ParserDeferHandler

Represent this parser as a Transformer which emits this parser's result

Like wrapSafe, but represents exceptions as Left and successful results as Right

Specialization of interruptedBy for stack-like input types, such that an interruption will occur upon entering a stack context that can be matched by the given matcher.

Example:

val preludeContext = * \ "prelude"
val dataContext = * \ "data"
for {
 prelude <- Splitter(preludeContext).firstOption[Prelude].beforeContext(dataContext).followedByStream
 data <- Splitter(dataContext).as[Data]
} yield data

Impose expectations on the sequence of inputs to be received by handlers created by this parser. As this parser's handler receives an input, the input will be tested against the head of the expectations list. If the test returns false, the expectation is failed and the handler will throw an exception. If the test returns true, the expectation is satisfied, and the handler will advance to the next expectation. If there are no more expectations left in the list (i.e. N inputs have satisfied the corresponding N expectations), then all expectations have been met and inputs will be treated as normal by the handler. If the handler receives an EOF before all expectations are met, it will throw an exception.

Create a copy of this parser that will treat a result from the interrupter as an early EOF. This is especially useful for creating followedBy chains involving optional elements.

Normally, a parser for an optional item in some context will not finish until that context ends, or until the item is encountered. So if the item is not present, followedBy logic won't work since the followUp parser/transformer will not see any events.

To make sure the leading parser can "fail fast", you can "interrupt" it, typically by creating a parser that immediately returns a result upon entering a particular context, i.e. the context in which the "following" parser will start. Parser#beforeContext provides a convenience for doing so.

Note that if the interrupter throws an exception, that exception will not be caught. If your interrupter might throw, pass interrupter.wrapSafe instead to swallow the exception.

Create a copy of this Parser whose result is transformed by the given function f.

Combine this parser with the fallback such that failures from the underlying parsers will be ignored as long as at least one succeeds. The result will be the result of whichever underlying parser succeeds first. If all of the underlying parsers fail, a SpacException.FallbackChainFailure will be thrown by the returned parser's handler.

Consume the given source to produce an output or possibly throw a SpacException.

The Source[A] type is like Iterable[A] but uses the "lender" pattern to acquire the iterator and close any resources associated with the iterator after the iterator is consumed.

XML and JSON-specific Source constructors are provided by the "parser backend" libraries i.e. xml-spac-javax and json-spac-jackson.

Consume the given inputs iterator to produce an output or possibly throw a SpacException.

After calling this method, the inputs should be discarded, since consuming an Iterator is a destructive operation.

Like unwrapSafe, but rethrows exceptions from Left or returns results from Right. This operation is the opposite of attempt.

Low-level consumer method: creates a new handler and binds the caller position for its SpacTraceElement.

Used internally by the parse methods. Start with this method if you have some sequence-like datatype that doesn't provide an Iterator.

This is just a convenience for newHandler.asTopLevelhandler which helps construct a useful SpacTraceElement.

Creates a copy of this parser which unwraps the resulting Try, throwing an exception if the result was a Failure. This operation is the opposite of wrapSafe.

Returns this parser, with the output type widened to Out2, which is some supertype of Out. Uses asInstanceOf rather than creating a new parser.

Creates a copy of this parser, but with a different toString

Create a copy of this Parser whose handler will catch NonFatal exceptions thrown by the underlying logic. Caught exceptions will be yielded as a Failure output. Normal results will be wrapped in Success.