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flectra/doc/_extensions/autojsdoc/parser/utils.py
flectra-admin 769eafb483 [INIT] Inception of Flectra from Odoo 
Flectra is Forked from Odoo v11 commit : (6135e82d73)
2018-01-16 11:45:59 +05:30

296 lines
8.5 KiB
Python
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# -*- coding: utf-8 -*-
def _name(node):
if node['type'] == 'Identifier':
return node['name']
if node['type'] == 'MemberExpression':
return "%s.%s" % (_name(node['object']), _name(node['property']))
raise ValueError("Unnamable node type %s" % node['type'])
def _value(node, strict=False):
t = node['type']
if t == 'Identifier':
return node['name']
elif t == 'Literal':
return node['value']
msg = '<%s has no value>' % _identify(node, {})
if strict:
raise ValueError(msg)
return msg
def _identify(valnode, ns):
if valnode is None:
return "None"
# already identified and re-set in the ns?
if isinstance(valnode, Printable):
return valnode
# check other non-empty returns
t = valnode['type']
if t == "Literal":
if valnode.get('regex'):
return valnode['regex']['pattern']
return valnode['value']
elif t == "Identifier":
n = valnode['name']
return ns.get(n, Global(n))
elif t == "NewExpression":
return Instance(_identify(valnode['callee'], ns))
elif t == "ObjectExpression":
return Namespace({
_value(prop['key']): _identify(prop['value'], ns)
for prop in valnode['properties']
})
elif t == "MemberExpression":
return Deref(
_identify(valnode['object'], ns),
_identify(valnode['property'], ns) if valnode['computed'] else valnode['property']['name'],
)
elif t == "CallExpression":
return Call(
_identify(valnode['callee'], ns),
[_identify(arg, ns) for arg in valnode['arguments']],
)
elif t == 'BinaryExpression':
return "%s %s %s" % (
_identify(valnode['left'], ns),
valnode['operator'],
_identify(valnode['right'], ns),
)
else:
return t
class Counter(object):
__slots__ = ['_number']
def __init__(self):
self._number = 0
def __bool__(self):
return bool(self._number)
__nonzero__ = __bool__
def __int__(self):
return self._number
def get(self):
return self._number
def increment(self):
self._number += 1
return self._number
def decrement(self):
self._number -= 1
return self._number
def __enter__(self):
self._number += 1
return self._number
def __exit__(self, *args):
self._number -= 1
class Printable(object):
__slots__ = []
depth = Counter()
def __repr__(self):
with self.depth as i:
if i > 2:
return "%s(...)" % type(self).__name__
return "%s(%s)" % (type(self).__name__, ', '.join(
"%s=%r" % (k, getattr(self, k))
for k in self.__slots__
if not k.startswith('_')
if getattr(self, k)
))
def resolve(obj, store):
if obj is None:
return None
if isinstance(obj, (type(u''), bool, int, float)):
return obj
if isinstance(obj, ModuleProxy):
return resolve(obj.get(), store)
try:
if getattr(obj, 'resolved', False):
return obj
return obj.resolve(store)
except AttributeError:
raise TypeError("Unresolvable {!r}".format(obj))
class Resolvable(Printable):
"""
For types resolved in place
"""
__slots__ = ['resolved']
def __init__(self):
super(Resolvable, self).__init__()
self.resolved = False
def resolve(self, store):
self.resolved = True
return self
class Namespace(Resolvable):
__slots__ = ['attrs']
def __init__(self, attrs):
super(Namespace, self).__init__()
self.attrs = attrs
def resolve(self, store):
r = super(Namespace, self).resolve(store)
self.attrs = {
k: resolve(v, store)
for k, v in self.attrs.items()
}
return r
def __getitem__(self, key):
assert isinstance(key, type(u'')), "%r is not a namespace key" % key
try:
return self.attrs[key]
except KeyError:
return Global(self)[key]
class Module(Resolvable):
__slots__ = ('name', 'comments', 'exports', 'augments', 'dependencies', '_store')
def __init__(self, name, store, comments=()):
super(Module, self).__init__()
self.name = name
self._store = store
self.comments = tuple(comments)
self.exports = None
self.augments = []
self.dependencies = set()
store[name] = self
def add_dependency(self, depname):
dep = ModuleProxy(depname, self._store)
self.dependencies.add(dep)
return dep
def get(self):
return self
def resolve(self, store=None):
r = super(Module, self).resolve(store)
self.exports = resolve(self.exports, self._store)
self.augments = [resolve(a, self._store) for a in self.augments]
self.dependencies = {
resolve(d, self._store)
for d in self.dependencies
}
return r
def __getitem__(self, k):
try:
return self.exports[k]
except KeyError:
return Global(self)[k]
class ModuleProxy(object):
def __init__(self, name, store):
self.name = name
self.store = store
def get(self):
# web.web_client is not an actual module
return self.store.get(self.name, '<unstored %s>' % self.name)
def __repr__(self):
return repr(self.get())
def __hash__(self):
return hash(self.name)
def __eq__(self, other):
return self.name == other.name
class Class(Resolvable):
__slots__ = ['name', 'members', 'extends', 'mixins', 'comments']
def __init__(self, name, extends):
super(Class, self).__init__()
self.name = name
self.extends = extends
self.members = {}
self.mixins = []
self.comments = []
def resolve(self, store):
r = super(Class, self).resolve(store)
self.extends = resolve(self.extends, store)
self.mixins = [resolve(m, store) for m in self.mixins]
return r
class Instance(Resolvable):
__slots__ = ['type']
def __init__(self, type):
super(Instance, self).__init__()
self.type = type
def resolve(self, store):
r = super(Instance, self).resolve(store)
self.type = resolve(self.type, store)
if isinstance(self.type, Module):
self.type = self.type.exports
return r
def __getitem__(self, key):
return Global(self)['key']
class Function(Resolvable):
__slots__ = ['comments']
def __init__(self, comments):
super(Function, self).__init__()
self.comments = comments
class Deref(Printable):
__slots__ = ['object', 'property']
def __init__(self, object, property):
self.object = object
self.property = property
def resolve(self, store):
return resolve(self.object, store)[self.property]
class Call(Resolvable):
__slots__ = ['callable']
def __init__(self, callable, arguments):
super(Call, self).__init__()
self.callable = callable
def resolve(self, store):
r = super(Call, self).resolve(store)
self.callable = resolve(self.callable, store)
return r
def __getitem__(self, item):
return Global(self)[item]
def get(node, it, *path):
if not path:
return node[it]
return get(node[it], *path)
def match(node, pattern):
"""Checks that ``pattern`` is a subset of ``node``.
If a sub-pattern is a callable it will be called with the current
sub-node and its result is the match's. Other sub-patterns are
checked by equality against the correspoding sub-node.
Can be used to quickly check the descendants of a node of suitable
type.
TODO: support checking list content? Would be convenient to
constraint e.g. CallExpression based on their parameters
"""
if node is None and pattern is not None:
return
if callable(pattern):
return pattern(node)
if isinstance(node, list):
return all(len(node) > i and match(node[i], v) for i, v in pattern.items())
if isinstance(pattern, dict):
return all(match(node.get(k), v) for k, v in pattern.items())
return node == pattern
class Global(object):
def __init__(self, name):
self.name = name
def __repr__(self):
return '<external %s>' % self.name
def __getitem__(self, name):
return Global('%s.%s' % (self.name, name))
def resolve(self, store):
return self
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