Return all matches of this regexp in given character sequence as a scala.util.matching.Regex.MatchIterator, which is a special scala.collection.Iterator that returns the matched strings, but can also be converted into a normal iterator that returns objects of type scala.util.matching.Regex.Match that can be queried for data such as the text that precedes the match, subgroups, etc.
Return all matches of this regexp in given character sequence as a scala.util.matching.Regex.MatchIterator, which is a special scala.collection.Iterator that returns the matched strings, but can also be converted into a normal iterator that returns objects of type scala.util.matching.Regex.Match that can be queried for data such as the text that precedes the match, subgroups, etc.
The text to match against.
A scala.util.matching.Regex.MatchIterator of all matches.
for (words <- """\w+""".r findAllIn "A simple example.") yield words
Return all matches of this regexp in given character sequence as a scala.collection.Iterator of scala.util.matching.Regex.Match.
Return all matches of this regexp in given character sequence as a scala.collection.Iterator of scala.util.matching.Regex.Match.
The text to match against.
A scala.collection.Iterator of scala.util.matching.Regex.Match for all matches.
for (words <- """\w+""".r findAllMatchIn "A simple example.") yield words.start
Return optionally first matching string of this regexp in given character sequence, or None if it does not exist.
Return optionally first matching string of this regexp in given character sequence, or None if it does not exist.
The text to match against.
An scala.Option of the first matching string in the text.
"""\w+""".r findFirstIn "A simple example." foreach println // prints "A"
Return optionally first match of this regexp in given character sequence, or None if it does not exist.
Return optionally first match of this regexp in given character sequence, or None if it does not exist.
The main difference between this method and findFirstIn
is that the (optional) return
type for this is scala.util.matching.Regex.Match, through which more
data can be obtained about the match, such as the strings that precede and follow it,
or subgroups.
The text to match against.
A scala.Option of scala.util.matching.Regex.Match of the first matching string in the text.
("""[a-z]""".r findFirstMatchIn "A simple example.") map (_.start) // returns Some(2), the index of the first match in the text
Return optionally match of this regexp at the beginning of the given character sequence, or None if regexp matches no prefix of the character sequence.
Return optionally match of this regexp at the beginning of the given character sequence, or None if regexp matches no prefix of the character sequence.
The main difference from this method to findFirstMatchIn
is that
this method will not return any matches that do not begin at the
start of the text being matched against.
The text to match against.
A scala.Option of the scala.util.matching.Regex.Match of the matched string.
"""\w+""".r findPrefixMatchOf "A simple example." map (_.after) // returns Some(" simple example.")
Return optionally match of this regexp at the beginning of the given character sequence, or None if regexp matches no prefix of the character sequence.
Return optionally match of this regexp at the beginning of the given character sequence, or None if regexp matches no prefix of the character sequence.
The main difference from this method to findFirstIn
is that this
method will not return any matches that do not begin at the start
of the text being matched against.
The text to match against.
A scala.Option of the matched prefix.
"""[a-z]""".r findPrefixOf "A simple example." // returns None, since the text does not begin with a lowercase letter
Returns string formatted according to given format
string.
Returns string formatted according to given format
string.
Format strings are as for String.format
(@see java.lang.String.format).
The compiled pattern
The compiled pattern
Replaces all matches using a replacer function.
Replaces all matches using a replacer function. The replacer function takes a scala.util.matching.Regex.Match so that extra information can be obtained from the match. For example:
import scala.util.matching.Regex val datePattern = new Regex("""(\d\d\d\d)-(\d\d)-(\d\d)""", "year", "month", "day") val text = "From 2011-07-15 to 2011-07-17" val repl = datePattern replaceAllIn (text, m => m.group("month")+"/"+m.group("day"))
In the replacement String, a dollar sign ($
) followed by a number will be
interpreted as a reference to a group in the matched pattern, with numbers
1 through 9 corresponding to the first nine groups, and 0 standing for the
whole match. Any other character is an error. The backslash (\
) character
will be interpreted as an escape character, and can be used to escape the
dollar sign. One can use scala.util.matching.Regex's quoteReplacement
to automatically escape these characters.
The string to match.
The function which maps a match to another string.
The target string after replacements.
Replaces all matches by a string.
Replaces all matches by a string.
In the replacement String, a dollar sign ($
) followed by a number will be
interpreted as a reference to a group in the matched pattern, with numbers
1 through 9 corresponding to the first nine groups, and 0 standing for the
whole match. Any other character is an error. The backslash (\
) character
will be interpreted as an escape character, and can be used to escape the
dollar sign. One can use scala.util.matching.Regex's quoteReplacement
to automatically escape these characters.
The string to match
The string that will replace each match
The resulting string
"""\d+""".r replaceAllIn ("July 15", "" ) // returns "July"
Replaces the first match by a string.
Replaces the first match by a string.
In the replacement String, a dollar sign ($
) followed by a number will be
interpreted as a reference to a group in the matched pattern, with numbers
1 through 9 corresponding to the first nine groups, and 0 standing for the
whole match. Any other character is an error. The backslash (\
) character
will be interpreted as an escape character, and can be used to escape the
dollar sign. One can use scala.util.matching.Regex's quoteReplacement
to automatically escape these characters.
The string to match
The string that will replace the match
The resulting string
Replaces some of the matches using a replacer function that returns an scala.Option.
Replaces some of the matches using a replacer function that returns an scala.Option. The replacer function takes a scala.util.matching.Regex.Match so that extra information can be btained from the match. For example:
import scala.util.matching.Regex._ val map = Map("x" -> "a var", "y" -> """some $ and \ signs""") val text = "A text with variables %x, %y and %z." val varPattern = """%(\w+)""".r val mapper = (m: Match) => map get (m group 1) map (quoteReplacement(_)) val repl = varPattern replaceSomeIn (text, mapper)
In the replacement String, a dollar sign ($
) followed by a number will be
interpreted as a reference to a group in the matched pattern, with numbers
1 through 9 corresponding to the first nine groups, and 0 standing for the
whole match. Any other character is an error. The backslash (\
) character
will be interpreted as an escape character, and can be used to escape the
dollar sign. One can use scala.util.matching.Regex's quoteReplacement
to automatically escape these characters.
The string to match.
The function which optionally maps a match to another string.
The target string after replacements.
Splits the provided character sequence around matches of this regexp.
Splits the provided character sequence around matches of this regexp.
The character sequence to split
The array of strings computed by splitting the input around matches of this regexp
The string defining the regular expression
The string defining the regular expression
Create a new Regex with the same pattern, but no requirement that the entire String matches in extractor patterns.
Create a new Regex with the same pattern, but no requirement that the entire String matches in extractor patterns. For instance, the strings shown below lead to successful matches, where they would not otherwise.
val dateP1 = """(\d\d\d\d)-(\d\d)-(\d\d)""".r.unanchored val dateP1(year, month, day) = "Date 2011-07-15" val copyright: String = "Date of this document: 2011-07-15" match { case dateP1(year, month, day) => "Copyright "+year case _ => "No copyright" }
The new unanchored regex
Tries to match on a scala.util.matching.Regex.Match.
Tries to match on a scala.util.matching.Regex.Match. A previously failed match results in None. If a successful match was made against the current pattern, then that result is used. Otherwise, this Regex is applied to the previously matched input, and the result of that match is used.
Tries to match a java.lang.CharSequence.
Tries to match a java.lang.CharSequence.
If the match succeeds, the result is a list of the matching
groups (or a null
element if a group did not match any input).
If the pattern specifies no groups, then the result will be an empty list
on a successful match.
This method attempts to match the entire input by default; to find the next matching subsequence, use an unanchored Regex.
For example:
val p1 = "ab*c".r val p1Matches = "abbbc" match { case p1() => true case _ => false } val p2 = "a(b*)c".r val numberOfB = "abbbc" match { case p2(b) => Some(b.length) case _ => None } val p3 = "b*".r.unanchored val p3Matches = "abbbc" match { case p3() => true case _ => false }
The string to match
The matches
Tries to match target.
Tries to match target.
The string to match
The matches
(Since version 2.11.0) Extracting a match result from anything but a CharSequence or Match is deprecated