A very simple parsing library, based on the Top-Down algorithm.
Project description
tdparser
This library aims to provide an efficient way to write simple lexer/parsers in Python, using the Top-Down parsing algorithm.
Code is maintained on GitHub, documentation is available on ReadTheDocs.
Other python libraries provide parsing/lexing tools (see http://nedbatchelder.com/text/python-parsers.html for a few examples); distinctive features of tdparser are:
Avoid docstring-based grammar definitions
Provide a generic parser structure, able to handle any grammar
Don’t generate code
Let the user decide the nature of parsing results: abstract syntax tree, final expression, …
Example
Here is the definition for a simple arithmetic parser:
from tdparser import Lexer, Token
class Integer(Token):
def __init__(self, text):
self.value = int(text)
def nud(self, context):
"""What the token evaluates to"""
return self.value
class Addition(Token):
lbp = 10 # Precedence
def led(self, left, context):
"""Compute the value of this token when between two expressions."""
# Fetch the expression to the right, stoping at the next boundary
# of same precedence
right_side = context.expression(self.lbp)
return left + right_side
class Substraction(Token):
lbp = 10 # Same precedence as addition
def led(self, left, context):
return left - context.expression(self.lbp)
def nud(self, context):
"""When a '-' is present on the left of an expression."""
# This means that we are returning the opposite of the next expression
return - context.expression(self.lbp)
class Multiplication(Token):
lbp = 20 # Higher precedence than addition/substraction
def led(self, left, context):
return left * context.expression(self.lbp)
lexer = Lexer(with_parens=True)
lexer.register_token(Integer, re.compile(r'\d+'))
lexer.register_token(Addition, re.compile(r'\+'))
lexer.register_token(Substraction, re.compile(r'-'))
lexer.register_token(Multiplication, re.compile(r'*'))
def parse(text):
return lexer.parse(text)
Using it returns the expected value:
>>> parse("1+1")
2
>>> parse("1 + -2 * 3")
-5
Adding new tokens is straightforward:
class Division(Token):
lbp = 20 # Same precedence as Multiplication
def led(self, left, context):
return left // context.expression(self.lbp)
lexer.register_token(Division, re.compile(r'/'))
And using it:
>>> parse("3 + 12 / 3")
7
Let’s add the exponentiation operator:
class Power(Token):
lbp = 30 # Higher than mult
def led(self, left, context):
# We pick expressions with a lower precedence, so that
# 2 ** 3 ** 2 computes as 2 ** (3 ** 2)
return left ** context.expression(self.lbp - 1)
lexer.register_token(Power, re.compile(r'\*\*'))
And use it:
>>> parse("2 ** 3 ** 2")
512
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