This package contains independant validation routines.
Commons Validator serves two purposes:
This package has been created, since version 1.3.0, in an attempt to clearly separate these two concerns and is the location for the standard, independant validation routines/functions in Commons Validator.
The contents of this package have no dependencies on the framework aspect of Commons Validator and can be used on their own.
The date and time validators either validate according to a specified format
or use a standard format for a specified Locale.
java.util.Date type.java.util.Calendar type.java.util.Calendar type.
You can either use one of the isValid() methods to just determine
if a date is valid, or use one of the validate() methods to
validate a date and convert it to a java.util.Date...
// Get the Date validator
DateValidator validator = DateValidator.getInstance();
// Validate/Convert the date
Date fooDate = validator.validate(fooString, "dd/MM/yyyy");
if (fooDate == null) {
// error...not a valid date
return;
}
The following methods are provided to validate a date/time (return a boolean result):
isValid(value)isValid(value, pattern)isValid(value, Locale)isValid(value, pattern, Locale)The following methods are provided to validate a date/time and convert it to either a
java.util.Date or java.util.Calendar:
validate(value)validate(value, pattern)validate(value, Locale)validate(value, pattern, Locale)Formatting and validating are two sides of the same coin. Typically input values which are converted from Strings according to a specified format also have to be rendered for output in the same format. These validators provide the mechanism for formatting from date/time objects to Strings. The following methods are provided to format date/time values as Strings:
format(date/calendar)format(date/calendar, pattern)format(date/calendar, Locale)format(date/calendar, pattern, Locale)
If the date being parsed relates to a different time zone than the
system default, you can specify the TimeZone to use when
validating/converting:
// Get the GMT time zone
TimeZone GMT = TimeZone.getInstance("GMT");
// Validate/Convert the date using GMT
Date fooDate = validator.validate(fooString, "dd/MM/yyyy", GMT);
The followng Time Zone flavours of the Validation/Conversion methods are provided:
validate(value, TimeZone)validate(value, pattern, TimeZone)validate(value, Locale, TimeZone)validate(value, pattern, Locale, TimeZone)
As well as validating that a value is a valid date or time, these validators
also provide date comparison functions. The DateValidator
and CalendarValidator provide functions for comparing years,
quarters, months, weeks and dates and the TimeValidator provides
functions for comparing hours, minutes, seconds and milliseconds.
For example, to check that a date is in the current month, you could use
the compareMonths() method, which compares the year and month
components of a date:
// Check if the date is in the current month
int compare = validator.compareMonths(fooDate, new Date(), null);
if (compare == 0) {
// do current month processing
return;
}
// Check if the date is in the previous quarter
compare = validator.compareQuarters(fooDate, new Date(), null);
if (compare < 0) {
// do previous quarter processing
return;
}
// Check if the date is in the next year
compare = validator.compareYears(fooDate, new Date(), null);
if (compare > 0) {
// do next year processing
return;
}
The numeric validators either validate according to a specified format
or use a standard format for a specified Locale or use
a custom format for a specified Locale.
java.lang.Byte type.java.lang.Short type.java.lang.Integer type.java.lang.Long type.java.lang.Float type.java.lang.Double type.java.math.BigInteger type.java.math.BigDecimal type.
You can either use one of the isValid() methods to just determine
if a number is valid, or use one of the validate() methods to
validate a number and convert it to an appropriate type.
The following example validates an integer against a custom pattern for the German locale. Please note the format is specified using the standard symbols for java.text.DecimalFormat so although the decimal separator is indicated as a period (".") in the format, the validator will check using the German decimal separator - which is a comma (",").
// Get the Integer validator
IntegerValidator validator = IntegerValidator.getInstance();
// Validate/Convert the number
Integer fooInteger = validator.validate(fooString, "#,##0.00", Locale.GERMAN);
if (fooInteger == null) {
// error...not a valid Integer
return;
}
The following methods are provided to validate a number (return a boolean result):
isValid(value)isValid(value, pattern)isValid(value, Locale)isValid(value, pattern, Locale)The following methods are provided to validate a number and convert it one of
the java.lang.Number implementations:
validate(value)validate(value, pattern)validate(value, Locale)validate(value, pattern, Locale)Formatting and validating are two sides of the same coin. Typically input values which are converted from Strings according to a specified format also have to be rendered for output in the same format. These validators provide the mechanism for formatting from numeric objects to Strings. The following methods are provided to format numeric values as Strings:
format(number)format(number, pattern)format(number, Locale)format(number, pattern, Locale)As well as validating that a value is a valid number, these validators also provide functions for validating the minimum, maximum and range of a value.
// Check the number is between 25 and 75
if (validator.isInRange(fooInteger, 25, 75) {
// valid...in the specified range
return;
}
A default Currency Validator
implementation is provided, although all the numeric validators
support currency validation. The default implementation converts
currency amounts to a java.math.BigDecimal and additionally
it provides lenient currency symbol validation. That is, currency
amounts are valid with or without the currency symbol.
BigDecimalValidator validator = CurrencyValidator.getInstance();
BigDecimal fooAmount = validator.validate("$12,500.00", Locale.US);
if (fooAmount == null) {
// error...not a valid currency amount
return;
}
// Check the amount is a minimum of $1,000
if (validator.minValue(fooAmount, 1000) {
// valid...in the specified range
return;
}
If, for example, you want to use the Integer Validator to validate a currency, then you can simply create a new instance with the appropriate format style. Note that the other validators do not support the lenient currency symbol validation.
IntegerValidator validator =
new IntegerValidator(true, IntegerValidator.CURRENCY_FORMAT);
String pattern = "#,###" + '\u00A4' + '\u00A4'; // Use international symbol
Integer fooAmount = validator.validate("10.100EUR", pattern, Locale.GERMAN);
if (fooAmount == null) {
// error...not a valid currency amount
return;
}
A default Percent Validator
implementation is provided, although the Float,
Double and BigDecimal validators also support
percent validation. The default implementation converts
percent amounts to a java.math.BigDecimal and additionally
it provides lenient percent symbol validation. That is, percent
amounts are valid with or without the percent symbol.
BigDecimalValidator validator = PercentValidator.getInstance();
BigDecimal fooPercent = validator.validate("20%", Locale.US);
if (fooPercent == null) {
// error...not a valid percent
return;
}
// Check the percent is between 10% and 90%
if (validator.isInRange(fooPercent, 0.1, 0.9) {
// valid...in the specified range
return;
}
If, for example, you want to use the Float Validator to validate a percent, then you can simply create a new instance with the appropriate format style. Note that the other validators do not support the lenient percent symbol validation.
FloatValidator validator =
new FloatValidator(true, FloatValidator.PERCENT_FORMAT);
Float fooPercent = validator.validate("20%", "###%");
if (fooPercent == null) {
// error...not a valid percent
return;
}
Note: in theory the other numeric validators besides Float, Double and BigDecimal (i.e. Byte, Short, Integer, Long and BigInteger) also support percent validation. However, since they don't allow fractions they will only work with percentages greater than 100%.