openmedialibrary_platform/Darwin/lib/python2.7/site-packages/mako/pyparser.py

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2013-10-11 17:28:32 +00:00
# mako/pyparser.py
# Copyright (C) 2006-2013 the Mako authors and contributors <see AUTHORS file>
#
# This module is part of Mako and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
"""Handles parsing of Python code.
Parsing to AST is done via _ast on Python > 2.5, otherwise the compiler
module is used.
"""
from mako import exceptions, util, compat
from mako.compat import StringIO, arg_stringname
import operator
if compat.py3k:
# words that cannot be assigned to (notably
# smaller than the total keys in __builtins__)
reserved = set(['True', 'False', 'None', 'print'])
# the "id" attribute on a function node
arg_id = operator.attrgetter('arg')
else:
# words that cannot be assigned to (notably
# smaller than the total keys in __builtins__)
reserved = set(['True', 'False', 'None'])
# the "id" attribute on a function node
arg_id = operator.attrgetter('id')
try:
import _ast
util.restore__ast(_ast)
from mako import _ast_util
except ImportError:
_ast = None
from compiler import parse as compiler_parse
from compiler import visitor
def parse(code, mode='exec', **exception_kwargs):
"""Parse an expression into AST"""
try:
if _ast:
return _ast_util.parse(code, '<unknown>', mode)
else:
if isinstance(code, compat.text_type):
code = code.encode('ascii', 'backslashreplace')
return compiler_parse(code, mode)
except Exception:
raise exceptions.SyntaxException(
"(%s) %s (%r)" % (
compat.exception_as().__class__.__name__,
compat.exception_as(),
code[0:50]
), **exception_kwargs)
if _ast:
class FindIdentifiers(_ast_util.NodeVisitor):
def __init__(self, listener, **exception_kwargs):
self.in_function = False
self.in_assign_targets = False
self.local_ident_stack = set()
self.listener = listener
self.exception_kwargs = exception_kwargs
def _add_declared(self, name):
if not self.in_function:
self.listener.declared_identifiers.add(name)
else:
self.local_ident_stack.add(name)
def visit_ClassDef(self, node):
self._add_declared(node.name)
def visit_Assign(self, node):
# flip around the visiting of Assign so the expression gets
# evaluated first, in the case of a clause like "x=x+5" (x
# is undeclared)
self.visit(node.value)
in_a = self.in_assign_targets
self.in_assign_targets = True
for n in node.targets:
self.visit(n)
self.in_assign_targets = in_a
if compat.py3k:
# ExceptHandler is in Python 2, but this block only works in
# Python 3 (and is required there)
def visit_ExceptHandler(self, node):
if node.name is not None:
self._add_declared(node.name)
if node.type is not None:
self.listener.undeclared_identifiers.add(node.type.id)
for statement in node.body:
self.visit(statement)
def visit_Lambda(self, node, *args):
self._visit_function(node, True)
def visit_FunctionDef(self, node):
self._add_declared(node.name)
self._visit_function(node, False)
def _expand_tuples(self, args):
for arg in args:
if isinstance(arg, _ast.Tuple):
for n in arg.elts:
yield n
else:
yield arg
def _visit_function(self, node, islambda):
# push function state onto stack. dont log any more
# identifiers as "declared" until outside of the function,
# but keep logging identifiers as "undeclared". track
# argument names in each function header so they arent
# counted as "undeclared"
inf = self.in_function
self.in_function = True
local_ident_stack = self.local_ident_stack
self.local_ident_stack = local_ident_stack.union([
arg_id(arg) for arg in self._expand_tuples(node.args.args)
])
if islambda:
self.visit(node.body)
else:
for n in node.body:
self.visit(n)
self.in_function = inf
self.local_ident_stack = local_ident_stack
def visit_For(self, node):
# flip around visit
self.visit(node.iter)
self.visit(node.target)
for statement in node.body:
self.visit(statement)
for statement in node.orelse:
self.visit(statement)
def visit_Name(self, node):
if isinstance(node.ctx, _ast.Store):
# this is eqiuvalent to visit_AssName in
# compiler
self._add_declared(node.id)
elif node.id not in reserved and node.id \
not in self.listener.declared_identifiers and node.id \
not in self.local_ident_stack:
self.listener.undeclared_identifiers.add(node.id)
def visit_Import(self, node):
for name in node.names:
if name.asname is not None:
self._add_declared(name.asname)
else:
self._add_declared(name.name.split('.')[0])
def visit_ImportFrom(self, node):
for name in node.names:
if name.asname is not None:
self._add_declared(name.asname)
else:
if name.name == '*':
raise exceptions.CompileException(
"'import *' is not supported, since all identifier "
"names must be explicitly declared. Please use the "
"form 'from <modulename> import <name1>, <name2>, "
"...' instead.", **self.exception_kwargs)
self._add_declared(name.name)
class FindTuple(_ast_util.NodeVisitor):
def __init__(self, listener, code_factory, **exception_kwargs):
self.listener = listener
self.exception_kwargs = exception_kwargs
self.code_factory = code_factory
def visit_Tuple(self, node):
for n in node.elts:
p = self.code_factory(n, **self.exception_kwargs)
self.listener.codeargs.append(p)
self.listener.args.append(ExpressionGenerator(n).value())
self.listener.declared_identifiers = \
self.listener.declared_identifiers.union(
p.declared_identifiers)
self.listener.undeclared_identifiers = \
self.listener.undeclared_identifiers.union(
p.undeclared_identifiers)
class ParseFunc(_ast_util.NodeVisitor):
def __init__(self, listener, **exception_kwargs):
self.listener = listener
self.exception_kwargs = exception_kwargs
def visit_FunctionDef(self, node):
self.listener.funcname = node.name
argnames = [arg_id(arg) for arg in node.args.args]
if node.args.vararg:
argnames.append(arg_stringname(node.args.vararg))
if node.args.kwarg:
argnames.append(arg_stringname(node.args.kwarg))
self.listener.argnames = argnames
self.listener.defaults = node.args.defaults # ast
self.listener.varargs = node.args.vararg
self.listener.kwargs = node.args.kwarg
class ExpressionGenerator(object):
def __init__(self, astnode):
self.generator = _ast_util.SourceGenerator(' ' * 4)
self.generator.visit(astnode)
def value(self):
return ''.join(self.generator.result)
else:
class FindIdentifiers(object):
def __init__(self, listener, **exception_kwargs):
self.in_function = False
self.local_ident_stack = set()
self.listener = listener
self.exception_kwargs = exception_kwargs
def _add_declared(self, name):
if not self.in_function:
self.listener.declared_identifiers.add(name)
else:
self.local_ident_stack.add(name)
def visitClass(self, node, *args):
self._add_declared(node.name)
def visitAssName(self, node, *args):
self._add_declared(node.name)
def visitAssign(self, node, *args):
# flip around the visiting of Assign so the expression gets
# evaluated first, in the case of a clause like "x=x+5" (x
# is undeclared)
self.visit(node.expr, *args)
for n in node.nodes:
self.visit(n, *args)
def visitLambda(self, node, *args):
self._visit_function(node, args)
def visitFunction(self, node, *args):
self._add_declared(node.name)
self._visit_function(node, args)
def _expand_tuples(self, args):
for arg in args:
if isinstance(arg, tuple):
for n in arg:
yield n
else:
yield arg
def _visit_function(self, node, args):
# push function state onto stack. dont log any more
# identifiers as "declared" until outside of the function,
# but keep logging identifiers as "undeclared". track
# argument names in each function header so they arent
# counted as "undeclared"
inf = self.in_function
self.in_function = True
local_ident_stack = self.local_ident_stack
self.local_ident_stack = local_ident_stack.union([
arg for arg in self._expand_tuples(node.argnames)
])
for n in node.getChildNodes():
self.visit(n, *args)
self.in_function = inf
self.local_ident_stack = local_ident_stack
def visitFor(self, node, *args):
# flip around visit
self.visit(node.list, *args)
self.visit(node.assign, *args)
self.visit(node.body, *args)
def visitName(self, node, *args):
if node.name not in reserved and node.name \
not in self.listener.declared_identifiers and node.name \
not in self.local_ident_stack:
self.listener.undeclared_identifiers.add(node.name)
def visitImport(self, node, *args):
for mod, alias in node.names:
if alias is not None:
self._add_declared(alias)
else:
self._add_declared(mod.split('.')[0])
def visitFrom(self, node, *args):
for mod, alias in node.names:
if alias is not None:
self._add_declared(alias)
else:
if mod == '*':
raise exceptions.CompileException(
"'import *' is not supported, since all identifier "
"names must be explicitly declared. Please use the "
"form 'from <modulename> import <name1>, <name2>, "
"...' instead.", **self.exception_kwargs)
self._add_declared(mod)
def visit(self, expr):
visitor.walk(expr, self) # , walker=walker())
class FindTuple(object):
def __init__(self, listener, code_factory, **exception_kwargs):
self.listener = listener
self.exception_kwargs = exception_kwargs
self.code_factory = code_factory
def visitTuple(self, node, *args):
for n in node.nodes:
p = self.code_factory(n, **self.exception_kwargs)
self.listener.codeargs.append(p)
self.listener.args.append(ExpressionGenerator(n).value())
self.listener.declared_identifiers = \
self.listener.declared_identifiers.union(
p.declared_identifiers)
self.listener.undeclared_identifiers = \
self.listener.undeclared_identifiers.union(
p.undeclared_identifiers)
def visit(self, expr):
visitor.walk(expr, self) # , walker=walker())
class ParseFunc(object):
def __init__(self, listener, **exception_kwargs):
self.listener = listener
self.exception_kwargs = exception_kwargs
def visitFunction(self, node, *args):
self.listener.funcname = node.name
self.listener.argnames = node.argnames
self.listener.defaults = node.defaults
self.listener.varargs = node.varargs
self.listener.kwargs = node.kwargs
def visit(self, expr):
visitor.walk(expr, self)
class ExpressionGenerator(object):
"""given an AST node, generates an equivalent literal Python
expression."""
def __init__(self, astnode):
self.buf = StringIO()
visitor.walk(astnode, self) # , walker=walker())
def value(self):
return self.buf.getvalue()
def operator(self, op, node, *args):
self.buf.write('(')
self.visit(node.left, *args)
self.buf.write(' %s ' % op)
self.visit(node.right, *args)
self.buf.write(')')
def booleanop(self, op, node, *args):
self.visit(node.nodes[0])
for n in node.nodes[1:]:
self.buf.write(' ' + op + ' ')
self.visit(n, *args)
def visitConst(self, node, *args):
self.buf.write(repr(node.value))
def visitAssName(self, node, *args):
# TODO: figure out OP_ASSIGN, other OP_s
self.buf.write(node.name)
def visitName(self, node, *args):
self.buf.write(node.name)
def visitMul(self, node, *args):
self.operator('*', node, *args)
def visitAnd(self, node, *args):
self.booleanop('and', node, *args)
def visitOr(self, node, *args):
self.booleanop('or', node, *args)
def visitBitand(self, node, *args):
self.booleanop('&', node, *args)
def visitBitor(self, node, *args):
self.booleanop('|', node, *args)
def visitBitxor(self, node, *args):
self.booleanop('^', node, *args)
def visitAdd(self, node, *args):
self.operator('+', node, *args)
def visitGetattr(self, node, *args):
self.visit(node.expr, *args)
self.buf.write('.%s' % node.attrname)
def visitSub(self, node, *args):
self.operator('-', node, *args)
def visitNot(self, node, *args):
self.buf.write('not ')
self.visit(node.expr)
def visitDiv(self, node, *args):
self.operator('/', node, *args)
def visitFloorDiv(self, node, *args):
self.operator('//', node, *args)
def visitSubscript(self, node, *args):
self.visit(node.expr)
self.buf.write('[')
[self.visit(x) for x in node.subs]
self.buf.write(']')
def visitUnarySub(self, node, *args):
self.buf.write('-')
self.visit(node.expr)
def visitUnaryAdd(self, node, *args):
self.buf.write('-')
self.visit(node.expr)
def visitSlice(self, node, *args):
self.visit(node.expr)
self.buf.write('[')
if node.lower is not None:
self.visit(node.lower)
self.buf.write(':')
if node.upper is not None:
self.visit(node.upper)
self.buf.write(']')
def visitDict(self, node):
self.buf.write('{')
c = node.getChildren()
for i in range(0, len(c), 2):
self.visit(c[i])
self.buf.write(': ')
self.visit(c[i + 1])
if i < len(c) - 2:
self.buf.write(', ')
self.buf.write('}')
def visitTuple(self, node):
self.buf.write('(')
c = node.getChildren()
for i in range(0, len(c)):
self.visit(c[i])
if i < len(c) - 1:
self.buf.write(', ')
self.buf.write(')')
def visitList(self, node):
self.buf.write('[')
c = node.getChildren()
for i in range(0, len(c)):
self.visit(c[i])
if i < len(c) - 1:
self.buf.write(', ')
self.buf.write(']')
def visitListComp(self, node):
self.buf.write('[')
self.visit(node.expr)
self.buf.write(' ')
for n in node.quals:
self.visit(n)
self.buf.write(']')
def visitListCompFor(self, node):
self.buf.write(' for ')
self.visit(node.assign)
self.buf.write(' in ')
self.visit(node.list)
for n in node.ifs:
self.visit(n)
def visitListCompIf(self, node):
self.buf.write(' if ')
self.visit(node.test)
def visitCompare(self, node):
self.visit(node.expr)
for tup in node.ops:
self.buf.write(tup[0])
self.visit(tup[1])
def visitCallFunc(self, node, *args):
self.visit(node.node)
self.buf.write('(')
if len(node.args):
self.visit(node.args[0])
for a in node.args[1:]:
self.buf.write(', ')
self.visit(a)
self.buf.write(')')
def visitLambda(self, node, *args):
self.buf.write('lambda ')
argnames = list(node.argnames)
kw = arg = None
if node.kwargs > 0:
kw = argnames.pop(-1)
if node.varargs > 0:
arg = argnames.pop(-1)
if arg:
argnames.append("*%s" % arg)
if kw:
argnames.append("**%s" % kw)
self.buf.write(", ".join(argnames))
self.buf.write(': ')
self.visit(node.code)
class walker(visitor.ASTVisitor):
def dispatch(self, node, *args):
print('Node:', str(node))
# print "dir:", dir(node)
return visitor.ASTVisitor.dispatch(self, node, *args)