You can read further docs at: http://parsley.readthedocs.org/en/latest/
Parsley is a parsing library for people who find parsers scary or annoying. I wrote it because I wanted to parse a programming language, and tools like PLY or ANTLR or Bison were very hard to understand and integrate into my Python code. Most parser generators are based on LL or LR parsing algorithms that compile to big state machine tables. It was like I had to wake up a different section of my brain to understand or work on grammar rules.
Parsley, like pyparsing and ZestyParser, uses the PEG algorithm, so each expression in the grammar rules works like a Python expression. In particular, alternatives are evaluated in order, unlike table-driven parsers such as yacc, bison or PLY.
Parsley is an implementation of OMeta, an object-oriented pattern-matching language developed by Alessandro Warth at http://tinlizzie.org/ometa/ . For further reading, see Warth's PhD thesis, which provides a detailed description of OMeta: http://www.vpri.org/pdf/tr2008003_experimenting.pdf
Parsley compiles a grammar to a Python class, with the rules as methods. The rules specify parsing expressions, which consume input and return values if they succeed in matching.
foo = ....
:- Define a rule named foo.
expr1 expr2
:- Match expr1, and then match expr2 if it succeeds, returning the value of
expr2. Like Python's
and
. expr1 | expr2
:- Try to match
expr1
--- if it fails, matchexpr2
instead. Like Python'sor
. expr*
:- Match
expr
zero or more times, returning a list of matches. expr+
:- Match
expr
one or more times, returning a list of matches. expr?
:- Try to match
expr
. ReturnsNone
if it fails to match. expr{n, m}
:- Match
expr
at leastn
times, and no more thanm
times. expr{n}
:- Match
expr
n
times exactly. ~expr
:- Negative lookahead. Fails if the next item in the input matches
expr
. Consumes no input. ~~expr
:- Positive lookahead. Fails if the next item in the input does not
match
expr
. Consumes no input. ruleName
orruleName(arg1 arg2 etc)
:- Call the rule
ruleName
, possibly with args. 'x'
:- Match the literal character 'x'.
<expr>
:- Returns the string consumed by matching
expr
. Good for tokenizing rules. expr:name
:- Bind the result of expr to the local variable
name
. -> pythonExpression
:- Evaluate the given Python expression and return its result. Can be used inside parentheses too!
!(pythonExpression)
:- Invoke a Python expression as an action.
?(pythonExpression)
:- Fail if the Python expression is false, Returns True otherwise.
Comments like Python comments are supported as well, starting with # and extending to the end of the line.
The starting point for defining a new grammar is
parsley.makeGrammar(grammarSource, bindings)
, which takes a grammar
definition and a dict of variable bindings for its embedded
expressions and produces a Python class. Grammars can be subclassed as
usual, and makeGrammar can be called on these classes to override
rules and provide new ones. Grammar rules are exposed as methods.
from parsley import makeGrammar exampleGrammar = """ ones = '1' '1' -> 1 twos = '2' '2' -> 2 stuff = (ones | twos)+ """ Example = makeGrammar(exampleGrammar, {}) g = Example("11221111") result, error = g.stuff() print result
→ [1, 2, 1, 1]