BinaryWriter.Write 方法

定义

将值写入当前流。

重载

Write(Char[], Int32, Int32)

将字符数组部分写入当前流,并根据所使用的 Encoding(可能还根据向流中写入的特定字符),提升流的当前位置。

Write(Byte[], Int32, Int32)

将字节数组区域写入当前流。

Write(UInt64)

将 8 字节无符号整数写入当前流,并将流的位置提升 8 个字节。

Write(UInt32)

将 4 字节无符号整数写入当前流,并将流的位置提升 4 个字节。

Write(UInt16)

将 2 字节无符号整数写入当前流,并将流的位置提升 2 个字节。

Write(String)

将有长度前缀的字符串按 BinaryWriter 的当前编码写入此流,并根据所使用的编码和写入流的特定字符,提升流的当前位置。

Write(Single)

将 4 字节浮点值写入当前流,并将流的位置提升 4 个字节。

Write(SByte)

将一个带符号字节写入当前流,并将流的位置提升 1 个字节。

Write(ReadOnlySpan<Char>)

将一段字符写入当前流,并根据所使用的 Encoding(可能还根据向流中写入的特定字符),提升流的当前位置。

Write(ReadOnlySpan<Byte>)

将字节范围写入当前流。

Write(Int64)

将 8 字节带符号整数写入当前流,并将流的位置提升 8 个字节。

Write(Char[])

将字符数组写入当前流,并根据所使用的 Encoding 和向流中写入的特定字符,提升流的当前位置。

Write(Int16)

将 2 字节带符号整数写入当前流,并将流的位置提升 2 个字节。

Write(Half)

将两字节浮点值写入当前流,并将流位置向前推进两个字节。

Write(Double)

将 8 字节浮点值写入当前流,并将流的位置提升 8 个字节。

Write(Decimal)

将一个十进制值写入当前流,并将流位置提升十六个字节。

Write(Char)

将 Unicode 字符写入当前流,并根据所使用的 Encoding 和向流中写入的特定字符,提升流的当前位置。

Write(Byte[])

将字节数组写入基础流。

Write(Byte)

将一个无符号字节写入当前流,并将流的位置提升 1 个字节。

Write(Boolean)

将单字节 Boolean 值写入当前流,其中 0 表示 false,1 表示 true

Write(Int32)

将 4 字节带符号整数写入当前流,并将流的位置提升 4 个字节。

Write(Char[], Int32, Int32)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将字符数组部分写入当前流,并根据所使用的 Encoding(可能还根据向流中写入的特定字符),提升流的当前位置。

public:
 virtual void Write(cli::array <char> ^ chars, int index, int count);
public virtual void Write (char[] chars, int index, int count);
abstract member Write : char[] * int * int -> unit
override this.Write : char[] * int * int -> unit
Public Overridable Sub Write (chars As Char(), index As Integer, count As Integer)

参数

chars
Char[]

包含要写入的数据的字符数组。

index
Int32

要从 chars 中读取且要写入流的第一个字符的索引。

count
Int32

要从 chars 中读取且要写入流的字符数。

例外

缓冲区长度减去 index 小于 count

charsnull

indexcount 为负数。

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何使用内存作为后备存储来读取和写入数据。

using namespace System;
using namespace System::IO;
int main()
{
   array<Char>^invalidPathChars = Path::InvalidPathChars;
   MemoryStream^ memStream = gcnew MemoryStream;
   BinaryWriter^ binWriter = gcnew BinaryWriter( memStream );
   
   // Write to memory.
   binWriter->Write( "Invalid file path characters are: " );
   binWriter->Write( Path::InvalidPathChars, 0, Path::InvalidPathChars->Length );
   
   // Create the reader using the same MemoryStream 
   // as used with the writer.
   BinaryReader^ binReader = gcnew BinaryReader( memStream );
   
   // Set Position to the beginning of the stream.
   binReader->BaseStream->Position = 0;
   
   // Read the data from memory and write it to the console.
   Console::Write( binReader->ReadString() );
   int arraySize = (int)(memStream->Length - memStream->Position);
   array<Char>^memoryData = gcnew array<Char>(arraySize);
   binReader->Read( memoryData, 0, arraySize );
   Console::WriteLine( memoryData );
}
using System;
using System.IO;

class BinaryRW
{
    static void Main()
    {
        char[] invalidPathChars = Path.InvalidPathChars;
        MemoryStream memStream = new MemoryStream();
        BinaryWriter binWriter = new BinaryWriter(memStream);

        // Write to memory.
        binWriter.Write("Invalid file path characters are: ");
        binWriter.Write(
            Path.InvalidPathChars, 0, Path.InvalidPathChars.Length);

        // Create the reader using the same MemoryStream
        // as used with the writer.
        BinaryReader binReader = new BinaryReader(memStream);

        // Set Position to the beginning of the stream.
        memStream.Position = 0;

        // Read the data from memory and write it to the console.
        Console.Write(binReader.ReadString());
        int arraySize = (int)(memStream.Length - memStream.Position);
        char[] memoryData = new char[arraySize];
        binReader.Read(memoryData, 0, arraySize);
        Console.WriteLine(memoryData);
    }
}
open System.IO

let invalidPathChars = Path.GetInvalidPathChars()
let memStream = new MemoryStream()
let binWriter = new BinaryWriter(memStream)

// Write to memory.
binWriter.Write "Invalid file path characters are: "
binWriter.Write(invalidPathChars, 0, invalidPathChars.Length)

// Create the reader using the same MemoryStream
// as used with the writer.
let binReader = new BinaryReader(memStream)

// Set Position to the beginning of the stream.
memStream.Position <- 0

// Read the data from memory and write it to the console.
printf $"{binReader.ReadString()}"
let arraySize = memStream.Length - memStream.Position |> int
let memoryData = Array.zeroCreate<char> arraySize
binReader.Read(memoryData, 0, arraySize) |> ignore
printfn $"{memoryData}"
Imports System.IO

Public Class BinaryRW

    Shared Sub Main()
    
        Dim invalidPathChars() As Char = Path.InvalidPathChars
        Dim memStream As new MemoryStream()
        Dim binWriter As New BinaryWriter(memStream)

        ' Write to memory.
        binWriter.Write("Invalid file path characters are: ")
        binWriter.Write(Path.InvalidPathChars, 0, _
            Path.InvalidPathChars.Length)

        ' Create the reader using the same MemoryStream 
        ' as used with the writer.
        Dim binReader As New BinaryReader(memStream)

        ' Set Position to the beginning of the stream.
        memStream.Position = 0

        ' Read the data from memory and write it to the console.
        Console.Write(binReader.ReadString())
        Dim upperBound As Integer = _
            CInt(memStream.Length - memStream.Position) - 1
        Dim memoryData(upperBound) As Char
        binReader.Read(memoryData, 0, upperBound)
        Console.WriteLine(memoryData)
    
    End Sub
End Class

注解

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Byte[], Int32, Int32)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将字节数组区域写入当前流。

public:
 virtual void Write(cli::array <System::Byte> ^ buffer, int index, int count);
public virtual void Write (byte[] buffer, int index, int count);
abstract member Write : byte[] * int * int -> unit
override this.Write : byte[] * int * int -> unit
Public Overridable Sub Write (buffer As Byte(), index As Integer, count As Integer)

参数

buffer
Byte[]

包含要写入的数据的字节数组。

index
Int32

要从 buffer 中读取且要写入流的第一个字节的索引。

count
Int32

要从 buffer 中读取且要写入流的字节数。

例外

缓冲区长度减去 index 小于 count

buffernull

indexcount 为负数。

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何使用内存作为后备存储来编写二进制数据,然后验证数据是否已正确写入。

using System;
using System.IO;

namespace BinaryRW
{
    class Program
    {
        static void Main(string[] args)
        {
            const int arrayLength = 1000;
            byte[] dataArray = new byte[arrayLength];
            byte[] verifyArray = new byte[arrayLength];

            new Random().NextBytes(dataArray);

            using (BinaryWriter binWriter = new BinaryWriter(new MemoryStream()))
            {
                Console.WriteLine("Writing the data.");
                binWriter.Write(dataArray, 0, arrayLength);

                using (BinaryReader binReader = new BinaryReader(binWriter.BaseStream))
                {
                    binReader.BaseStream.Position = 0;

                    if (binReader.Read(verifyArray, 0, arrayLength) != arrayLength)
                    {
                        Console.WriteLine("Error writing the data.");
                        return;
                    }
                }
            }

            for (int i = 0; i < arrayLength; i++)
            {
                if (verifyArray[i] != dataArray[i])
                {
                    Console.WriteLine("Error writing the data.");
                    return;
                }
            }

            Console.WriteLine("The data was written and verified.");
        }
    }
}
open System
open System.IO

let arrayLength = 1000
let dataArray = Array.zeroCreate<byte> arrayLength
let verifyArray = Array.zeroCreate<byte> arrayLength

Random().NextBytes dataArray

do
    use binWriter = new BinaryWriter(new MemoryStream())
    printfn "Writing the data."
    binWriter.Write(dataArray, 0, arrayLength)

    use binReader = new BinaryReader(binWriter.BaseStream)
    binReader.BaseStream.Position <- 0

    if binReader.Read(verifyArray, 0, arrayLength) <> arrayLength then
        printfn "Error writing the data."
    else
        for i = 0 to arrayLength - 1 do
            if verifyArray[i] <> dataArray[i] then
                printfn "Error writing the data."
            else
                printfn "The data was written and verified."
Imports System.IO

Module Module1

    Sub Main()
        Const upperBound As Integer = 1000
        Dim dataArray(upperBound) As Byte
        Dim verifyArray(upperBound) As Byte

        Dim randomGenerator As New Random
        randomGenerator.NextBytes(dataArray)

        Using binWriter As New BinaryWriter(New MemoryStream())
            Console.WriteLine("Writing the data.")
            binWriter.Write(dataArray, 0, dataArray.Length)

            Using binReader As New BinaryReader(binWriter.BaseStream)
                binReader.BaseStream.Position = 0

                If binReader.Read(verifyArray, 0, dataArray.Length) <> dataArray.Length Then
                    Console.WriteLine("Error writing the data.")
                    Return
                End If
            End Using
        End Using

        For i As Integer = 0 To upperBound
            If verifyArray(i) <> dataArray(i) Then
                Console.WriteLine("Error writing the data.")
                Return
            End If
        Next i

        Console.WriteLine("The data was written and verified.")
    End Sub

End Module

注解

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(UInt64)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

重要

此 API 不符合 CLS。

将 8 字节无符号整数写入当前流,并将流的位置提升 8 个字节。

public:
 virtual void Write(System::UInt64 value);
[System.CLSCompliant(false)]
public virtual void Write (ulong value);
[<System.CLSCompliant(false)>]
abstract member Write : uint64 -> unit
override this.Write : uint64 -> unit
Public Overridable Sub Write (value As ULong)

参数

value
UInt64

要写入的 8 字节无符号整数。

属性

例外

出现 I/O 错误。

流已关闭。

注解

BinaryWriter 以 little endian 格式存储此数据类型。

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(UInt32)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

重要

此 API 不符合 CLS。

将 4 字节无符号整数写入当前流,并将流的位置提升 4 个字节。

public:
 virtual void Write(System::UInt32 value);
[System.CLSCompliant(false)]
public virtual void Write (uint value);
[<System.CLSCompliant(false)>]
abstract member Write : uint32 -> unit
override this.Write : uint32 -> unit
Public Overridable Sub Write (value As UInteger)

参数

value
UInt32

要写入的 4 字节无符号整数。

属性

例外

出现 I/O 错误。

流已关闭。

注解

BinaryWriter 以 little endian 格式存储此数据类型。

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(UInt16)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

重要

此 API 不符合 CLS。

将 2 字节无符号整数写入当前流,并将流的位置提升 2 个字节。

public:
 virtual void Write(System::UInt16 value);
[System.CLSCompliant(false)]
public virtual void Write (ushort value);
[<System.CLSCompliant(false)>]
abstract member Write : uint16 -> unit
override this.Write : uint16 -> unit
Public Overridable Sub Write (value As UShort)

参数

value
UInt16

要写入的 2 字节无符号整数。

属性

例外

出现 I/O 错误。

流已关闭。

注解

BinaryWriter 以 little endian 格式存储此数据类型。

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(String)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将有长度前缀的字符串按 BinaryWriter 的当前编码写入此流,并根据所使用的编码和写入流的特定字符,提升流的当前位置。

public:
 virtual void Write(System::String ^ value);
public virtual void Write (string value);
abstract member Write : string -> unit
override this.Write : string -> unit
Public Overridable Sub Write (value As String)

参数

value
String

要写入的值。

例外

出现 I/O 错误。

valuenull

流已关闭。

示例

下面的代码示例演示如何在文件中存储和检索应用程序设置。

using System;
using System.IO;
using System.Text;

class ConsoleApplication
{
    const string fileName = "AppSettings.dat";

    static void Main()
    {
        WriteDefaultValues();
        DisplayValues();
    }

    public static void WriteDefaultValues()
    {
        using (var stream = File.Open(fileName, FileMode.Create))
        {
            using (var writer = new BinaryWriter(stream, Encoding.UTF8, false))
            {
                writer.Write(1.250F);
                writer.Write(@"c:\Temp");
                writer.Write(10);
                writer.Write(true);
            }
        }
    }

    public static void DisplayValues()
    {
        float aspectRatio;
        string tempDirectory;
        int autoSaveTime;
        bool showStatusBar;

        if (File.Exists(fileName))
        {
            using (var stream = File.Open(fileName, FileMode.Open))
            {
                using (var reader = new BinaryReader(stream, Encoding.UTF8, false))
                {
                    aspectRatio = reader.ReadSingle();
                    tempDirectory = reader.ReadString();
                    autoSaveTime = reader.ReadInt32();
                    showStatusBar = reader.ReadBoolean();
                }
            }

            Console.WriteLine("Aspect ratio set to: " + aspectRatio);
            Console.WriteLine("Temp directory is: " + tempDirectory);
            Console.WriteLine("Auto save time set to: " + autoSaveTime);
            Console.WriteLine("Show status bar: " + showStatusBar);
        }
    }
}
open System.IO
open System.Text

let fileName = "AppSettings.dat"

let writeDefaultValues () =
    use stream = File.Open(fileName, FileMode.Create)
    use writer = new BinaryWriter(stream, Encoding.UTF8, false)
    writer.Write 1.250F
    writer.Write @"c:\Temp"
    writer.Write 10
    writer.Write true

let displayValues () =
    if File.Exists fileName then
        use stream = File.Open(fileName, FileMode.Open)
        use reader = new BinaryReader(stream, Encoding.UTF8, false)
        let aspectRatio = reader.ReadSingle()
        let tempDirectory = reader.ReadString()
        let autoSaveTime = reader.ReadInt32()
        let showStatusBar = reader.ReadBoolean()

        printfn $"Aspect ratio set to: {aspectRatio}"
        printfn $"Temp directory is: {tempDirectory}"
        printfn $"Auto save time set to: {autoSaveTime}"
        printfn $"Show status bar: {showStatusBar}"

writeDefaultValues ()
displayValues ()
Imports System.IO

Module Module1
    Const fileName As String = "AppSettings.dat"

    Sub Main()
        WriteDefaultValues()
        DisplayValues()
    End Sub

    Sub WriteDefaultValues()
        Using writer As BinaryWriter = New BinaryWriter(File.Open(fileName, FileMode.Create))
            writer.Write(1.25F)
            writer.Write("c:\Temp")
            writer.Write(10)
            writer.Write(True)
        End Using
    End Sub

    Sub DisplayValues()
        Dim aspectRatio As Single
        Dim tempDirectory As String
        Dim autoSaveTime As Integer
        Dim showStatusBar As Boolean

        If (File.Exists(fileName)) Then

            Using reader As BinaryReader = New BinaryReader(File.Open(fileName, FileMode.Open))
                aspectRatio = reader.ReadSingle()
                tempDirectory = reader.ReadString()
                autoSaveTime = reader.ReadInt32()
                showStatusBar = reader.ReadBoolean()
            End Using

            Console.WriteLine("Aspect ratio set to: " & aspectRatio)
            Console.WriteLine("Temp directory is: " & tempDirectory)
            Console.WriteLine("Auto save time set to: " & autoSaveTime)
            Console.WriteLine("Show status bar: " & showStatusBar)
        End If
    End Sub

End Module

注解

长度前缀表示此方法首先使用实例的当前编码编码 BinaryWriter 将字符串的长度(以字节为单位)写入流。 此值写入为无符号整数。 然后,此方法会将该多个字节写入流。

例如,字符串“A”的长度为 1,但当使用 UTF-16 进行编码时;长度为 2 个字节,因此在前缀中写入的值为 2,将 3 个字节写入流,包括前缀。

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Single)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将 4 字节浮点值写入当前流,并将流的位置提升 4 个字节。

public:
 virtual void Write(float value);
public virtual void Write (float value);
abstract member Write : single -> unit
override this.Write : single -> unit
Public Overridable Sub Write (value As Single)

参数

value
Single

要写入的 4 字节浮点值。

例外

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何在文件中存储和检索应用程序设置。

using System;
using System.IO;
using System.Text;

class ConsoleApplication
{
    const string fileName = "AppSettings.dat";

    static void Main()
    {
        WriteDefaultValues();
        DisplayValues();
    }

    public static void WriteDefaultValues()
    {
        using (var stream = File.Open(fileName, FileMode.Create))
        {
            using (var writer = new BinaryWriter(stream, Encoding.UTF8, false))
            {
                writer.Write(1.250F);
                writer.Write(@"c:\Temp");
                writer.Write(10);
                writer.Write(true);
            }
        }
    }

    public static void DisplayValues()
    {
        float aspectRatio;
        string tempDirectory;
        int autoSaveTime;
        bool showStatusBar;

        if (File.Exists(fileName))
        {
            using (var stream = File.Open(fileName, FileMode.Open))
            {
                using (var reader = new BinaryReader(stream, Encoding.UTF8, false))
                {
                    aspectRatio = reader.ReadSingle();
                    tempDirectory = reader.ReadString();
                    autoSaveTime = reader.ReadInt32();
                    showStatusBar = reader.ReadBoolean();
                }
            }

            Console.WriteLine("Aspect ratio set to: " + aspectRatio);
            Console.WriteLine("Temp directory is: " + tempDirectory);
            Console.WriteLine("Auto save time set to: " + autoSaveTime);
            Console.WriteLine("Show status bar: " + showStatusBar);
        }
    }
}
open System.IO
open System.Text

let fileName = "AppSettings.dat"

let writeDefaultValues () =
    use stream = File.Open(fileName, FileMode.Create)
    use writer = new BinaryWriter(stream, Encoding.UTF8, false)
    writer.Write 1.250F
    writer.Write @"c:\Temp"
    writer.Write 10
    writer.Write true

let displayValues () =
    if File.Exists fileName then
        use stream = File.Open(fileName, FileMode.Open)
        use reader = new BinaryReader(stream, Encoding.UTF8, false)
        let aspectRatio = reader.ReadSingle()
        let tempDirectory = reader.ReadString()
        let autoSaveTime = reader.ReadInt32()
        let showStatusBar = reader.ReadBoolean()

        printfn $"Aspect ratio set to: {aspectRatio}"
        printfn $"Temp directory is: {tempDirectory}"
        printfn $"Auto save time set to: {autoSaveTime}"
        printfn $"Show status bar: {showStatusBar}"

writeDefaultValues ()
displayValues ()
Imports System.IO

Module Module1
    Const fileName As String = "AppSettings.dat"

    Sub Main()
        WriteDefaultValues()
        DisplayValues()
    End Sub

    Sub WriteDefaultValues()
        Using writer As BinaryWriter = New BinaryWriter(File.Open(fileName, FileMode.Create))
            writer.Write(1.25F)
            writer.Write("c:\Temp")
            writer.Write(10)
            writer.Write(True)
        End Using
    End Sub

    Sub DisplayValues()
        Dim aspectRatio As Single
        Dim tempDirectory As String
        Dim autoSaveTime As Integer
        Dim showStatusBar As Boolean

        If (File.Exists(fileName)) Then

            Using reader As BinaryReader = New BinaryReader(File.Open(fileName, FileMode.Open))
                aspectRatio = reader.ReadSingle()
                tempDirectory = reader.ReadString()
                autoSaveTime = reader.ReadInt32()
                showStatusBar = reader.ReadBoolean()
            End Using

            Console.WriteLine("Aspect ratio set to: " & aspectRatio)
            Console.WriteLine("Temp directory is: " & tempDirectory)
            Console.WriteLine("Auto save time set to: " & autoSaveTime)
            Console.WriteLine("Show status bar: " & showStatusBar)
        End If
    End Sub

End Module

注解

BinaryWriter 以小 endian 格式存储此数据类型。

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(SByte)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

重要

此 API 不符合 CLS。

将一个带符号字节写入当前流,并将流的位置提升 1 个字节。

public:
 virtual void Write(System::SByte value);
[System.CLSCompliant(false)]
public virtual void Write (sbyte value);
[<System.CLSCompliant(false)>]
abstract member Write : sbyte -> unit
override this.Write : sbyte -> unit
Public Overridable Sub Write (value As SByte)

参数

value
SByte

要写入的带符号字节。

属性

例外

出现 I/O 错误。

流已关闭。

注解

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(ReadOnlySpan<Char>)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将一段字符写入当前流,并根据所使用的 Encoding(可能还根据向流中写入的特定字符),提升流的当前位置。

public:
 virtual void Write(ReadOnlySpan<char> chars);
public virtual void Write (ReadOnlySpan<char> chars);
abstract member Write : ReadOnlySpan<char> -> unit
override this.Write : ReadOnlySpan<char> -> unit
Public Overridable Sub Write (chars As ReadOnlySpan(Of Char))

参数

chars
ReadOnlySpan<Char>

要写入的一个字符范围。

适用于

Write(ReadOnlySpan<Byte>)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将字节范围写入当前流。

public:
 virtual void Write(ReadOnlySpan<System::Byte> buffer);
public virtual void Write (ReadOnlySpan<byte> buffer);
abstract member Write : ReadOnlySpan<byte> -> unit
override this.Write : ReadOnlySpan<byte> -> unit
Public Overridable Sub Write (buffer As ReadOnlySpan(Of Byte))

参数

buffer
ReadOnlySpan<Byte>

要写入的字节范围。

适用于

Write(Int64)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将 8 字节带符号整数写入当前流,并将流的位置提升 8 个字节。

public:
 virtual void Write(long value);
public virtual void Write (long value);
abstract member Write : int64 -> unit
override this.Write : int64 -> unit
Public Overridable Sub Write (value As Long)

参数

value
Int64

要写入的 8 字节带符号整数。

例外

出现 I/O 错误。

流已关闭。

注解

BinaryWriter 以小 endian 格式存储此数据类型。

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Char[])

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将字符数组写入当前流,并根据所使用的 Encoding 和向流中写入的特定字符,提升流的当前位置。

public:
 virtual void Write(cli::array <char> ^ chars);
public virtual void Write (char[] chars);
abstract member Write : char[] -> unit
override this.Write : char[] -> unit
Public Overridable Sub Write (chars As Char())

参数

chars
Char[]

包含要写入的数据的字符数组。

例外

charsnull

流已关闭。

出现 I/O 错误。

示例

下面的代码示例演示如何使用内存作为后备存储读取和写入数据。

using namespace System;
using namespace System::IO;
int main()
{
   array<Char>^invalidPathChars = Path::InvalidPathChars;
   MemoryStream^ memStream = gcnew MemoryStream;
   BinaryWriter^ binWriter = gcnew BinaryWriter( memStream );
   
   // Write to memory.
   binWriter->Write( "Invalid file path characters are: " );
   binWriter->Write( Path::InvalidPathChars );
   
   // Create the reader using the same MemoryStream 
   // as used with the writer.
   BinaryReader^ binReader = gcnew BinaryReader( memStream );
   
   // Set Position to the beginning of the stream.
   binReader->BaseStream->Position = 0;
   
   // Read the data from memory and write it to the console.
   Console::Write( binReader->ReadString() );
   Console::WriteLine( binReader->ReadChars( (int)(memStream->Length - memStream->Position) ) );
}
using System;
using System.IO;

class BinaryRW
{
    static void Main()
    {
        char[] invalidPathChars = Path.InvalidPathChars;
        MemoryStream memStream = new MemoryStream();
        BinaryWriter binWriter = new BinaryWriter(memStream);

        // Write to memory.
        binWriter.Write("Invalid file path characters are: ");
        binWriter.Write(Path.InvalidPathChars);

        // Create the reader using the same MemoryStream
        // as used with the writer.
        BinaryReader binReader = new BinaryReader(memStream);

        // Set Position to the beginning of the stream.
        memStream.Position = 0;

        // Read the data from memory and write it to the console.
        Console.Write(binReader.ReadString());
        Console.WriteLine(binReader.ReadChars(
            (int)(memStream.Length - memStream.Position)));
    }
}
open System.IO

let invalidPathChars = Path.GetInvalidPathChars()
let memStream = new MemoryStream()
let binWriter = new BinaryWriter(memStream)

// Write to memory.
binWriter.Write "Invalid file path characters are: "
binWriter.Write invalidPathChars

// Create the reader using the same MemoryStream
// as used with the writer.
let binReader = new BinaryReader(memStream)

// Set Position to the beginning of the stream.
memStream.Position <- 0

// Read the data from memory and write it to the console.
printf $"{binReader.ReadString()}"
printfn $"{binReader.ReadChars(int (memStream.Length - memStream.Position))}"
Imports System.IO

Public Class BinaryRW

    Shared Sub Main()
    
        Dim invalidPathChars() As Char = Path.InvalidPathChars
        Dim memStream As new MemoryStream()
        Dim binWriter As New BinaryWriter(memStream)

        ' Write to memory.
        binWriter.Write("Invalid file path characters are: ")
        binWriter.Write(Path.InvalidPathChars)

        ' Create the reader using the same MemoryStream 
        ' as used with the writer.
        Dim binReader As New BinaryReader(memStream)

        ' Set Position to the beginning of the stream.
        memStream.Position = 0

        ' Read the data from memory and write it to the console.
        Console.Write(binReader.ReadString())
        Console.WriteLine(binReader.ReadChars( _
            CInt(memStream.Length - memStream.Position)))
    
    End Sub
End Class

注解

下表列出了其他典型或相关 I/O 任务的示例。

若要执行此操作... 请参见本主题中的示例...
创建文本文件。 如何:将文本写入文件
写入文本文件。 如何:将文本写入文件
从文本文件读取。 如何:从文件中读取文本
将文本追加到文件。 如何:打开并追加到日志文件

File.AppendText

FileInfo.AppendText
获取文件的大小。 FileInfo.Length
获取文件的属性。 File.GetAttributes
设置文件的属性。 File.SetAttributes
确定文件是否存在。 File.Exists
从二进制文件读取。 如何:对新建的数据文件进行读取和写入
写入二进制文件。 如何:对新建的数据文件进行读取和写入

另请参阅

适用于

Write(Int16)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将 2 字节带符号整数写入当前流,并将流的位置提升 2 个字节。

public:
 virtual void Write(short value);
public virtual void Write (short value);
abstract member Write : int16 -> unit
override this.Write : int16 -> unit
Public Overridable Sub Write (value As Short)

参数

value
Int16

要写入的 2 字节带符号整数。

例外

出现 I/O 错误。

流已关闭。

注解

BinaryWriter 以小 endian 格式存储此数据类型。

下表列出了其他典型或相关 I/O 任务的示例。

若要执行此操作... 请参见本主题中的示例...
创建文本文件。 如何:将文本写入文件
写入文本文件。 如何:将文本写入文件
从文本文件读取。 如何:从文件中读取文本
将文本追加到文件。 如何:打开并追加到日志文件

File.AppendText

FileInfo.AppendText
获取文件的大小。 FileInfo.Length
获取文件的属性。 File.GetAttributes
设置文件的属性。 File.SetAttributes
确定文件是否存在。 File.Exists
从二进制文件读取。 如何:对新建的数据文件进行读取和写入
写入二进制文件。 如何:对新建的数据文件进行读取和写入

另请参阅

适用于

Write(Half)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将两字节浮点值写入当前流,并将流位置提升两个字节。

public:
 virtual void Write(Half value);
public virtual void Write (Half value);
abstract member Write : Half -> unit
override this.Write : Half -> unit
Public Overridable Sub Write (value As Half)

参数

value
Half

要写入的两字节浮点值。

例外

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何使用 类顶部的 BinaryReaderMemoryStream 和 类将数据读取和BinaryWriter写入Double内存。 MemoryStream 仅读取和写入 Byte 数据。

using namespace System;
using namespace System::IO;
int main()
{
   int i;
   const int arrayLength = 1000;
   
   // Create random data to write to the stream.
   array<double>^dataArray = gcnew array<double>(arrayLength);
   Random^ randomGenerator = gcnew Random;
   for ( i = 0; i < arrayLength; i++ )
   {
      dataArray[ i ] = 100.1 * randomGenerator->NextDouble();

   }
   BinaryWriter^ binWriter = gcnew BinaryWriter( gcnew MemoryStream );
   try
   {
      
      // Write data to the stream.
      Console::WriteLine( "Writing data to the stream." );
      i = 0;
      for ( i = 0; i < arrayLength; i++ )
      {
         binWriter->Write( dataArray[ i ] );

      }
      
      // Create a reader using the stream from the writer.
      BinaryReader^ binReader = gcnew BinaryReader( binWriter->BaseStream );
      
      // Return to the beginning of the stream.
      binReader->BaseStream->Position = 0;
      try
      {
         
         // Read and verify the data.
         i = 0;
         Console::WriteLine( "Verifying the written data." );
         for ( i = 0; i < arrayLength; i++ )
         {
            if ( binReader->ReadDouble() != dataArray[ i ] )
            {
               Console::WriteLine( "Error writing data." );
               break;
            }

         }
         Console::WriteLine( "The data was written and verified." );
      }
      catch ( EndOfStreamException^ e ) 
      {
         Console::WriteLine( "Error writing data: {0}.", e->GetType()->Name );
      }

   }
   finally
   {
      binWriter->Close();
   }

}
using System;
using System.IO;

class BinaryRW
{
    static void Main()
    {
        int i;
        const int arrayLength = 1000;

        // Create random data to write to the stream.
        Random randomGenerator = new Random();
        double[] dataArray = new double[arrayLength];
        for(i = 0; i < arrayLength; i++)
        {
            dataArray[i] = 100.1 * randomGenerator.NextDouble();
        }

        using(BinaryWriter binWriter =
            new BinaryWriter(new MemoryStream()))
        {
            // Write the data to the stream.
            Console.WriteLine("Writing data to the stream.");
            for(i = 0; i < arrayLength; i++)
            {
                binWriter.Write(dataArray[i]);
            }

            // Create a reader using the stream from the writer.
            using(BinaryReader binReader =
                new BinaryReader(binWriter.BaseStream))
            {
                try
                {
                    // Return to the beginning of the stream.
                    binReader.BaseStream.Position = 0;

                    // Read and verify the data.
                    Console.WriteLine("Verifying the written data.");
                    for(i = 0; i < arrayLength; i++)
                    {
                        if(binReader.ReadDouble() != dataArray[i])
                        {
                            Console.WriteLine("Error writing data.");
                            break;
                        }
                    }
                    Console.WriteLine("The data was written " +
                        "and verified.");
                }
                catch(EndOfStreamException e)
                {
                    Console.WriteLine("Error writing data: {0}.",
                        e.GetType().Name);
                }
            }
        }
    }
}
open System
open System.IO

let arrayLength = 1000

// Create random data to write to the stream.
let randomGenerator = Random()
let dataArray = 
    Array.init arrayLength (fun _ -> 100.1 * randomGenerator.NextDouble())
do
    use binWriter = new BinaryWriter(new MemoryStream())
    // Write the data to the stream.
    printfn $"Writing data to the stream."
    for num in dataArray do
        binWriter.Write num

    // Create a reader using the stream from the writer.
    use binReader = new BinaryReader(binWriter.BaseStream)
    try
        // Return to the beginning of the stream.
        binReader.BaseStream.Position <- 0

        // Read and verify the data.
        printfn "Verifying the written data."
        for num in dataArray do
            if binReader.ReadDouble() <> num then
                printfn "Error writing data."
        printfn "The data was written and verified."
    with :? EndOfStreamException as e ->
        printfn $"Error writing data: {e.GetType().Name}."
Imports System.IO

Public Class BinaryRW

    Shared Sub Main()
    
        Dim i As Integer
        Const upperBound As Integer = 1000

        ' Create random data to write to the stream.
        Dim dataArray(upperBound) As Double
        Dim randomGenerator As New Random()
        For i = 0 To upperBound
            dataArray(i) = 100.1 * randomGenerator.NextDouble()
        Next i

        Dim binWriter As New BinaryWriter(New MemoryStream())
        Try

            ' Write data to the stream.
            Console.WriteLine("Writing data to the stream.")
            
            For i = 0 To upperBound
                binWriter.Write(dataArray(i))
            Next i

            ' Create a reader using the stream from the writer.
            Dim binReader As New BinaryReader(binWriter.BaseStream)

            ' Return to the beginning of the stream.
            binReader.BaseStream.Position = 0

            ' Read and verify the data.
            Try
                Console.WriteLine("Verifying the written data.")
                For i = 0 To upperBound
                    If binReader.ReadDouble() <> dataArray(i) Then
                        Console.WriteLine("Error writing data.")
                        Exit For
                    End If
                Next i
                Console.WriteLine("The data was written and verified.")
            Catch ex As EndOfStreamException
                Console.WriteLine("Error writing data: {0}.", _
                    ex.GetType().Name)
            End Try
        Finally
            binWriter.Close()
        End Try

    End Sub
End Class

注解

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Double)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将 8 字节浮点值写入当前流,并将流的位置提升 8 个字节。

public:
 virtual void Write(double value);
public virtual void Write (double value);
abstract member Write : double -> unit
override this.Write : double -> unit
Public Overridable Sub Write (value As Double)

参数

value
Double

要写入的 8 字节浮点值。

例外

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何使用 类顶部的 BinaryReaderMemoryStream 和 类将数据读取和BinaryWriter写入Double内存。 MemoryStream 仅读取和写入 Byte 数据。

using namespace System;
using namespace System::IO;
int main()
{
   int i;
   const int arrayLength = 1000;
   
   // Create random data to write to the stream.
   array<double>^dataArray = gcnew array<double>(arrayLength);
   Random^ randomGenerator = gcnew Random;
   for ( i = 0; i < arrayLength; i++ )
   {
      dataArray[ i ] = 100.1 * randomGenerator->NextDouble();

   }
   BinaryWriter^ binWriter = gcnew BinaryWriter( gcnew MemoryStream );
   try
   {
      
      // Write data to the stream.
      Console::WriteLine( "Writing data to the stream." );
      i = 0;
      for ( i = 0; i < arrayLength; i++ )
      {
         binWriter->Write( dataArray[ i ] );

      }
      
      // Create a reader using the stream from the writer.
      BinaryReader^ binReader = gcnew BinaryReader( binWriter->BaseStream );
      
      // Return to the beginning of the stream.
      binReader->BaseStream->Position = 0;
      try
      {
         
         // Read and verify the data.
         i = 0;
         Console::WriteLine( "Verifying the written data." );
         for ( i = 0; i < arrayLength; i++ )
         {
            if ( binReader->ReadDouble() != dataArray[ i ] )
            {
               Console::WriteLine( "Error writing data." );
               break;
            }

         }
         Console::WriteLine( "The data was written and verified." );
      }
      catch ( EndOfStreamException^ e ) 
      {
         Console::WriteLine( "Error writing data: {0}.", e->GetType()->Name );
      }

   }
   finally
   {
      binWriter->Close();
   }

}
using System;
using System.IO;

class BinaryRW
{
    static void Main()
    {
        int i;
        const int arrayLength = 1000;

        // Create random data to write to the stream.
        Random randomGenerator = new Random();
        double[] dataArray = new double[arrayLength];
        for(i = 0; i < arrayLength; i++)
        {
            dataArray[i] = 100.1 * randomGenerator.NextDouble();
        }

        using(BinaryWriter binWriter =
            new BinaryWriter(new MemoryStream()))
        {
            // Write the data to the stream.
            Console.WriteLine("Writing data to the stream.");
            for(i = 0; i < arrayLength; i++)
            {
                binWriter.Write(dataArray[i]);
            }

            // Create a reader using the stream from the writer.
            using(BinaryReader binReader =
                new BinaryReader(binWriter.BaseStream))
            {
                try
                {
                    // Return to the beginning of the stream.
                    binReader.BaseStream.Position = 0;

                    // Read and verify the data.
                    Console.WriteLine("Verifying the written data.");
                    for(i = 0; i < arrayLength; i++)
                    {
                        if(binReader.ReadDouble() != dataArray[i])
                        {
                            Console.WriteLine("Error writing data.");
                            break;
                        }
                    }
                    Console.WriteLine("The data was written " +
                        "and verified.");
                }
                catch(EndOfStreamException e)
                {
                    Console.WriteLine("Error writing data: {0}.",
                        e.GetType().Name);
                }
            }
        }
    }
}
open System
open System.IO

let arrayLength = 1000

// Create random data to write to the stream.
let randomGenerator = Random()
let dataArray = 
    Array.init arrayLength (fun _ -> 100.1 * randomGenerator.NextDouble())
do
    use binWriter = new BinaryWriter(new MemoryStream())
    // Write the data to the stream.
    printfn $"Writing data to the stream."
    for num in dataArray do
        binWriter.Write num

    // Create a reader using the stream from the writer.
    use binReader = new BinaryReader(binWriter.BaseStream)
    try
        // Return to the beginning of the stream.
        binReader.BaseStream.Position <- 0

        // Read and verify the data.
        printfn "Verifying the written data."
        for num in dataArray do
            if binReader.ReadDouble() <> num then
                printfn "Error writing data."
        printfn "The data was written and verified."
    with :? EndOfStreamException as e ->
        printfn $"Error writing data: {e.GetType().Name}."
Imports System.IO

Public Class BinaryRW

    Shared Sub Main()
    
        Dim i As Integer
        Const upperBound As Integer = 1000

        ' Create random data to write to the stream.
        Dim dataArray(upperBound) As Double
        Dim randomGenerator As New Random()
        For i = 0 To upperBound
            dataArray(i) = 100.1 * randomGenerator.NextDouble()
        Next i

        Dim binWriter As New BinaryWriter(New MemoryStream())
        Try

            ' Write data to the stream.
            Console.WriteLine("Writing data to the stream.")
            
            For i = 0 To upperBound
                binWriter.Write(dataArray(i))
            Next i

            ' Create a reader using the stream from the writer.
            Dim binReader As New BinaryReader(binWriter.BaseStream)

            ' Return to the beginning of the stream.
            binReader.BaseStream.Position = 0

            ' Read and verify the data.
            Try
                Console.WriteLine("Verifying the written data.")
                For i = 0 To upperBound
                    If binReader.ReadDouble() <> dataArray(i) Then
                        Console.WriteLine("Error writing data.")
                        Exit For
                    End If
                Next i
                Console.WriteLine("The data was written and verified.")
            Catch ex As EndOfStreamException
                Console.WriteLine("Error writing data: {0}.", _
                    ex.GetType().Name)
            End Try
        Finally
            binWriter.Close()
        End Try

    End Sub
End Class

注解

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Decimal)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将一个十进制值写入当前流,并将流位置提升十六个字节。

public:
 virtual void Write(System::Decimal value);
public virtual void Write (decimal value);
abstract member Write : decimal -> unit
override this.Write : decimal -> unit
Public Overridable Sub Write (value As Decimal)

参数

value
Decimal

要写入的十进制值。

例外

出现 I/O 错误。

流已关闭。

注解

下表列出了其他典型或相关 I/O 任务的示例。

若要执行此操作... 请参见本主题中的示例...
创建文本文件。 如何:将文本写入文件
写入文本文件。 如何:将文本写入文件
从文本文件读取。 如何:从文件中读取文本
将文本追加到文件。 如何:打开并追加到日志文件

File.AppendText

FileInfo.AppendText
获取文件的大小。 FileInfo.Length
获取文件的属性。 File.GetAttributes
设置文件的属性。 File.SetAttributes
确定文件是否存在。 File.Exists
从二进制文件读取。 如何:对新建的数据文件进行读取和写入
写入二进制文件。 如何:对新建的数据文件进行读取和写入

另请参阅

适用于

Write(Char)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将 Unicode 字符写入当前流,并根据所使用的 Encoding 和向流中写入的特定字符,提升流的当前位置。

public:
 virtual void Write(char ch);
public virtual void Write (char ch);
abstract member Write : char -> unit
override this.Write : char -> unit
Public Overridable Sub Write (ch As Char)

参数

ch
Char

要写入的非代理项 Unicode 字符。

例外

出现 I/O 错误。

流已关闭。

ch 是单一代理项字符。

示例

下面的代码示例演示如何使用内存作为后备存储读取和写入数据。

using namespace System;
using namespace System::IO;
int main()
{
   int i;
   array<Char>^invalidPathChars = Path::InvalidPathChars;
   MemoryStream^ memStream = gcnew MemoryStream;
   BinaryWriter^ binWriter = gcnew BinaryWriter( memStream );
   
   // Write to memory.
   binWriter->Write( "Invalid file path characters are: " );
   for ( i = 0; i < invalidPathChars->Length; i++ )
   {
      binWriter->Write( invalidPathChars[ i ] );

   }
   
   // Create the reader using the same MemoryStream 
   // as used with the writer.
   BinaryReader^ binReader = gcnew BinaryReader( memStream );
   
   // Set Position to the beginning of the stream.
   binReader->BaseStream->Position = 0;
   
   // Read the data from memory and write it to the console.
   Console::Write( binReader->ReadString() );
   array<Char>^memoryData = gcnew array<Char>(memStream->Length - memStream->Position);
   for ( i = 0; i < memoryData->Length; i++ )
   {
      memoryData[ i ] = binReader->ReadChar();

   }
   Console::WriteLine( memoryData );
}
using System;
using System.IO;

class BinaryRW
{
    static void Main()
    {
        int i = 0;
        char[] invalidPathChars = Path.InvalidPathChars;
        MemoryStream memStream = new MemoryStream();
        BinaryWriter binWriter = new BinaryWriter(memStream);

        // Write to memory.
        binWriter.Write("Invalid file path characters are: ");
        for(i = 0; i < invalidPathChars.Length; i++)
        {
            binWriter.Write(invalidPathChars[i]);
        }

        // Create the reader using the same MemoryStream
        // as used with the writer.
        BinaryReader binReader = new BinaryReader(memStream);

        // Set Position to the beginning of the stream.
        memStream.Position = 0;

        // Read the data from memory and write it to the console.
        Console.Write(binReader.ReadString());
        char[] memoryData =
            new char[memStream.Length - memStream.Position];
        for(i = 0; i < memoryData.Length; i++)
        {
            memoryData[i] = binReader.ReadChar();
        }
        Console.WriteLine(memoryData);
    }
}
open System.IO

let invalidPathChars = Path.GetInvalidPathChars()
let memStream = new MemoryStream()
let binWriter = new BinaryWriter(memStream)

// Write to memory.
binWriter.Write "Invalid file path characters are: "
for i = 0 to invalidPathChars.Length - 1 do
    binWriter.Write invalidPathChars[i]

// Create the reader using the same MemoryStream
// as used with the writer.
let binReader = new BinaryReader(memStream)

// Set Position to the beginning of the stream.
memStream.Position <- 0

// Read the data from memory and write it to the console.
printf $"{binReader.ReadString()}"
let memoryData = Array.zeroCreate<char> (int (memStream.Length - memStream.Position))
for i = 0 to memoryData.Length - 1 do
    memoryData[i] <- binReader.ReadChar()
printfn $"{memoryData}"
Imports System.IO

Public Class BinaryRW

    Shared Sub Main()
    
        Dim i As Integer = 0
        Dim invalidPathChars() As Char = Path.InvalidPathChars
        Dim memStream As new MemoryStream()
        Dim binWriter As New BinaryWriter(memStream)

        ' Write to memory.
        binWriter.Write("Invalid file path characters are: ")
        For i = 0 To invalidPathChars.Length - 1
            binWriter.Write(invalidPathChars(i))
        Next i

        ' Create the reader using the same MemoryStream 
        ' as used with the writer.
        Dim binReader As New BinaryReader(memStream)

        ' Set Position to the beginning of the stream.
        memStream.Position = 0

        ' Read the data from memory and write it to the console.
        Console.Write(binReader.ReadString())
        Dim memoryData( _
            CInt(memStream.Length - memStream.Position) - 1) As Char
        For i = 0 To memoryData.Length - 1
            memoryData(i) = binReader.ReadChar()
        Next i
        Console.WriteLine(memoryData)
    
    End Sub
End Class

注解

由于数据格式设置冲突,不建议使用以下编码的此方法:

  • UTF-7

  • ISO-2022-JP

  • ISCII

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

Unicode 代理字符必须在同一调用中一起写成对,而不是单独写出。 如果需要在应用程序中支持代理项对,请考虑使用字符数组和 Write 方法重载。

另请参阅

适用于

Write(Byte[])

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将字节数组写入基础流。

public:
 virtual void Write(cli::array <System::Byte> ^ buffer);
public virtual void Write (byte[] buffer);
abstract member Write : byte[] -> unit
override this.Write : byte[] -> unit
Public Overridable Sub Write (buffer As Byte())

参数

buffer
Byte[]

包含要写入的数据的字节数组。

例外

出现 I/O 错误。

流已关闭。

buffernull

示例

下面的代码示例演示如何使用内存作为后备存储来编写二进制数据,然后验证数据是否已正确写入。

using namespace System;
using namespace System::IO;
int main()
{
   const int arrayLength = 1000;
   
   // Create random data to write to the stream.
   array<Byte>^dataArray = gcnew array<Byte>(arrayLength);
   (gcnew Random)->NextBytes( dataArray );
   BinaryWriter^ binWriter = gcnew BinaryWriter( gcnew MemoryStream );
   
   // Write the data to the stream.
   Console::WriteLine(  "Writing the data." );
   binWriter->Write( dataArray );
   
   // Create the reader using the stream from the writer.
   BinaryReader^ binReader = gcnew BinaryReader( binWriter->BaseStream );
   
   // Set the stream position to the beginning of the stream.
   binReader->BaseStream->Position = 0;
   
   // Read and verify the data.
   array<Byte>^verifyArray = binReader->ReadBytes( arrayLength );
   if ( verifyArray->Length != arrayLength )
   {
      Console::WriteLine( "Error writing the data." );
      return  -1;
   }

   for ( int i = 0; i < arrayLength; i++ )
   {
      if ( verifyArray[ i ] != dataArray[ i ] )
      {
         Console::WriteLine( "Error writing the data." );
         return  -1;
      }

   }
   Console::WriteLine( "The data was written and verified." );
}
using System;
using System.IO;

class BinaryRW
{
    static void Main()
    {
        const int arrayLength = 1000;

        // Create random data to write to the stream.
        byte[] dataArray = new byte[arrayLength];
        new Random().NextBytes(dataArray);

        BinaryWriter binWriter = new BinaryWriter(new MemoryStream());

        // Write the data to the stream.
        Console.WriteLine("Writing the data.");
        binWriter.Write(dataArray);

        // Create the reader using the stream from the writer.
        BinaryReader binReader =
            new BinaryReader(binWriter.BaseStream);

        // Set Position to the beginning of the stream.
        binReader.BaseStream.Position = 0;

        // Read and verify the data.
        byte[] verifyArray = binReader.ReadBytes(arrayLength);
        if(verifyArray.Length != arrayLength)
        {
            Console.WriteLine("Error writing the data.");
            return;
        }
        for(int i = 0; i < arrayLength; i++)
        {
            if(verifyArray[i] != dataArray[i])
            {
                Console.WriteLine("Error writing the data.");
                return;
            }
        }
        Console.WriteLine("The data was written and verified.");
    }
}
open System
open System.IO

let arrayLength = 1000

// Create random data to write to the stream.
let dataArray = Array.zeroCreate<byte> arrayLength
Random().NextBytes dataArray

let binWriter = new BinaryWriter(new MemoryStream())

// Write the data to the stream.ch
printfn "Writing the data."
binWriter.Write dataArray

// Create the reader using the stream from the writer.
let binReader = new BinaryReader(binWriter.BaseStream)

// Set Position to the beginning of the stream.
binReader.BaseStream.Position <- 0

// Read and verify the data.
let verifyArray = binReader.ReadBytes arrayLength
if verifyArray.Length <> arrayLength then
    printfn "Error writing the data."
else
    let mutable failed = false
    for i = 0 to arrayLength - 1 do
        if verifyArray[i] <> dataArray[i] then
            printfn "Error writing the data."
            failed <- true
    if not failed then
        printfn "The data was written and verified."
Imports System.IO

Public Class BinaryRW

    Shared Sub Main()
    
        Const upperBound As Integer = 1000

        ' Create random data to write to the stream.
        Dim dataArray(upperBound) As Byte
        Dim randomGenerator As New Random
        randomGenerator.NextBytes(dataArray)

        Dim binWriter As New BinaryWriter(New MemoryStream())

        ' Write the data to the stream.
        Console.WriteLine("Writing the data.")
        binWriter.Write(dataArray)

        ' Create the reader using the stream from the writer.
        Dim binReader As New BinaryReader(binWriter.BaseStream)

        ' Set the stream position to the beginning of the stream.
        binReader.BaseStream.Position = 0

        ' Read and verify the data.
        Dim verifyArray() As Byte = _
            binReader.ReadBytes(dataArray.Length)
        If verifyArray.Length <> dataArray.Length Then
            Console.WriteLine("Error writing the data.")
            Return
        End If
        For i As Integer = 0 To upperBound
            If verifyArray(i) <> dataArray(i) Then
                Console.WriteLine("Error writing the data.")
                Return
            End If
        Next i
        Console.WriteLine("The data was written and verified.")
    
    End Sub
End Class

注解

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Byte)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将一个无符号字节写入当前流,并将流的位置提升 1 个字节。

public:
 virtual void Write(System::Byte value);
public virtual void Write (byte value);
abstract member Write : byte -> unit
override this.Write : byte -> unit
Public Overridable Sub Write (value As Byte)

参数

value
Byte

要写入的无符号字节。

例外

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何使用内存作为后备存储来编写二进制数据,然后验证数据是否已正确写入。

using namespace System;
using namespace System::IO;
int main()
{
   int i = 0;
   
   // Create random data to write to the stream.
   array<Byte>^writeArray = gcnew array<Byte>(1000);
   (gcnew Random)->NextBytes( writeArray );
   BinaryWriter^ binWriter = gcnew BinaryWriter( gcnew MemoryStream );
   BinaryReader^ binReader = gcnew BinaryReader( binWriter->BaseStream );
   try
   {
      
      // Write the data to the stream.
      Console::WriteLine( "Writing the data." );
      for ( i = 0; i < writeArray->Length; i++ )
      {
         binWriter->Write( writeArray[ i ] );

      }
      
      // Set the stream position to the beginning of the stream.
      binReader->BaseStream->Position = 0;
      
      // Read and verify the data from the stream.
      for ( i = 0; i < writeArray->Length; i++ )
      {
         if ( binReader->ReadByte() != writeArray[ i ] )
         {
            Console::WriteLine( "Error writing the data." );
            return  -1;
         }

      }
      Console::WriteLine( "The data was written and verified." );
   }
   // Catch the EndOfStreamException and write an error message.
   catch ( EndOfStreamException^ e ) 
   {
      Console::WriteLine( "Error writing the data.\n{0}", e->GetType()->Name );
   }

}
using System;
using System.IO;

class BinaryRW
{
    static void Main()
    {
        int i = 0;

        // Create random data to write to the stream.
        byte[] writeArray = new byte[1000];
        new Random().NextBytes(writeArray);

        BinaryWriter binWriter = new BinaryWriter(new MemoryStream());
        BinaryReader binReader =
            new BinaryReader(binWriter.BaseStream);

        try
        {
            // Write the data to the stream.
            Console.WriteLine("Writing the data.");
            for(i = 0; i < writeArray.Length; i++)
            {
                binWriter.Write(writeArray[i]);
            }

            // Set the stream position to the beginning of the stream.
            binReader.BaseStream.Position = 0;

            // Read and verify the data from the stream.
            for(i = 0; i < writeArray.Length; i++)
            {
                if(binReader.ReadByte() != writeArray[i])
                {
                    Console.WriteLine("Error writing the data.");
                    return;
                }
            }
            Console.WriteLine("The data was written and verified.");
        }

        // Catch the EndOfStreamException and write an error message.
        catch(EndOfStreamException e)
        {
            Console.WriteLine("Error writing the data.\n{0}",
                e.GetType().Name);
        }
    }
}
open System
open System.IO

// Create random data to write to the stream.
let writeArray = Array.zeroCreate<byte> 1000
Random().NextBytes writeArray

let binWriter = new BinaryWriter(new MemoryStream())
let binReader = new BinaryReader(binWriter.BaseStream)

try
    // Write the data to the stream.
    printfn "Writing the data."
    for i = 0 to writeArray.Length - 1 do
        binWriter.Write writeArray[i]

    // Set the stream position to the beginning of the stream.
    binReader.BaseStream.Position <- 0

    let mutable failed = false
    // Read and verify the data from the stream.
    for i = 0 to writeArray.Length - 1 do
        if binReader.ReadByte() <> writeArray[i] then
            printfn "Error writing the data."
            failed <- true
    if not failed then
        printfn "The data was written and verified."

// Catch the EndOfStreamException and write an error message.
with :? EndOfStreamException as e ->
    printfn $"Error writing the data.\n{e.GetType().Name}"
Imports System.IO

Public Class BinaryRW

    Shared Sub Main()
    
        Dim i As Integer = 0

        ' Create random data to write to the stream.
        Dim writeArray(1000) As Byte
        Dim randomGenerator As New Random()
        randomGenerator.NextBytes(writeArray)

        Dim binWriter As New BinaryWriter(New MemoryStream())
        Dim binReader As New BinaryReader(binWriter.BaseStream)

        Try
        
            ' Write the data to the stream.
            Console.WriteLine("Writing the data.")
            For i = 0 To writeArray.Length - 1
                binWriter.Write(writeArray(i))
            Next i

            ' Set the stream position to the beginning of the stream.
            binReader.BaseStream.Position = 0

            ' Read and verify the data from the stream.
            For i = 0 To writeArray.Length - 1
                If binReader.ReadByte() <> writeArray(i) Then
                    Console.WriteLine("Error writing the data.")
                    Return
                End If
            Next i
            Console.WriteLine("The data was written and verified.")

        ' Catch the EndOfStreamException and write an error message.
        Catch ex As EndOfStreamException
            Console.WriteLine("Error writing the data: {0}", _
                ex.GetType().Name)
        End Try
    
    End Sub
End Class

注解

由于数据格式设置冲突,不建议使用以下编码的此方法:

  • UTF-7

  • ISO-2022-JP

  • ISCII

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Boolean)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将单字节 Boolean 值写入当前流,其中 0 表示 false,1 表示 true

public:
 virtual void Write(bool value);
public virtual void Write (bool value);
abstract member Write : bool -> unit
override this.Write : bool -> unit
Public Overridable Sub Write (value As Boolean)

参数

value
Boolean

要写入的 Boolean 值(0 或 1)。

例外

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何在文件中存储和检索应用程序设置。

using System;
using System.IO;
using System.Text;

class ConsoleApplication
{
    const string fileName = "AppSettings.dat";

    static void Main()
    {
        WriteDefaultValues();
        DisplayValues();
    }

    public static void WriteDefaultValues()
    {
        using (var stream = File.Open(fileName, FileMode.Create))
        {
            using (var writer = new BinaryWriter(stream, Encoding.UTF8, false))
            {
                writer.Write(1.250F);
                writer.Write(@"c:\Temp");
                writer.Write(10);
                writer.Write(true);
            }
        }
    }

    public static void DisplayValues()
    {
        float aspectRatio;
        string tempDirectory;
        int autoSaveTime;
        bool showStatusBar;

        if (File.Exists(fileName))
        {
            using (var stream = File.Open(fileName, FileMode.Open))
            {
                using (var reader = new BinaryReader(stream, Encoding.UTF8, false))
                {
                    aspectRatio = reader.ReadSingle();
                    tempDirectory = reader.ReadString();
                    autoSaveTime = reader.ReadInt32();
                    showStatusBar = reader.ReadBoolean();
                }
            }

            Console.WriteLine("Aspect ratio set to: " + aspectRatio);
            Console.WriteLine("Temp directory is: " + tempDirectory);
            Console.WriteLine("Auto save time set to: " + autoSaveTime);
            Console.WriteLine("Show status bar: " + showStatusBar);
        }
    }
}
open System.IO
open System.Text

let fileName = "AppSettings.dat"

let writeDefaultValues () =
    use stream = File.Open(fileName, FileMode.Create)
    use writer = new BinaryWriter(stream, Encoding.UTF8, false)
    writer.Write 1.250F
    writer.Write @"c:\Temp"
    writer.Write 10
    writer.Write true

let displayValues () =
    if File.Exists fileName then
        use stream = File.Open(fileName, FileMode.Open)
        use reader = new BinaryReader(stream, Encoding.UTF8, false)
        let aspectRatio = reader.ReadSingle()
        let tempDirectory = reader.ReadString()
        let autoSaveTime = reader.ReadInt32()
        let showStatusBar = reader.ReadBoolean()

        printfn $"Aspect ratio set to: {aspectRatio}"
        printfn $"Temp directory is: {tempDirectory}"
        printfn $"Auto save time set to: {autoSaveTime}"
        printfn $"Show status bar: {showStatusBar}"

writeDefaultValues ()
displayValues ()
Imports System.IO

Module Module1
    Const fileName As String = "AppSettings.dat"

    Sub Main()
        WriteDefaultValues()
        DisplayValues()
    End Sub

    Sub WriteDefaultValues()
        Using writer As BinaryWriter = New BinaryWriter(File.Open(fileName, FileMode.Create))
            writer.Write(1.25F)
            writer.Write("c:\Temp")
            writer.Write(10)
            writer.Write(True)
        End Using
    End Sub

    Sub DisplayValues()
        Dim aspectRatio As Single
        Dim tempDirectory As String
        Dim autoSaveTime As Integer
        Dim showStatusBar As Boolean

        If (File.Exists(fileName)) Then

            Using reader As BinaryReader = New BinaryReader(File.Open(fileName, FileMode.Open))
                aspectRatio = reader.ReadSingle()
                tempDirectory = reader.ReadString()
                autoSaveTime = reader.ReadInt32()
                showStatusBar = reader.ReadBoolean()
            End Using

            Console.WriteLine("Aspect ratio set to: " & aspectRatio)
            Console.WriteLine("Temp directory is: " & tempDirectory)
            Console.WriteLine("Auto save time set to: " & autoSaveTime)
            Console.WriteLine("Show status bar: " & showStatusBar)
        End If
    End Sub

End Module

注解

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于

Write(Int32)

Source:
BinaryWriter.cs
Source:
BinaryWriter.cs
Source:
BinaryWriter.cs

将 4 字节带符号整数写入当前流,并将流的位置提升 4 个字节。

public:
 virtual void Write(int value);
public virtual void Write (int value);
abstract member Write : int -> unit
override this.Write : int -> unit
Public Overridable Sub Write (value As Integer)

参数

value
Int32

要写入的 4 字节带符号整数。

例外

出现 I/O 错误。

流已关闭。

示例

下面的代码示例演示如何在文件中存储和检索应用程序设置。

using System;
using System.IO;
using System.Text;

class ConsoleApplication
{
    const string fileName = "AppSettings.dat";

    static void Main()
    {
        WriteDefaultValues();
        DisplayValues();
    }

    public static void WriteDefaultValues()
    {
        using (var stream = File.Open(fileName, FileMode.Create))
        {
            using (var writer = new BinaryWriter(stream, Encoding.UTF8, false))
            {
                writer.Write(1.250F);
                writer.Write(@"c:\Temp");
                writer.Write(10);
                writer.Write(true);
            }
        }
    }

    public static void DisplayValues()
    {
        float aspectRatio;
        string tempDirectory;
        int autoSaveTime;
        bool showStatusBar;

        if (File.Exists(fileName))
        {
            using (var stream = File.Open(fileName, FileMode.Open))
            {
                using (var reader = new BinaryReader(stream, Encoding.UTF8, false))
                {
                    aspectRatio = reader.ReadSingle();
                    tempDirectory = reader.ReadString();
                    autoSaveTime = reader.ReadInt32();
                    showStatusBar = reader.ReadBoolean();
                }
            }

            Console.WriteLine("Aspect ratio set to: " + aspectRatio);
            Console.WriteLine("Temp directory is: " + tempDirectory);
            Console.WriteLine("Auto save time set to: " + autoSaveTime);
            Console.WriteLine("Show status bar: " + showStatusBar);
        }
    }
}
open System.IO
open System.Text

let fileName = "AppSettings.dat"

let writeDefaultValues () =
    use stream = File.Open(fileName, FileMode.Create)
    use writer = new BinaryWriter(stream, Encoding.UTF8, false)
    writer.Write 1.250F
    writer.Write @"c:\Temp"
    writer.Write 10
    writer.Write true

let displayValues () =
    if File.Exists fileName then
        use stream = File.Open(fileName, FileMode.Open)
        use reader = new BinaryReader(stream, Encoding.UTF8, false)
        let aspectRatio = reader.ReadSingle()
        let tempDirectory = reader.ReadString()
        let autoSaveTime = reader.ReadInt32()
        let showStatusBar = reader.ReadBoolean()

        printfn $"Aspect ratio set to: {aspectRatio}"
        printfn $"Temp directory is: {tempDirectory}"
        printfn $"Auto save time set to: {autoSaveTime}"
        printfn $"Show status bar: {showStatusBar}"

writeDefaultValues ()
displayValues ()
Imports System.IO

Module Module1
    Const fileName As String = "AppSettings.dat"

    Sub Main()
        WriteDefaultValues()
        DisplayValues()
    End Sub

    Sub WriteDefaultValues()
        Using writer As BinaryWriter = New BinaryWriter(File.Open(fileName, FileMode.Create))
            writer.Write(1.25F)
            writer.Write("c:\Temp")
            writer.Write(10)
            writer.Write(True)
        End Using
    End Sub

    Sub DisplayValues()
        Dim aspectRatio As Single
        Dim tempDirectory As String
        Dim autoSaveTime As Integer
        Dim showStatusBar As Boolean

        If (File.Exists(fileName)) Then

            Using reader As BinaryReader = New BinaryReader(File.Open(fileName, FileMode.Open))
                aspectRatio = reader.ReadSingle()
                tempDirectory = reader.ReadString()
                autoSaveTime = reader.ReadInt32()
                showStatusBar = reader.ReadBoolean()
            End Using

            Console.WriteLine("Aspect ratio set to: " & aspectRatio)
            Console.WriteLine("Temp directory is: " & tempDirectory)
            Console.WriteLine("Auto save time set to: " & autoSaveTime)
            Console.WriteLine("Show status bar: " & showStatusBar)
        End If
    End Sub

End Module

注解

BinaryWriter 以 little endian 格式存储此数据类型。

有关常见 I/O 任务的列表,请参阅 常见 I/O 任务

另请参阅

适用于