Parser Combinators
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This document is a primer on Parser Combinators and their use in Flang.
Concept
The Fortran language recognizer here can be classified as an LL recursive descent parser. It is composed from a parser combinator library that defines a few fundamental parsers and a few ways to compose them into more powerful parsers.
For our purposes here, a parser is any object that attempts to recognize an instance of some syntax from an input stream. It may succeed or fail. On success, it may return some semantic value to its caller.
In C++ terms, a parser is any instance of a class that
- has a
constexpr
default constructor, - defines a type named
resultType
, and - provides a function (
const
member orstatic
) that accepts a reference to aParseState
as its argument and returns astd::optional<resultType>
as a result, with the presence or absence of a value in thestd::optional<>
signifying success or failure, respectively.std::optional<resultType> Parse(ParseState &) const;
TheresultType
of a parser is typically the class type of some particular node type in the parse tree.
ParseState
is a class that encapsulates a position in the source stream,
collects messages, and holds a few state flags that determine tokenization
(e.g., are we in a character literal?). Instances of ParseState
are
independent and complete -- they are cheap to duplicate whenever necessary to
implement backtracking.
The constexpr
default constructor of a parser is important. The functions
(below) that operate on instances of parsers are themselves all constexpr
.
This use of compile-time expressions allows the entirety of a recursive
descent parser for a language to be constructed at compilation time through
the use of templates.
Fundamental Predefined Parsers
These objects and functions are (or return) the fundamental parsers:
-
ok
is a trivial parser that always succeeds without advancing. -
pure(x)
returns a trivial parser that always succeeds without advancing, returning some valuex
. -
pure<T>()
ispure(T{})
but does not require that T be copy-constructible. -
fail<T>(msg)
denotes a trivial parser that always fails, emitting the given message as a side effect. The template parameter is the type of the value that the parser never returns. -
nextCh
consumes the next character and returns its location, and fails at EOF. -
"xyz"_ch
succeeds if the next character consumed matches any of those in the string and returns its location. Be advised that the source will have been normalized to lower case (miniscule) letters outside character and Hollerith literals and edit descriptors before parsing.
Combinators
These functions and operators combine existing parsers to generate new parsers.
They are constexpr
, so they should be viewed as type-safe macros.
-
!p
succeeds if p fails, and fails if p succeeds. -
p >> q
fails if p does, otherwise running q and returning its value when it succeeds. -
p / q
fails if p does, otherwise running q and returning p's value if q succeeds. -
p || q
succeeds if p does, otherwise running q. The two parsers must have the same type, and the value returned by the first succeeding parser is the value of the combination. -
first(p1, p2, ...)
returns the value of the first parser that succeeds. All of the parsers in the list must return the same type. It is essentially the same asp1 || p2 || ...
but has a slightly faster implementation and may be easier to format in your code. -
lookAhead(p)
succeeds if p does, but doesn't modify any state. -
attempt(p)
succeeds if p does, safely preserving state on failure. -
many(p)
recognizes a greedy sequence of zero or more nonempty successes of p, and returnsstd::list<>
of their values. It always succeeds. -
some(p)
recognized a greedy sequence of one or more successes of p. It fails if p immediately fails. -
skipMany(p)
is the same asmany(p)
, but it discards the results. -
maybe(p)
tries to match p, returning anstd::optional<T>
value. It always succeeds. -
defaulted(p)
matches p, and when p fails it returns a default-constructed instance of p's resultType. It always succeeds. -
nonemptySeparated(p, q)
repeatedly matches "p q p q p q ... p", returning astd::list<>
of only the values of the p's. It fails if p immediately fails. -
extension(p)
parses p if strict standard compliance is disabled, or with a warning if nonstandard usage warnings are enabled. -
deprecated(p)
parses p if strict standard compliance is disabled, with a warning if deprecated usage warnings are enabled. -
inContext(msg, p)
runs p within an error message context; any message thatp
generates will be tagged withmsg
as its context. Contexts may nest. -
withMessage(msg, p)
succeeds ifp
does, and if it does not, it discards the messages fromp
and fails with the specified message. -
recovery(p, q)
is equivalent top || q
, except that error messages generated from the first parser are retained, and a flag is set in the ParseState to remember that error recovery was necessary. -
localRecovery(msg, p, q)
is equivalent torecovery(withMessage(msg, p), q >> pure<A>())
whereA
is the result type of 'p'. It is useful for targeted error recovery situations within statements.
Note that
a >> b >> c / d / e
matches a sequence of five parsers, but returns only the result that was
obtained by matching c
.
Applicatives
The following applicative combinators combine parsers and modify or collect the values that they return.
-
construct<T>(p1, p2, ...)
matches zero or more parsers in succession, collecting their results and then passing them with move semantics to a constructor for the type T if they all succeed. If there is a single parser as the argument and it returns no usable value but only success or failure (e.g.,"IF"_tok
), the default nullary constructor of the typeT
is called. -
sourced(p)
matches p, and fills in itssource
data member with the locations of the cooked character stream that it consumed -
applyFunction(f, p1, p2, ...)
matches one or more parsers in succession, collecting their results and passing them as rvalue reference arguments to some function, returning its result. -
applyLambda([](&&x){}, p1, p2, ...)
is the same thing, but for lambdas and other function objects. -
applyMem(mf, p1, p2, ...)
is the same thing, but invokes a member function of the result of the first parser for updates in place.
Token Parsers
Last, we have these basic parsers on which the actual grammar of the Fortran
is built. All of the following parsers consume characters acquired from
nextCh
.
-
space
always succeeds after consuming any spaces -
spaceCheck
always succeeds after consuming any spaces, and can emit a warning if there was no space in free form code before a character that could continue a name or keyword -
digit
matches one cooked decimal digit (0-9) -
letter
matches one cooked letter (A-Z) -
"..."_tok
match the content of the string, skipping spaces before and after. Internal spaces are optional matches. The_tok
suffix is optional when the parser appears before the combinator>>
or after the combinator/
. -
"..."_sptok
is a string match in which the spaces are required in free form source. -
"..."_id
is a string match for a complete identifier (not a prefix of a longer identifier or keyword). -
parenthesized(p)
is shorthand for"(" >> p / ")"
. -
bracketed(p)
is shorthand for"[" >> p / "]"
. -
nonEmptyList(p)
matches a comma-separated list of one or more instances of p. -
nonEmptyList(errorMessage, p)
is equivalent towithMessage(errorMessage, nonemptyList(p))
, which allows one to supply a meaningful error message in the event of an empty list. -
optionalList(p)
is the same thing, but can be empty, and always succeeds.
Debugging Parser
Last, a string literal "..."_debug
denotes a parser that emits the string to
llvm::errs
and succeeds. It is useful for tracing while debugging a parser but should
obviously not be committed for production code.