Scala Parser Combinators 1.0.6 - scala.util.parsing.combinator.Parsers.Parser

final def !=(arg0: Any): Boolean

Definition Classes: AnyRef → Any

final def ##(): Int

Definition Classes: AnyRef → Any

def *[U >: T](sep: ⇒ Parser[(U, U) ⇒ U]): Parser[U]

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: chainl1(this, sep)

def *: Parser[List[T]]

Returns a parser that repeatedly parses what this parser parses.

returns: rep(this)

def +: Parser[List[T]]

Returns a parser that repeatedly (at least once) parses what this parser parses.

returns: rep1(this)

def <~[U](q: ⇒ Parser[U]): Parser[T]

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.

q: a parser that will be executed after p (this parser) succeeds -- evaluated at most once, and only when necessary
returns: a Parser that -- on success -- returns the result of p.

Annotations: @migration
Migration: (Changed in version 2.9.0) The call-by-name argument is evaluated at most once per constructed Parser object, instead of on every need that arises during parsing.
Note: <~ has lower operator precedence than ~ or ~>.

final def ==(arg0: Any): Boolean

Definition Classes: AnyRef → Any

def >>[U](fq: (T) ⇒ Parser[U]): Parser[U]

Returns into(fq).

def ?: Parser[Option[T]]

Returns a parser that optionally parses what this parser parses.

returns: opt(this)

def ^?[U](f: PartialFunction[T, U]): Parser[U]

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.

f: a partial function that will be applied to this parser's result (see mapPartial in ParseResult).
returns: 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.

def ^?[U](f: PartialFunction[T, U], error: (T) ⇒ String): Parser[U]

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.

f: a partial function that will be applied to this parser's result (see mapPartial in ParseResult).
error: a function that takes the same argument as f and produces an error message to explain why f wasn't applicable
returns: 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.

def ^^[U](f: (T) ⇒ U): Parser[U]

A parser combinator for function application.

p ^^ f succeeds if p succeeds; it returns f applied to the result of p.

f: a function that will be applied to this parser's result (see map in ParseResult).
returns: a parser that has the same behaviour as the current parser, but whose result is transformed by f.

def ^^^[U](v: ⇒ U): Parser[U]

A parser combinator that changes a successful result into the specified value.

p ^^^ v succeeds if p succeeds; discards its result, and returns v instead.

v: The new result for the parser, evaluated at most once (if p succeeds), not evaluated at all if p fails.
returns: a parser that has the same behaviour as the current parser, but whose successful result is v

Annotations: @migration
Migration: (Changed in version 2.9.0) The call-by-name argument is evaluated at most once per constructed Parser object, instead of on every need that arises during parsing.

def andThen[A](g: (ParseResult[T]) ⇒ A): (Input) ⇒ A

Definition Classes: Function1
Annotations: @unspecialized()

def append[U >: T](p0: ⇒ Parser[U]): Parser[U]

Annotations: @migration
Migration: (Changed in version 2.9.0) The call-by-name argument is evaluated at most once per constructed Parser object, instead of on every need that arises during parsing.

final def asInstanceOf[T0]: T0

Definition Classes: Any

def clone(): AnyRef

Attributes: protected[java.lang]
Definition Classes: AnyRef
Annotations: @throws( ... )

def compose[A](g: (A) ⇒ Input): (A) ⇒ ParseResult[T]

Definition Classes: Function1
Annotations: @unspecialized()

final def eq(arg0: AnyRef): Boolean

Definition Classes: AnyRef

def equals(arg0: Any): Boolean

Definition Classes: AnyRef → Any

def filter(p: (T) ⇒ Boolean): Parser[T]

def finalize(): Unit

Attributes: protected[java.lang]
Definition Classes: AnyRef
Annotations: @throws( classOf[java.lang.Throwable] )

def flatMap[U](f: (T) ⇒ Parser[U]): Parser[U]

final def getClass(): Class[_]

Definition Classes: AnyRef → Any

def hashCode(): Int

Definition Classes: AnyRef → Any

def into[U](fq: (T) ⇒ Parser[U]): Parser[U]

A parser combinator that parameterizes 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.

fq: a function that, given the result from this parser, returns the second parser to be applied
returns: a parser that succeeds if this parser succeeds (with result x) and if then fq(x) succeeds

Example:

def perlRE = "m" ~> (".".r into (separator => """[^%s]*""".format(separator).r <~ separator))

final def isInstanceOf[T0]: Boolean

Definition Classes: Any

def map[U](f: (T) ⇒ U): Parser[U]

def named(n: String): Parser.this.type

final def ne(arg0: AnyRef): Boolean

Definition Classes: AnyRef

final def notify(): Unit

Definition Classes: AnyRef

final def notifyAll(): Unit

Definition Classes: AnyRef

final def synchronized[T0](arg0: ⇒ T0): T0

Definition Classes: AnyRef

def toString(): String

Definition Classes: Parser → Function1 → AnyRef → Any

final def wait(): Unit

Definition Classes: AnyRef
Annotations: @throws( ... )

final def wait(arg0: Long, arg1: Int): Unit

Definition Classes: AnyRef
Annotations: @throws( ... )

final def wait(arg0: Long): Unit

Definition Classes: AnyRef
Annotations: @throws( ... )

def withErrorMessage(msg: String): Parser[T]

Changes the error message produced by a parser.

This doesn't change the behavior of a parser on neither success nor failure, just on error. The semantics are slightly different than those obtained by doing | error(msg), in that the message produced by this method will always replace the message produced, which is not guaranteed by that idiom.

For example, parser p below will always produce the designated error message, while q will not produce it if sign is parsed but number is not.

def p = sign.? ~ number withErrorMessage  "Number expected!"
def q = sign.? ~ number | error("Number expected!")

msg: The message that will replace the default error message.
returns: A parser with the same properties and different error message.

def withFailureMessage(msg: String): Parser[T]

Changes the failure message produced by a parser.

This doesn't change the behavior of a parser on neither success nor error, just on failure. The semantics are slightly different than those obtained by doing | failure(msg), in that the message produced by this method will always replace the message produced, which is not guaranteed by that idiom.

For example, parser p below will always produce the designated failure message, while q will not produce it if sign is parsed but number is not.

def p = sign.? ~ number withFailureMessage  "Number expected!"
def q = sign.? ~ number | failure("Number expected!")

msg: The message that will replace the default failure message.
returns: A parser with the same properties and different failure message.

def withFilter(p: (T) ⇒ Boolean): Parser[T]

def |[U >: T](q: ⇒ Parser[U]): Parser[U]

A parser combinator for alternative composition.

p | q succeeds if p succeeds or q succeeds. Note that q is only tried if ps failure is non-fatal (i.e., back-tracking is allowed).

q

a parser that will be executed if p (this parser) fails (and allows back-tracking)

returns

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
if p fails allowing back-tracking and q succeeds.

def |||[U >: T](q0: ⇒ Parser[U]): Parser[U]

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.

q0: a parser that accepts if p consumes less characters. -- evaluated at most once, and only when necessary
returns: a Parser that returns the result of the parser consuming the most characters (out of p and q).

Annotations: @migration
Migration: (Changed in version 2.9.0) The call-by-name argument is evaluated at most once per constructed Parser object, instead of on every need that arises during parsing.

def ~[U](q: ⇒ Parser[U]): Parser[~[T, U]]

A parser combinator for sequential composition.

p ~ q succeeds if p succeeds and q succeeds on the input left over by p.

q: a parser that will be executed after p (this parser) succeeds -- evaluated at most once, and only when necessary.
returns: a Parser that -- on success -- returns a ~ (like a Pair, but easier to pattern match on) that contains the result of p and that of q. The resulting parser fails if either p or q fails.

Annotations: @migration
Migration: (Changed in version 2.9.0) The call-by-name argument is evaluated at most once per constructed Parser object, instead of on every need that arises during parsing.

def ~![U](p: ⇒ Parser[U]): Parser[~[T, U]]

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).

p: a parser that will be executed after p (this parser) succeeds
returns: a Parser that -- on success -- returns a ~ (like a Pair, but easier to pattern match on) that contains the result of p and that of q. The resulting parser fails if either p or q fails, this failure is fatal.

def ~>[U](q: ⇒ Parser[U]): Parser[U]

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.

q: a parser that will be executed after p (this parser) succeeds -- evaluated at most once, and only when necessary.
returns: a Parser that -- on success -- returns the result of q.

Annotations: @migration
Migration: (Changed in version 2.9.0) The call-by-name argument is evaluated at most once per constructed Parser object, instead of on every need that arises during parsing.

Packages

Parser

abstract class Parser[+T] extends (Input) ⇒ ParseResult[T]

Instance Constructors

Abstract Value Members

Concrete Value Members

Inherited from (Input) ⇒ ParseResult[T]

Inherited from AnyRef

Inherited from Any

Ungrouped