Condividi tramite


Console.Write Metodo

Definizione

Scrive la rappresentazione testuale del valore o dei valori specificati nel flusso di output standard.

Overload

Write(String, Object, Object, Object, Object)

Scrive la rappresentazione testuale degli oggetti specificati e dell'elenco di parametri a lunghezza variabile nel flusso di output standard usando le informazioni sul formato specificate.

Write(String, Object, Object, Object)

Scrive la rappresentazione testuale degli oggetti specificati nel flusso di output standard usando le informazioni sul formato specificate.

Write(Char[], Int32, Int32)

Scrive la sottomaschera specificata di caratteri Unicode nel flusso di output standard.

Write(String, ReadOnlySpan<Object>)

Scrive la rappresentazione testuale dell'intervallo specificato di oggetti nel flusso di output standard usando le informazioni sul formato specificate.

Write(String, Object[])

Scrive la rappresentazione testuale della matrice di oggetti specificata nel flusso di output standard usando le informazioni sul formato specificate.

Write(String, Object)

Scrive la rappresentazione testuale dell'oggetto specificato nel flusso di output standard usando le informazioni sul formato specificate.

Write(UInt64)

Scrive la rappresentazione testuale del valore intero senza segno a 64 bit specificato nel flusso di output standard.

Write(UInt32)

Scrive la rappresentazione testuale del valore intero senza segno a 32 bit specificato nel flusso di output standard.

Write(String)

Scrive il valore stringa specificato nel flusso di output standard.

Write(String, Object, Object)

Scrive la rappresentazione testuale degli oggetti specificati nel flusso di output standard usando le informazioni sul formato specificate.

Write(Object)

Scrive la rappresentazione testuale dell'oggetto specificato nel flusso di output standard.

Write(Single)

Scrive la rappresentazione testuale del valore a virgola mobile a precisione singola specificato nel flusso di output standard.

Write(Char)

Scrive il valore del carattere Unicode specificato nel flusso di output standard.

Write(Char[])

Scrive la matrice di caratteri Unicode specificata nel flusso di output standard.

Write(Boolean)

Scrive la rappresentazione testuale del valore booleano specificato nel flusso di output standard.

Write(Double)

Scrive la rappresentazione testuale del valore a virgola mobile e precisione doppia specificato nel flusso di output standard.

Write(Int32)

Scrive la rappresentazione testuale del valore intero con segno a 32 bit specificato nel flusso di output standard.

Write(Int64)

Scrive la rappresentazione testuale del valore intero con segno a 64 bit specificato nel flusso di output standard.

Write(Decimal)

Scrive la rappresentazione testuale del valore Decimal specificato nel flusso di output standard.

Write(String, Object, Object, Object, Object)

Importante

Questa API non è conforme a CLS.

Scrive la rappresentazione testuale degli oggetti specificati e dell'elenco di parametri a lunghezza variabile nel flusso di output standard usando le informazioni sul formato specificate.

public:
 static void Write(System::String ^ format, System::Object ^ arg0, System::Object ^ arg1, System::Object ^ arg2, System::Object ^ arg3);
[System.CLSCompliant(false)]
public static void Write (string format, object arg0, object arg1, object arg2, object arg3);
[<System.CLSCompliant(false)>]
static member Write : string * obj * obj * obj * obj -> unit
Public Shared Sub Write (format As String, arg0 As Object, arg1 As Object, arg2 As Object, arg3 As Object)

Parametri

format
String

Stringa di formato composito.

arg0
Object

Primo oggetto da scrivere utilizzando format.

arg1
Object

Secondo oggetto da scrivere utilizzando format.

arg2
Object

Terzo oggetto da scrivere utilizzando format.

arg3
Object

Quarto oggetto da scrivere utilizzando format.

Attributi

Eccezioni

Si è verificato un errore di I/O.

format è null.

La specifica del formato in format non è valida.

Esempio

Nell'esempio seguente viene illustrato l'uso di parametri di variabile con il metodo Write(String, Object, Object, Object, Object). Il metodo viene chiamato con una stringa di formato composito e cinque elementi di formato.

using namespace System;

//void main(array<System::String ^> ^args)
void main()
{
   DateTime dateRecorded(2009, 6, 15);
   DateTime startTime(1, 1, 1, 0, 30, 0);
   TimeSpan interval(12, 0, 0);

   Double temperature1 = 52.8;
   Double temperature2 = 63.5;
   
   Console::Write("Date: {0:d}:\n   Temperature at {1:t}: {2}\n   Temperature at {3:t}: {4}\n", 
                  dateRecorded, startTime, temperature1, 
                  startTime.Add(interval), temperature2);
    Console::ReadLine();
}
// The example displays the following output:
//      Date: 6/15/2009:
//         Temperature at 12:30 AM: 52.8
//         Temperature at 12:30 PM: 63.5

Commenti

Nota

Questa API non è conforme a CLS. L'alternativa conforme a CLS è Console.Write(String, Object[]). I compilatori C# e Visual Basic risolvono automaticamente una chiamata a questo metodo come chiamata a Console.Write(String, Object[]).

Questo metodo usa la funzionalità di formattazione composita di .NET per convertire il valore di un oggetto nella relativa rappresentazione di testo e incorporare tale rappresentazione in una stringa. La stringa risultante viene scritta nel flusso di output.

Il parametro format è costituito da zero o più esecuzioni di testo mescolate con zero o più segnaposto indicizzati, denominati elementi di formato, che corrispondono a un oggetto nell'elenco di parametri di questo metodo. Il processo di formattazione sostituisce ogni elemento di formato con la rappresentazione testuale del valore dell'oggetto corrispondente.

La sintassi di un elemento di formato è {indice[,allineamento][:formatString]}, che specifica un indice obbligatorio, la lunghezza facoltativa e l'allineamento del testo formattato e una stringa facoltativa di caratteri dell'identificatore di formato che regolano la formattazione del valore dell'oggetto corrispondente.

.NET offre un supporto completo per la formattazione, descritto in modo più dettagliato negli argomenti di formattazione seguenti.

Note per i chiamanti

Questo metodo è contrassegnato con la parola chiave vararg, il che significa che supporta un numero variabile di parametri. Il metodo può essere chiamato da Visual C++, ma non può essere chiamato dal codice C# o Visual Basic. I compilatori C# e Visual Basic risolvono le chiamate a Write(String, Object, Object, Object, Object) come chiamate a Write(String, Object[]).

Vedi anche

Si applica a

Write(String, Object, Object, Object)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale degli oggetti specificati nel flusso di output standard usando le informazioni sul formato specificate.

public:
 static void Write(System::String ^ format, System::Object ^ arg0, System::Object ^ arg1, System::Object ^ arg2);
public static void Write (string format, object? arg0, object? arg1, object? arg2);
public static void Write (string format, object arg0, object arg1, object arg2);
static member Write : string * obj * obj * obj -> unit
Public Shared Sub Write (format As String, arg0 As Object, arg1 As Object, arg2 As Object)

Parametri

format
String

Stringa di formato composito.

arg0
Object

Primo oggetto da scrivere utilizzando format.

arg1
Object

Secondo oggetto da scrivere utilizzando format.

arg2
Object

Terzo oggetto da scrivere utilizzando format.

Eccezioni

Si è verificato un errore di I/O.

format è null.

La specifica del formato in format non è valida.

Esempio

Nell'esempio seguente viene utilizzato il metodo WriteLine per illustrare gli identificatori di formattazione standard per numeri, date ed enumerazioni.

// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

using namespace System;

public enum class Color {Yellow = 1, Blue, Green};

int main() 
{
    DateTime thisDate = DateTime::Now;
    Console::Clear();

    // Format a negative integer or floating-point number in various ways.
    Console::WriteLine("Standard Numeric Format Specifiers");
    Console::WriteLine(
        "(C) Currency: . . . . . . . . {0:C}\n" +
        "(D) Decimal:. . . . . . . . . {0:D}\n" +
        "(E) Scientific: . . . . . . . {1:E}\n" +
        "(F) Fixed point:. . . . . . . {1:F}\n" +
        "(G) General:. . . . . . . . . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(N) Number: . . . . . . . . . {0:N}\n" +
        "(P) Percent:. . . . . . . . . {1:P}\n" +
        "(R) Round-trip: . . . . . . . {1:R}\n" +
        "(X) Hexadecimal:. . . . . . . {0:X}\n",
        -123, -123.45f); 

    // Format the current date in various ways.
    Console::WriteLine("Standard DateTime Format Specifiers");
    Console::WriteLine(
        "(d) Short date: . . . . . . . {0:d}\n" +
        "(D) Long date:. . . . . . . . {0:D}\n" +
        "(t) Short time: . . . . . . . {0:t}\n" +
        "(T) Long time:. . . . . . . . {0:T}\n" +
        "(f) Full date/short time: . . {0:f}\n" +
        "(F) Full date/long time:. . . {0:F}\n" +
        "(g) General date/short time:. {0:g}\n" +
        "(G) General date/long time: . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(M) Month:. . . . . . . . . . {0:M}\n" +
        "(R) RFC1123:. . . . . . . . . {0:R}\n" +
        "(s) Sortable: . . . . . . . . {0:s}\n" +
        "(u) Universal sortable: . . . {0:u} (invariant)\n" +
        "(U) Universal full date/time: {0:U}\n" +
        "(Y) Year: . . . . . . . . . . {0:Y}\n", 
        thisDate);

    // Format a Color enumeration value in various ways.
    Console::WriteLine("Standard Enumeration Format Specifiers");
    Console::WriteLine(
        "(G) General:. . . . . . . . . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
        "(D) Decimal number: . . . . . {0:D}\n" +
        "(X) Hexadecimal:. . . . . . . {0:X}\n", 
        Color::Green);       

};


/*
This code example produces the following results:

Standard Numeric Format Specifiers
(C) Currency: . . . . . . . . ($123.00)
(D) Decimal:. . . . . . . . . -123
(E) Scientific: . . . . . . . -1.234500E+002
(F) Fixed point:. . . . . . . -123.45
(G) General:. . . . . . . . . -123
(default):. . . . . . . . -123 (default = 'G')
(N) Number: . . . . . . . . . -123.00
(P) Percent:. . . . . . . . . -12,345.00 %
(R) Round-trip: . . . . . . . -123.45
(X) Hexadecimal:. . . . . . . FFFFFF85

Standard DateTime Format Specifiers
(d) Short date: . . . . . . . 6/26/2004
(D) Long date:. . . . . . . . Saturday, June 26, 2004
(t) Short time: . . . . . . . 8:11 PM
(T) Long time:. . . . . . . . 8:11:04 PM
(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
(g) General date/short time:. 6/26/2004 8:11 PM
(G) General date/long time: . 6/26/2004 8:11:04 PM
(default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
(M) Month:. . . . . . . . . . June 26
(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
(Y) Year: . . . . . . . . . . June, 2004

Standard Enumeration Format Specifiers
(G) General:. . . . . . . . . Green
(default):. . . . . . . . Green (default = 'G')
(F) Flags:. . . . . . . . . . Green (flags or integer)
(D) Decimal number: . . . . . 3
(X) Hexadecimal:. . . . . . . 00000003

*/
// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

using System;
class Sample
{
    enum Color {Yellow = 1, Blue, Green};
    static DateTime thisDate = DateTime.Now;

    public static void Main()
    {
        Console.Clear();

        // Format a negative integer or floating-point number in various ways.
        Console.WriteLine("Standard Numeric Format Specifiers");
        Console.WriteLine(
            "(C) Currency: . . . . . . . . {0:C}\n" +
            "(D) Decimal:. . . . . . . . . {0:D}\n" +
            "(E) Scientific: . . . . . . . {1:E}\n" +
            "(F) Fixed point:. . . . . . . {1:F}\n" +
            "(G) General:. . . . . . . . . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(N) Number: . . . . . . . . . {0:N}\n" +
            "(P) Percent:. . . . . . . . . {1:P}\n" +
            "(R) Round-trip: . . . . . . . {1:R}\n" +
            "(X) Hexadecimal:. . . . . . . {0:X}\n",
            -123, -123.45f);

        // Format the current date in various ways.
        Console.WriteLine("Standard DateTime Format Specifiers");
        Console.WriteLine(
            "(d) Short date: . . . . . . . {0:d}\n" +
            "(D) Long date:. . . . . . . . {0:D}\n" +
            "(t) Short time: . . . . . . . {0:t}\n" +
            "(T) Long time:. . . . . . . . {0:T}\n" +
            "(f) Full date/short time: . . {0:f}\n" +
            "(F) Full date/long time:. . . {0:F}\n" +
            "(g) General date/short time:. {0:g}\n" +
            "(G) General date/long time: . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(M) Month:. . . . . . . . . . {0:M}\n" +
            "(R) RFC1123:. . . . . . . . . {0:R}\n" +
            "(s) Sortable: . . . . . . . . {0:s}\n" +
            "(u) Universal sortable: . . . {0:u} (invariant)\n" +
            "(U) Universal full date/time: {0:U}\n" +
            "(Y) Year: . . . . . . . . . . {0:Y}\n",
            thisDate);

        // Format a Color enumeration value in various ways.
        Console.WriteLine("Standard Enumeration Format Specifiers");
        Console.WriteLine(
            "(G) General:. . . . . . . . . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
            "(D) Decimal number: . . . . . {0:D}\n" +
            "(X) Hexadecimal:. . . . . . . {0:X}\n",
            Color.Green);
    }
}
/*
This code example produces the following results:

Standard Numeric Format Specifiers
(C) Currency: . . . . . . . . ($123.00)
(D) Decimal:. . . . . . . . . -123
(E) Scientific: . . . . . . . -1.234500E+002
(F) Fixed point:. . . . . . . -123.45
(G) General:. . . . . . . . . -123
    (default):. . . . . . . . -123 (default = 'G')
(N) Number: . . . . . . . . . -123.00
(P) Percent:. . . . . . . . . -12,345.00 %
(R) Round-trip: . . . . . . . -123.45
(X) Hexadecimal:. . . . . . . FFFFFF85

Standard DateTime Format Specifiers
(d) Short date: . . . . . . . 6/26/2004
(D) Long date:. . . . . . . . Saturday, June 26, 2004
(t) Short time: . . . . . . . 8:11 PM
(T) Long time:. . . . . . . . 8:11:04 PM
(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
(g) General date/short time:. 6/26/2004 8:11 PM
(G) General date/long time: . 6/26/2004 8:11:04 PM
    (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
(M) Month:. . . . . . . . . . June 26
(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
(Y) Year: . . . . . . . . . . June, 2004

Standard Enumeration Format Specifiers
(G) General:. . . . . . . . . Green
    (default):. . . . . . . . Green (default = 'G')
(F) Flags:. . . . . . . . . . Green (flags or integer)
(D) Decimal number: . . . . . 3
(X) Hexadecimal:. . . . . . . 00000003

*/
// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

open System

type Color = 
    | Yellow = 1
    | Blue = 2
    | Green = 3

let thisDate = DateTime.Now

Console.Clear()

// Format a negative integer or floating-point number in various ways.
Console.WriteLine "Standard Numeric Format Specifiers"
Console.WriteLine(
    "(C) Currency: . . . . . . . . {0:C}\n" +
    "(D) Decimal:. . . . . . . . . {0:D}\n" +
    "(E) Scientific: . . . . . . . {1:E}\n" +
    "(F) Fixed point:. . . . . . . {1:F}\n" +
    "(G) General:. . . . . . . . . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(N) Number: . . . . . . . . . {0:N}\n" +
    "(P) Percent:. . . . . . . . . {1:P}\n" +
    "(R) Round-trip: . . . . . . . {1:R}\n" +
    "(X) Hexadecimal:. . . . . . . {0:X}\n",
    -123, -123.45f)

// Format the current date in various ways.
Console.WriteLine "Standard DateTime Format Specifiers"
Console.WriteLine(
    "(d) Short date: . . . . . . . {0:d}\n" +
    "(D) Long date:. . . . . . . . {0:D}\n" +
    "(t) Short time: . . . . . . . {0:t}\n" +
    "(T) Long time:. . . . . . . . {0:T}\n" +
    "(f) Full date/short time: . . {0:f}\n" +
    "(F) Full date/long time:. . . {0:F}\n" +
    "(g) General date/short time:. {0:g}\n" +
    "(G) General date/long time: . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(M) Month:. . . . . . . . . . {0:M}\n" +
    "(R) RFC1123:. . . . . . . . . {0:R}\n" +
    "(s) Sortable: . . . . . . . . {0:s}\n" +
    "(u) Universal sortable: . . . {0:u} (invariant)\n" +
    "(U) Universal full date/time: {0:U}\n" +
    "(Y) Year: . . . . . . . . . . {0:Y}\n",
    thisDate)

// Format a Color enumeration value in various ways.
Console.WriteLine "Standard Enumeration Format Specifiers"
Console.WriteLine(
    "(G) General:. . . . . . . . . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
    "(D) Decimal number: . . . . . {0:D}\n" +
    "(X) Hexadecimal:. . . . . . . {0:X}\n",
    Color.Green)


// This code example produces the following results:
//
// Standard Numeric Format Specifiers
// (C) Currency: . . . . . . . . ($123.00)
// (D) Decimal:. . . . . . . . . -123
// (E) Scientific: . . . . . . . -1.234500E+002
// (F) Fixed point:. . . . . . . -123.45
// (G) General:. . . . . . . . . -123
//     (default):. . . . . . . . -123 (default = 'G')
// (N) Number: . . . . . . . . . -123.00
// (P) Percent:. . . . . . . . . -12,345.00 %
// (R) Round-trip: . . . . . . . -123.45
// (X) Hexadecimal:. . . . . . . FFFFFF85
//
// Standard DateTime Format Specifiers
// (d) Short date: . . . . . . . 6/26/2004
// (D) Long date:. . . . . . . . Saturday, June 26, 2004
// (t) Short time: . . . . . . . 8:11 PM
// (T) Long time:. . . . . . . . 8:11:04 PM
// (f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
// (F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
// (g) General date/short time:. 6/26/2004 8:11 PM
// (G) General date/long time: . 6/26/2004 8:11:04 PM
//     (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
// (M) Month:. . . . . . . . . . June 26
// (R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
// (s) Sortable: . . . . . . . . 2004-06-26T20:11:04
// (u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
// (U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
// (Y) Year: . . . . . . . . . . June, 2004
//
// Standard Enumeration Format Specifiers
// (G) General:. . . . . . . . . Green
//     (default):. . . . . . . . Green (default = 'G')
// (F) Flags:. . . . . . . . . . Green (flags or integer)
// (D) Decimal number: . . . . . 3
// (X) Hexadecimal:. . . . . . . 00000003
' This code example demonstrates the Console.WriteLine() method.
' Formatting for this example uses the "en-US" culture.

Class Sample
   Public Enum Color
      Yellow = 1
      Blue = 2
      Green = 3
   End Enum 'Color
   Private Shared thisDate As DateTime = DateTime.Now
   
   Public Shared Sub Main()
      Console.Clear()

      ' Format a negative integer or floating-point number in various ways.
      Console.WriteLine("Standard Numeric Format Specifiers")
      Console.WriteLine("(C) Currency: . . . . . . . . {0:C}" & vbCrLf & _
                        "(D) Decimal:. . . . . . . . . {0:D}" & vbCrLf & _
                        "(E) Scientific: . . . . . . . {1:E}" & vbCrLf & _
                        "(F) Fixed point:. . . . . . . {1:F}" & vbCrLf & _
                        "(G) General:. . . . . . . . . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(N) Number: . . . . . . . . . {0:N}" & vbCrLf & _
                        "(P) Percent:. . . . . . . . . {1:P}" & vbCrLf & _
                        "(R) Round-trip: . . . . . . . {1:R}" & vbCrLf & _
                        "(X) Hexadecimal:. . . . . . . {0:X}" & vbCrLf, _
                        - 123, - 123.45F)

      ' Format the current date in various ways.
      Console.WriteLine("Standard DateTime Format Specifiers")
      Console.WriteLine("(d) Short date: . . . . . . . {0:d}" & vbCrLf & _
                        "(D) Long date:. . . . . . . . {0:D}" & vbCrLf & _
                        "(t) Short time: . . . . . . . {0:t}" & vbCrLf & _
                        "(T) Long time:. . . . . . . . {0:T}" & vbCrLf & _
                        "(f) Full date/short time: . . {0:f}" & vbCrLf & _
                        "(F) Full date/long time:. . . {0:F}" & vbCrLf & _
                        "(g) General date/short time:. {0:g}" & vbCrLf & _
                        "(G) General date/long time: . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(M) Month:. . . . . . . . . . {0:M}" & vbCrLf & _
                        "(R) RFC1123:. . . . . . . . . {0:R}" & vbCrLf & _
                        "(s) Sortable: . . . . . . . . {0:s}" & vbCrLf & _
                        "(u) Universal sortable: . . . {0:u} (invariant)" & vbCrLf & _
                        "(U) Universal full date/time: {0:U}" & vbCrLf & _
                        "(Y) Year: . . . . . . . . . . {0:Y}" & vbCrLf, _
                        thisDate)

      ' Format a Color enumeration value in various ways.
      Console.WriteLine("Standard Enumeration Format Specifiers")
      Console.WriteLine("(G) General:. . . . . . . . . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)" & vbCrLf & _
                        "(D) Decimal number: . . . . . {0:D}" & vbCrLf & _
                        "(X) Hexadecimal:. . . . . . . {0:X}" & vbCrLf, _
                        Color.Green)
   End Sub
End Class
'
'This code example produces the following results:
'
'Standard Numeric Format Specifiers
'(C) Currency: . . . . . . . . ($123.00)
'(D) Decimal:. . . . . . . . . -123
'(E) Scientific: . . . . . . . -1.234500E+002
'(F) Fixed point:. . . . . . . -123.45
'(G) General:. . . . . . . . . -123
'    (default):. . . . . . . . -123 (default = 'G')
'(N) Number: . . . . . . . . . -123.00
'(P) Percent:. . . . . . . . . -12,345.00 %
'(R) Round-trip: . . . . . . . -123.45
'(X) Hexadecimal:. . . . . . . FFFFFF85
'
'Standard DateTime Format Specifiers
'(d) Short date: . . . . . . . 6/26/2004
'(D) Long date:. . . . . . . . Saturday, June 26, 2004
'(t) Short time: . . . . . . . 8:11 PM
'(T) Long time:. . . . . . . . 8:11:04 PM
'(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
'(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
'(g) General date/short time:. 6/26/2004 8:11 PM
'(G) General date/long time: . 6/26/2004 8:11:04 PM
'    (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
'(M) Month:. . . . . . . . . . June 26
'(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
'(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
'(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
'(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
'(Y) Year: . . . . . . . . . . June, 2004
'
'Standard Enumeration Format Specifiers
'(G) General:. . . . . . . . . Green
'    (default):. . . . . . . . Green (default = 'G')
'(F) Flags:. . . . . . . . . . Green (flags or integer)
'(D) Decimal number: . . . . . 3
'(X) Hexadecimal:. . . . . . . 00000003
'

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

Questo metodo usa la funzionalità di formattazione composita di .NET per convertire il valore di un oggetto nella relativa rappresentazione di testo e incorporare tale rappresentazione in una stringa. La stringa risultante viene scritta nel flusso di output.

Il parametro format è costituito da zero o più esecuzioni di testo mescolate con zero o più segnaposto indicizzati, denominati elementi di formato, che corrispondono a un oggetto nell'elenco di parametri di questo metodo. Il processo di formattazione sostituisce ogni elemento di formato con la rappresentazione testuale del valore dell'oggetto corrispondente.

La sintassi di un elemento di formato è {indice[,allineamento][:formatString]}, che specifica un indice obbligatorio, la lunghezza facoltativa e l'allineamento del testo formattato e una stringa facoltativa di caratteri dell'identificatore di formato che regolano la formattazione del valore dell'oggetto corrispondente.

.NET offre un supporto completo per la formattazione, descritto in modo più dettagliato negli argomenti di formattazione seguenti.

Vedi anche

Si applica a

Write(Char[], Int32, Int32)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la sottomaschera specificata di caratteri Unicode nel flusso di output standard.

public:
 static void Write(cli::array <char> ^ buffer, int index, int count);
public static void Write (char[] buffer, int index, int count);
static member Write : char[] * int * int -> unit
Public Shared Sub Write (buffer As Char(), index As Integer, count As Integer)

Parametri

buffer
Char[]

Matrice di caratteri Unicode.

index
Int32

Posizione iniziale in buffer.

count
Int32

Numero di caratteri da scrivere.

Eccezioni

buffer è null.

index o count è minore di zero.

index più count specificare una posizione che non si trova all'interno di buffer.

Si è verificato un errore di I/O.

Commenti

Questo metodo scrive count caratteri a partire dalla posizione index di buffer nel flusso di output standard.

Vedi anche

Si applica a

Write(String, ReadOnlySpan<Object>)

Scrive la rappresentazione testuale dell'intervallo specificato di oggetti nel flusso di output standard usando le informazioni sul formato specificate.

public:
 static void Write(System::String ^ format, ReadOnlySpan<System::Object ^> arg);
public static void Write (string format, scoped ReadOnlySpan<object?> arg);
static member Write : string * ReadOnlySpan<obj> -> unit
Public Shared Sub Write (format As String, arg As ReadOnlySpan(Of Object))

Parametri

format
String

Stringa di formato composito.

arg
ReadOnlySpan<Object>

Intervallo di oggetti da scrivere usando il formato.

Si applica a

Write(String, Object[])

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale della matrice di oggetti specificata nel flusso di output standard usando le informazioni sul formato specificate.

public:
 static void Write(System::String ^ format, ... cli::array <System::Object ^> ^ arg);
public static void Write (string format, params object?[]? arg);
public static void Write (string format, params object[] arg);
static member Write : string * obj[] -> unit
Public Shared Sub Write (format As String, ParamArray arg As Object())

Parametri

format
String

Stringa di formato composito.

arg
Object[]

Matrice di oggetti da scrivere usando format.

Eccezioni

Si è verificato un errore di I/O.

format o arg è null.

La specifica del formato in format non è valida.

Esempio

L'esempio seguente definisce una classe Person con una serie di proprietà che forniscono informazioni su una persona. Il metodo GetDescription restituisce una matrice che contiene tutti i valori delle proprietà tranne uno. Nell'esempio viene quindi utilizzata la matrice restituita dal metodo GetDescription per visualizzare i valori dell'oggetto Person.

using System;

public class Person
{
   public String Name { get; set; }
   public DateTime BirthDate  { get; set; }
   public Double Height { get; set; }
   public Double Weight { get; set; }
   public Char Gender { get; set; }
   public String Remarks { get; set; }

   public object[] GetDescription()
   {
      return new object[] { Name, Gender, Height, Weight, BirthDate};
   }
}

public class Example
{
   public static void Main()
   {
      var p1 = new Person() { Name = "John", Gender = 'M',
                              BirthDate = new DateTime(1992, 5, 10),
                              Height = 73.5, Weight = 207 };
      p1.Remarks = "Client since 1/3/2012";
      Console.Write("{0}: {1}, born {4:d}  Height {2} inches, Weight {3} lbs  ",
                    p1.GetDescription());
      if (String.IsNullOrEmpty(p1.Remarks))
         Console.WriteLine();
      else
         Console.WriteLine("{1}Remarks: {0}", p1.Remarks,
                           Console.CursorLeft + p1.Remarks.Length + 10 > Console.WindowWidth ?
                              "\n   " : "");
   }
}
// The example displays the following output:
//    John: M, born 5/10/1992  Height 73.5 inches, Weight 207 lbs  Remarks: Client since 1/3/2012
open System

type Person =
    { Name: string
      BirthDate: DateOnly
      Height: double
      Weight: double
      Gender: char
      Remarks: string }

    member this.GetDescription(): obj [] =
        [| this.Name; this.Gender; this.Height; this.Weight; this.BirthDate |]

let p1 = 
    { Name = "John"
      Gender = 'M'
      BirthDate = DateOnly(1992, 5, 10)
      Height = 73.5
      Weight = 207
      Remarks = "Client since 1/3/2012" }

Console.Write("{0}: {1}, born {4:d}  Height {2} inches, Weight {3} lbs  ", p1.GetDescription())

if String.IsNullOrEmpty p1.Remarks then
    Console.WriteLine()
else
    Console.WriteLine $"""{if Console.CursorLeft + p1.Remarks.Length + 10 > Console.WindowWidth then "\n   " else ""}Remarks: {p1.Remarks}"""


// The example displays the following output:
//    John: M, born 5/10/1992  Height 73.5 inches, Weight 207 lbs  Remarks: Client since 1/3/2012
Public Class Person
   Public Property Name As String
   Public Property BirthDate As DateTime
   Public Property Height As Double
   Public Property Weight As Double
   Public Property Gender As Char
   Public Property Remarks As String
   
   Public Function GetDescription() As Object()
      Return { Name, Gender, Height, Weight, BirthDate}
   End Function
End Class

Module Example
   Public Sub Main()
      Dim p1 As New Person() With { .Name = "John", .Gender = "M"c,
                                    .BirthDate = New DateTime(1992, 5, 10), 
                                    .Height = 73.5, .Weight = 207 }
      p1.Remarks = "Client since 1/3/2012"
      Console.Write("{0}: {1}, born {4:d}  Height {2} inches, Weight {3} lbs  ", 
                    p1.GetDescription())
      If String.IsNullOrEmpty(p1.Remarks) Then
         Console.WriteLine()
      Else
         Console.WriteLine("{1}Remarks: {0}", p1.Remarks,
                           If(Console.CursorLeft + p1.Remarks.Length + 10 > Console.WindowWidth,
                              vbCrLf + "   ", ""))
      End If   
   End Sub
End Module
' The example displays the following output:
'   John: M, born 5/10/1992  Height 73.5 inches, Weight 207 lbs  Remarks: Client since 1/3/2012

Si noti che l'esempio chiama il metodo Write(String, Object[]) anziché il metodo WriteLine(String, Object[]) perché tenta di visualizzare il valore della proprietà Person.Remarks nella stessa riga. A tale scopo, esamina il valore delle proprietà CursorLeft e WindowWidth per determinare se è disponibile spazio sufficiente per l'adattamento della nota. In caso affermativo, viene visualizzata la riga. In caso contrario, scrive una riga, rientra tre spazi e visualizza la nota.

L'esempio seguente è identico al primo, ad eccezione del fatto che fornisce un elenco di cinque elementi come argomento arg anziché una matrice di parametri.

using System;

public class Person
{
   public String Name { get; set; }
   public DateTime BirthDate  { get; set; }
   public Double Height { get; set; }
   public Double Weight { get; set; }
   public Char Gender { get; set; }
   public String Remarks { get; set; }

   public object[] GetDescription()
   {
      return new object[] { Name, Gender, Height, Weight, BirthDate};
   }
}

public class Example
{
   public static void Main()
   {
      var p1 = new Person() { Name = "John", Gender = 'M',
                              BirthDate = new DateTime(1992, 5, 10),
                              Height = 73.5, Weight = 207 };
      p1.Remarks = "Client since 1/3/2012";
      Console.Write("{0}: {1}, born {2:d}  Height {3} inches, Weight {4} lbs  ",
                    p1.Name, p1.Gender, p1.BirthDate, p1.Height, p1.Weight);
      if (String.IsNullOrEmpty(p1.Remarks))
         Console.WriteLine();
      else
         Console.WriteLine("{1}Remarks: {0}", p1.Remarks,
                           Console.CursorLeft + p1.Remarks.Length + 10 > Console.WindowWidth ?
                              "\n   " : "");
   }
}
// The example displays the following output:
//    John: M, born 5/10/1992  Height 73.5 inches, Weight 207 lbs  Remarks: Client since 1/3/2012
open System

type Person =
    { Name: string
      BirthDate: DateOnly
      Height: double
      Weight: double
      Gender: char
      Remarks: string }

    member this.GetDescription(): obj [] =
        [| this.Name; this.Gender; this.Height; this.Weight; this.BirthDate |]

let p1 = 
    { Name = "John"
      Gender = 'M'
      BirthDate = DateOnly(1992, 5, 10)
      Height = 73.5
      Weight = 207 
      Remarks = "Client since 1/3/2012" }

printf $"{p1.Name}: {p1.Gender}, born {p1.BirthDate:d}  Height {p1.Height} inches, Weight {p1.Weight} lbs  "
if String.IsNullOrEmpty p1.Remarks then
    Console.WriteLine()
else
    Console.WriteLine $"""{if Console.CursorLeft + p1.Remarks.Length + 10 > Console.WindowWidth then "\n   " else ""}Remarks: {p1.Remarks}"""


// The example displays the following output:
//    John: M, born 5/10/1992  Height 73.5 inches, Weight 207 lbs  Remarks: Client since 1/3/2012
Public Class Person
   Public Property Name As String
   Public Property BirthDate As DateTime
   Public Property Height As Double
   Public Property Weight As Double
   Public Property Gender As Char
   Public Property Remarks As String
   
   Public Function GetDescription() As Object()
      Return { Name, Gender, Height, Weight, BirthDate}
   End Function
End Class

Module Example
   Public Sub Main()
      Dim p1 As New Person() With { .Name = "John", .Gender = "M"c,
                                    .BirthDate = New DateTime(1992, 5, 10), 
                                    .Height = 73.5, .Weight = 207 }
      p1.Remarks = "Client since 1/3/2012"
      Console.Write("{0}: {1}, born {2:d}  Height {3} inches, Weight {4} lbs  ", 
                    p1.Name, p1.Gender, p1.BirthDate, p1.Height, p1.Weight)
      If String.IsNullOrEmpty(p1.Remarks) Then
         Console.WriteLine()
      Else
         Console.WriteLine("{1}Remarks: {0}", p1.Remarks,
                           If(Console.CursorLeft + p1.Remarks.Length + 10 > Console.WindowWidth,
                              vbCrLf + "   ", ""))
      End If   
   End Sub
End Module
' The example displays the following output:
'   John: M, born 5/10/1992  Height 73.5 inches, Weight 207 lbs  Remarks: Client since 1/3/2012

Commenti

Questo metodo usa la funzionalità di formattazione composita di .NET per convertire il valore di un oggetto nella relativa rappresentazione di testo e incorporare tale rappresentazione in una stringa. La stringa risultante viene scritta nel flusso di output.

Il parametro format è costituito da zero o più esecuzioni di testo mescolate con zero o più segnaposto indicizzati, denominati elementi di formato, che corrispondono a un oggetto nell'elenco di parametri di questo metodo. Il processo di formattazione sostituisce ogni elemento di formato con la rappresentazione testuale del valore dell'oggetto corrispondente.

La sintassi di un elemento di formato è {indice[,allineamento][:formatString]}, che specifica un indice obbligatorio, la lunghezza facoltativa e l'allineamento del testo formattato e una stringa facoltativa di caratteri dell'identificatore di formato che regolano la formattazione del valore dell'oggetto corrispondente.

.NET offre un supporto completo per la formattazione, descritto in modo più dettagliato negli argomenti di formattazione seguenti.

Il parametro arg è una matrice di parametri. Gli argomenti possono essere passati al metodo come matrice o come elenco di cinque o più elementi. Negli esempi vengono illustrate entrambe le forme di chiamata al metodo.

Note per i chiamanti

Questo metodo non viene chiamato dal codice C++. Il compilatore C++ risolve le chiamate a System.Console.Write che includono una stringa e un elenco di quattro o più parametri oggetto come chiamata a Write(String, Object, Object, Object, Object). Risolve le chiamate a System.Console.Write che includono una stringa e una matrice di oggetti come chiamata a Write(String, Object).

Vedi anche

Si applica a

Write(String, Object)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale dell'oggetto specificato nel flusso di output standard usando le informazioni sul formato specificate.

public:
 static void Write(System::String ^ format, System::Object ^ arg0);
public static void Write (string format, object? arg0);
public static void Write (string format, object arg0);
static member Write : string * obj -> unit
Public Shared Sub Write (format As String, arg0 As Object)

Parametri

format
String

Stringa di formato composito.

arg0
Object

Oggetto da scrivere utilizzando format.

Eccezioni

Si è verificato un errore di I/O.

format è null.

La specifica del formato in format non è valida.

Esempio

Nell'esempio seguente viene utilizzato il metodo WriteLine per illustrare gli identificatori di formattazione standard per numeri, date ed enumerazioni.

// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

using namespace System;

public enum class Color {Yellow = 1, Blue, Green};

int main() 
{
    DateTime thisDate = DateTime::Now;
    Console::Clear();

    // Format a negative integer or floating-point number in various ways.
    Console::WriteLine("Standard Numeric Format Specifiers");
    Console::WriteLine(
        "(C) Currency: . . . . . . . . {0:C}\n" +
        "(D) Decimal:. . . . . . . . . {0:D}\n" +
        "(E) Scientific: . . . . . . . {1:E}\n" +
        "(F) Fixed point:. . . . . . . {1:F}\n" +
        "(G) General:. . . . . . . . . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(N) Number: . . . . . . . . . {0:N}\n" +
        "(P) Percent:. . . . . . . . . {1:P}\n" +
        "(R) Round-trip: . . . . . . . {1:R}\n" +
        "(X) Hexadecimal:. . . . . . . {0:X}\n",
        -123, -123.45f); 

    // Format the current date in various ways.
    Console::WriteLine("Standard DateTime Format Specifiers");
    Console::WriteLine(
        "(d) Short date: . . . . . . . {0:d}\n" +
        "(D) Long date:. . . . . . . . {0:D}\n" +
        "(t) Short time: . . . . . . . {0:t}\n" +
        "(T) Long time:. . . . . . . . {0:T}\n" +
        "(f) Full date/short time: . . {0:f}\n" +
        "(F) Full date/long time:. . . {0:F}\n" +
        "(g) General date/short time:. {0:g}\n" +
        "(G) General date/long time: . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(M) Month:. . . . . . . . . . {0:M}\n" +
        "(R) RFC1123:. . . . . . . . . {0:R}\n" +
        "(s) Sortable: . . . . . . . . {0:s}\n" +
        "(u) Universal sortable: . . . {0:u} (invariant)\n" +
        "(U) Universal full date/time: {0:U}\n" +
        "(Y) Year: . . . . . . . . . . {0:Y}\n", 
        thisDate);

    // Format a Color enumeration value in various ways.
    Console::WriteLine("Standard Enumeration Format Specifiers");
    Console::WriteLine(
        "(G) General:. . . . . . . . . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
        "(D) Decimal number: . . . . . {0:D}\n" +
        "(X) Hexadecimal:. . . . . . . {0:X}\n", 
        Color::Green);       

};


/*
This code example produces the following results:

Standard Numeric Format Specifiers
(C) Currency: . . . . . . . . ($123.00)
(D) Decimal:. . . . . . . . . -123
(E) Scientific: . . . . . . . -1.234500E+002
(F) Fixed point:. . . . . . . -123.45
(G) General:. . . . . . . . . -123
(default):. . . . . . . . -123 (default = 'G')
(N) Number: . . . . . . . . . -123.00
(P) Percent:. . . . . . . . . -12,345.00 %
(R) Round-trip: . . . . . . . -123.45
(X) Hexadecimal:. . . . . . . FFFFFF85

Standard DateTime Format Specifiers
(d) Short date: . . . . . . . 6/26/2004
(D) Long date:. . . . . . . . Saturday, June 26, 2004
(t) Short time: . . . . . . . 8:11 PM
(T) Long time:. . . . . . . . 8:11:04 PM
(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
(g) General date/short time:. 6/26/2004 8:11 PM
(G) General date/long time: . 6/26/2004 8:11:04 PM
(default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
(M) Month:. . . . . . . . . . June 26
(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
(Y) Year: . . . . . . . . . . June, 2004

Standard Enumeration Format Specifiers
(G) General:. . . . . . . . . Green
(default):. . . . . . . . Green (default = 'G')
(F) Flags:. . . . . . . . . . Green (flags or integer)
(D) Decimal number: . . . . . 3
(X) Hexadecimal:. . . . . . . 00000003

*/
// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

using System;
class Sample
{
    enum Color {Yellow = 1, Blue, Green};
    static DateTime thisDate = DateTime.Now;

    public static void Main()
    {
        Console.Clear();

        // Format a negative integer or floating-point number in various ways.
        Console.WriteLine("Standard Numeric Format Specifiers");
        Console.WriteLine(
            "(C) Currency: . . . . . . . . {0:C}\n" +
            "(D) Decimal:. . . . . . . . . {0:D}\n" +
            "(E) Scientific: . . . . . . . {1:E}\n" +
            "(F) Fixed point:. . . . . . . {1:F}\n" +
            "(G) General:. . . . . . . . . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(N) Number: . . . . . . . . . {0:N}\n" +
            "(P) Percent:. . . . . . . . . {1:P}\n" +
            "(R) Round-trip: . . . . . . . {1:R}\n" +
            "(X) Hexadecimal:. . . . . . . {0:X}\n",
            -123, -123.45f);

        // Format the current date in various ways.
        Console.WriteLine("Standard DateTime Format Specifiers");
        Console.WriteLine(
            "(d) Short date: . . . . . . . {0:d}\n" +
            "(D) Long date:. . . . . . . . {0:D}\n" +
            "(t) Short time: . . . . . . . {0:t}\n" +
            "(T) Long time:. . . . . . . . {0:T}\n" +
            "(f) Full date/short time: . . {0:f}\n" +
            "(F) Full date/long time:. . . {0:F}\n" +
            "(g) General date/short time:. {0:g}\n" +
            "(G) General date/long time: . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(M) Month:. . . . . . . . . . {0:M}\n" +
            "(R) RFC1123:. . . . . . . . . {0:R}\n" +
            "(s) Sortable: . . . . . . . . {0:s}\n" +
            "(u) Universal sortable: . . . {0:u} (invariant)\n" +
            "(U) Universal full date/time: {0:U}\n" +
            "(Y) Year: . . . . . . . . . . {0:Y}\n",
            thisDate);

        // Format a Color enumeration value in various ways.
        Console.WriteLine("Standard Enumeration Format Specifiers");
        Console.WriteLine(
            "(G) General:. . . . . . . . . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
            "(D) Decimal number: . . . . . {0:D}\n" +
            "(X) Hexadecimal:. . . . . . . {0:X}\n",
            Color.Green);
    }
}
/*
This code example produces the following results:

Standard Numeric Format Specifiers
(C) Currency: . . . . . . . . ($123.00)
(D) Decimal:. . . . . . . . . -123
(E) Scientific: . . . . . . . -1.234500E+002
(F) Fixed point:. . . . . . . -123.45
(G) General:. . . . . . . . . -123
    (default):. . . . . . . . -123 (default = 'G')
(N) Number: . . . . . . . . . -123.00
(P) Percent:. . . . . . . . . -12,345.00 %
(R) Round-trip: . . . . . . . -123.45
(X) Hexadecimal:. . . . . . . FFFFFF85

Standard DateTime Format Specifiers
(d) Short date: . . . . . . . 6/26/2004
(D) Long date:. . . . . . . . Saturday, June 26, 2004
(t) Short time: . . . . . . . 8:11 PM
(T) Long time:. . . . . . . . 8:11:04 PM
(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
(g) General date/short time:. 6/26/2004 8:11 PM
(G) General date/long time: . 6/26/2004 8:11:04 PM
    (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
(M) Month:. . . . . . . . . . June 26
(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
(Y) Year: . . . . . . . . . . June, 2004

Standard Enumeration Format Specifiers
(G) General:. . . . . . . . . Green
    (default):. . . . . . . . Green (default = 'G')
(F) Flags:. . . . . . . . . . Green (flags or integer)
(D) Decimal number: . . . . . 3
(X) Hexadecimal:. . . . . . . 00000003

*/
// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

open System

type Color = 
    | Yellow = 1
    | Blue = 2
    | Green = 3

let thisDate = DateTime.Now

Console.Clear()

// Format a negative integer or floating-point number in various ways.
Console.WriteLine "Standard Numeric Format Specifiers"
Console.WriteLine(
    "(C) Currency: . . . . . . . . {0:C}\n" +
    "(D) Decimal:. . . . . . . . . {0:D}\n" +
    "(E) Scientific: . . . . . . . {1:E}\n" +
    "(F) Fixed point:. . . . . . . {1:F}\n" +
    "(G) General:. . . . . . . . . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(N) Number: . . . . . . . . . {0:N}\n" +
    "(P) Percent:. . . . . . . . . {1:P}\n" +
    "(R) Round-trip: . . . . . . . {1:R}\n" +
    "(X) Hexadecimal:. . . . . . . {0:X}\n",
    -123, -123.45f)

// Format the current date in various ways.
Console.WriteLine "Standard DateTime Format Specifiers"
Console.WriteLine(
    "(d) Short date: . . . . . . . {0:d}\n" +
    "(D) Long date:. . . . . . . . {0:D}\n" +
    "(t) Short time: . . . . . . . {0:t}\n" +
    "(T) Long time:. . . . . . . . {0:T}\n" +
    "(f) Full date/short time: . . {0:f}\n" +
    "(F) Full date/long time:. . . {0:F}\n" +
    "(g) General date/short time:. {0:g}\n" +
    "(G) General date/long time: . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(M) Month:. . . . . . . . . . {0:M}\n" +
    "(R) RFC1123:. . . . . . . . . {0:R}\n" +
    "(s) Sortable: . . . . . . . . {0:s}\n" +
    "(u) Universal sortable: . . . {0:u} (invariant)\n" +
    "(U) Universal full date/time: {0:U}\n" +
    "(Y) Year: . . . . . . . . . . {0:Y}\n",
    thisDate)

// Format a Color enumeration value in various ways.
Console.WriteLine "Standard Enumeration Format Specifiers"
Console.WriteLine(
    "(G) General:. . . . . . . . . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
    "(D) Decimal number: . . . . . {0:D}\n" +
    "(X) Hexadecimal:. . . . . . . {0:X}\n",
    Color.Green)


// This code example produces the following results:
//
// Standard Numeric Format Specifiers
// (C) Currency: . . . . . . . . ($123.00)
// (D) Decimal:. . . . . . . . . -123
// (E) Scientific: . . . . . . . -1.234500E+002
// (F) Fixed point:. . . . . . . -123.45
// (G) General:. . . . . . . . . -123
//     (default):. . . . . . . . -123 (default = 'G')
// (N) Number: . . . . . . . . . -123.00
// (P) Percent:. . . . . . . . . -12,345.00 %
// (R) Round-trip: . . . . . . . -123.45
// (X) Hexadecimal:. . . . . . . FFFFFF85
//
// Standard DateTime Format Specifiers
// (d) Short date: . . . . . . . 6/26/2004
// (D) Long date:. . . . . . . . Saturday, June 26, 2004
// (t) Short time: . . . . . . . 8:11 PM
// (T) Long time:. . . . . . . . 8:11:04 PM
// (f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
// (F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
// (g) General date/short time:. 6/26/2004 8:11 PM
// (G) General date/long time: . 6/26/2004 8:11:04 PM
//     (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
// (M) Month:. . . . . . . . . . June 26
// (R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
// (s) Sortable: . . . . . . . . 2004-06-26T20:11:04
// (u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
// (U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
// (Y) Year: . . . . . . . . . . June, 2004
//
// Standard Enumeration Format Specifiers
// (G) General:. . . . . . . . . Green
//     (default):. . . . . . . . Green (default = 'G')
// (F) Flags:. . . . . . . . . . Green (flags or integer)
// (D) Decimal number: . . . . . 3
// (X) Hexadecimal:. . . . . . . 00000003
' This code example demonstrates the Console.WriteLine() method.
' Formatting for this example uses the "en-US" culture.

Class Sample
   Public Enum Color
      Yellow = 1
      Blue = 2
      Green = 3
   End Enum 'Color
   Private Shared thisDate As DateTime = DateTime.Now
   
   Public Shared Sub Main()
      Console.Clear()

      ' Format a negative integer or floating-point number in various ways.
      Console.WriteLine("Standard Numeric Format Specifiers")
      Console.WriteLine("(C) Currency: . . . . . . . . {0:C}" & vbCrLf & _
                        "(D) Decimal:. . . . . . . . . {0:D}" & vbCrLf & _
                        "(E) Scientific: . . . . . . . {1:E}" & vbCrLf & _
                        "(F) Fixed point:. . . . . . . {1:F}" & vbCrLf & _
                        "(G) General:. . . . . . . . . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(N) Number: . . . . . . . . . {0:N}" & vbCrLf & _
                        "(P) Percent:. . . . . . . . . {1:P}" & vbCrLf & _
                        "(R) Round-trip: . . . . . . . {1:R}" & vbCrLf & _
                        "(X) Hexadecimal:. . . . . . . {0:X}" & vbCrLf, _
                        - 123, - 123.45F)

      ' Format the current date in various ways.
      Console.WriteLine("Standard DateTime Format Specifiers")
      Console.WriteLine("(d) Short date: . . . . . . . {0:d}" & vbCrLf & _
                        "(D) Long date:. . . . . . . . {0:D}" & vbCrLf & _
                        "(t) Short time: . . . . . . . {0:t}" & vbCrLf & _
                        "(T) Long time:. . . . . . . . {0:T}" & vbCrLf & _
                        "(f) Full date/short time: . . {0:f}" & vbCrLf & _
                        "(F) Full date/long time:. . . {0:F}" & vbCrLf & _
                        "(g) General date/short time:. {0:g}" & vbCrLf & _
                        "(G) General date/long time: . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(M) Month:. . . . . . . . . . {0:M}" & vbCrLf & _
                        "(R) RFC1123:. . . . . . . . . {0:R}" & vbCrLf & _
                        "(s) Sortable: . . . . . . . . {0:s}" & vbCrLf & _
                        "(u) Universal sortable: . . . {0:u} (invariant)" & vbCrLf & _
                        "(U) Universal full date/time: {0:U}" & vbCrLf & _
                        "(Y) Year: . . . . . . . . . . {0:Y}" & vbCrLf, _
                        thisDate)

      ' Format a Color enumeration value in various ways.
      Console.WriteLine("Standard Enumeration Format Specifiers")
      Console.WriteLine("(G) General:. . . . . . . . . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)" & vbCrLf & _
                        "(D) Decimal number: . . . . . {0:D}" & vbCrLf & _
                        "(X) Hexadecimal:. . . . . . . {0:X}" & vbCrLf, _
                        Color.Green)
   End Sub
End Class
'
'This code example produces the following results:
'
'Standard Numeric Format Specifiers
'(C) Currency: . . . . . . . . ($123.00)
'(D) Decimal:. . . . . . . . . -123
'(E) Scientific: . . . . . . . -1.234500E+002
'(F) Fixed point:. . . . . . . -123.45
'(G) General:. . . . . . . . . -123
'    (default):. . . . . . . . -123 (default = 'G')
'(N) Number: . . . . . . . . . -123.00
'(P) Percent:. . . . . . . . . -12,345.00 %
'(R) Round-trip: . . . . . . . -123.45
'(X) Hexadecimal:. . . . . . . FFFFFF85
'
'Standard DateTime Format Specifiers
'(d) Short date: . . . . . . . 6/26/2004
'(D) Long date:. . . . . . . . Saturday, June 26, 2004
'(t) Short time: . . . . . . . 8:11 PM
'(T) Long time:. . . . . . . . 8:11:04 PM
'(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
'(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
'(g) General date/short time:. 6/26/2004 8:11 PM
'(G) General date/long time: . 6/26/2004 8:11:04 PM
'    (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
'(M) Month:. . . . . . . . . . June 26
'(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
'(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
'(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
'(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
'(Y) Year: . . . . . . . . . . June, 2004
'
'Standard Enumeration Format Specifiers
'(G) General:. . . . . . . . . Green
'    (default):. . . . . . . . Green (default = 'G')
'(F) Flags:. . . . . . . . . . Green (flags or integer)
'(D) Decimal number: . . . . . 3
'(X) Hexadecimal:. . . . . . . 00000003
'

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

Questo metodo usa la funzionalità di formattazione composita di .NET per convertire il valore di un oggetto nella relativa rappresentazione di testo e incorporare tale rappresentazione in una stringa. La stringa risultante viene scritta nel flusso di output.

Il parametro format è costituito da zero o più esecuzioni di testo mescolate con zero o più segnaposto indicizzati, denominati elementi di formato, che corrispondono a un oggetto nell'elenco di parametri di questo metodo. Il processo di formattazione sostituisce ogni elemento di formato con la rappresentazione testuale del valore dell'oggetto corrispondente.

La sintassi di un elemento di formato è {indice[,allineamento][:formatString]}, che specifica un indice obbligatorio, la lunghezza facoltativa e l'allineamento del testo formattato e una stringa facoltativa di caratteri dell'identificatore di formato che regolano la formattazione del valore dell'oggetto corrispondente.

.NET offre un supporto completo per la formattazione, descritto in modo più dettagliato negli argomenti di formattazione seguenti.

Vedi anche

Si applica a

Write(UInt64)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Importante

Questa API non è conforme a CLS.

Scrive la rappresentazione testuale del valore intero senza segno a 64 bit specificato nel flusso di output standard.

public:
 static void Write(System::UInt64 value);
[System.CLSCompliant(false)]
public static void Write (ulong value);
[<System.CLSCompliant(false)>]
static member Write : uint64 -> unit
Public Shared Sub Write (value As ULong)

Parametri

value
UInt64

Valore da scrivere.

Attributi

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando il metodo UInt64.ToString.

Vedi anche

Si applica a

Write(UInt32)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Importante

Questa API non è conforme a CLS.

Scrive la rappresentazione testuale del valore intero senza segno a 32 bit specificato nel flusso di output standard.

public:
 static void Write(System::UInt32 value);
[System.CLSCompliant(false)]
public static void Write (uint value);
[<System.CLSCompliant(false)>]
static member Write : uint32 -> unit
Public Shared Sub Write (value As UInteger)

Parametri

value
UInt32

Valore da scrivere.

Attributi

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando il metodo UInt32.ToString.

Vedi anche

Si applica a

Write(String)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive il valore stringa specificato nel flusso di output standard.

public:
 static void Write(System::String ^ value);
public static void Write (string? value);
public static void Write (string value);
static member Write : string -> unit
Public Shared Sub Write (value As String)

Parametri

value
String

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

Se il valore è null, non viene scritto nulla nel flusso di output standard.

Vedi anche

Si applica a

Write(String, Object, Object)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale degli oggetti specificati nel flusso di output standard usando le informazioni sul formato specificate.

public:
 static void Write(System::String ^ format, System::Object ^ arg0, System::Object ^ arg1);
public static void Write (string format, object? arg0, object? arg1);
public static void Write (string format, object arg0, object arg1);
static member Write : string * obj * obj -> unit
Public Shared Sub Write (format As String, arg0 As Object, arg1 As Object)

Parametri

format
String

Stringa di formato composito.

arg0
Object

Primo oggetto da scrivere utilizzando format.

arg1
Object

Secondo oggetto da scrivere utilizzando format.

Eccezioni

Si è verificato un errore di I/O.

format è null.

La specifica del formato in format non è valida.

Esempio

Nell'esempio seguente viene utilizzato il metodo WriteLine per illustrare gli identificatori di formattazione standard per numeri, date ed enumerazioni.

// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

using namespace System;

public enum class Color {Yellow = 1, Blue, Green};

int main() 
{
    DateTime thisDate = DateTime::Now;
    Console::Clear();

    // Format a negative integer or floating-point number in various ways.
    Console::WriteLine("Standard Numeric Format Specifiers");
    Console::WriteLine(
        "(C) Currency: . . . . . . . . {0:C}\n" +
        "(D) Decimal:. . . . . . . . . {0:D}\n" +
        "(E) Scientific: . . . . . . . {1:E}\n" +
        "(F) Fixed point:. . . . . . . {1:F}\n" +
        "(G) General:. . . . . . . . . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(N) Number: . . . . . . . . . {0:N}\n" +
        "(P) Percent:. . . . . . . . . {1:P}\n" +
        "(R) Round-trip: . . . . . . . {1:R}\n" +
        "(X) Hexadecimal:. . . . . . . {0:X}\n",
        -123, -123.45f); 

    // Format the current date in various ways.
    Console::WriteLine("Standard DateTime Format Specifiers");
    Console::WriteLine(
        "(d) Short date: . . . . . . . {0:d}\n" +
        "(D) Long date:. . . . . . . . {0:D}\n" +
        "(t) Short time: . . . . . . . {0:t}\n" +
        "(T) Long time:. . . . . . . . {0:T}\n" +
        "(f) Full date/short time: . . {0:f}\n" +
        "(F) Full date/long time:. . . {0:F}\n" +
        "(g) General date/short time:. {0:g}\n" +
        "(G) General date/long time: . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(M) Month:. . . . . . . . . . {0:M}\n" +
        "(R) RFC1123:. . . . . . . . . {0:R}\n" +
        "(s) Sortable: . . . . . . . . {0:s}\n" +
        "(u) Universal sortable: . . . {0:u} (invariant)\n" +
        "(U) Universal full date/time: {0:U}\n" +
        "(Y) Year: . . . . . . . . . . {0:Y}\n", 
        thisDate);

    // Format a Color enumeration value in various ways.
    Console::WriteLine("Standard Enumeration Format Specifiers");
    Console::WriteLine(
        "(G) General:. . . . . . . . . {0:G}\n" +
        "    (default):. . . . . . . . {0} (default = 'G')\n" +
        "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
        "(D) Decimal number: . . . . . {0:D}\n" +
        "(X) Hexadecimal:. . . . . . . {0:X}\n", 
        Color::Green);       

};


/*
This code example produces the following results:

Standard Numeric Format Specifiers
(C) Currency: . . . . . . . . ($123.00)
(D) Decimal:. . . . . . . . . -123
(E) Scientific: . . . . . . . -1.234500E+002
(F) Fixed point:. . . . . . . -123.45
(G) General:. . . . . . . . . -123
(default):. . . . . . . . -123 (default = 'G')
(N) Number: . . . . . . . . . -123.00
(P) Percent:. . . . . . . . . -12,345.00 %
(R) Round-trip: . . . . . . . -123.45
(X) Hexadecimal:. . . . . . . FFFFFF85

Standard DateTime Format Specifiers
(d) Short date: . . . . . . . 6/26/2004
(D) Long date:. . . . . . . . Saturday, June 26, 2004
(t) Short time: . . . . . . . 8:11 PM
(T) Long time:. . . . . . . . 8:11:04 PM
(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
(g) General date/short time:. 6/26/2004 8:11 PM
(G) General date/long time: . 6/26/2004 8:11:04 PM
(default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
(M) Month:. . . . . . . . . . June 26
(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
(Y) Year: . . . . . . . . . . June, 2004

Standard Enumeration Format Specifiers
(G) General:. . . . . . . . . Green
(default):. . . . . . . . Green (default = 'G')
(F) Flags:. . . . . . . . . . Green (flags or integer)
(D) Decimal number: . . . . . 3
(X) Hexadecimal:. . . . . . . 00000003

*/
// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

using System;
class Sample
{
    enum Color {Yellow = 1, Blue, Green};
    static DateTime thisDate = DateTime.Now;

    public static void Main()
    {
        Console.Clear();

        // Format a negative integer or floating-point number in various ways.
        Console.WriteLine("Standard Numeric Format Specifiers");
        Console.WriteLine(
            "(C) Currency: . . . . . . . . {0:C}\n" +
            "(D) Decimal:. . . . . . . . . {0:D}\n" +
            "(E) Scientific: . . . . . . . {1:E}\n" +
            "(F) Fixed point:. . . . . . . {1:F}\n" +
            "(G) General:. . . . . . . . . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(N) Number: . . . . . . . . . {0:N}\n" +
            "(P) Percent:. . . . . . . . . {1:P}\n" +
            "(R) Round-trip: . . . . . . . {1:R}\n" +
            "(X) Hexadecimal:. . . . . . . {0:X}\n",
            -123, -123.45f);

        // Format the current date in various ways.
        Console.WriteLine("Standard DateTime Format Specifiers");
        Console.WriteLine(
            "(d) Short date: . . . . . . . {0:d}\n" +
            "(D) Long date:. . . . . . . . {0:D}\n" +
            "(t) Short time: . . . . . . . {0:t}\n" +
            "(T) Long time:. . . . . . . . {0:T}\n" +
            "(f) Full date/short time: . . {0:f}\n" +
            "(F) Full date/long time:. . . {0:F}\n" +
            "(g) General date/short time:. {0:g}\n" +
            "(G) General date/long time: . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(M) Month:. . . . . . . . . . {0:M}\n" +
            "(R) RFC1123:. . . . . . . . . {0:R}\n" +
            "(s) Sortable: . . . . . . . . {0:s}\n" +
            "(u) Universal sortable: . . . {0:u} (invariant)\n" +
            "(U) Universal full date/time: {0:U}\n" +
            "(Y) Year: . . . . . . . . . . {0:Y}\n",
            thisDate);

        // Format a Color enumeration value in various ways.
        Console.WriteLine("Standard Enumeration Format Specifiers");
        Console.WriteLine(
            "(G) General:. . . . . . . . . {0:G}\n" +
            "    (default):. . . . . . . . {0} (default = 'G')\n" +
            "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
            "(D) Decimal number: . . . . . {0:D}\n" +
            "(X) Hexadecimal:. . . . . . . {0:X}\n",
            Color.Green);
    }
}
/*
This code example produces the following results:

Standard Numeric Format Specifiers
(C) Currency: . . . . . . . . ($123.00)
(D) Decimal:. . . . . . . . . -123
(E) Scientific: . . . . . . . -1.234500E+002
(F) Fixed point:. . . . . . . -123.45
(G) General:. . . . . . . . . -123
    (default):. . . . . . . . -123 (default = 'G')
(N) Number: . . . . . . . . . -123.00
(P) Percent:. . . . . . . . . -12,345.00 %
(R) Round-trip: . . . . . . . -123.45
(X) Hexadecimal:. . . . . . . FFFFFF85

Standard DateTime Format Specifiers
(d) Short date: . . . . . . . 6/26/2004
(D) Long date:. . . . . . . . Saturday, June 26, 2004
(t) Short time: . . . . . . . 8:11 PM
(T) Long time:. . . . . . . . 8:11:04 PM
(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
(g) General date/short time:. 6/26/2004 8:11 PM
(G) General date/long time: . 6/26/2004 8:11:04 PM
    (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
(M) Month:. . . . . . . . . . June 26
(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
(Y) Year: . . . . . . . . . . June, 2004

Standard Enumeration Format Specifiers
(G) General:. . . . . . . . . Green
    (default):. . . . . . . . Green (default = 'G')
(F) Flags:. . . . . . . . . . Green (flags or integer)
(D) Decimal number: . . . . . 3
(X) Hexadecimal:. . . . . . . 00000003

*/
// This code example demonstrates the Console.WriteLine() method.
// Formatting for this example uses the "en-US" culture.

open System

type Color = 
    | Yellow = 1
    | Blue = 2
    | Green = 3

let thisDate = DateTime.Now

Console.Clear()

// Format a negative integer or floating-point number in various ways.
Console.WriteLine "Standard Numeric Format Specifiers"
Console.WriteLine(
    "(C) Currency: . . . . . . . . {0:C}\n" +
    "(D) Decimal:. . . . . . . . . {0:D}\n" +
    "(E) Scientific: . . . . . . . {1:E}\n" +
    "(F) Fixed point:. . . . . . . {1:F}\n" +
    "(G) General:. . . . . . . . . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(N) Number: . . . . . . . . . {0:N}\n" +
    "(P) Percent:. . . . . . . . . {1:P}\n" +
    "(R) Round-trip: . . . . . . . {1:R}\n" +
    "(X) Hexadecimal:. . . . . . . {0:X}\n",
    -123, -123.45f)

// Format the current date in various ways.
Console.WriteLine "Standard DateTime Format Specifiers"
Console.WriteLine(
    "(d) Short date: . . . . . . . {0:d}\n" +
    "(D) Long date:. . . . . . . . {0:D}\n" +
    "(t) Short time: . . . . . . . {0:t}\n" +
    "(T) Long time:. . . . . . . . {0:T}\n" +
    "(f) Full date/short time: . . {0:f}\n" +
    "(F) Full date/long time:. . . {0:F}\n" +
    "(g) General date/short time:. {0:g}\n" +
    "(G) General date/long time: . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(M) Month:. . . . . . . . . . {0:M}\n" +
    "(R) RFC1123:. . . . . . . . . {0:R}\n" +
    "(s) Sortable: . . . . . . . . {0:s}\n" +
    "(u) Universal sortable: . . . {0:u} (invariant)\n" +
    "(U) Universal full date/time: {0:U}\n" +
    "(Y) Year: . . . . . . . . . . {0:Y}\n",
    thisDate)

// Format a Color enumeration value in various ways.
Console.WriteLine "Standard Enumeration Format Specifiers"
Console.WriteLine(
    "(G) General:. . . . . . . . . {0:G}\n" +
    "    (default):. . . . . . . . {0} (default = 'G')\n" +
    "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)\n" +
    "(D) Decimal number: . . . . . {0:D}\n" +
    "(X) Hexadecimal:. . . . . . . {0:X}\n",
    Color.Green)


// This code example produces the following results:
//
// Standard Numeric Format Specifiers
// (C) Currency: . . . . . . . . ($123.00)
// (D) Decimal:. . . . . . . . . -123
// (E) Scientific: . . . . . . . -1.234500E+002
// (F) Fixed point:. . . . . . . -123.45
// (G) General:. . . . . . . . . -123
//     (default):. . . . . . . . -123 (default = 'G')
// (N) Number: . . . . . . . . . -123.00
// (P) Percent:. . . . . . . . . -12,345.00 %
// (R) Round-trip: . . . . . . . -123.45
// (X) Hexadecimal:. . . . . . . FFFFFF85
//
// Standard DateTime Format Specifiers
// (d) Short date: . . . . . . . 6/26/2004
// (D) Long date:. . . . . . . . Saturday, June 26, 2004
// (t) Short time: . . . . . . . 8:11 PM
// (T) Long time:. . . . . . . . 8:11:04 PM
// (f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
// (F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
// (g) General date/short time:. 6/26/2004 8:11 PM
// (G) General date/long time: . 6/26/2004 8:11:04 PM
//     (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
// (M) Month:. . . . . . . . . . June 26
// (R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
// (s) Sortable: . . . . . . . . 2004-06-26T20:11:04
// (u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
// (U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
// (Y) Year: . . . . . . . . . . June, 2004
//
// Standard Enumeration Format Specifiers
// (G) General:. . . . . . . . . Green
//     (default):. . . . . . . . Green (default = 'G')
// (F) Flags:. . . . . . . . . . Green (flags or integer)
// (D) Decimal number: . . . . . 3
// (X) Hexadecimal:. . . . . . . 00000003
' This code example demonstrates the Console.WriteLine() method.
' Formatting for this example uses the "en-US" culture.

Class Sample
   Public Enum Color
      Yellow = 1
      Blue = 2
      Green = 3
   End Enum 'Color
   Private Shared thisDate As DateTime = DateTime.Now
   
   Public Shared Sub Main()
      Console.Clear()

      ' Format a negative integer or floating-point number in various ways.
      Console.WriteLine("Standard Numeric Format Specifiers")
      Console.WriteLine("(C) Currency: . . . . . . . . {0:C}" & vbCrLf & _
                        "(D) Decimal:. . . . . . . . . {0:D}" & vbCrLf & _
                        "(E) Scientific: . . . . . . . {1:E}" & vbCrLf & _
                        "(F) Fixed point:. . . . . . . {1:F}" & vbCrLf & _
                        "(G) General:. . . . . . . . . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(N) Number: . . . . . . . . . {0:N}" & vbCrLf & _
                        "(P) Percent:. . . . . . . . . {1:P}" & vbCrLf & _
                        "(R) Round-trip: . . . . . . . {1:R}" & vbCrLf & _
                        "(X) Hexadecimal:. . . . . . . {0:X}" & vbCrLf, _
                        - 123, - 123.45F)

      ' Format the current date in various ways.
      Console.WriteLine("Standard DateTime Format Specifiers")
      Console.WriteLine("(d) Short date: . . . . . . . {0:d}" & vbCrLf & _
                        "(D) Long date:. . . . . . . . {0:D}" & vbCrLf & _
                        "(t) Short time: . . . . . . . {0:t}" & vbCrLf & _
                        "(T) Long time:. . . . . . . . {0:T}" & vbCrLf & _
                        "(f) Full date/short time: . . {0:f}" & vbCrLf & _
                        "(F) Full date/long time:. . . {0:F}" & vbCrLf & _
                        "(g) General date/short time:. {0:g}" & vbCrLf & _
                        "(G) General date/long time: . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(M) Month:. . . . . . . . . . {0:M}" & vbCrLf & _
                        "(R) RFC1123:. . . . . . . . . {0:R}" & vbCrLf & _
                        "(s) Sortable: . . . . . . . . {0:s}" & vbCrLf & _
                        "(u) Universal sortable: . . . {0:u} (invariant)" & vbCrLf & _
                        "(U) Universal full date/time: {0:U}" & vbCrLf & _
                        "(Y) Year: . . . . . . . . . . {0:Y}" & vbCrLf, _
                        thisDate)

      ' Format a Color enumeration value in various ways.
      Console.WriteLine("Standard Enumeration Format Specifiers")
      Console.WriteLine("(G) General:. . . . . . . . . {0:G}" & vbCrLf & _
                        "    (default):. . . . . . . . {0} (default = 'G')" & vbCrLf & _
                        "(F) Flags:. . . . . . . . . . {0:F} (flags or integer)" & vbCrLf & _
                        "(D) Decimal number: . . . . . {0:D}" & vbCrLf & _
                        "(X) Hexadecimal:. . . . . . . {0:X}" & vbCrLf, _
                        Color.Green)
   End Sub
End Class
'
'This code example produces the following results:
'
'Standard Numeric Format Specifiers
'(C) Currency: . . . . . . . . ($123.00)
'(D) Decimal:. . . . . . . . . -123
'(E) Scientific: . . . . . . . -1.234500E+002
'(F) Fixed point:. . . . . . . -123.45
'(G) General:. . . . . . . . . -123
'    (default):. . . . . . . . -123 (default = 'G')
'(N) Number: . . . . . . . . . -123.00
'(P) Percent:. . . . . . . . . -12,345.00 %
'(R) Round-trip: . . . . . . . -123.45
'(X) Hexadecimal:. . . . . . . FFFFFF85
'
'Standard DateTime Format Specifiers
'(d) Short date: . . . . . . . 6/26/2004
'(D) Long date:. . . . . . . . Saturday, June 26, 2004
'(t) Short time: . . . . . . . 8:11 PM
'(T) Long time:. . . . . . . . 8:11:04 PM
'(f) Full date/short time: . . Saturday, June 26, 2004 8:11 PM
'(F) Full date/long time:. . . Saturday, June 26, 2004 8:11:04 PM
'(g) General date/short time:. 6/26/2004 8:11 PM
'(G) General date/long time: . 6/26/2004 8:11:04 PM
'    (default):. . . . . . . . 6/26/2004 8:11:04 PM (default = 'G')
'(M) Month:. . . . . . . . . . June 26
'(R) RFC1123:. . . . . . . . . Sat, 26 Jun 2004 20:11:04 GMT
'(s) Sortable: . . . . . . . . 2004-06-26T20:11:04
'(u) Universal sortable: . . . 2004-06-26 20:11:04Z (invariant)
'(U) Universal full date/time: Sunday, June 27, 2004 3:11:04 AM
'(Y) Year: . . . . . . . . . . June, 2004
'
'Standard Enumeration Format Specifiers
'(G) General:. . . . . . . . . Green
'    (default):. . . . . . . . Green (default = 'G')
'(F) Flags:. . . . . . . . . . Green (flags or integer)
'(D) Decimal number: . . . . . 3
'(X) Hexadecimal:. . . . . . . 00000003
'

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

Questo metodo usa la funzionalità di formattazione composita di .NET per convertire il valore di un oggetto nella relativa rappresentazione di testo e incorporare tale rappresentazione in una stringa. La stringa risultante viene scritta nel flusso di output.

Il parametro format è costituito da zero o più esecuzioni di testo mescolate con zero o più segnaposto indicizzati, denominati elementi di formato, che corrispondono a un oggetto nell'elenco di parametri di questo metodo. Il processo di formattazione sostituisce ogni elemento di formato con la rappresentazione testuale del valore dell'oggetto corrispondente.

La sintassi di un elemento di formato è {indice[,allineamento][:formatString]}, che specifica un indice obbligatorio, la lunghezza facoltativa e l'allineamento del testo formattato e una stringa facoltativa di caratteri dell'identificatore di formato che regolano la formattazione del valore dell'oggetto corrispondente.

.NET offre un supporto completo per la formattazione, descritto in modo più dettagliato negli argomenti di formattazione seguenti.

Vedi anche

Si applica a

Write(Object)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale dell'oggetto specificato nel flusso di output standard.

public:
 static void Write(System::Object ^ value);
public static void Write (object? value);
public static void Write (object value);
static member Write : obj -> unit
Public Shared Sub Write (value As Object)

Parametri

value
Object

Valore da scrivere o null.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

Se value è null, non viene scritto alcun elemento e non viene generata alcuna eccezione. In caso contrario, viene chiamato il metodo ToString di value per produrre la relativa rappresentazione di stringa e la stringa risultante viene scritta nel flusso di output standard.

Vedi anche

Si applica a

Write(Single)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale del valore a virgola mobile a precisione singola specificato nel flusso di output standard.

public:
 static void Write(float value);
public static void Write (float value);
static member Write : single -> unit
Public Shared Sub Write (value As Single)

Parametri

value
Single

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando il metodo Single.ToString.

Vedi anche

Si applica a

Write(Char)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive il valore del carattere Unicode specificato nel flusso di output standard.

public:
 static void Write(char value);
public static void Write (char value);
static member Write : char -> unit
Public Shared Sub Write (value As Char)

Parametri

value
Char

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Vedi anche

Si applica a

Write(Char[])

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la matrice di caratteri Unicode specificata nel flusso di output standard.

public:
 static void Write(cli::array <char> ^ buffer);
public static void Write (char[]? buffer);
public static void Write (char[] buffer);
static member Write : char[] -> unit
Public Shared Sub Write (buffer As Char())

Parametri

buffer
Char[]

Matrice di caratteri Unicode.

Eccezioni

Si è verificato un errore di I/O.

Vedi anche

Si applica a

Write(Boolean)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale del valore booleano specificato nel flusso di output standard.

public:
 static void Write(bool value);
public static void Write (bool value);
static member Write : bool -> unit
Public Shared Sub Write (value As Boolean)

Parametri

value
Boolean

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando Boolean.ToString, che restituisce Boolean.TrueString o Boolean.FalseString.

Vedi anche

Si applica a

Write(Double)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale del valore a virgola mobile e precisione doppia specificato nel flusso di output standard.

public:
 static void Write(double value);
public static void Write (double value);
static member Write : double -> unit
Public Shared Sub Write (value As Double)

Parametri

value
Double

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando il metodo Double.ToString.

Vedi anche

Si applica a

Write(Int32)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale del valore intero con segno a 32 bit specificato nel flusso di output standard.

public:
 static void Write(int value);
public static void Write (int value);
static member Write : int -> unit
Public Shared Sub Write (value As Integer)

Parametri

value
Int32

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando il metodo Int32.ToString.

Vedi anche

Si applica a

Write(Int64)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale del valore intero con segno a 64 bit specificato nel flusso di output standard.

public:
 static void Write(long value);
public static void Write (long value);
static member Write : int64 -> unit
Public Shared Sub Write (value As Long)

Parametri

value
Int64

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando il metodo Int64.ToString.

Vedi anche

Si applica a

Write(Decimal)

Origine:
Console.cs
Origine:
Console.cs
Origine:
Console.cs

Scrive la rappresentazione testuale del valore Decimal specificato nel flusso di output standard.

public:
 static void Write(System::Decimal value);
public static void Write (decimal value);
static member Write : decimal -> unit
Public Shared Sub Write (value As Decimal)

Parametri

value
Decimal

Valore da scrivere.

Eccezioni

Si è verificato un errore di I/O.

Esempio

Nell'esempio seguente viene illustrato l'uso del metodo Write.

int main()
{
   array<String^>^lineInputArr = {"1   2.2   hello	TRUE","2   5.22   bye	FALSE","3   6.38   see ya'	TRUE"};
   for ( Int32 i = 0; i < 3; i++ )
   {
      String^ lineInput = lineInputArr->GetValue( i )->ToString();
      String^ aChar =  "\t";
      array<String^>^fields = lineInput->Split( aChar->ToCharArray() );
      Boolean isFirstField = true;
      for ( Int32 i = 0; i < fields->Length; i++ )
      {
         if ( isFirstField )
                  isFirstField = false;
         else
                  Console::Write( "," );
         
         // If the field represents a boolean, replace with a numeric representation.
         try
         {
            Console::Write( Convert::ToByte( Convert::ToBoolean( fields[ i ] ) ) );
         }
         catch ( FormatException^ ) 
         {
            Console::Write( fields[ i ] );
         }


      }
      Console::WriteLine();

   }
}
public class FormatConverter
{
    public static void Main(string[] args)
    {
        string lineInput;
        while ((lineInput = Console.ReadLine()) != null)
        {
            string[] fields = lineInput.Split(new char[] {'\t'});
            bool isFirstField = true;
            foreach (var item in fields)
            {
                if (isFirstField)
                    isFirstField = false;
                else
                    Console.Write(',');

                // If the field represents a boolean, replace with a numeric representation.
                bool itemBool;
                if (Boolean.TryParse(item, out itemBool))
                    Console.Write(Convert.ToByte(itemBool));
                else
                    Console.Write(item);
            }
            Console.WriteLine();
        }
    }
}
let mutable lineInput = Console.ReadLine()
while lineInput <> null do
    let fields = lineInput.Split '\t'
    let mutable isFirstField = true

    for item in fields do
        if isFirstField then
            isFirstField <- false
        else
            Console.Write ','

        // If the field represents a boolean, replace with a numeric representation.
        match Boolean.TryParse item with 
        | true, itemBool ->
            Console.Write(Convert.ToByte itemBool)
        | _ ->
            Console.Write item
    Console.WriteLine()
Public Class FormatConverter
   Public Shared Sub Main()
      Dim lineInput As String = Console.ReadLine()
      While Not lineInput Is Nothing
         Dim fields As String() = lineInput.Split(ControlChars.Tab)
         Dim isFirstField As Boolean = True
         For Each item As String In fields
            If isFirstField Then
               isFirstField = False
            Else
               Console.Write(",")
            End If
            ' If the field represents a boolean, replace with a numeric representation.
            Dim itemBool As Boolean
            If Boolean.TryParse(item, itemBool)
                Console.Write(Convert.ToByte(itemBool))
            Else
                Console.Write(item)
            End If
         Next
         Console.WriteLine()
         lineInput = Console.ReadLine()
      End While
   End Sub
End Class

Commenti

La rappresentazione testuale di value viene generata chiamando Decimal.ToString.

Vedi anche

Si applica a