homes/common/.local/lib/python2.7/site-packages/jedi/builtin.py

from __future__ import with_statement
from _compatibility import exec_function, is_py3k

import re
import sys
import os
if is_py3k:
    import io
import types
import inspect

import debug
import parsing
import imports
import evaluate


def get_sys_path():
    def check_virtual_env(sys_path):
        """ Add virtualenv's site-packages to the `sys.path`."""
        venv = os.getenv('VIRTUAL_ENV')
        if not venv:
            return
        venv = os.path.abspath(venv)
        p = os.path.join(
            venv, 'lib', 'python%d.%d' % sys.version_info[:2], 'site-packages')
        sys_path.insert(0, p)

    p = sys.path[1:]
    check_virtual_env(p)
    return p


class CachedModule(object):
    """
    The base type for all modules, which is not to be confused with
    `parsing.Module`. Caching happens here.
    """
    cache = {}

    def __init__(self, path=None, name=None):
        self.path = path and os.path.abspath(path)
        self.name = name
        self._parser = None

    @property
    def parser(self):
        """ get the parser lazy """
        if not self._parser:
            try:
                timestamp, parser = self.cache[self.path or self.name]
                if not self.path or os.path.getmtime(self.path) <= timestamp:
                    self._parser = parser
                else:
                    # In case there is already a module cached and this module
                    # has to be reparsed, we also need to invalidate the import
                    # caches.
                    imports.invalidate_star_import_cache(parser.module)
                    raise KeyError()
            except KeyError:
                self._load_module()
        return self._parser

    def _get_source(self):
        raise NotImplementedError()

    def _load_module(self):
        source = self._get_source()
        self._parser = parsing.PyFuzzyParser(source, self.path or self.name)
        p_time = None if not self.path else os.path.getmtime(self.path)

        if self.path or self.name:
            self.cache[self.path or self.name] = p_time, self._parser


class Parser(CachedModule):
    """
    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()'

    module_cache = {}

    def __init__(self, path=None, name=None, sys_path=None):
        if sys_path is None:
            sys_path = get_sys_path()
        if not name:
            name = os.path.basename(path)
            name = name.rpartition('.')[0]  # cut file type (normally .so)
        super(Parser, self).__init__(path=path, name=name)

        self.sys_path = list(sys_path)
        self._module = None

    @property
    def module(self):
        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)
                self._module = content['module']
            except AttributeError:
                # use sys.modules, because you cannot access some modules
                # directly. -> #59
                self._module = sys.modules[name]
            sys.path = temp

            if path:
                self.sys_path.pop(0)

        # module might already be defined
        if not self._module:
            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)

            load_module(name, path)
        return self._module

    def _get_source(self):
        """ Override this abstract method """
        return _generate_code(self.module, self._load_mixins())

    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

        try:
            name = self.name
            if name == '__builtin__' and not is_py3k:
                name = 'builtins'
            path = os.path.dirname(os.path.abspath(__file__))
            with open(os.path.sep.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
    PyFuzzyParser.
    """
    def get_doc(obj, indent=False):
        doc = inspect.getdoc(obj)
        if doc:
            doc = ('r"""\n%s\n"""\n' % doc)
            if indent:
                doc = parsing.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):
                    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)

    names = set(dir(scope)) - set(['__file__', '__name__', '__doc__',
                                            '__path__', '__package__']) \
                            | set(['mro'])

    classes, funcs, stmts, members = get_scope_objects(names)

    # classes
    for name, cl in classes.items():
        bases = (c.__name__ for c in cl.__bases__)
        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 += parsing.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 += parsing.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
            pos = re.search(r'\):\s*\n', mixin).end()
            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 += parsing.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 type(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)

    if depth == 0:
        #with open('writeout.py', 'w') as f:
        #    f.write(code)
        #import sys
        #sys.stdout.write(code)
        #exit()
        pass
    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)

    # get full string, parse round parentheses: def func(a, (b,c))
    try:
        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]

        # 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
    except (ValueError, AttributeError):
        debug.dbg('no brackets found - no param')
        end = 0
        param_str = ''

    param_str = param_str.replace('-', '_')  # see: isinstance.__doc__

    if doc is not None:
        r = re.search('-[>-]* ', doc[end:end + 7])
    if doc is None or r is None:
        ret = 'pass'
    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 = Parser.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)
        if ret != 'pass':
            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__'

    _builtin = None

    @property
    def builtin(self):
        if self._builtin is None:
            self._builtin = Parser(name=self.name)
        return self._builtin

    @property
    def scope(self):
        return self.builtin.parser.module

    @property
    def magic_function_scope(self):
        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 = parsing.PyFuzzyParser(source, None)
            module = parser.module
            module.parent = self.scope
            typ = evaluate.follow_path(iter(['FunctionType']), module, module)

            s = self._magic_function_scope = typ.pop()
            return s


Builtin = Builtin()
Add jedi Fix error in powerline (ascii can't decode) Get vim plugins directly from git 2013-05-03 10:58:55 +02:00			`from __future__ import with_statement`
			`from _compatibility import exec_function, is_py3k`

			`import re`
			`import sys`
			`import os`
			`if is_py3k:`
			`import io`
			`import types`
			`import inspect`

			`import debug`
			`import parsing`
			`import imports`
			`import evaluate`


			`def get_sys_path():`
			`def check_virtual_env(sys_path):`
			""" Add virtualenv's site-packages to the `sys.path`."""
			`venv = os.getenv('VIRTUAL_ENV')`
			`if not venv:`
			`return`
			`venv = os.path.abspath(venv)`
			`p = os.path.join(`
			`venv, 'lib', 'python%d.%d' % sys.version_info[:2], 'site-packages')`
			`sys_path.insert(0, p)`

			`p = sys.path[1:]`
			`check_virtual_env(p)`
			`return p`


			`class CachedModule(object):`
			`"""`
			`The base type for all modules, which is not to be confused with`
			`parsing.Module`. Caching happens here.
			`"""`
			`cache = {}`

			`def __init__(self, path=None, name=None):`
			`self.path = path and os.path.abspath(path)`
			`self.name = name`
			`self._parser = None`

			`@property`
			`def parser(self):`
			`""" get the parser lazy """`
			`if not self._parser:`
			`try:`
			`timestamp, parser = self.cache[self.path or self.name]`
			`if not self.path or os.path.getmtime(self.path) <= timestamp:`
			`self._parser = parser`
			`else:`
			`# In case there is already a module cached and this module`
			`# has to be reparsed, we also need to invalidate the import`
			`# caches.`
			`imports.invalidate_star_import_cache(parser.module)`
			`raise KeyError()`
			`except KeyError:`
			`self._load_module()`
			`return self._parser`

			`def _get_source(self):`
			`raise NotImplementedError()`

			`def _load_module(self):`
			`source = self._get_source()`
			`self._parser = parsing.PyFuzzyParser(source, self.path or self.name)`
			`p_time = None if not self.path else os.path.getmtime(self.path)`

			`if self.path or self.name:`
			`self.cache[self.path or self.name] = p_time, self._parser`


			`class Parser(CachedModule):`
			`"""`
			`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()'`

			`module_cache = {}`

			`def __init__(self, path=None, name=None, sys_path=None):`
			`if sys_path is None:`
			`sys_path = get_sys_path()`
			`if not name:`
			`name = os.path.basename(path)`
			`name = name.rpartition('.')[0] # cut file type (normally .so)`
			`super(Parser, self).__init__(path=path, name=name)`

			`self.sys_path = list(sys_path)`
			`self._module = None`

			`@property`
			`def module(self):`
			`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)`
			`self._module = content['module']`
			`except AttributeError:`
			`# use sys.modules, because you cannot access some modules`
			`# directly. -> #59`
			`self._module = sys.modules[name]`
			`sys.path = temp`

			`if path:`
			`self.sys_path.pop(0)`

			`# module might already be defined`
			`if not self._module:`
			`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)`

			`load_module(name, path)`
			`return self._module`

			`def _get_source(self):`
			`""" Override this abstract method """`
			`return _generate_code(self.module, self._load_mixins())`

			`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`

			`try:`
			`name = self.name`
			`if name == '__builtin__' and not is_py3k:`
			`name = 'builtins'`
			`path = os.path.dirname(os.path.abspath(__file__))`
			`with open(os.path.sep.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`
			`PyFuzzyParser.`
			`"""`
			`def get_doc(obj, indent=False):`
			`doc = inspect.getdoc(obj)`
			`if doc:`
			`doc = ('r"""\n%s\n"""\n' % doc)`
			`if indent:`
			`doc = parsing.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):`
			`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)`

			`names = set(dir(scope)) - set(['__file__', '__name__', '__doc__',`
			`'__path__', '__package__']) \`
			`\| set(['mro'])`

			`classes, funcs, stmts, members = get_scope_objects(names)`

			`# classes`
			`for name, cl in classes.items():`
			`bases = (c.__name__ for c in cl.__bases__)`
			`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 += parsing.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 += parsing.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`
			`pos = re.search(r'\):\s*\n', mixin).end()`
			`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 += parsing.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 type(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)`

			`if depth == 0:`
			`#with open('writeout.py', 'w') as f:`
			`# f.write(code)`
			`#import sys`
			`#sys.stdout.write(code)`
			`#exit()`
			`pass`
			`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)`

			`# get full string, parse round parentheses: def func(a, (b,c))`
			`try:`
			`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]`

			`# 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`
			`except (ValueError, AttributeError):`
			`debug.dbg('no brackets found - no param')`
			`end = 0`
			`param_str = ''`

			`param_str = param_str.replace('-', '_') # see: isinstance.__doc__`

			`if doc is not None:`
			`r = re.search('-[>-]* ', doc[end:end + 7])`
			`if doc is None or r is None:`
			`ret = 'pass'`
			`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 = Parser.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)`
			`if ret != 'pass':`
			`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__'`

			`_builtin = None`

			`@property`
			`def builtin(self):`
			`if self._builtin is None:`
			`self._builtin = Parser(name=self.name)`
			`return self._builtin`

			`@property`
			`def scope(self):`
			`return self.builtin.parser.module`

			`@property`
			`def magic_function_scope(self):`
			`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 = parsing.PyFuzzyParser(source, None)`
			`module = parser.module`
			`module.parent = self.scope`
			`typ = evaluate.follow_path(iter(['FunctionType']), module, module)`

			`s = self._magic_function_scope = typ.pop()`
			`return s`


			`Builtin = Builtin()`