mirror of
https://github.com/evilhero/mylar
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143 lines
5.4 KiB
Python
Executable file
143 lines
5.4 KiB
Python
Executable file
# mako/ast.py
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# Copyright (C) 2006-2011 the Mako authors and contributors <see AUTHORS file>
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#
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# This module is part of Mako and is released under
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# the MIT License: http://www.opensource.org/licenses/mit-license.php
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"""utilities for analyzing expressions and blocks of Python
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code, as well as generating Python from AST nodes"""
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from mako import exceptions, pyparser, util
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import re
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class PythonCode(object):
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"""represents information about a string containing Python code"""
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def __init__(self, code, **exception_kwargs):
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self.code = code
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# represents all identifiers which are assigned to at some point in the code
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self.declared_identifiers = set()
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# represents all identifiers which are referenced before their assignment, if any
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self.undeclared_identifiers = set()
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# note that an identifier can be in both the undeclared and declared lists.
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# using AST to parse instead of using code.co_varnames,
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# code.co_names has several advantages:
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# - we can locate an identifier as "undeclared" even if
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# its declared later in the same block of code
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# - AST is less likely to break with version changes
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# (for example, the behavior of co_names changed a little bit
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# in python version 2.5)
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if isinstance(code, basestring):
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expr = pyparser.parse(code.lstrip(), "exec", **exception_kwargs)
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else:
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expr = code
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f = pyparser.FindIdentifiers(self, **exception_kwargs)
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f.visit(expr)
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class ArgumentList(object):
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"""parses a fragment of code as a comma-separated list of expressions"""
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def __init__(self, code, **exception_kwargs):
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self.codeargs = []
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self.args = []
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self.declared_identifiers = set()
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self.undeclared_identifiers = set()
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if isinstance(code, basestring):
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if re.match(r"\S", code) and not re.match(r",\s*$", code):
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# if theres text and no trailing comma, insure its parsed
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# as a tuple by adding a trailing comma
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code += ","
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expr = pyparser.parse(code, "exec", **exception_kwargs)
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else:
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expr = code
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f = pyparser.FindTuple(self, PythonCode, **exception_kwargs)
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f.visit(expr)
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class PythonFragment(PythonCode):
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"""extends PythonCode to provide identifier lookups in partial control statements
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e.g.
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for x in 5:
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elif y==9:
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except (MyException, e):
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etc.
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"""
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def __init__(self, code, **exception_kwargs):
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m = re.match(r'^(\w+)(?:\s+(.*?))?:\s*(#|$)', code.strip(), re.S)
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if not m:
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raise exceptions.CompileException(
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"Fragment '%s' is not a partial control statement" %
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code, **exception_kwargs)
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if m.group(3):
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code = code[:m.start(3)]
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(keyword, expr) = m.group(1,2)
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if keyword in ['for','if', 'while']:
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code = code + "pass"
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elif keyword == 'try':
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code = code + "pass\nexcept:pass"
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elif keyword == 'elif' or keyword == 'else':
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code = "if False:pass\n" + code + "pass"
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elif keyword == 'except':
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code = "try:pass\n" + code + "pass"
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else:
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raise exceptions.CompileException(
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"Unsupported control keyword: '%s'" %
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keyword, **exception_kwargs)
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super(PythonFragment, self).__init__(code, **exception_kwargs)
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class FunctionDecl(object):
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"""function declaration"""
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def __init__(self, code, allow_kwargs=True, **exception_kwargs):
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self.code = code
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expr = pyparser.parse(code, "exec", **exception_kwargs)
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f = pyparser.ParseFunc(self, **exception_kwargs)
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f.visit(expr)
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if not hasattr(self, 'funcname'):
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raise exceptions.CompileException(
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"Code '%s' is not a function declaration" % code,
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**exception_kwargs)
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if not allow_kwargs and self.kwargs:
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raise exceptions.CompileException(
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"'**%s' keyword argument not allowed here" %
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self.argnames[-1], **exception_kwargs)
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def get_argument_expressions(self, include_defaults=True):
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"""return the argument declarations of this FunctionDecl as a printable list."""
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namedecls = []
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defaults = [d for d in self.defaults]
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kwargs = self.kwargs
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varargs = self.varargs
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argnames = [f for f in self.argnames]
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argnames.reverse()
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for arg in argnames:
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default = None
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if kwargs:
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arg = "**" + arg
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kwargs = False
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elif varargs:
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arg = "*" + arg
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varargs = False
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else:
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default = len(defaults) and defaults.pop() or None
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if include_defaults and default:
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namedecls.insert(0, "%s=%s" %
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(arg,
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pyparser.ExpressionGenerator(default).value()
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)
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)
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else:
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namedecls.insert(0, arg)
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return namedecls
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class FunctionArgs(FunctionDecl):
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"""the argument portion of a function declaration"""
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def __init__(self, code, **kwargs):
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super(FunctionArgs, self).__init__("def ANON(%s):pass" % code, **kwargs)
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