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# coding: utf-8
from __future__ import print_function
# partially from package six by Benjamin Peterson
import sys
import os
import types
import traceback
from abc import abstractmethod
from collections import OrderedDict # type: ignore
# fmt: off
if False: # MYPY
from typing import Any, Dict, Optional, List, Union, BinaryIO, IO, Text, Tuple # NOQA
from typing import Optional # NOQA
# fmt: on
_DEFAULT_YAML_VERSION = (1, 2)
class ordereddict(OrderedDict): # type: ignore
if not hasattr(OrderedDict, "insert"):
def insert(self, pos, key, value):
# type: (int, Any, Any) -> None
if pos >= len(self):
self[key] = value
return
od = ordereddict()
od.update(self)
for k in od:
del self[k]
for index, old_key in enumerate(od):
if pos == index:
self[key] = value
self[old_key] = od[old_key]
PY2 = sys.version_info[0] == 2
PY3 = sys.version_info[0] == 3
if PY3:
def utf8(s):
# type: (str) -> str
return s
def to_str(s):
# type: (str) -> str
return s
def to_unicode(s):
# type: (str) -> str
return s
else:
if False:
unicode = str
def utf8(s):
# type: (unicode) -> str
return s.encode("utf-8")
def to_str(s):
# type: (str) -> str
return str(s)
def to_unicode(s):
# type: (str) -> unicode
return unicode(s) # NOQA
if PY3:
string_types = str
integer_types = int
class_types = type
text_type = str
binary_type = bytes
MAXSIZE = sys.maxsize
unichr = chr
import io
StringIO = io.StringIO
BytesIO = io.BytesIO
# have unlimited precision
no_limit_int = int
from collections.abc import (
Hashable,
MutableSequence,
MutableMapping,
Mapping,
) # NOQA
else:
string_types = basestring # NOQA
integer_types = (int, long) # NOQA
class_types = (type, types.ClassType)
text_type = unicode # NOQA
binary_type = str
# to allow importing
unichr = unichr
from StringIO import StringIO as _StringIO
StringIO = _StringIO
import cStringIO
BytesIO = cStringIO.StringIO
# have unlimited precision
no_limit_int = long # NOQA not available on Python 3
from collections import Hashable, MutableSequence, MutableMapping, Mapping # NOQA
if False: # MYPY
# StreamType = Union[BinaryIO, IO[str], IO[unicode], StringIO]
# StreamType = Union[BinaryIO, IO[str], StringIO] # type: ignore
StreamType = Any
StreamTextType = StreamType # Union[Text, StreamType]
VersionType = Union[List[int], str, Tuple[int, int]]
if PY3:
builtins_module = "builtins"
else:
builtins_module = "__builtin__"
UNICODE_SIZE = 4 if sys.maxunicode > 65535 else 2
def with_metaclass(meta, *bases):
# type: (Any, Any) -> Any
"""Create a base class with a metaclass."""
return meta("NewBase", bases, {})
DBG_TOKEN = 1
DBG_EVENT = 2
DBG_NODE = 4
_debug = None # type: Optional[int]
if "RUAMELDEBUG" in os.environ:
_debugx = os.environ.get("RUAMELDEBUG")
if _debugx is None:
_debug = 0
else:
_debug = int(_debugx)
if bool(_debug):
class ObjectCounter(object):
def __init__(self):
# type: () -> None
self.map = {} # type: Dict[Any, Any]
def __call__(self, k):
# type: (Any) -> None
self.map[k] = self.map.get(k, 0) + 1
def dump(self):
# type: () -> None
for k in sorted(self.map):
sys.stdout.write("{} -> {}".format(k, self.map[k]))
object_counter = ObjectCounter()
# used from yaml util when testing
def dbg(val=None):
# type: (Any) -> Any
global _debug
if _debug is None:
# set to true or false
_debugx = os.environ.get("YAMLDEBUG")
if _debugx is None:
_debug = 0
else:
_debug = int(_debugx)
if val is None:
return _debug
return _debug & val
class Nprint(object):
def __init__(self, file_name=None):
# type: (Any) -> None
self._max_print = None # type: Any
self._count = None # type: Any
self._file_name = file_name
def __call__(self, *args, **kw):
# type: (Any, Any) -> None
if not bool(_debug):
return
out = sys.stdout if self._file_name is None else open(self._file_name, "a")
dbgprint = print # to fool checking for print statements by dv utility
kw1 = kw.copy()
kw1["file"] = out
dbgprint(*args, **kw1)
out.flush()
if self._max_print is not None:
if self._count is None:
self._count = self._max_print
self._count -= 1
if self._count == 0:
dbgprint("forced exit\n")
traceback.print_stack()
out.flush()
sys.exit(0)
if self._file_name:
out.close()
def set_max_print(self, i):
# type: (int) -> None
self._max_print = i
self._count = None
nprint = Nprint()
nprintf = Nprint("/var/tmp/srsly.ruamel_yaml.log")
# char checkers following production rules
def check_namespace_char(ch):
# type: (Any) -> bool
if u"\x21" <= ch <= u"\x7E": # ! to ~
return True
if u"\xA0" <= ch <= u"\uD7FF":
return True
if (u"\uE000" <= ch <= u"\uFFFD") and ch != u"\uFEFF": # excl. byte order mark
return True
if u"\U00010000" <= ch <= u"\U0010FFFF":
return True
return False
def check_anchorname_char(ch):
# type: (Any) -> bool
if ch in u",[]{}":
return False
return check_namespace_char(ch)
def version_tnf(t1, t2=None):
# type: (Any, Any) -> Any
"""
return True if srsly.ruamel_yaml version_info < t1, None if t2 is specified and bigger else False
"""
from srsly.ruamel_yaml import version_info # NOQA
if version_info < t1:
return True
if t2 is not None and version_info < t2:
return None
return False
class MutableSliceableSequence(MutableSequence): # type: ignore
__slots__ = ()
def __getitem__(self, index):
# type: (Any) -> Any
if not isinstance(index, slice):
return self.__getsingleitem__(index)
return type(self)(
[self[i] for i in range(*index.indices(len(self)))]
) # type: ignore
def __setitem__(self, index, value):
# type: (Any, Any) -> None
if not isinstance(index, slice):
return self.__setsingleitem__(index, value)
assert iter(value)
# nprint(index.start, index.stop, index.step, index.indices(len(self)))
if index.step is None:
del self[index.start : index.stop]
for elem in reversed(value):
self.insert(0 if index.start is None else index.start, elem)
else:
range_parms = index.indices(len(self))
nr_assigned_items = (range_parms[1] - range_parms[0] - 1) // range_parms[
2
] + 1
# need to test before changing, in case TypeError is caught
if nr_assigned_items < len(value):
raise TypeError(
"too many elements in value {} < {}".format(
nr_assigned_items, len(value)
)
)
elif nr_assigned_items > len(value):
raise TypeError(
"not enough elements in value {} > {}".format(
nr_assigned_items, len(value)
)
)
for idx, i in enumerate(range(*range_parms)):
self[i] = value[idx]
def __delitem__(self, index):
# type: (Any) -> None
if not isinstance(index, slice):
return self.__delsingleitem__(index)
# nprint(index.start, index.stop, index.step, index.indices(len(self)))
for i in reversed(range(*index.indices(len(self)))):
del self[i]
@abstractmethod
def __getsingleitem__(self, index):
# type: (Any) -> Any
raise IndexError
@abstractmethod
def __setsingleitem__(self, index, value):
# type: (Any, Any) -> None
raise IndexError
@abstractmethod
def __delsingleitem__(self, index):
# type: (Any) -> None
raise IndexError
|
