Edit: I did a first version, which Eike helped me to advance quite a bit on it. I'm now stuck to a more specific problem, which I will describe bellow. You can have a look at the original question in the history
I'm using pyparsing to parse a small language used to request specific data from a database. It features numerous keyword, operators and datatypes as well as boolean logic.
I'm trying to improve the error message sent to the user when he does a syntax error, since the current one is not very useful. I designed a small example, similar to what I'm doing with the language aforementioned but much smaller:
#!/usr/bin/env python from pyparsing import * def validate_number(s, loc, tokens): if int(tokens) != 0: raise ParseFatalException(s, loc, "number musth be 0") def fail(s, loc, tokens): raise ParseFatalException(s, loc, "Unknown token %s" % tokens) def fail_value(s, loc, expr, err): raise ParseFatalException(s, loc, "Wrong value") number = Word(nums).setParseAction(validate_number).setFailAction(fail_value) operator = Literal("=") error = Word(alphas).setParseAction(fail) rules = MatchFirst([ Literal('x') + operator + number, ]) rules = operatorPrecedence(rules | error , [ (Literal("and"), 2, opAssoc.RIGHT), ]) def try_parse(expression): try: rules.parseString(expression, parseAll=True) except Exception as e: msg = str(e) print("%s: %s" % (msg, expression)) print(" " * (len("%s: " % msg) + (e.loc)) + "^^^")
So basically, the only things which we can do with this language, is writing series of
x = 0, joined together with
and and parenthesis.
Now, there are cases, when
and and parenthesis are used, where the error reporting is not very good. Consider the following examples:
>>> try_parse("x = a and x = 0") # This one is actually good! Wrong value (at char 4), (line:1, col:5): x = a and x = 0 ^^^ >>> try_parse("x = 0 and x = a") Expected end of text (at char 6), (line:1, col:1): x = 0 and x = a ^^^ >>> try_parse("x = 0 and (x = 0 and (x = 0 and (x = a)))") Expected end of text (at char 6), (line:1, col:1): x = 0 and (x = 0 and (x = 0 and (x = a))) ^^^ >>> try_parse("x = 0 and (x = 0 and (x = 0 and (x = 0)))") Expected end of text (at char 6), (line:1, col:1): x = 0 and (x = 0 and (x = 0 and (xxxxxxxx = 0))) ^^^
Actually, it seems that if the parser can't parse (and parse here is important) something after a
and, it doesn't produce good error messages anymore :(
And I mean parse, since if it can parse 5 but the "validation" fails in the parse action, it still produces a good error message. But, if it can't parse a valid number (like
a) or a valid keyword (like
xxxxxx), it stops producing the right error messages.