scala.util.parsing.json.Parser
Returns a parser that repeatedly parses what this parser parses, interleaved with the sep' parser
Returns a parser that repeatedly parses what this parser parses, interleaved with the sep' parser.
The
sep' parser specifies how the results parsed by this parser should be combined.
Returns a parser that repeatedly parses what this parser parses
Returns a parser that repeatedly parses what this parser parses
Returns a parser that repeatedly (at least once) parses what this parser parses
Returns a parser that repeatedly (at least once) parses what this parser parses.
A parser combinator for sequential composition which keeps only the left result
A parser combinator for sequential composition which keeps only the left result
p <~ q' succeeds if
p' succeeds and q' succeeds on the input
left over by
p'.
Note: <~ has lower operator precedence than ~ or ~>.
Returns into(fq)
Returns into(fq)
Returns a parser that optionally parses what this parser parses
Returns a parser that optionally parses what this parser parses.
A parser combinator for partial function application
A parser combinator for partial function application
p ^? f' succeeds if
p' succeeds AND f' is defined at the result of
p';
in that case, it returns f' applied to the result of
p'.
a partial function that will be applied to this parser's result
(see mapPartial' in
ParseResult').
a parser that succeeds if the current parser succeeds and f' is applicable
to the result. If so, the result will be transformed by
f'.
A parser combinator for partial function application
A parser combinator for partial function application
p ^? (f, error)' succeeds if
p' succeeds AND f' is defined at the result of
p';
in that case, it returns f' applied to the result of
p'. If f' is not applicable,
error(the result of
p') should explain why.
a partial function that will be applied to this parser's result
(see mapPartial' in
ParseResult').
a function that takes the same argument as f' and produces an error message
to explain why
f' wasn't applicable
a parser that succeeds if the current parser succeeds and f' is applicable
to the result. If so, the result will be transformed by
f'.
A parser combinator for function application
A parser combinator for function application
p ^^ f' succeeds if
p' succeeds; it returns f' applied to the result of
p'.
a function that will be applied to this parser's result (see map' in
ParseResult').
a parser that has the same behaviour as the current parser, but whose result is
transformed by f'.
(f andThen g)(x) == g(f(x))
(f andThen g)(x) == g(f(x))
An unspecified method that defines the behaviour of this parser
(f compose g)(x) == f(g(x))
(f compose g)(x) == f(g(x))
This method is used to compare the receiver object (this
)
with the argument object (arg0
) for equivalence
This method is used to compare the receiver object (this
)
with the argument object (arg0
) for equivalence.
The default implementations of this method is an equivalence relation:
x
of type Any
,
x.equals(x)
should return true
.x
and y
of type
Any
, x.equals(y)
should return true
if and only
if y.equals(x)
returns true
.x
, y
, and z
of type AnyRef
if x.equals(y)
returns true
and
y.equals(z)
returns
true
, then x.equals(z)
should return true
.
If you override this method, you should verify that
your implementation remains an equivalence relation.
Additionally, when overriding this method it is often necessary to
override hashCode
to ensure that objects that are
"equal" (o1.equals(o2)
returns true
)
hash to the same Int
(o1.hashCode.equals(o2.hashCode)
).
the object to compare against this object for equality.
true
if the receiver object is equivalent to the argument; false
otherwise.
Returns a hash code value for the object
Returns a hash code value for the object.
The default hashing algorithm is platform dependent.
Note that it is allowed for two objects to have identical hash
codes (o1.hashCode.equals(o2.hashCode)
) yet not be
equal (o1.equals(o2)
returns false
). A
degenerate implementation could always return 0
.
However, it is required that if two objects are equal
(o1.equals(o2)
returns true
) that they
have identical hash codes
(o1.hashCode.equals(o2.hashCode)
). Therefore, when
overriding this method, be sure to verify that the behavior is
consistent with the equals
method.
A parser combinator that parameterises a subsequent parser with the result of this one
A parser combinator that parameterises a subsequent parser with the result of this one
Use this combinator when a parser depends on the result of a previous parser. p' should be
a function that takes the result from the first parser and returns the second parser.
p into fq' (with fq' typically
{x => q}') first applies p', and then, if
p' successfully
returned result r', applies
fq(r)' to the rest of the input.
From: G. Hutton. Higher-order functions for parsing. J. Funct. Program., 2(3):323--343, 1992.
a function that, given the result from this parser, returns the second parser to be applied
a parser that succeeds if this parser succeeds (with result x') and if then
fq(x)' succeeds
Returns a string representation of the object
A parser combinator for alternative composition
A parser combinator for alternative composition
p | q' succeeds if
p' succeeds or q' succeeds
Note that
q' is only tried if p's failure is non-fatal (i.e., back-tracking is
allowed).
a parser that will be executed if p' (this parser) fails (and allows back-tracking)
a Parser' that returns the result of the first parser to succeed (out of
p' and q')
The resulting parser succeeds if (and only if)
p' succeeds, or
p' fails allowing back-tracking and
q' succeeds. A parser combinator for alternative with longest match composition
A parser combinator for alternative with longest match composition
p ||| q' succeeds if
p' succeeds or q' succeeds
If
p' and q' both succeed, the parser that consumed the most
characters accepts.
a parser that accepts if p consumes less characters.
a Parser' that returns the result of the parser consuming the most characteres (out of
p' and q').
A parser combinator for sequential composition
A parser combinator for sequential composition
p ~ q' succeeds if
p' succeeds and q' succeeds on the input
left over by
p'.
A parser combinator for non-back-tracking sequential composition
A parser combinator for non-back-tracking sequential composition
p ~! q' succeeds if
p' succeeds and q' succeeds on the input
left over by
p'. In case of failure, no back-tracking is performed
(in an earlier parser produced by the | combinator).
A parser combinator for sequential composition which keeps only the right result
A parser combinator for sequential composition which keeps only the right result
p ~> q' succeeds if
p' succeeds and q' succeeds on the input
left over by
p'.
A parser whose ~ combinator disallows back-tracking.