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Composite Formatting 

The .NET Framework composite formatting feature takes a list of objects and a composite format string as input. A composite format string consists of fixed text intermixed with indexed placeholders, called format items, that correspond to the objects in the list. The formatting operation yields a result string that consists of the original fixed text intermixed with the string representation of the objects in the list.

The composite formatting feature is supported by methods such as Format, AppendFormat, and some overloads of WriteLine and TextWriter.WriteLine. The String.Format method yields a formatted result string, the AppendFormat method appends a formatted result string to a StringBuilder object, the Console.WriteLine methods display the formatted result string to the console, and the TextWriter.WriteLine method writes the formatted result string to a stream or file.

Composite Format String

A composite format string and object list are used as arguments of methods that support the composite formatting feature. A composite format string consists of zero or more runs of fixed text intermixed with one or more format items. The fixed text is any string that you choose, and each format item corresponds to an object or boxed structure in the list. The composite formatting feature returns a new result string where each format item is replaced by the string representation of the corresponding object in the list.

Consider the following Format code fragment.

string myName = "Fred";
String.Format("Name = {0}, hours = {1:hh}", myName, DateTime.Now);

The fixed text is "Name = " and ", hours = ". The format items are "{0}", whose index is 0, which corresponds to the object myName, and "{1:hh}", whose index is 1, which corresponds to the object DateTime.Now.

Format Item Syntax

Each format item takes the following form and consists of the following components:

{index[,alignment][:formatString]}

The matching braces ("{" and "}") are required.

Index Component

The mandatory index component, also called a parameter specifier, is a number starting from 0 that identifies a corresponding item in the list of objects. That is, the format item whose parameter specifier is 0 formats the first object in the list, the format item whose parameter specifier is 1 formats the second object in the list, and so on.

Multiple format items can refer to the same element in the list of objects by specifying the same parameter specifier. For example, you can format the same numeric value in hexadecimal, scientific, and number format by specifying a composite format string like this: "{0:X} {0:E} {0:N}".

Each format item can refer to any object in the list. For example, if there are three objects, you can format the second, first, and third object by specifying a composite format string like this: "{1} {0} {2}". An object that is not referenced by a format item is ignored. A runtime exception results if a parameter specifier designates an item outside the bounds of the list of objects.

Alignment Component

The optional alignment component is a signed integer indicating the preferred formatted field width. If the value of alignment is less than the length of the formatted string, alignment is ignored and the length of the formatted string is used as the field width. The formatted data in the field is right-aligned if alignment is positive and left-aligned if alignment is negative. If padding is necessary, white space is used. The comma is required if alignment is specified.

Format String Component

The optional formatString component is a format string that is appropriate for the type of object being formatted. Specify a numeric format string if the corresponding object is a numeric value, a date and time format string if the corresponding object is a DateTime object, or an enumeration format string if the corrersponding object is an enumeration value. If formatString is not specified, the general ("G") format specifier for a numeric, date and time, or enumeration type is used. The colon is required if formatString is specified.

Escaping Braces

Opening and closing braces are interpreted as starting and ending a format item. Consequently, you must use an escape sequence to display a literal opening brace or closing brace. Specify two opening braces ("{{") in the fixed text to display one opening brace ("{"), or two closing braces ("}}") to display one closing brace ("}"). Braces in a format item are interpreted sequentially in the order they are encountered. Interpreting nested braces is not supported.

The way escaped braces are interpreted can lead to unexpected results. For example, consider the format item "{{{0:D}}}", which is intended to display an opening brace, a numeric value formatted as a decimal number, and a closing brace. However, the format item is actually interpreted in the following manner:

  1. The first two opening braces ("{{") are escaped and yield one opening brace.

  2. The next three characters ("{0:") are interpreted as the start of a format item.

  3. The next character ("D") would be interpreted as the Decimal standard numeric format specifier, but the next two escaped braces ("}}") yield a single brace. Because the resulting string ("D}") is not a standard numeric format specifier, the resulting string is interpreted as a custom format string that means display the literal string "D}".

  4. The last brace ("}") is interpreted as the end of the format item.

  5. The final result that is displayed is the literal string, "{D}". The numeric value that was to be formatted is not displayed.

One way to write your code to avoid misinterpreting escaped braces and format items is to format the braces and format item separately. That is, in the first format operation display a literal opening brace, in the next operation display the result of the format item, then in the final operation display a literal closing brace.

Processing Order

If the value to be formatted is null (Nothing in Visual Basic), an empty string ("") is returned.

If the type to be formatted implements the ICustomFormatter interface, the ICustomFormatter.Format method is called.

If the preceding step does not format the type, and the type implements the IFormattable interface, the IFormattable.ToString method is called.

If the preceding step does not format the type, the type's ToString method, which is inherited from the Object class, is called.

Alignment is applied after the preceding steps have been performed.

Code Examples

The following example shows one string created using composite formatting and another created using an object's ToString method. Both types of formatting produce equivalent results.

string FormatString1 = String.Format("{0:dddd MMMM}", DateTime.Now);
string FormatString2 = DateTime.Now.ToString("dddd MMMM");

Assuming that the current day is a Thursday in May, the value of both strings in the preceding example is Thursday May in the U.S. English culture.

Console.WriteLine exposes the same functionality as String.Format. The only difference between the two methods is that String.Format returns its result as a string, while Console.WriteLine writes the result to the output stream associated with the Console object. The following example uses the Console.WriteLine method to format the value of MyInt to a currency value.

int MyInt = 100;
Console.WriteLine("{0:C}", MyInt);

This code displays $100.00 to the console on computers that have U.S. English as the current culture.

The following example demonstrates formatting multiple objects, including formatting one object two different ways.

string myName = "Fred";
String.Format("Name = {0}, hours = {1:hh}, minutes = {1:mm}",
      myName, DateTime.Now);

The output from the preceding string is "Name = Fred, hours = 07, minutes = 23", where the current time reflects these numbers.

The following examples demonstrate the use of alignment in formatting. The arguments that are formatted are placed between vertical bar characters (|) to highlight the resulting alignment.

string myFName = "Fred";
string myLName = "Opals";
int myInt = 100;
string FormatFName = String.Format("First Name = |{0,10}|", myFName);
string FormatLName = String.Format("Last Name = |{0,10}|", myLName);
string FormatPrice = String.Format("Price = |{0,10:C}|", myInt); 
Console.WriteLine(FormatFName);
Console.WriteLine(FormatLName);
Console.WriteLine(FormatPrice);

FormatFName = String.Format("First Name = |{0,-10}|", myFName);
FormatLName = String.Format("Last Name = |{0,-10}|", myLName);
FormatPrice = String.Format("Price = |{0,-10:C}|", myInt);
Console.WriteLine(FormatFName);
Console.WriteLine(FormatLName);
Console.WriteLine(FormatPrice);

The preceding code displays the following to the console in the U.S. English culture. Different cultures display different currency symbols and separators.

First Name = |          Fred|
Last Name = |         Opals|
Price = |           $100.00|
First Name = |Fred      |
Last Name = |Opals     |
Price = |$100.00   |

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