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finally able to delete the old builtin stuff

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Dave Halter
2014-01-12 18:22:33 +01:00
parent 860aa50192
commit dfb494b9c4
3 changed files with 9 additions and 468 deletions
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455
jedi/evaluate/builtin.py
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@@ -1,455 +0,0 @@
"""
A big part of the Python standard libraries are unfortunately not only written
in Python. The process works like this:
- ``BuiltinModule`` imports the builtin module (e.g. ``sys``)
- then ``BuiltinModule`` generates code with the docstrings of builtin
functions.
- The :mod:`parsing` parser processes the generated code.
This is possible, because many builtin functions supply docstrings, for example
the method ``list.index`` has the following attribute ``__doc__``:
L.index(value, [start, [stop]]) -> integer -- return first index of value.
Raises ValueError if the value is not present.
`PEP 257 <http://www.python.org/dev/peps/pep-0257/#one-line-docstrings>`_
teaches how docstrings should look like for C functions.
Additionally there's a ``Builtin`` instance in this module, to make it
possible to access functions like ``list`` and ``int`` directly, the same way
|jedi| access other functions.
"""
from jedi._compatibility import exec_function, is_py3k
import re
import sys
import os
if is_py3k:
import io
import types
import inspect
from jedi import common
from jedi import debug
from jedi.parser import Parser
from jedi.parser import fast
from jedi.evaluate.sys_path import get_sys_path
from jedi import cache
class BuiltinModule(object):
"""
This module is a parser for all builtin modules, which are programmed in
C/C++. It should also work on third party modules.
It can be instantiated with either a path or a name of the module. The path
is important for third party modules.
:param name: The name of the module.
:param path: The path of the module.
:param sys_path: The sys.path, which is can be customizable.
"""
map_types = {
'floating point number': '0.0',
'string': '""',
'str': '""',
'character': '"a"',
'integer': '0',
'int': '0',
'dictionary': '{}',
'list': '[]',
'file object': 'file("")',
# TODO things like dbg: ('not working', 'tuple of integers')
}
if is_py3k:
map_types['file object'] = 'import io; return io.TextIOWrapper()'
def __init__(self, path=None, name=None, sys_path=None):
if sys_path is None:
sys_path = get_sys_path()
self.sys_path = list(sys_path)
if not name:
name = os.path.basename(path)
name = name.rpartition('.')[0] # cut file type (normally .so)
self.name = name
self.path = path and os.path.abspath(path)
@property
@cache.underscore_memoization
def parser(self):
""" get the parser lazy """
return cache.load_parser(self.path, self.name) or self._load_module()
def _load_module(self):
source = _generate_code(self.module, self._load_mixins())
p = self.path or self.name
p = fast.FastParser(source, p)
cache.save_parser(self.path, self.name, p)
return p
@property
@cache.underscore_memoization
def module(self):
"""get module also lazy"""
def load_module(name, path):
if path:
self.sys_path.insert(0, path)
temp, sys.path = sys.path, self.sys_path
content = {}
try:
exec_function('import %s as module' % name, content)
module = content['module']
except AttributeError:
# use sys.modules, because you cannot access some modules
# directly. -> #59
module = sys.modules[name]
sys.path = temp
if path:
self.sys_path.pop(0)
return module
# module might already be defined
path = self.path
name = self.name
if self.path:
dot_path = []
p = self.path
# search for the builtin with the correct path
while p and p not in sys.path:
p, sep, mod = p.rpartition(os.path.sep)
dot_path.append(mod.partition('.')[0])
if p:
name = ".".join(reversed(dot_path))
path = p
else:
path = os.path.dirname(self.path)
return load_module(name, path)
def _load_mixins(self):
"""
Load functions that are mixed in to the standard library.
E.g. builtins are written in C (binaries), but my autocompletion only
understands Python code. By mixing in Python code, the autocompletion
should work much better for builtins.
"""
regex = r'^(def|class)\s+([\w\d]+)'
def process_code(code, depth=0):
funcs = {}
matches = list(re.finditer(regex, code, re.MULTILINE))
positions = [m.start() for m in matches]
for i, pos in enumerate(positions):
try:
code_block = code[pos:positions[i + 1]]
except IndexError:
code_block = code[pos:len(code)]
structure_name = matches[i].group(1)
name = matches[i].group(2)
if structure_name == 'def':
funcs[name] = code_block
elif structure_name == 'class':
if depth > 0:
raise NotImplementedError()
# remove class line
c = re.sub(r'^[^\n]+', '', code_block)
# remove whitespace
c = re.compile(r'^[ ]{4}', re.MULTILINE).sub('', c)
funcs[name] = process_code(c)
else:
raise NotImplementedError()
return funcs
name = self.name
# sometimes there are stupid endings like `_sqlite3.cpython-32mu`
name = re.sub(r'\..*', '', name)
if name == '__builtin__' and not is_py3k:
name = 'builtins'
path = os.path.dirname(os.path.abspath(__file__))
try:
with open(os.path.join(path, 'mixin', name) + '.pym') as f:
s = f.read()
except IOError:
return {}
else:
mixin_dct = process_code(s)
if is_py3k and self.name == Builtin.name:
# in the case of Py3k xrange is now range
mixin_dct['range'] = mixin_dct['xrange']
return mixin_dct
def _generate_code(scope, mixin_funcs={}, depth=0):
"""
Generate a string, which uses python syntax as an input to the Parser.
"""
def get_doc(obj, indent=False):
doc = inspect.getdoc(obj)
if doc:
doc = ('r"""\n%s\n"""\n' % doc)
if indent:
doc = common.indent_block(doc)
return doc
return ''
def is_in_base_classes(cls, name, comparison):
""" Base classes may contain the exact same object """
if name in mixin_funcs:
return False
try:
mro = cls.mro()
except TypeError:
# this happens, if cls == type
return False
for base in mro[1:]:
try:
attr = getattr(base, name)
except AttributeError:
continue
if attr == comparison:
return True
return False
def get_scope_objects(names):
"""
Looks for the names defined with dir() in an objects and divides
them into different object types.
"""
classes = {}
funcs = {}
stmts = {}
members = {}
for n in names:
try:
# this has a builtin_function_or_method
exe = getattr(scope, n)
except AttributeError:
# happens e.g. in properties of
# PyQt4.QtGui.QStyleOptionComboBox.currentText
# -> just set it to None
members[n] = None
else:
if inspect.isclass(scope):
if is_in_base_classes(scope, n, exe):
continue
if inspect.isbuiltin(exe) or inspect.ismethod(exe) \
or inspect.ismethoddescriptor(exe):
funcs[n] = exe
elif inspect.isclass(exe) or inspect.ismodule(exe):
classes[n] = exe
elif inspect.ismemberdescriptor(exe):
members[n] = exe
else:
stmts[n] = exe
return classes, funcs, stmts, members
code = ''
if inspect.ismodule(scope): # generate comment where the code's from.
try:
path = scope.__file__
except AttributeError:
path = '?'
code += '# Generated module %s from %s\n' % (scope.__name__, path)
code += get_doc(scope)
# Remove some magic vars, (TODO why?)
names = set(dir(scope)) - set(['__file__', '__name__', '__doc__',
'__path__', '__package__'])
classes, funcs, stmts, members = get_scope_objects(names)
# classes
for name, cl in classes.items():
bases = (c.__name__ for c in cl.__bases__) if inspect.isclass(cl) \
else []
code += 'class %s(%s):\n' % (name, ','.join(bases))
if depth == 0:
try:
mixin = mixin_funcs[name]
except KeyError:
mixin = {}
cl_code = _generate_code(cl, mixin, depth + 1)
code += common.indent_block(cl_code)
code += '\n'
# functions
for name, func in funcs.items():
params, ret = _parse_function_doc(func)
if depth > 0:
params = 'self, ' + params
doc_str = get_doc(func, indent=True)
try:
mixin = mixin_funcs[name]
except KeyError:
# normal code generation
code += 'def %s(%s):\n' % (name, params)
code += doc_str
code += common.indent_block('%s\n\n' % ret)
else:
# generation of code with mixins
# the parser only supports basic functions with a newline after
# the double dots
# find doc_str place
try:
pos = re.search(r'\):\s*\n', mixin).end()
except TypeError:
# pypy uses a different reversed builtin
if name == 'reversed':
mixin = 'def reversed(sequence):\n' \
' for i in self.__sequence: yield i'
pos = 24
else:
debug.warning('mixin trouble in pypy: %s', name)
raise
if pos is None:
raise Exception("Builtin function not parsed correctly")
code += mixin[:pos] + doc_str + mixin[pos:]
# class members (functions) properties?
for name, func in members.items():
# recursion problem in properties TODO remove
if name in ['fget', 'fset', 'fdel']:
continue
ret = 'pass'
code += '@property\ndef %s(self):\n' % (name)
code += common.indent_block(get_doc(func) + '%s\n\n' % ret)
# variables
for name, value in stmts.items():
if is_py3k:
file_type = io.TextIOWrapper
else:
file_type = types.FileType
if isinstance(value, file_type):
value = 'open()'
elif name == 'None':
value = ''
elif type(value).__name__ in ['int', 'bool', 'float',
'dict', 'list', 'tuple']:
value = repr(value)
else:
# get the type, if the type is not simple.
mod = type(value).__module__
value = type(value).__name__ + '()'
if mod != '__builtin__':
value = '%s.%s' % (mod, value)
code += '%s = %s\n' % (name, value)
return code
def _parse_function_doc(func):
"""
Takes a function and returns the params and return value as a tuple.
This is nothing more than a docstring parser.
"""
# TODO: things like utime(path, (atime, mtime)) and a(b [, b]) -> None
doc = inspect.getdoc(func)
if doc is None:
return '', 'pass'
# get full string, parse round parentheses: def func(a, (b,c))
try:
# unbound methods such as pyqtSignals have no __name__
if not hasattr(func, "__name__"):
return '', 'pass'
count = 0
debug.dbg(func, func.__name__, doc)
start = doc.index('(')
for i, s in enumerate(doc[start:]):
if s == '(':
count += 1
elif s == ')':
count -= 1
if count == 0:
end = start + i
break
param_str = doc[start + 1:end]
except (ValueError, UnboundLocalError):
# ValueError for doc.index
# UnboundLocalError for undefined end in last line
debug.dbg('no brackets found - no param')
end = 0
param_str = ''
else:
# remove square brackets, that show an optional param ( = None)
def change_options(m):
args = m.group(1).split(',')
for i, a in enumerate(args):
if a and '=' not in a:
args[i] += '=None'
return ','.join(args)
while True:
param_str, changes = re.subn(r' ?\[([^\[\]]+)\]',
change_options, param_str)
if changes == 0:
break
param_str = param_str.replace('-', '_') # see: isinstance.__doc__
# parse return value
r = re.search('-[>-]* ', doc[end:end + 7])
if r is None:
ret = ''
else:
index = end + r.end()
# get result type, which can contain newlines
pattern = re.compile(r'(,\n|[^\n-])+')
ret_str = pattern.match(doc, index).group(0).strip()
# New object -> object()
ret_str = re.sub(r'[nN]ew (.*)', r'\1()', ret_str)
ret = BuiltinModule.map_types.get(ret_str, ret_str)
if ret == ret_str and ret not in ['None', 'object', 'tuple', 'set']:
debug.dbg('not working', ret_str)
ret = ('return ' if 'return' not in ret else '') + ret
return param_str, ret
class Builtin(object):
""" The builtin scope / module """
# Python 3 compatibility
if is_py3k:
name = 'builtins'
else:
name = '__builtin__'
@property
@cache.underscore_memoization
def builtin(self):
return BuiltinModule(name=self.name)
@property
def scope(self):
return self.builtin.parser.module
def magic_function_scope(self, evaluator):
try:
return self._magic_function_scope
except AttributeError:
# depth = 1 because this is not a module
class Container(object):
FunctionType = types.FunctionType
source = _generate_code(Container, depth=0)
parser = Parser(source, None)
module = parser.module
module.parent = self.scope
typ = evaluator.follow_path(iter(['FunctionType']), [module], module)
s = self._magic_function_scope = typ.pop()
return s
Builtin = Builtin()

13
test/test_builtin.py
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@@ -1,13 +0,0 @@
from jedi.evaluate import builtin
def test_parse_function_doc_illegal_docstr():
def test_func(a):
"""
test_func(o
doesn't have a closing bracket.
"""
assert ('', '') == builtin._parse_function_doc(test_func)

9
test/test_compiled.py
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@@ -21,3 +21,12 @@ def test_fake_loading():
string = compiled.builtin.get_subscope_by_name('str')
from_name = compiled._create_from_name(compiled.builtin, string, '__init__')
assert isinstance(from_name, Function)
def test_parse_function_doc_illegal_docstr():
docstr = """
test_func(o
doesn't have a closing bracket.
"""
assert ('', '') == compiled._parse_function_doc(docstr)