I can think of numerous times when I have seen others write unnecessary Java code and I have written unnecessary Java code because of lack of awareness of a JDK class that already provides the desired functionality. One example of this is the writing of time-related constants using hard-coded values such as 60, 24, 1440, and 86400when TimeUnit provides a better, standardized approach. In this post, I look at another example of a class that provides the functionality I have seen developers often implement on their one: NumberFormat.
The NumberFormat class is part of the java.text package, which also includes the frequently used DateFormat and SimpleDateFormat classes. NumberFormat is an abstract class (no public constructor) and instances of its descendants are obtained via overloaded static methods with names such as getInstance(), getCurrencyInstance(), and getPercentInstance().
Currency
The next code listing demonstrates calling NumberFormat.getCurrencyInstance(Locale)to get an instance of NumberFormat
that presents numbers in a currency-friendly format.
Demonstrating NumberFormat's Currency Support
01.
/**
02.
* Demonstrate use of a Currency Instance of NumberFormat.
03.
*/
04.
public
void
demonstrateCurrency()
05.
{
06.
writeHeaderToStandardOutput(
"Currency NumberFormat Examples"
);
07.
final
NumberFormat currencyFormat = NumberFormat.getCurrencyInstance(Locale.US);
08.
out.println(
"15.5 -> "
+ currencyFormat.format(
15.5
));
09.
out.println(
"15.54 -> "
+ currencyFormat.format(
15.54
));
10.
out.println(
"15.345 -> "
+ currencyFormat.format(
15.345
));
// rounds to two decimal places
11.
printCurrencyDetails(currencyFormat.getCurrency());
12.
}
13.
14.
/**
15.
* Print out details of provided instance of Currency.
16.
*
17.
* @param currency Instance of Currency from which details
18.
* will be written to standard output.
19.
*/
20.
public
void
printCurrencyDetails(
final
Currency currency)
21.
{
22.
out.println(
"Concurrency: "
+ currency);
23.
out.println(
"\tISO 4217 Currency Code: "
+ currency.getCurrencyCode());
24.
out.println(
"\tISO 4217 Numeric Code: "
+ currency.getNumericCode());
25.
out.println(
"\tCurrency Display Name: "
+ currency.getDisplayName(Locale.US));
26.
out.println(
"\tCurrency Symbol: "
+ currency.getSymbol(Locale.US));
27.
out.println(
"\tCurrency Default Fraction Digits: "
+ currency.getDefaultFractionDigits());
28.
}
When the above code is executed, the results are as shown next:
==================================================================================
= Currency NumberFormat Examples
==================================================================================
15.5 -> $15.50
15.54 -> $15.54
15.345 -> $15.35
Concurrency: USD
ISO 4217 Currency Code: USD
ISO 4217 Numeric Code: 840
Currency Display Name: US Dollar
Currency Symbol: $
Currency Default Fraction Digits: 2
The above code and associated output demonstrate that the NumberFormat
instance used for currency (actually a DecimalFormat
), automatically applies the appropriate number of digits and appropriate currency symbol based on the locale.
Percentages
The next code listings and associated output demonstrate use of NumberFormat
to present numbers in percentage-friendly format.
Demonstrating NumberFormat's Percent Format
01.
/**
02.
* Demonstrate use of a Percent Instance of NumberFormat.
03.
*/
04.
public
void
demonstratePercentage()
05.
{
06.
writeHeaderToStandardOutput(
"Percentage NumberFormat Examples"
);
07.
final
NumberFormat percentageFormat = NumberFormat.getPercentInstance(Locale.US);
08.
out.println(
"Instance of: "
+ percentageFormat.getClass().getCanonicalName());
09.
out.println(
"1 -> "
+ percentageFormat.format(
1
));
10.
// will be 0 because truncated to Integer by Integer division
11.
out.println(
"75/100 -> "
+ percentageFormat.format(
75
/
100
));
12.
out.println(
".75 -> "
+ percentageFormat.format(.
75
));
13.
out.println(
"75.0/100 -> "
+ percentageFormat.format(
75.0
/
100
));
14.
// will be 0 because truncated to Integer by Integer division
15.
out.println(
"83/93 -> "
+ percentageFormat.format((
83
/
93
)));
16.
out.println(
"93/83 -> "
+ percentageFormat.format(
93
/
83
));
17.
out.println(
".5 -> "
+ percentageFormat.format(.
5
));
18.
out.println(
".912 -> "
+ percentageFormat.format(.
912
));
19.
out.println(
"---- Setting Minimum Fraction Digits to 1:"
);
20.
percentageFormat.setMinimumFractionDigits(
1
);
21.
out.println(
"1 -> "
+ percentageFormat.format(
1
));
22.
out.println(
".75 -> "
+ percentageFormat.format(.
75
));
23.
out.println(
"75.0/100 -> "
+ percentageFormat.format(
75.0
/
100
));
24.
out.println(
".912 -> "
+ percentageFormat.format(.
912
));
25.
}
==================================================================================
= Percentage NumberFormat Examples
==================================================================================
1 -> 100%
75/100 -> 0%
.75 -> 75%
75.0/100 -> 75%
83/93 -> 0%
93/83 -> 100%
.5 -> 50%
.912 -> 91%
---- Setting Minimum Fraction Digits to 1:
1 -> 100.0%
.75 -> 75.0%
75.0/100 -> 75.0%
.912 -> 91.2%
The code and output of the percent NumberFormat
usage demonstrate that by default the instance of NumberFormat
(actually a DecimalFormat
in this case) returned byNumberFormat.getPercentInstance(Locale) method has no fractional digits, multiplies the provided number by 100 (assumes that it is the decimal equivalent of a percentage when provided), and adds a percentage sign (%).
Integers
The small amount of code shown next and its associated output demonstrate use ofNumberFormat
to present numbers in integral format.
Demonstrating NumberFormat's Integer Format
01.
/**
02.
* Demonstrate use of an Integer Instance of NumberFormat.
03.
*/
04.
public
void
demonstrateInteger()
05.
{
06.
writeHeaderToStandardOutput(
"Integer NumberFormat Examples"
);
07.
final
NumberFormat integerFormat = NumberFormat.getIntegerInstance(Locale.US);
08.
out.println(
"7.65 -> "
+ integerFormat.format(
7.65
));
09.
out.println(
"7.5 -> "
+ integerFormat.format(
7.5
));
10.
out.println(
"7.49 -> "
+ integerFormat.format(
7.49
));
11.
out.println(
"-23.23 -> "
+ integerFormat.format(-
23.23
));
12.
}
==================================================================================
= Integer NumberFormat Examples
==================================================================================
7.65 -> 8
7.5 -> 8
7.49 -> 7
-23.23 -> -23
As demonstrated in the above code and associated output, the NumberFormat
methodgetIntegerInstance(Locale) returns an instance that presents provided numerals as integers.
Fixed Digits
The next code listing and associated output demonstrate using NumberFormat
to print fixed-point representation of floating-point numbers. In other words, this use ofNumberFormat
allows one to represent a number with an exactly prescribed number of digits to the left of the decimal point ("integer" digits) and to the right of the decimal point ("fraction" digits).
Demonstrating NumberFormat for Fixed-Point Numbers
01.
/**
02.
* Demonstrate generic NumberFormat instance with rounding mode,
03.
* maximum fraction digits, and minimum integer digits specified.
04.
*/
05.
public
void
demonstrateNumberFormat()
06.
{
07.
writeHeaderToStandardOutput(
"NumberFormat Fixed-Point Examples"
);
08.
final
NumberFormat numberFormat = NumberFormat.getNumberInstance();
09.
numberFormat.setRoundingMode(RoundingMode.HALF_UP);
10.
numberFormat.setMaximumFractionDigits(
2
);
11.
numberFormat.setMinimumIntegerDigits(
1
);
12.
out.println(numberFormat.format(
234.234567
));
13.
out.println(numberFormat.format(
1
));
14.
out.println(numberFormat.format(.
234567
));
15.
out.println(numberFormat.format(.
349
));
16.
out.println(numberFormat.format(.
3499
));
17.
out.println(numberFormat.format(
0.9999
));
18.
}
==================================================================================
= NumberFormat Fixed-Point Examples
==================================================================================
234.23
1
0.23
0.34
0.35
1
The above code and associated output demonstrate the fine-grain control of the minimum number of "integer" digits to represent to the left of the decimal place (at least one, so zero shows up when applicable) and the maximum number of "fraction" digits to the right of the decimal point. Although not shown, the maximum number of integer digits and minimum number of fraction digits can also be specified.
Conclusion
I have used this post to look at how NumberFormat can be used to present numbers in different ways (currency, percentage, integer, fixed number of decimal points, etc.) and often means no or reduced code need be written to massage numbers into these formats. When I first began writing this post, I envisioned including examples and discussion on the direct descendants of NumberFormat
(DecimalFormat andChoiceFormat), but have decided this post is already sufficiently lengthy. I may write about these descendants of NumberFormat
in future blog posts.
reference from:http://java.dzone.com/articles/java-numeric-formatting