクセスするための IndexExpression を作成します。
public:
static System::Linq::Expressions::IndexExpression ^ ArrayAccess(System::Linq::Expressions::Expression ^ array, ... cli::array <System::Linq::Expressions::Expression ^> ^ indexes);
public static System.Linq.Expressions.IndexExpression ArrayAccess (System.Linq.Expressions.Expression array, params System.Linq.Expressions.Expression[] indexes);
public static System.Linq.Expressions.IndexExpression ArrayAccess (System.Linq.Expressions.Expression array, params System.Linq.Expressions.Expression[]? indexes);
static member ArrayAccess : System.Linq.Expressions.Expression * System.Linq.Expressions.Expression[] -> System.Linq.Expressions.IndexExpression
Public Shared Function ArrayAccess (array As Expression, ParamArray indexes As Expression()) As IndexExpression
パラメーター
- array
- Expression
インデックス化する配列を表す式。
- indexes
- Expression[]
配列のインデックス化に使用する式を格納している配列。
戻り値
作成された IndexExpression。
例
次のコード例は、 メソッドを使用して配列要素の値を変更する方法を ArrayAccess
示しています。
// Add the following directive to your file:
// using System.Linq.Expressions;
// This parameter expression represents a variable that will hold the array.
ParameterExpression arrayExpr = Expression.Parameter(typeof(int[]), "Array");
// This parameter expression represents an array index.
ParameterExpression indexExpr = Expression.Parameter(typeof(int), "Index");
// This parameter represents the value that will be added to a corresponding array element.
ParameterExpression valueExpr = Expression.Parameter(typeof(int), "Value");
// This expression represents an array access operation.
// It can be used for assigning to, or reading from, an array element.
Expression arrayAccessExpr = Expression.ArrayAccess(
arrayExpr,
indexExpr
);
// This lambda expression assigns a value provided to it to a specified array element.
// The array, the index of the array element, and the value to be added to the element
// are parameters of the lambda expression.
Expression<Func<int[], int, int, int>> lambdaExpr = Expression.Lambda<Func<int[], int, int, int>>(
Expression.Assign(arrayAccessExpr, Expression.Add(arrayAccessExpr, valueExpr)),
arrayExpr,
indexExpr,
valueExpr
);
// Print out expressions.
Console.WriteLine("Array Access Expression:");
Console.WriteLine(arrayAccessExpr.ToString());
Console.WriteLine("Lambda Expression:");
Console.WriteLine(lambdaExpr.ToString());
Console.WriteLine("The result of executing the lambda expression:");
// The following statement first creates an expression tree,
// then compiles it, and then executes it.
// Parameters passed to the Invoke method are passed to the lambda expression.
Console.WriteLine(lambdaExpr.Compile().Invoke(new int[] { 10, 20, 30 }, 0, 5));
// This code example produces the following output:
//
// Array Access Expression:
// Array[Index]
// Lambda Expression:
// (Array, Index, Value) => (Array[Index] = (Array[Index] + Value))
// The result of executing the lambda expression:
// 15
' Add the following directive to your file:
' Imports System.Linq.Expressions
' This parameter expression represents a variable that will hold the array.
Dim arrayExpr As ParameterExpression = Expression.Parameter(GetType(Integer()), "Array")
' This parameter expression represents an array index.
' For multidimensional arrays, you can define several indexes.
Dim indexExpr As ParameterExpression = Expression.Parameter(GetType(Integer), "Index")
' This parameter represents the value that will be added to a corresponding array element.
Dim valueExpr As ParameterExpression = Expression.Parameter(GetType(Integer), "Value")
' This expression represents an array access operation.
' It can be used for assigning to, or reading from, an array element.
Dim arrayAccessExpr As Expression = Expression.ArrayAccess(
arrayExpr,
indexExpr
)
' This lambda expression assigns a value provided to it to a specified array element.
' The array, the index of the array element, and the value to be added to the element
' are parameters of the lambda expression.
Dim lambdaExpr As Expression(Of Func(Of Integer(), Integer, Integer, Integer)) =
Expression.Lambda(Of Func(Of Integer(), Integer, Integer, Integer))(
Expression.Assign(arrayAccessExpr, Expression.Add(arrayAccessExpr, valueExpr)),
arrayExpr,
indexExpr,
valueExpr
)
' Print expressions.
Console.WriteLine("Array Access Expression:")
Console.WriteLine(arrayAccessExpr.ToString())
Console.WriteLine("Lambda Expression:")
Console.WriteLine(lambdaExpr.ToString())
Console.WriteLine("The result of executing the lambda expression:")
' The following statement first creates an expression tree,
' then compiles it, and then executes it.
' Parameters passed to the Invoke method are passed to the lambda expression.
Console.WriteLine(lambdaExpr.Compile().Invoke(New Integer() {10, 20, 30}, 0, 5))
' This code example produces the following output:
'
' Array Access Expression:
' Array[Index]
' Lambda Expression:
' (Array, Index, Value) => (Array[Index] = (Array[Index] + Value))
' The result of executing the lambda expression:
' 15
注釈
配列を表す式は、 メソッドを使用するか、 または NewArrayInitを使用MakeMemberAccessしてNewArrayBounds取得できます。
多次元配列の場合は、 メソッドを使用します ArrayAccess 。
適用対象
.NET