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constructor.py
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constructor.py
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# coding: utf-8
from __future__ import print_function, absolute_import, division
import datetime
import base64
import binascii
import re
import sys
import types
import warnings
# fmt: off
from ruamel.yaml.error import (MarkedYAMLError, MarkedYAMLFutureWarning,
MantissaNoDotYAML1_1Warning)
from ruamel.yaml.nodes import * # NOQA
from ruamel.yaml.nodes import (SequenceNode, MappingNode, ScalarNode)
from ruamel.yaml.compat import (utf8, builtins_module, to_str, PY2, PY3, # NOQA
text_type, nprint, nprintf, version_tnf)
from ruamel.yaml.compat import ordereddict, Hashable, MutableSequence # type: ignore
from ruamel.yaml.compat import MutableMapping # type: ignore
from ruamel.yaml.comments import * # NOQA
from ruamel.yaml.comments import (CommentedMap, CommentedOrderedMap, CommentedSet,
CommentedKeySeq, CommentedSeq, TaggedScalar,
CommentedKeyMap)
from ruamel.yaml.scalarstring import (SingleQuotedScalarString, DoubleQuotedScalarString,
LiteralScalarString, FoldedScalarString,
PlainScalarString, ScalarString,)
from ruamel.yaml.scalarint import ScalarInt, BinaryInt, OctalInt, HexInt, HexCapsInt
from ruamel.yaml.scalarfloat import ScalarFloat
from ruamel.yaml.scalarbool import ScalarBoolean
from ruamel.yaml.timestamp import TimeStamp
from ruamel.yaml.util import RegExp
if False: # MYPY
from typing import Any, Dict, List, Set, Generator, Union, Optional # NOQA
__all__ = ['BaseConstructor', 'SafeConstructor', 'Constructor',
'ConstructorError', 'RoundTripConstructor']
# fmt: on
class ConstructorError(MarkedYAMLError):
pass
class DuplicateKeyFutureWarning(MarkedYAMLFutureWarning):
pass
class DuplicateKeyError(MarkedYAMLFutureWarning):
pass
class BaseConstructor(object):
yaml_constructors = {} # type: Dict[Any, Any]
yaml_multi_constructors = {} # type: Dict[Any, Any]
def __init__(self, preserve_quotes=None, loader=None):
# type: (Optional[bool], Any) -> None
self.loader = loader
if self.loader is not None and getattr(self.loader, '_constructor', None) is None:
self.loader._constructor = self
self.loader = loader
self.yaml_base_dict_type = dict
self.yaml_base_list_type = list
self.constructed_objects = {} # type: Dict[Any, Any]
self.recursive_objects = {} # type: Dict[Any, Any]
self.state_generators = [] # type: List[Any]
self.deep_construct = False
self._preserve_quotes = preserve_quotes
self.allow_duplicate_keys = version_tnf((0, 15, 1), (0, 16))
@property
def composer(self):
# type: () -> Any
if hasattr(self.loader, 'typ'):
return self.loader.composer
try:
return self.loader._composer
except AttributeError:
sys.stdout.write('slt {}\n'.format(type(self)))
sys.stdout.write('slc {}\n'.format(self.loader._composer))
sys.stdout.write('{}\n'.format(dir(self)))
raise
@property
def resolver(self):
# type: () -> Any
if hasattr(self.loader, 'typ'):
return self.loader.resolver
return self.loader._resolver
def check_data(self):
# type: () -> Any
# If there are more documents available?
return self.composer.check_node()
def get_data(self):
# type: () -> Any
# Construct and return the next document.
if self.composer.check_node():
return self.construct_document(self.composer.get_node())
def get_single_data(self):
# type: () -> Any
# Ensure that the stream contains a single document and construct it.
node = self.composer.get_single_node()
if node is not None:
return self.construct_document(node)
return None
def construct_document(self, node):
# type: (Any) -> Any
data = self.construct_object(node)
while bool(self.state_generators):
state_generators = self.state_generators
self.state_generators = []
for generator in state_generators:
for _dummy in generator:
pass
self.constructed_objects = {}
self.recursive_objects = {}
self.deep_construct = False
return data
def construct_object(self, node, deep=False):
# type: (Any, bool) -> Any
"""deep is True when creating an object/mapping recursively,
in that case want the underlying elements available during construction
"""
if node in self.constructed_objects:
return self.constructed_objects[node]
if deep:
old_deep = self.deep_construct
self.deep_construct = True
if node in self.recursive_objects:
return self.recursive_objects[node]
# raise ConstructorError(
# None, None, 'found unconstructable recursive node', node.start_mark
# )
self.recursive_objects[node] = None
data = self.construct_non_recursive_object(node)
self.constructed_objects[node] = data
del self.recursive_objects[node]
if deep:
self.deep_construct = old_deep
return data
def construct_non_recursive_object(self, node, tag=None):
# type: (Any, Optional[str]) -> Any
constructor = None # type: Any
tag_suffix = None
if tag is None:
tag = node.tag
if tag in self.yaml_constructors:
constructor = self.yaml_constructors[tag]
else:
for tag_prefix in self.yaml_multi_constructors:
if tag.startswith(tag_prefix):
tag_suffix = tag[len(tag_prefix) :]
constructor = self.yaml_multi_constructors[tag_prefix]
break
else:
if None in self.yaml_multi_constructors:
tag_suffix = tag
constructor = self.yaml_multi_constructors[None]
elif None in self.yaml_constructors:
constructor = self.yaml_constructors[None]
elif isinstance(node, ScalarNode):
constructor = self.__class__.construct_scalar
elif isinstance(node, SequenceNode):
constructor = self.__class__.construct_sequence
elif isinstance(node, MappingNode):
constructor = self.__class__.construct_mapping
if tag_suffix is None:
data = constructor(self, node)
else:
data = constructor(self, tag_suffix, node)
if isinstance(data, types.GeneratorType):
generator = data
data = next(generator)
if self.deep_construct:
for _dummy in generator:
pass
else:
self.state_generators.append(generator)
return data
def construct_scalar(self, node):
# type: (Any) -> Any
if not isinstance(node, ScalarNode):
raise ConstructorError(
None, None, 'expected a scalar node, but found %s' % node.id, node.start_mark
)
return node.value
def construct_sequence(self, node, deep=False):
# type: (Any, bool) -> Any
"""deep is True when creating an object/mapping recursively,
in that case want the underlying elements available during construction
"""
if not isinstance(node, SequenceNode):
raise ConstructorError(
None, None, 'expected a sequence node, but found %s' % node.id, node.start_mark
)
return [self.construct_object(child, deep=deep) for child in node.value]
def construct_mapping(self, node, deep=False):
# type: (Any, bool) -> Any
"""deep is True when creating an object/mapping recursively,
in that case want the underlying elements available during construction
"""
if not isinstance(node, MappingNode):
raise ConstructorError(
None, None, 'expected a mapping node, but found %s' % node.id, node.start_mark
)
total_mapping = self.yaml_base_dict_type()
if getattr(node, 'merge', None) is not None:
todo = [(node.merge, False), (node.value, False)]
else:
todo = [(node.value, True)]
for values, check in todo:
mapping = self.yaml_base_dict_type() # type: Dict[Any, Any]
for key_node, value_node in values:
# keys can be list -> deep
key = self.construct_object(key_node, deep=True)
# lists are not hashable, but tuples are
if not isinstance(key, Hashable):
if isinstance(key, list):
key = tuple(key)
if PY2:
try:
hash(key)
except TypeError as exc:
raise ConstructorError(
'while constructing a mapping',
node.start_mark,
'found unacceptable key (%s)' % exc,
key_node.start_mark,
)
else:
if not isinstance(key, Hashable):
raise ConstructorError(
'while constructing a mapping',
node.start_mark,
'found unhashable key',
key_node.start_mark,
)
value = self.construct_object(value_node, deep=deep)
if check:
if self.check_mapping_key(node, key_node, mapping, key, value):
mapping[key] = value
else:
mapping[key] = value
total_mapping.update(mapping)
return total_mapping
def check_mapping_key(self, node, key_node, mapping, key, value):
# type: (Any, Any, Any, Any, Any) -> bool
"""return True if key is unique"""
if key in mapping:
if not self.allow_duplicate_keys:
mk = mapping.get(key)
if PY2:
if isinstance(key, unicode):
key = key.encode('utf-8')
if isinstance(value, unicode):
value = value.encode('utf-8')
if isinstance(mk, unicode):
mk = mk.encode('utf-8')
args = [
'while constructing a mapping',
node.start_mark,
'found duplicate key "{}" with value "{}" '
'(original value: "{}")'.format(key, value, mk),
key_node.start_mark,
"""
To suppress this check see:
http://yaml.readthedocs.io/en/latest/api.html#duplicate-keys
""",
"""\
Duplicate keys will become an error in future releases, and are errors
by default when using the new API.
""",
]
if self.allow_duplicate_keys is None:
warnings.warn(DuplicateKeyFutureWarning(*args))
else:
raise DuplicateKeyError(*args)
return False
return True
def check_set_key(self, node, key_node, setting, key):
# type: (Any, Any, Any, Any, Any) -> None
if key in setting:
if not self.allow_duplicate_keys:
if PY2:
if isinstance(key, unicode):
key = key.encode('utf-8')
args = [
'while constructing a set',
node.start_mark,
'found duplicate key "{}"'.format(key),
key_node.start_mark,
"""
To suppress this check see:
http://yaml.readthedocs.io/en/latest/api.html#duplicate-keys
""",
"""\
Duplicate keys will become an error in future releases, and are errors
by default when using the new API.
""",
]
if self.allow_duplicate_keys is None:
warnings.warn(DuplicateKeyFutureWarning(*args))
else:
raise DuplicateKeyError(*args)
def construct_pairs(self, node, deep=False):
# type: (Any, bool) -> Any
if not isinstance(node, MappingNode):
raise ConstructorError(
None, None, 'expected a mapping node, but found %s' % node.id, node.start_mark
)
pairs = []
for key_node, value_node in node.value:
key = self.construct_object(key_node, deep=deep)
value = self.construct_object(value_node, deep=deep)
pairs.append((key, value))
return pairs
@classmethod
def add_constructor(cls, tag, constructor):
# type: (Any, Any) -> None
if 'yaml_constructors' not in cls.__dict__:
cls.yaml_constructors = cls.yaml_constructors.copy()
cls.yaml_constructors[tag] = constructor
@classmethod
def add_multi_constructor(cls, tag_prefix, multi_constructor):
# type: (Any, Any) -> None
if 'yaml_multi_constructors' not in cls.__dict__:
cls.yaml_multi_constructors = cls.yaml_multi_constructors.copy()
cls.yaml_multi_constructors[tag_prefix] = multi_constructor
class SafeConstructor(BaseConstructor):
def construct_scalar(self, node):
# type: (Any) -> Any
if isinstance(node, MappingNode):
for key_node, value_node in node.value:
if key_node.tag == u'tag:yaml.org,2002:value':
return self.construct_scalar(value_node)
return BaseConstructor.construct_scalar(self, node)
def flatten_mapping(self, node):
# type: (Any) -> Any
"""
This implements the merge key feature http://yaml.org/type/merge.html
by inserting keys from the merge dict/list of dicts if not yet
available in this node
"""
merge = [] # type: List[Any]
index = 0
while index < len(node.value):
key_node, value_node = node.value[index]
if key_node.tag == u'tag:yaml.org,2002:merge':
if merge: # double << key
if self.allow_duplicate_keys:
del node.value[index]
index += 1
continue
args = [
'while constructing a mapping',
node.start_mark,
'found duplicate key "{}"'.format(key_node.value),
key_node.start_mark,
"""
To suppress this check see:
http://yaml.readthedocs.io/en/latest/api.html#duplicate-keys
""",
"""\
Duplicate keys will become an error in future releases, and are errors
by default when using the new API.
""",
]
if self.allow_duplicate_keys is None:
warnings.warn(DuplicateKeyFutureWarning(*args))
else:
raise DuplicateKeyError(*args)
del node.value[index]
if isinstance(value_node, MappingNode):
self.flatten_mapping(value_node)
merge.extend(value_node.value)
elif isinstance(value_node, SequenceNode):
submerge = []
for subnode in value_node.value:
if not isinstance(subnode, MappingNode):
raise ConstructorError(
'while constructing a mapping',
node.start_mark,
'expected a mapping for merging, but found %s' % subnode.id,
subnode.start_mark,
)
self.flatten_mapping(subnode)
submerge.append(subnode.value)
submerge.reverse()
for value in submerge:
merge.extend(value)
else:
raise ConstructorError(
'while constructing a mapping',
node.start_mark,
'expected a mapping or list of mappings for merging, '
'but found %s' % value_node.id,
value_node.start_mark,
)
elif key_node.tag == u'tag:yaml.org,2002:value':
key_node.tag = u'tag:yaml.org,2002:str'
index += 1
else:
index += 1
if bool(merge):
node.merge = merge # separate merge keys to be able to update without duplicate
node.value = merge + node.value
def construct_mapping(self, node, deep=False):
# type: (Any, bool) -> Any
"""deep is True when creating an object/mapping recursively,
in that case want the underlying elements available during construction
"""
if isinstance(node, MappingNode):
self.flatten_mapping(node)
return BaseConstructor.construct_mapping(self, node, deep=deep)
def construct_yaml_null(self, node):
# type: (Any) -> Any
self.construct_scalar(node)
return None
# YAML 1.2 spec doesn't mention yes/no etc any more, 1.1 does
bool_values = {
u'yes': True,
u'no': False,
u'y': True,
u'n': False,
u'true': True,
u'false': False,
u'on': True,
u'off': False,
}
def construct_yaml_bool(self, node):
# type: (Any) -> bool
value = self.construct_scalar(node)
return self.bool_values[value.lower()]
def construct_yaml_int(self, node):
# type: (Any) -> int
value_s = to_str(self.construct_scalar(node))
value_s = value_s.replace('_', "")
sign = +1
if value_s[0] == '-':
sign = -1
if value_s[0] in '+-':
value_s = value_s[1:]
if value_s == '0':
return 0
elif value_s.startswith('0b'):
return sign * int(value_s[2:], 2)
elif value_s.startswith('0x'):
return sign * int(value_s[2:], 16)
elif value_s.startswith('0o'):
return sign * int(value_s[2:], 8)
elif self.resolver.processing_version == (1, 1) and value_s[0] == '0':
return sign * int(value_s, 8)
elif self.resolver.processing_version == (1, 1) and ':' in value_s:
digits = [int(part) for part in value_s.split(':')]
digits.reverse()
base = 1
value = 0
for digit in digits:
value += digit * base
base *= 60
return sign * value
else:
return sign * int(value_s)
inf_value = 1e300
while inf_value != inf_value * inf_value:
inf_value *= inf_value
nan_value = -inf_value / inf_value # Trying to make a quiet NaN (like C99).
def construct_yaml_float(self, node):
# type: (Any) -> float
value_so = to_str(self.construct_scalar(node))
value_s = value_so.replace('_', "").lower()
sign = +1
if value_s[0] == '-':
sign = -1
if value_s[0] in '+-':
value_s = value_s[1:]
if value_s == '.inf':
return sign * self.inf_value
elif value_s == '.nan':
return self.nan_value
elif self.resolver.processing_version != (1, 2) and ':' in value_s:
digits = [float(part) for part in value_s.split(':')]
digits.reverse()
base = 1
value = 0.0
for digit in digits:
value += digit * base
base *= 60
return sign * value
else:
if self.resolver.processing_version != (1, 2) and 'e' in value_s:
# value_s is lower case independent of input
mantissa, exponent = value_s.split('e')
if '.' not in mantissa:
warnings.warn(MantissaNoDotYAML1_1Warning(node, value_so))
return sign * float(value_s)
if PY3:
def construct_yaml_binary(self, node):
# type: (Any) -> Any
try:
value = self.construct_scalar(node).encode('ascii')
except UnicodeEncodeError as exc:
raise ConstructorError(
None,
None,
'failed to convert base64 data into ascii: %s' % exc,
node.start_mark,
)
try:
if hasattr(base64, 'decodebytes'):
return base64.decodebytes(value)
else:
return base64.decodestring(value)
except binascii.Error as exc:
raise ConstructorError(
None, None, 'failed to decode base64 data: %s' % exc, node.start_mark
)
else:
def construct_yaml_binary(self, node):
# type: (Any) -> Any
value = self.construct_scalar(node)
try:
return to_str(value).decode('base64')
except (binascii.Error, UnicodeEncodeError) as exc:
raise ConstructorError(
None, None, 'failed to decode base64 data: %s' % exc, node.start_mark
)
timestamp_regexp = RegExp(
u"""^(?P<year>[0-9][0-9][0-9][0-9])
-(?P<month>[0-9][0-9]?)
-(?P<day>[0-9][0-9]?)
(?:((?P<t>[Tt])|[ \\t]+) # explictly not retaining extra spaces
(?P<hour>[0-9][0-9]?)
:(?P<minute>[0-9][0-9])
:(?P<second>[0-9][0-9])
(?:\\.(?P<fraction>[0-9]*))?
(?:[ \\t]*(?P<tz>Z|(?P<tz_sign>[-+])(?P<tz_hour>[0-9][0-9]?)
(?::(?P<tz_minute>[0-9][0-9]))?))?)?$""",
re.X,
)
def construct_yaml_timestamp(self, node, values=None):
# type: (Any, Any) -> Any
if values is None:
try:
match = self.timestamp_regexp.match(node.value)
except TypeError:
match = None
if match is None:
raise ConstructorError(
None,
None,
'failed to construct timestamp from "{}"'.format(node.value),
node.start_mark,
)
values = match.groupdict()
year = int(values['year'])
month = int(values['month'])
day = int(values['day'])
if not values['hour']:
return datetime.date(year, month, day)
hour = int(values['hour'])
minute = int(values['minute'])
second = int(values['second'])
fraction = 0
if values['fraction']:
fraction_s = values['fraction'][:6]
while len(fraction_s) < 6:
fraction_s += '0'
fraction = int(fraction_s)
if len(values['fraction']) > 6 and int(values['fraction'][6]) > 4:
fraction += 1
delta = None
if values['tz_sign']:
tz_hour = int(values['tz_hour'])
minutes = values['tz_minute']
tz_minute = int(minutes) if minutes else 0
delta = datetime.timedelta(hours=tz_hour, minutes=tz_minute)
if values['tz_sign'] == '-':
delta = -delta
# should do something else instead (or hook this up to the preceding if statement
# in reverse
# if delta is None:
# return datetime.datetime(year, month, day, hour, minute, second, fraction)
# return datetime.datetime(year, month, day, hour, minute, second, fraction,
# datetime.timezone.utc)
# the above is not good enough though, should provide tzinfo. In Python3 that is easily
# doable drop that kind of support for Python2 as it has not native tzinfo
data = datetime.datetime(year, month, day, hour, minute, second, fraction)
if delta:
data -= delta
return data
def construct_yaml_omap(self, node):
# type: (Any) -> Any
# Note: we do now check for duplicate keys
omap = ordereddict()
yield omap
if not isinstance(node, SequenceNode):
raise ConstructorError(
'while constructing an ordered map',
node.start_mark,
'expected a sequence, but found %s' % node.id,
node.start_mark,
)
for subnode in node.value:
if not isinstance(subnode, MappingNode):
raise ConstructorError(
'while constructing an ordered map',
node.start_mark,
'expected a mapping of length 1, but found %s' % subnode.id,
subnode.start_mark,
)
if len(subnode.value) != 1:
raise ConstructorError(
'while constructing an ordered map',
node.start_mark,
'expected a single mapping item, but found %d items' % len(subnode.value),
subnode.start_mark,
)
key_node, value_node = subnode.value[0]
key = self.construct_object(key_node)
assert key not in omap
value = self.construct_object(value_node)
omap[key] = value
def construct_yaml_pairs(self, node):
# type: (Any) -> Any
# Note: the same code as `construct_yaml_omap`.
pairs = [] # type: List[Any]
yield pairs
if not isinstance(node, SequenceNode):
raise ConstructorError(
'while constructing pairs',
node.start_mark,
'expected a sequence, but found %s' % node.id,
node.start_mark,
)
for subnode in node.value:
if not isinstance(subnode, MappingNode):
raise ConstructorError(
'while constructing pairs',
node.start_mark,
'expected a mapping of length 1, but found %s' % subnode.id,
subnode.start_mark,
)
if len(subnode.value) != 1:
raise ConstructorError(
'while constructing pairs',
node.start_mark,
'expected a single mapping item, but found %d items' % len(subnode.value),
subnode.start_mark,
)
key_node, value_node = subnode.value[0]
key = self.construct_object(key_node)
value = self.construct_object(value_node)
pairs.append((key, value))
def construct_yaml_set(self, node):
# type: (Any) -> Any
data = set() # type: Set[Any]
yield data
value = self.construct_mapping(node)
data.update(value)
def construct_yaml_str(self, node):
# type: (Any) -> Any
value = self.construct_scalar(node)
if PY3:
return value
try:
return value.encode('ascii')
except UnicodeEncodeError:
return value
def construct_yaml_seq(self, node):
# type: (Any) -> Any
data = self.yaml_base_list_type() # type: List[Any]
yield data
data.extend(self.construct_sequence(node))
def construct_yaml_map(self, node):
# type: (Any) -> Any
data = self.yaml_base_dict_type() # type: Dict[Any, Any]
yield data
value = self.construct_mapping(node)
data.update(value)
def construct_yaml_object(self, node, cls):
# type: (Any, Any) -> Any
data = cls.__new__(cls)
yield data
if hasattr(data, '__setstate__'):
state = self.construct_mapping(node, deep=True)
data.__setstate__(state)
else:
state = self.construct_mapping(node)
data.__dict__.update(state)
def construct_undefined(self, node):
# type: (Any) -> None
raise ConstructorError(
None,
None,
'could not determine a constructor for the tag %r' % utf8(node.tag),
node.start_mark,
)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:null', SafeConstructor.construct_yaml_null)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:bool', SafeConstructor.construct_yaml_bool)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:int', SafeConstructor.construct_yaml_int)
SafeConstructor.add_constructor(
u'tag:yaml.org,2002:float', SafeConstructor.construct_yaml_float
)
SafeConstructor.add_constructor(
u'tag:yaml.org,2002:binary', SafeConstructor.construct_yaml_binary
)
SafeConstructor.add_constructor(
u'tag:yaml.org,2002:timestamp', SafeConstructor.construct_yaml_timestamp
)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:omap', SafeConstructor.construct_yaml_omap)
SafeConstructor.add_constructor(
u'tag:yaml.org,2002:pairs', SafeConstructor.construct_yaml_pairs
)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:set', SafeConstructor.construct_yaml_set)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:str', SafeConstructor.construct_yaml_str)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:seq', SafeConstructor.construct_yaml_seq)
SafeConstructor.add_constructor(u'tag:yaml.org,2002:map', SafeConstructor.construct_yaml_map)
SafeConstructor.add_constructor(None, SafeConstructor.construct_undefined)
if PY2:
class classobj:
pass
class Constructor(SafeConstructor):
def construct_python_str(self, node):
# type: (Any) -> Any
return utf8(self.construct_scalar(node))
def construct_python_unicode(self, node):
# type: (Any) -> Any
return self.construct_scalar(node)
if PY3:
def construct_python_bytes(self, node):
# type: (Any) -> Any
try:
value = self.construct_scalar(node).encode('ascii')
except UnicodeEncodeError as exc:
raise ConstructorError(
None,
None,
'failed to convert base64 data into ascii: %s' % exc,
node.start_mark,
)
try:
if hasattr(base64, 'decodebytes'):
return base64.decodebytes(value)
else:
return base64.decodestring(value)
except binascii.Error as exc:
raise ConstructorError(
None, None, 'failed to decode base64 data: %s' % exc, node.start_mark
)
def construct_python_long(self, node):
# type: (Any) -> int
val = self.construct_yaml_int(node)
if PY3:
return val
return int(val)
def construct_python_complex(self, node):
# type: (Any) -> Any
return complex(self.construct_scalar(node))
def construct_python_tuple(self, node):
# type: (Any) -> Any
return tuple(self.construct_sequence(node))
def find_python_module(self, name, mark):
# type: (Any, Any) -> Any
if not name:
raise ConstructorError(
'while constructing a Python module',
mark,
'expected non-empty name appended to the tag',
mark,
)
try:
__import__(name)
except ImportError as exc:
raise ConstructorError(
'while constructing a Python module',
mark,
'cannot find module %r (%s)' % (utf8(name), exc),
mark,
)
return sys.modules[name]
def find_python_name(self, name, mark):
# type: (Any, Any) -> Any
if not name:
raise ConstructorError(
'while constructing a Python object',
mark,
'expected non-empty name appended to the tag',
mark,
)
if u'.' in name:
lname = name.split('.')
lmodule_name = lname
lobject_name = [] # type: List[Any]
while len(lmodule_name) > 1:
lobject_name.insert(0, lmodule_name.pop())
module_name = '.'.join(lmodule_name)
try:
__import__(module_name)
# object_name = '.'.join(object_name)
break
except ImportError:
continue
else:
module_name = builtins_module
lobject_name = [name]
try:
__import__(module_name)
except ImportError as exc:
raise ConstructorError(
'while constructing a Python object',
mark,
'cannot find module %r (%s)' % (utf8(module_name), exc),
mark,
)
module = sys.modules[module_name]
object_name = '.'.join(lobject_name)
obj = module
while lobject_name:
if not hasattr(obj, lobject_name[0]):
raise ConstructorError(
'while constructing a Python object',
mark,
'cannot find %r in the module %r' % (utf8(object_name), module.__name__),
mark,
)
obj = getattr(obj, lobject_name.pop(0))
return obj
def construct_python_name(self, suffix, node):
# type: (Any, Any) -> Any
value = self.construct_scalar(node)
if value:
raise ConstructorError(
'while constructing a Python name',
node.start_mark,
'expected the empty value, but found %r' % utf8(value),
node.start_mark,
)
return self.find_python_name(suffix, node.start_mark)
def construct_python_module(self, suffix, node):
# type: (Any, Any) -> Any
value = self.construct_scalar(node)
if value:
raise ConstructorError(
'while constructing a Python module',
node.start_mark,
'expected the empty value, but found %r' % utf8(value),
node.start_mark,
)
return self.find_python_module(suffix, node.start_mark)
def make_python_instance(self, suffix, node, args=None, kwds=None, newobj=False):
# type: (Any, Any, Any, Any, bool) -> Any
if not args:
args = []
if not kwds:
kwds = {}
cls = self.find_python_name(suffix, node.start_mark)
if PY3:
if newobj and isinstance(cls, type):
return cls.__new__(cls, *args, **kwds)
else:
return cls(*args, **kwds)
else:
if newobj and isinstance(cls, type(classobj)) and not args and not kwds:
instance = classobj()
instance.__class__ = cls
return instance
elif newobj and isinstance(cls, type):
return cls.__new__(cls, *args, **kwds)
else:
return cls(*args, **kwds)
def set_python_instance_state(self, instance, state):
# type: (Any, Any) -> None
if hasattr(instance, '__setstate__'):
instance.__setstate__(state)
else:
slotstate = {} # type: Dict[Any, Any]
if isinstance(state, tuple) and len(state) == 2:
state, slotstate = state
if hasattr(instance, '__dict__'):
instance.__dict__.update(state)
elif state:
slotstate.update(state)
for key, value in slotstate.items():
setattr(object, key, value)
def construct_python_object(self, suffix, node):
# type: (Any, Any) -> Any
# Format:
# !!python/object:module.name { ... state ... }
instance = self.make_python_instance(suffix, node, newobj=True)
self.recursive_objects[node] = instance
yield instance
deep = hasattr(instance, '__setstate__')
state = self.construct_mapping(node, deep=deep)
self.set_python_instance_state(instance, state)
def construct_python_object_apply(self, suffix, node, newobj=False):
# type: (Any, Any, bool) -> Any
# Format:
# !!python/object/apply # (or !!python/object/new)
# args: [ ... arguments ... ]
# kwds: { ... keywords ... }
# state: ... state ...
# listitems: [ ... listitems ... ]
# dictitems: { ... dictitems ... }
# or short format:
# !!python/object/apply [ ... arguments ... ]
# The difference between !!python/object/apply and !!python/object/new
# is how an object is created, check make_python_instance for details.
if isinstance(node, SequenceNode):
args = self.construct_sequence(node, deep=True)
kwds = {} # type: Dict[Any, Any]
state = {} # type: Dict[Any, Any]
listitems = [] # type: List[Any]
dictitems = {} # type: Dict[Any, Any]
else:
value = self.construct_mapping(node, deep=True)
args = value.get('args', [])
kwds = value.get('kwds', {})
state = value.get('state', {})
listitems = value.get('listitems', [])
dictitems = value.get('dictitems', {})