@GwtCompatible(emulated=true) public final class Splitter extends Object
CharMatcher
instance. Or, instead of using a separator at
all, a splitter can extract adjacent substrings of a given fixed length.
For example, this expression:
Splitter.on(',').split("foo,bar,qux")
... produces an Iterable
containing "foo"
, "bar"
and
"qux"
, in that order.
By default, Splitter
's behavior is simplistic and unassuming. The
following expression:
Splitter.on(',').split(" foo,,, bar ,")
... yields the substrings [" foo", "", "", " bar ", ""]
. If this
is not the desired behavior, use configuration methods to obtain a new
splitter instance with modified behavior: private static final Splitter MY_SPLITTER = Splitter.on(',')
.trimResults()
.omitEmptyStrings();
Now MY_SPLITTER.split("foo,,, bar ,")
returns just ["foo",
"bar"]
. Note that the order in which these configuration methods are called
is never significant.
Warning: Splitter instances are immutable. Invoking a configuration method has no effect on the receiving instance; you must store and use the new splitter instance it returns instead.
// Do NOT do this
Splitter splitter = Splitter.on('/');
splitter.trimResults(); // does nothing!
return splitter.split("wrong / wrong / wrong");
For separator-based splitters that do not use omitEmptyStrings
, an
input string containing n
occurrences of the separator naturally
yields an iterable of size n + 1
. So if the separator does not occur
anywhere in the input, a single substring is returned containing the entire
input. Consequently, all splitters split the empty string to [""]
(note: even fixed-length splitters).
Splitter instances are thread-safe immutable, and are therefore safe to
store as static final
constants.
The Joiner
class provides the inverse operation to splitting, but
note that a round-trip between the two should be assumed to be lossy.
See the Guava User Guide article on
Splitter
.
Modifier and Type | Class and Description |
---|---|
static class |
Splitter.MapSplitter
An object that splits strings into maps as
Splitter splits
iterables and lists. |
Modifier and Type | Method and Description |
---|---|
static Splitter |
fixedLength(int length)
Returns a splitter that divides strings into pieces of the given length.
|
Splitter |
limit(int limit)
Returns a splitter that behaves equivalently to
this splitter but
stops splitting after it reaches the limit. |
Splitter |
omitEmptyStrings()
Returns a splitter that behaves equivalently to
this splitter, but
automatically omits empty strings from the results. |
static Splitter |
on(char separator)
Returns a splitter that uses the given single-character separator.
|
static Splitter |
on(CharMatcher separatorMatcher)
Returns a splitter that considers any single character matched by the
given
CharMatcher to be a separator. |
static Splitter |
on(Pattern separatorPattern)
Returns a splitter that considers any subsequence matching
pattern to be a separator. |
static Splitter |
on(String separator)
Returns a splitter that uses the given fixed string as a separator.
|
static Splitter |
onPattern(String separatorPattern)
Returns a splitter that considers any subsequence matching a given
pattern (regular expression) to be a separator.
|
Iterable<String> |
split(CharSequence sequence)
Splits
sequence into string components and makes them available
through an Iterator , which may be lazily evaluated. |
List<String> |
splitToList(CharSequence sequence)
Splits
sequence into string components and returns them as
an immutable list. |
Splitter |
trimResults()
Returns a splitter that behaves equivalently to
this splitter, but
automatically removes leading and trailing whitespace from each returned substring; equivalent
to trimResults(CharMatcher.WHITESPACE) . |
Splitter |
trimResults(CharMatcher trimmer)
Returns a splitter that behaves equivalently to
this splitter, but
removes all leading or trailing characters matching the given CharMatcher from each returned substring. |
Splitter.MapSplitter |
withKeyValueSeparator(char separator)
Returns a
MapSplitter which splits entries based on this splitter,
and splits entries into keys and values using the specified separator. |
Splitter.MapSplitter |
withKeyValueSeparator(Splitter keyValueSplitter)
Returns a
MapSplitter which splits entries based on this splitter,
and splits entries into keys and values using the specified key-value
splitter. |
Splitter.MapSplitter |
withKeyValueSeparator(String separator)
Returns a
MapSplitter which splits entries based on this splitter,
and splits entries into keys and values using the specified separator. |
public static Splitter on(char separator)
Splitter.on(',').split("foo,,bar")
returns an iterable
containing ["foo", "", "bar"]
.separator
- the character to recognize as a separatorpublic static Splitter on(CharMatcher separatorMatcher)
CharMatcher
to be a separator. For example, Splitter.on(CharMatcher.anyOf(";,")).split("foo,;bar,quux")
returns an
iterable containing ["foo", "", "bar", "quux"]
.separatorMatcher
- a CharMatcher
that determines whether a
character is a separatorpublic static Splitter on(String separator)
Splitter.on(", ").split("foo, bar,baz")
returns an
iterable containing ["foo", "bar,baz"]
.separator
- the literal, nonempty string to recognize as a separator@GwtIncompatible(value="java.util.regex") public static Splitter on(Pattern separatorPattern)
pattern
to be a separator. For example, Splitter.on(Pattern.compile("\r?\n")).split(entireFile)
splits a string
into lines whether it uses DOS-style or UNIX-style line terminators.separatorPattern
- the pattern that determines whether a subsequence
is a separator. This pattern may not match the empty string.IllegalArgumentException
- if separatorPattern
matches the
empty string@GwtIncompatible(value="java.util.regex") public static Splitter onPattern(String separatorPattern)
Splitter.onPattern("\r?\n").split(entireFile)
splits a string into lines
whether it uses DOS-style or UNIX-style line terminators. This is
equivalent to Splitter.on(Pattern.compile(pattern))
.separatorPattern
- the pattern that determines whether a subsequence
is a separator. This pattern may not match the empty string.PatternSyntaxException
- if separatorPattern
is a malformed expressionIllegalArgumentException
- if separatorPattern
matches the
empty stringpublic static Splitter fixedLength(int length)
Splitter.fixedLength(2).split("abcde")
returns an
iterable containing ["ab", "cd", "e"]
. The last piece can be
smaller than length
but will never be empty.
Exception: for consistency with separator-based splitters, split("")
does not yield an empty iterable, but an iterable containing
""
. This is the only case in which Iterables.size(split(input))
does not equal IntMath.divide(input.length(), length, CEILING)
. To avoid this behavior,
use omitEmptyStrings
.
length
- the desired length of pieces after splitting, a positive
integerIllegalArgumentException
- if length
is zero or negative@CheckReturnValue public Splitter omitEmptyStrings()
this
splitter, but
automatically omits empty strings from the results. For example, Splitter.on(',').omitEmptyStrings().split(",a,,,b,c,,")
returns an
iterable containing only ["a", "b", "c"]
.
If either trimResults
option is also specified when creating a
splitter, that splitter always trims results first before checking for
emptiness. So, for example, Splitter.on(':').omitEmptyStrings().trimResults().split(": : : ")
returns
an empty iterable.
Note that it is ordinarily not possible for split(CharSequence)
to return an empty iterable, but when using this option, it can (if the
input sequence consists of nothing but separators).
@CheckReturnValue public Splitter limit(int limit)
this
splitter but
stops splitting after it reaches the limit.
The limit defines the maximum number of items returned by the iterator.
For example,
Splitter.on(',').limit(3).split("a,b,c,d")
returns an iterable
containing ["a", "b", "c,d"]
. When omitting empty strings, the
omitted strings do no count. Hence,
Splitter.on(',').limit(3).omitEmptyStrings().split("a,,,b,,,c,d")
returns an iterable containing ["a", "b", "c,d"
.
When trim is requested, all entries, including the last are trimmed. Hence
Splitter.on(',').limit(3).trimResults().split(" a , b , c , d ")
results in @{code ["a", "b", "c , d"]}.
limit
- the maximum number of items returns@CheckReturnValue public Splitter trimResults()
this
splitter, but
automatically removes leading and trailing whitespace from each returned substring; equivalent
to trimResults(CharMatcher.WHITESPACE)
. For example, Splitter.on(',').trimResults().split(" a, b ,c ")
returns an iterable
containing ["a", "b", "c"]
.@CheckReturnValue public Splitter trimResults(CharMatcher trimmer)
this
splitter, but
removes all leading or trailing characters matching the given CharMatcher
from each returned substring. For example, Splitter.on(',').trimResults(CharMatcher.is('_')).split("_a ,_b_ ,c__")
returns an iterable containing ["a ", "b_ ", "c"]
.trimmer
- a CharMatcher
that determines whether a character
should be removed from the beginning/end of a subsequencepublic Iterable<String> split(CharSequence sequence)
sequence
into string components and makes them available
through an Iterator
, which may be lazily evaluated. If you want
an eagerly computed List
, use splitToList(CharSequence)
.sequence
- the sequence of characters to split@Beta public List<String> splitToList(CharSequence sequence)
sequence
into string components and returns them as
an immutable list. If you want an Iterable
which may be lazily
evaluated, use split(CharSequence)
.sequence
- the sequence of characters to split@CheckReturnValue @Beta public Splitter.MapSplitter withKeyValueSeparator(String separator)
MapSplitter
which splits entries based on this splitter,
and splits entries into keys and values using the specified separator.@CheckReturnValue @Beta public Splitter.MapSplitter withKeyValueSeparator(char separator)
MapSplitter
which splits entries based on this splitter,
and splits entries into keys and values using the specified separator.@CheckReturnValue @Beta public Splitter.MapSplitter withKeyValueSeparator(Splitter keyValueSplitter)
MapSplitter
which splits entries based on this splitter,
and splits entries into keys and values using the specified key-value
splitter.Copyright © 2010-2013. All Rights Reserved.