/usr/lib/python2.7/dist-packages/csa/csaobject.py is in python-csa 0.1.0-1.2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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# This file is part of the Connection-Set Algebra (CSA).
# Copyright (C) 2010,2011,2012 Mikael Djurfeldt
#
# CSA is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# CSA is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
try:
from lxml import etree
from lxml.builder import E
except ImportError:
pass
csa_tag = 'CSA'
csa_namespace = 'http://software.incf.org/software/csa/1.0'
CSA = '{%s}' % csa_namespace
CUSTOM = -4
OPERATOR = -3
BINDOPERATOR = -2
SINGLETON = -1
def to_xml (obj):
if isinstance (obj, str):
return E (obj)
elif isinstance (obj, (int, float)):
return E ('cn', str (obj))
elif isinstance (obj, CSAObject):
return obj._to_xml ()
else:
raise RuntimeError, "don't know how to turn %s into xml" % obj
# precedence levels:
#
# 0 + -
# 1 *
# 2 ~
class CSAObject (object):
tag_map = {}
def __init__ (self, name, precedence = 3):
self.name = name
self.precedence = precedence
def __repr__ (self):
return 'CSA(%s)' % self.repr ()
def repr (self):
if hasattr (self, 'name'):
return self.name
else:
return self.__class__.__name__
def _repr_as_op2 (self, parentPrecedence):
if self.precedence <= parentPrecedence:
return '(%s)' % self.repr ()
else:
return self.repr ()
def _repr_applyop (self, op_repr, obj):
return '%s*%s' % (op_repr, obj._repr_as_op2 (1))
def to_xml (self):
return E (csa_tag, self._to_xml (), xmlns=csa_namespace)
def _to_xml (self):
return E (self.name)
@classmethod
def apply (cls, operator, *operands):
return E ('apply', to_xml (operator), *map (to_xml, operands))
@classmethod
def formalFromXML (cls, element):
assert element.tag == CSA + 'bvar'
nodes = element.getchildren ()
assert nodes[0].tag == CSA + 'ci'
return nodes[0].text
@classmethod
def from_xml (cls, element, env = {}):
if element.tag == CSA + 'cn':
return eval (element.text)
elif element.tag == CSA + 'ci':
#*fixme* Implement env as lists of dictionaries
return env[element.text]
elif element.tag == CSA + 'apply':
nodes = element.getchildren ()
operator = nodes[0].tag
operands = [ cls.from_xml (e, env) for e in nodes[1:] ]
if operator == CSA + 'plus':
return operands[0].__add__ (operands[1])
elif operator == CSA + 'minus':
return operands[0].__sub__ (operands[1])
elif operator == CSA + 'times':
return operands[0].__mul__ (operands[1])
elif operator == CSA + 'complement':
return operands[0].__invert__ ()
else:
# Function or operator application
entry = CSAObject.tag_map[operator]
obj = entry[0]
if entry[1] == OPERATOR:
return obj * operands[1]
else:
return obj (*operands)
elif element.tag == CSA + 'bind':
nodes = element.getchildren ()
tag = nodes[0].tag
entry = CSAObject.tag_map[tag]
if entry[1] != BINDOPERATOR:
raise RuntimeError, "unknown binding operator tag %s" % tag
bindingOperator = entry[0]
bvars = [ CSAObject.formalFromXML (e) for e in nodes[1:-1] ]
return bindingOperator (bvars, nodes[-1])
elif element.tag in CSAObject.tag_map:
entry = CSAObject.tag_map[element.tag]
obj = entry[0]
if entry[1] == SINGLETON:
return obj
elif entry[1] == CUSTOM:
return obj.from_xml (element, env)
else:
return obj ()
else:
raise RuntimeError, "don't know how parse tag %s" % element.tag
def xml (e):
print etree.tostring (e)
def write(self, file):
doc = self.to_xml ()
etree.ElementTree(doc).write (file, encoding="UTF-8",
pretty_print=True, xml_declaration=True)
class BinaryCSAObject (CSAObject):
operator_table = {'+': 'plus', '-': 'minus', '*': 'times'}
def __init__ (self, name, op1, op2, precedence = 0):
CSAObject.__init__ (self, name, precedence)
self.op1 = op1
self.op2 = op2
def repr (self):
if isinstance (self.op1, CSAObject):
op1 = self.op1.repr ()
if self.op1.precedence < self.precedence:
op1 = "(%s)" % op1
else:
op1 = self.op1
if isinstance (self.op2, CSAObject):
op2 = self.op2._repr_as_op2 (self.precedence)
else:
op2 = self.op2
return "%s%s%s" % (op1, self.name, op2)
def _to_xml (self):
if isinstance (self.op1, CSAObject):
op1 = self.op1._to_xml ()
else:
op1 = self.op1
if isinstance (self.op2, CSAObject):
op2 = self.op2._to_xml ()
else:
op2 = self.op2
if self.name in BinaryCSAObject.operator_table:
op = BinaryCSAObject.operator_table[self.name]
else:
op = self.name
return E ('apply', E (op), op1, op2)
class OpExprValue (BinaryCSAObject):
def __init__ (self, operator, operand):
BinaryCSAObject.__init__ (self, '*', operator, operand, 1)
class Operator (CSAObject):
def __init__ (self, name='ioperator'):
CSAObject.__init__ (self, name)
def from_xml (root):
assert root.nsmap[None] == csa_namespace
return CSAObject.from_xml (root.getchildren ()[0])
def parse (filename):
doc = etree.parse (filename)
return from_xml (doc.getroot())
def registerTag (tag, obj, mode):
CSAObject.tag_map[CSA + tag] = (obj, mode)
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