Saturday, 17 May 2014

String Formatting in C#

Post By: Hanan Mannan
Contact Number: Pak (+92)-321-59-95-634
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String Formatting in C#

I couldn’t find a quick reference to .NET string formatting using the String.Format() function, so I created this one (which has also spawned this String Formatting FAQ).
When I started working with the .NET framework, one thing puzzled me. I couldn’t find sprintf(). sprintf() is the C function that takes an output buffer, a format string, and any number of arguments, and builds a string for you. For example:
char szError[256];
sprintf(szError, “Error %d occurred.\n”, nError);
This would write “Error 12 occurred.” into the szError buffer (assuming nError was 12). It’s a basic part of C programming and most C++ programmers still use it though better functionality is available in the STL because sprintf is simple to use and clear. The STL equivalent would be:
str << “Error ” << nError << ” occurred.” << endl;
Or something close to that. It’s type-safe, and more OO than sprintf, but not as easy to read and not as easy to localize.
The .NET framework handles strings very nicely – but it takes some getting used to. The rough equivalent of sprintf in .NET is the static String.Format function, which takes a format string and some arguments, and generates an output string. (This is a nice improvement over sprintf since there’s no chance you’ll overflow the output buffer). For example:
string errorString = String.Format(“Error {0} occurred.”, nError);
Teeming with metadata, the .NET environment doesn’t need the format string to say what type of data you’re formatting, just where you want it. (A common sprintf bug is supplying the wrong data type – there’s no protection from using %s instead of %d and having your program crash when sprintf is called).
The {0} in the string above is replaced with the value of nError, but what if you want to specify the number of digits to use? Or the base (hexadecimal etc)? The framework supports all this, but where it seemed confusing is that it’s not the String.Format function that does the string formatting, but rather the types themselves.
Every object has a method called ToString that returns a string representation of the object. The ToString method can accept a string parameter, which tells the object how to format itself – in the String.Format call, the formatting string is passed after the position, for example, “{0:##}”
The text inside the curly braces is {index[,alignment][:formatString]}. If alignment is positive, the text is right-aligned in a field the given number of spaces; if it’s negative, it’s left-aligned.

Strings

There really isn’t any formatting within a string, beyond it’s alignment. Alignment works for any argument being printed in a String.Format call.

SampleGenerates
String.Format(“->{1,10}<-”, “Hello”);-> Hello<-
String.Format(“->{1,-10}<-”, “Hello”);->Hello <-

Numbers

Basic number formatting specifiers:

SpecifierTypeFormatOutput (Passed Double 1.42)Output (Passed Int -12400)
cCurrency{0:c}$1.42-$12,400
dDecimal (Whole number){0:d}System.FormatException-12400
eScientific{0:e}1.420000e+000-1.240000e+004
fFixed point{0:f}1.42-12400.00
gGeneral{0:g}1.42-12400
nNumber with commas for thousands{0:n}1.42-12,400
rRound trippable{0:r}1.42System.FormatException
xHexadecimal{0:x4}System.FormatExceptioncf90
Custom number formatting:

SpecifierTypeExampleOutput (Passed Double 1500.42)Note
0Zero placeholder{0:00.0000}1500.4200Pads with zeroes.
#Digit placeholder{0:(#).##}(1500).42
.Decimal point{0:0.0}1500.4
,Thousand separator{0:0,0}1,500Must be between two zeroes.
,.Number scaling{0:0,.}2Comma adjacent to Period scales by 1000.
%Percent{0:0%}150042%Multiplies by 100, adds % sign.
eExponent placeholder{0:00e+0}15e+2Many exponent formats available.
;Group separatorsee below
The group separator is especially useful for formatting currency values which require that negative values be enclosed in parentheses. This currency formatting example at the bottom of this document makes it obvious:

Dates

Note that date formatting is especially dependant on the system’s regional settings; the example strings here are from my local locale.

SpecifierTypeExample (Passed System.DateTime.Now)
dShort date10/12/2002
DLong dateDecember 10, 2002
tShort time10:11 PM
TLong time10:11:29 PM
fFull date & timeDecember 10, 2002 10:11 PM
FFull date & time (long)December 10, 2002 10:11:29 PM
gDefault date & time10/12/2002 10:11 PM
GDefault date & time (long)10/12/2002 10:11:29 PM
MMonth day patternDecember 10
rRFC1123 date stringTue, 10 Dec 2002 22:11:29 GMT
sSortable date string2002-12-10T22:11:29
uUniversal sortable, local time2002-12-10 22:13:50Z
UUniversal sortable, GMTDecember 11, 2002 3:13:50 AM
YYear month patternDecember, 2002
The ‘U’ specifier seems broken; that string certainly isn’t sortable.
Custom date formatting:

SpecifierTypeExampleExample Output
ddDay{0:dd}10
dddDay name{0:ddd}Tue
ddddFull day name{0:dddd}Tuesday
f, ff, …Second fractions{0:fff}932
gg, …Era{0:gg}A.D.
hh2 digit hour{0:hh}10
HH2 digit hour, 24hr format{0:HH}22
mmMinute 00-59{0:mm}38
MMMonth 01-12{0:MM}12
MMMMonth abbreviation{0:MMM}Dec
MMMMFull month name{0:MMMM}December
ssSeconds 00-59{0:ss}46
ttAM or PM{0:tt}PM
yyYear, 2 digits{0:yy}02
yyyyYear{0:yyyy}2002
zzTimezone offset, 2 digits{0:zz}-05
zzzFull timezone offset{0:zzz}-05:00
:Separator{0:hh:mm:ss}10:43:20
/Separator{0:dd/MM/yyyy}10/12/2002

Enumerations


SpecifierType
gDefault (Flag names if available, otherwise decimal)
fFlags always
dInteger always
xEight digit hex.

Some Useful Examples

String.Format(“{0:$#,##0.00;($#,##0.00);Zero}”, value);
This will output “$1,240.00″ if passed 1243.50. It will output the same format but in parentheses if the number is negative, and will output the string “Zero” if the number is zero.
String.Format(“{0:(###) ###-####}”, 8005551212);
This will output “(800) 555-1212″.

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