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|
# coding: utf-8
from ruamel.yaml.error import * # NOQA
from ruamel.yaml.nodes import * # NOQA
from ruamel.yaml.compat import ordereddict
from ruamel.yaml.compat import nprint, nprintf # NOQA
from ruamel.yaml.scalarstring import (
LiteralScalarString,
FoldedScalarString,
SingleQuotedScalarString,
DoubleQuotedScalarString,
PlainScalarString,
)
from ruamel.yaml.comments import (
CommentedMap,
CommentedOrderedMap,
CommentedSeq,
CommentedKeySeq,
CommentedKeyMap,
CommentedSet,
comment_attrib,
merge_attrib,
TaggedScalar,
)
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.anchor import Anchor
import collections
import datetime
import types
import copyreg
import base64
from typing import Dict, List, Any, Union, Text, Optional # NOQA
# fmt: off
__all__ = ['BaseRepresenter', 'SafeRepresenter', 'Representer',
'RepresenterError', 'RoundTripRepresenter']
# fmt: on
class RepresenterError(YAMLError):
pass
class BaseRepresenter:
yaml_representers: Dict[Any, Any] = {}
yaml_multi_representers: Dict[Any, Any] = {}
def __init__(
self: Any,
default_style: Any = None,
default_flow_style: Any = None,
dumper: Any = None,
) -> None:
self.dumper = dumper
if self.dumper is not None:
self.dumper._representer = self
self.default_style = default_style
self.default_flow_style = default_flow_style
self.represented_objects: Dict[Any, Any] = {}
self.object_keeper: List[Any] = []
self.alias_key: Optional[int] = None
self.sort_base_mapping_type_on_output = True
@property
def serializer(self) -> Any:
try:
if hasattr(self.dumper, 'typ'):
return self.dumper.serializer
return self.dumper._serializer
except AttributeError:
return self # cyaml
def represent(self, data: Any) -> None:
node = self.represent_data(data)
self.serializer.serialize(node)
self.represented_objects = {}
self.object_keeper = []
self.alias_key = None
def represent_data(self, data: Any) -> Any:
if self.ignore_aliases(data):
self.alias_key = None
else:
self.alias_key = id(data)
if self.alias_key is not None:
if self.alias_key in self.represented_objects:
node = self.represented_objects[self.alias_key]
# if node is None:
# raise RepresenterError(
# f"recursive objects are not allowed: {data!r}")
return node
# self.represented_objects[alias_key] = None
self.object_keeper.append(data)
data_types = type(data).__mro__
if data_types[0] in self.yaml_representers:
node = self.yaml_representers[data_types[0]](self, data)
else:
for data_type in data_types:
if data_type in self.yaml_multi_representers:
node = self.yaml_multi_representers[data_type](self, data)
break
else:
if None in self.yaml_multi_representers:
node = self.yaml_multi_representers[None](self, data)
elif None in self.yaml_representers:
node = self.yaml_representers[None](self, data)
else:
node = ScalarNode(None, str(data))
# if alias_key is not None:
# self.represented_objects[alias_key] = node
return node
def represent_key(self, data: Any) -> Any:
"""
David Fraser: Extract a method to represent keys in mappings, so that
a subclass can choose not to quote them (for example)
used in represent_mapping
https://bitbucket.org/davidfraser/pyyaml/commits/d81df6eb95f20cac4a79eed95ae553b5c6f77b8c
"""
return self.represent_data(data)
@classmethod
def add_representer(cls, data_type: Any, representer: Any) -> None:
if 'yaml_representers' not in cls.__dict__:
cls.yaml_representers = cls.yaml_representers.copy()
cls.yaml_representers[data_type] = representer
@classmethod
def add_multi_representer(cls, data_type: Any, representer: Any) -> None:
if 'yaml_multi_representers' not in cls.__dict__:
cls.yaml_multi_representers = cls.yaml_multi_representers.copy()
cls.yaml_multi_representers[data_type] = representer
def represent_scalar(
self, tag: Any, value: Any, style: Any = None, anchor: Any = None,
) -> ScalarNode:
if style is None:
style = self.default_style
comment = None
if style and style[0] in '|>':
comment = getattr(value, 'comment', None)
if comment:
comment = [None, [comment]]
if isinstance(tag, str):
tag = Tag(suffix=tag)
node = ScalarNode(tag, value, style=style, comment=comment, anchor=anchor)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
return node
def represent_sequence(
self, tag: Any, sequence: Any, flow_style: Any = None,
) -> SequenceNode:
value: List[Any] = []
if isinstance(tag, str):
tag = Tag(suffix=tag)
node = SequenceNode(tag, value, flow_style=flow_style)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
for item in sequence:
node_item = self.represent_data(item)
if not (isinstance(node_item, ScalarNode) and not node_item.style):
best_style = False
value.append(node_item)
if flow_style is None:
if self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
return node
def represent_omap(self, tag: Any, omap: Any, flow_style: Any = None) -> SequenceNode:
value: List[Any] = []
if isinstance(tag, str):
tag = Tag(suffix=tag)
node = SequenceNode(tag, value, flow_style=flow_style)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
for item_key in omap:
item_val = omap[item_key]
node_item = self.represent_data({item_key: item_val})
# if not (isinstance(node_item, ScalarNode) \
# and not node_item.style):
# best_style = False
value.append(node_item)
if flow_style is None:
if self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
return node
def represent_mapping(self, tag: Any, mapping: Any, flow_style: Any = None) -> MappingNode:
value: List[Any] = []
if isinstance(tag, str):
tag = Tag(suffix=tag)
node = MappingNode(tag, value, flow_style=flow_style)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
if hasattr(mapping, 'items'):
mapping = list(mapping.items())
if self.sort_base_mapping_type_on_output:
try:
mapping = sorted(mapping)
except TypeError:
pass
for item_key, item_value in mapping:
node_key = self.represent_key(item_key)
node_value = self.represent_data(item_value)
if not (isinstance(node_key, ScalarNode) and not node_key.style):
best_style = False
if not (isinstance(node_value, ScalarNode) and not node_value.style):
best_style = False
value.append((node_key, node_value))
if flow_style is None:
if self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
return node
def ignore_aliases(self, data: Any) -> bool:
return False
class SafeRepresenter(BaseRepresenter):
def ignore_aliases(self, data: Any) -> bool:
# https://docs.python.org/3/reference/expressions.html#parenthesized-forms :
# "i.e. two occurrences of the empty tuple may or may not yield the same object"
# so "data is ()" should not be used
if data is None or (isinstance(data, tuple) and data == ()):
return True
if isinstance(data, (bytes, str, bool, int, float)):
return True
return False
def represent_none(self, data: Any) -> ScalarNode:
return self.represent_scalar('tag:yaml.org,2002:null', 'null')
def represent_str(self, data: Any) -> Any:
return self.represent_scalar('tag:yaml.org,2002:str', data)
def represent_binary(self, data: Any) -> ScalarNode:
if hasattr(base64, 'encodebytes'):
data = base64.encodebytes(data).decode('ascii')
else:
# check py2 only?
data = base64.encodestring(data).decode('ascii') # type: ignore
return self.represent_scalar('tag:yaml.org,2002:binary', data, style='|')
def represent_bool(self, data: Any, anchor: Optional[Any] = None) -> ScalarNode:
try:
value = self.dumper.boolean_representation[bool(data)]
except AttributeError:
if data:
value = 'true'
else:
value = 'false'
return self.represent_scalar('tag:yaml.org,2002:bool', value, anchor=anchor)
def represent_int(self, data: Any) -> ScalarNode:
return self.represent_scalar('tag:yaml.org,2002:int', str(data))
inf_value = 1e300
while repr(inf_value) != repr(inf_value * inf_value):
inf_value *= inf_value
def represent_float(self, data: Any) -> ScalarNode:
if data != data or (data == 0.0 and data == 1.0):
value = '.nan'
elif data == self.inf_value:
value = '.inf'
elif data == -self.inf_value:
value = '-.inf'
else:
value = repr(data).lower()
if getattr(self.serializer, 'use_version', None) == (1, 1):
if '.' not in value and 'e' in value:
# Note that in some cases `repr(data)` represents a float number
# without the decimal parts. For instance:
# >>> repr(1e17)
# '1e17'
# Unfortunately, this is not a valid float representation according
# to the definition of the `!!float` tag in YAML 1.1. We fix
# this by adding '.0' before the 'e' symbol.
value = value.replace('e', '.0e', 1)
return self.represent_scalar('tag:yaml.org,2002:float', value)
def represent_list(self, data: Any) -> SequenceNode:
# pairs = (len(data) > 0 and isinstance(data, list))
# if pairs:
# for item in data:
# if not isinstance(item, tuple) or len(item) != 2:
# pairs = False
# break
# if not pairs:
return self.represent_sequence('tag:yaml.org,2002:seq', data)
# value = []
# for item_key, item_value in data:
# value.append(self.represent_mapping('tag:yaml.org,2002:map',
# [(item_key, item_value)]))
# return SequenceNode('tag:yaml.org,2002:pairs', value)
def represent_dict(self, data: Any) -> MappingNode:
return self.represent_mapping('tag:yaml.org,2002:map', data)
def represent_ordereddict(self, data: Any) -> SequenceNode:
return self.represent_omap('tag:yaml.org,2002:omap', data)
def represent_set(self, data: Any) -> MappingNode:
value: Dict[Any, None] = {}
for key in data:
value[key] = None
return self.represent_mapping('tag:yaml.org,2002:set', value)
def represent_date(self, data: Any) -> ScalarNode:
value = data.isoformat()
return self.represent_scalar('tag:yaml.org,2002:timestamp', value)
def represent_datetime(self, data: Any) -> ScalarNode:
value = data.isoformat(' ')
return self.represent_scalar('tag:yaml.org,2002:timestamp', value)
def represent_yaml_object(
self, tag: Any, data: Any, cls: Any, flow_style: Any = None,
) -> MappingNode:
if hasattr(data, '__getstate__'):
state = data.__getstate__()
else:
state = data.__dict__.copy()
return self.represent_mapping(tag, state, flow_style=flow_style)
def represent_undefined(self, data: Any) -> None:
raise RepresenterError(f'cannot represent an object: {data!s}')
SafeRepresenter.add_representer(type(None), SafeRepresenter.represent_none)
SafeRepresenter.add_representer(str, SafeRepresenter.represent_str)
SafeRepresenter.add_representer(bytes, SafeRepresenter.represent_binary)
SafeRepresenter.add_representer(bool, SafeRepresenter.represent_bool)
SafeRepresenter.add_representer(int, SafeRepresenter.represent_int)
SafeRepresenter.add_representer(float, SafeRepresenter.represent_float)
SafeRepresenter.add_representer(list, SafeRepresenter.represent_list)
SafeRepresenter.add_representer(tuple, SafeRepresenter.represent_list)
SafeRepresenter.add_representer(dict, SafeRepresenter.represent_dict)
SafeRepresenter.add_representer(set, SafeRepresenter.represent_set)
SafeRepresenter.add_representer(ordereddict, SafeRepresenter.represent_ordereddict)
SafeRepresenter.add_representer(
collections.OrderedDict, SafeRepresenter.represent_ordereddict,
)
SafeRepresenter.add_representer(datetime.date, SafeRepresenter.represent_date)
SafeRepresenter.add_representer(datetime.datetime, SafeRepresenter.represent_datetime)
SafeRepresenter.add_representer(None, SafeRepresenter.represent_undefined)
class Representer(SafeRepresenter):
def represent_complex(self, data: Any) -> Any:
if data.imag == 0.0:
data = repr(data.real)
elif data.real == 0.0:
data = f'{data.imag!r}j'
elif data.imag > 0:
data = f'{data.real!r}+{data.imag!r}j'
else:
data = f'{data.real!r}{data.imag!r}j'
return self.represent_scalar('tag:yaml.org,2002:python/complex', data)
def represent_tuple(self, data: Any) -> SequenceNode:
return self.represent_sequence('tag:yaml.org,2002:python/tuple', data)
def represent_name(self, data: Any) -> ScalarNode:
try:
name = f'{data.__module__!s}.{data.__qualname__!s}'
except AttributeError:
# ToDo: check if this can be reached in Py3
name = f'{data.__module__!s}.{data.__name__!s}'
return self.represent_scalar('tag:yaml.org,2002:python/name:' + name, "")
def represent_module(self, data: Any) -> ScalarNode:
return self.represent_scalar('tag:yaml.org,2002:python/module:' + data.__name__, "")
def represent_object(self, data: Any) -> Union[SequenceNode, MappingNode]:
# We use __reduce__ API to save the data. data.__reduce__ returns
# a tuple of length 2-5:
# (function, args, state, listitems, dictitems)
# For reconstructing, we calls function(*args), then set its state,
# listitems, and dictitems if they are not None.
# A special case is when function.__name__ == '__newobj__'. In this
# case we create the object with args[0].__new__(*args).
# Another special case is when __reduce__ returns a string - we don't
# support it.
# We produce a !!python/object, !!python/object/new or
# !!python/object/apply node.
cls = type(data)
if cls in copyreg.dispatch_table:
reduce: Any = copyreg.dispatch_table[cls](data)
elif hasattr(data, '__reduce_ex__'):
reduce = data.__reduce_ex__(2)
elif hasattr(data, '__reduce__'):
reduce = data.__reduce__()
else:
raise RepresenterError(f'cannot represent object: {data!r}')
reduce = (list(reduce) + [None] * 5)[:5]
function, args, state, listitems, dictitems = reduce
args = list(args)
if state is None:
state = {}
if listitems is not None:
listitems = list(listitems)
if dictitems is not None:
dictitems = dict(dictitems)
if function.__name__ == '__newobj__':
function = args[0]
args = args[1:]
tag = 'tag:yaml.org,2002:python/object/new:'
newobj = True
else:
tag = 'tag:yaml.org,2002:python/object/apply:'
newobj = False
try:
function_name = f'{function.__module__!s}.{function.__qualname__!s}'
except AttributeError:
# ToDo: check if this can be reached in Py3
function_name = f'{function.__module__!s}.{function.__name__!s}'
if not args and not listitems and not dictitems and isinstance(state, dict) and newobj:
return self.represent_mapping(
'tag:yaml.org,2002:python/object:' + function_name, state,
)
if not listitems and not dictitems and isinstance(state, dict) and not state:
return self.represent_sequence(tag + function_name, args)
value = {}
if args:
value['args'] = args
if state or not isinstance(state, dict):
value['state'] = state
if listitems:
value['listitems'] = listitems
if dictitems:
value['dictitems'] = dictitems
return self.represent_mapping(tag + function_name, value)
Representer.add_representer(complex, Representer.represent_complex)
Representer.add_representer(tuple, Representer.represent_tuple)
Representer.add_representer(type, Representer.represent_name)
Representer.add_representer(types.FunctionType, Representer.represent_name)
Representer.add_representer(types.BuiltinFunctionType, Representer.represent_name)
Representer.add_representer(types.ModuleType, Representer.represent_module)
Representer.add_multi_representer(object, Representer.represent_object)
Representer.add_multi_representer(type, Representer.represent_name)
class RoundTripRepresenter(SafeRepresenter):
# need to add type here and write out the .comment
# in serializer and emitter
def __init__(
self, default_style: Any = None, default_flow_style: Any = None, dumper: Any = None,
) -> None:
if not hasattr(dumper, 'typ') and default_flow_style is None:
default_flow_style = False
SafeRepresenter.__init__(
self,
default_style=default_style,
default_flow_style=default_flow_style,
dumper=dumper,
)
def ignore_aliases(self, data: Any) -> bool:
try:
if data.anchor is not None and data.anchor.value is not None:
return False
except AttributeError:
pass
return SafeRepresenter.ignore_aliases(self, data)
def represent_none(self, data: Any) -> ScalarNode:
if len(self.represented_objects) == 0 and not self.serializer.use_explicit_start:
# this will be open ended (although it is not yet)
return self.represent_scalar('tag:yaml.org,2002:null', 'null')
return self.represent_scalar('tag:yaml.org,2002:null', "")
def represent_literal_scalarstring(self, data: Any) -> ScalarNode:
tag = None
style = '|'
anchor = data.yaml_anchor(any=True)
tag = 'tag:yaml.org,2002:str'
return self.represent_scalar(tag, data, style=style, anchor=anchor)
represent_preserved_scalarstring = represent_literal_scalarstring
def represent_folded_scalarstring(self, data: Any) -> ScalarNode:
tag = None
style = '>'
anchor = data.yaml_anchor(any=True)
for fold_pos in reversed(getattr(data, 'fold_pos', [])):
if (
data[fold_pos] == ' '
and (fold_pos > 0 and not data[fold_pos - 1].isspace())
and (fold_pos < len(data) and not data[fold_pos + 1].isspace())
):
data = data[:fold_pos] + '\a' + data[fold_pos:]
tag = 'tag:yaml.org,2002:str'
return self.represent_scalar(tag, data, style=style, anchor=anchor)
def represent_single_quoted_scalarstring(self, data: Any) -> ScalarNode:
tag = None
style = "'"
anchor = data.yaml_anchor(any=True)
tag = 'tag:yaml.org,2002:str'
return self.represent_scalar(tag, data, style=style, anchor=anchor)
def represent_double_quoted_scalarstring(self, data: Any) -> ScalarNode:
tag = None
style = '"'
anchor = data.yaml_anchor(any=True)
tag = 'tag:yaml.org,2002:str'
return self.represent_scalar(tag, data, style=style, anchor=anchor)
def represent_plain_scalarstring(self, data: Any) -> ScalarNode:
tag = None
style = ''
anchor = data.yaml_anchor(any=True)
tag = 'tag:yaml.org,2002:str'
return self.represent_scalar(tag, data, style=style, anchor=anchor)
def insert_underscore(
self, prefix: Any, s: Any, underscore: Any, anchor: Any = None,
) -> ScalarNode:
if underscore is None:
return self.represent_scalar('tag:yaml.org,2002:int', prefix + s, anchor=anchor)
if underscore[0]:
sl = list(s)
pos = len(s) - underscore[0]
while pos > 0:
sl.insert(pos, '_')
pos -= underscore[0]
s = "".join(sl)
if underscore[1]:
s = '_' + s
if underscore[2]:
s += '_'
return self.represent_scalar('tag:yaml.org,2002:int', prefix + s, anchor=anchor)
def represent_scalar_int(self, data: Any) -> ScalarNode:
if data._width is not None:
s = f'{data:0{data._width}d}'
else:
s = format(data, 'd')
anchor = data.yaml_anchor(any=True)
return self.insert_underscore("", s, data._underscore, anchor=anchor)
def represent_binary_int(self, data: Any) -> ScalarNode:
if data._width is not None:
# cannot use '{:#0{}b}', that strips the zeros
s = f'{data:0{data._width}b}'
else:
s = format(data, 'b')
anchor = data.yaml_anchor(any=True)
return self.insert_underscore('0b', s, data._underscore, anchor=anchor)
def represent_octal_int(self, data: Any) -> ScalarNode:
if data._width is not None:
# cannot use '{:#0{}o}', that strips the zeros
s = f'{data:0{data._width}o}'
else:
s = format(data, 'o')
anchor = data.yaml_anchor(any=True)
prefix = '0o'
if getattr(self.serializer, 'use_version', None) == (1, 1):
prefix = '0'
return self.insert_underscore(prefix, s, data._underscore, anchor=anchor)
def represent_hex_int(self, data: Any) -> ScalarNode:
if data._width is not None:
# cannot use '{:#0{}x}', that strips the zeros
s = f'{data:0{data._width}x}'
else:
s = format(data, 'x')
anchor = data.yaml_anchor(any=True)
return self.insert_underscore('0x', s, data._underscore, anchor=anchor)
def represent_hex_caps_int(self, data: Any) -> ScalarNode:
if data._width is not None:
# cannot use '{:#0{}X}', that strips the zeros
s = f'{data:0{data._width}X}'
else:
s = format(data, 'X')
anchor = data.yaml_anchor(any=True)
return self.insert_underscore('0x', s, data._underscore, anchor=anchor)
def represent_scalar_float(self, data: Any) -> ScalarNode:
""" this is way more complicated """
value = None
anchor = data.yaml_anchor(any=True)
if data != data or (data == 0.0 and data == 1.0):
value = '.nan'
elif data == self.inf_value:
value = '.inf'
elif data == -self.inf_value:
value = '-.inf'
if value:
return self.represent_scalar('tag:yaml.org,2002:float', value, anchor=anchor)
if data._exp is None and data._prec > 0 and data._prec == data._width - 1:
# no exponent, but trailing dot
value = f'{data._m_sign if data._m_sign else ""}{abs(int(data)):d}.'
elif data._exp is None:
# no exponent, "normal" dot
prec = data._prec
ms = data._m_sign if data._m_sign else ""
if prec < 0:
value = f'{ms}{abs(int(data)):0{data._width - len(ms)}d}'
else:
# -1 for the dot
value = f'{ms}{abs(data):0{data._width - len(ms)}.{data._width - prec - 1}f}'
if prec == 0 or (prec == 1 and ms != ""):
value = value.replace('0.', '.')
while len(value) < data._width:
value += '0'
else:
# exponent
(
m,
es,
) = f'{data:{data._width}.{data._width + (1 if data._m_sign else 0)}e}'.split('e')
w = data._width if data._prec > 0 else (data._width + 1)
if data < 0:
w += 1
m = m[:w]
e = int(es)
m1, m2 = m.split('.') # always second?
while len(m1) + len(m2) < data._width - (1 if data._prec >= 0 else 0):
m2 += '0'
if data._m_sign and data > 0:
m1 = '+' + m1
esgn = '+' if data._e_sign else ""
if data._prec < 0: # mantissa without dot
if m2 != '0':
e -= len(m2)
else:
m2 = ""
while (len(m1) + len(m2) - (1 if data._m_sign else 0)) < data._width:
m2 += '0'
e -= 1
value = m1 + m2 + data._exp + f'{e:{esgn}0{data._e_width}d}'
elif data._prec == 0: # mantissa with trailing dot
e -= len(m2)
value = m1 + m2 + '.' + data._exp + f'{e:{esgn}0{data._e_width}d}'
else:
if data._m_lead0 > 0:
m2 = '0' * (data._m_lead0 - 1) + m1 + m2
m1 = '0'
m2 = m2[: -data._m_lead0] # these should be zeros
e += data._m_lead0
while len(m1) < data._prec:
m1 += m2[0]
m2 = m2[1:]
e -= 1
value = m1 + '.' + m2 + data._exp + f'{e:{esgn}0{data._e_width}d}'
if value is None:
value = repr(data).lower()
return self.represent_scalar('tag:yaml.org,2002:float', value, anchor=anchor)
def represent_sequence(
self, tag: Any, sequence: Any, flow_style: Any = None,
) -> SequenceNode:
value: List[Any] = []
# if the flow_style is None, the flow style tacked on to the object
# explicitly will be taken. If that is None as well the default flow
# style rules
try:
flow_style = sequence.fa.flow_style(flow_style)
except AttributeError:
flow_style = flow_style
try:
anchor = sequence.yaml_anchor()
except AttributeError:
anchor = None
if isinstance(tag, str):
tag = Tag(suffix=tag)
node = SequenceNode(tag, value, flow_style=flow_style, anchor=anchor)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
try:
comment = getattr(sequence, comment_attrib)
node.comment = comment.comment
# reset any comment already printed information
if node.comment and node.comment[1]:
for ct in node.comment[1]:
ct.reset()
item_comments = comment.items
for v in item_comments.values():
if v and v[1]:
for ct in v[1]:
ct.reset()
item_comments = comment.items
if node.comment is None:
node.comment = comment.comment
else:
# as we are potentially going to extend this, make a new list
node.comment = comment.comment[:]
try:
node.comment.append(comment.end)
except AttributeError:
pass
except AttributeError:
item_comments = {}
for idx, item in enumerate(sequence):
node_item = self.represent_data(item)
self.merge_comments(node_item, item_comments.get(idx))
if not (isinstance(node_item, ScalarNode) and not node_item.style):
best_style = False
value.append(node_item)
if flow_style is None:
if len(sequence) != 0 and self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
return node
def merge_comments(self, node: Any, comments: Any) -> Any:
if comments is None:
assert hasattr(node, 'comment')
return node
if getattr(node, 'comment', None) is not None:
for idx, val in enumerate(comments):
if idx >= len(node.comment):
continue
nc = node.comment[idx]
if nc is not None:
assert val is None or val == nc
comments[idx] = nc
node.comment = comments
return node
def represent_key(self, data: Any) -> Any:
if isinstance(data, CommentedKeySeq):
self.alias_key = None
return self.represent_sequence('tag:yaml.org,2002:seq', data, flow_style=True)
if isinstance(data, CommentedKeyMap):
self.alias_key = None
return self.represent_mapping('tag:yaml.org,2002:map', data, flow_style=True)
return SafeRepresenter.represent_key(self, data)
def represent_mapping(self, tag: Any, mapping: Any, flow_style: Any = None) -> MappingNode:
value: List[Any] = []
try:
flow_style = mapping.fa.flow_style(flow_style)
except AttributeError:
flow_style = flow_style
try:
anchor = mapping.yaml_anchor()
except AttributeError:
anchor = None
if isinstance(tag, str):
tag = Tag(suffix=tag)
node = MappingNode(tag, value, flow_style=flow_style, anchor=anchor)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
# no sorting! !!
try:
comment = getattr(mapping, comment_attrib)
if node.comment is None:
node.comment = comment.comment
else:
# as we are potentially going to extend this, make a new list
node.comment = comment.comment[:]
if node.comment and node.comment[1]:
for ct in node.comment[1]:
ct.reset()
item_comments = comment.items
if self.dumper.comment_handling is None:
for v in item_comments.values():
if v and v[1]:
for ct in v[1]:
ct.reset()
try:
node.comment.append(comment.end)
except AttributeError:
pass
else:
# NEWCMNT
pass
except AttributeError:
item_comments = {}
merge_list = [m[1] for m in getattr(mapping, merge_attrib, [])]
try:
merge_pos = getattr(mapping, merge_attrib, [[0]])[0][0]
except IndexError:
merge_pos = 0
item_count = 0
if bool(merge_list):
items = mapping.non_merged_items()
else:
items = mapping.items()
for item_key, item_value in items:
item_count += 1
node_key = self.represent_key(item_key)
node_value = self.represent_data(item_value)
item_comment = item_comments.get(item_key)
if item_comment:
# assert getattr(node_key, 'comment', None) is None
# issue 351 did throw this because the comment from the list item was
# moved to the dict
node_key.comment = item_comment[:2]
nvc = getattr(node_value, 'comment', None)
if nvc is not None: # end comment already there
nvc[0] = item_comment[2]
nvc[1] = item_comment[3]
else:
node_value.comment = item_comment[2:]
if not (isinstance(node_key, ScalarNode) and not node_key.style):
best_style = False
if not (isinstance(node_value, ScalarNode) and not node_value.style):
best_style = False
value.append((node_key, node_value))
if flow_style is None:
if ((item_count != 0) or bool(merge_list)) and self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
if bool(merge_list):
# because of the call to represent_data here, the anchors
# are marked as being used and thereby created
if len(merge_list) == 1:
arg = self.represent_data(merge_list[0])
else:
arg = self.represent_data(merge_list)
arg.flow_style = True
value.insert(
merge_pos, (ScalarNode(Tag(suffix='tag:yaml.org,2002:merge'), '<<'), arg),
)
return node
def represent_omap(self, tag: Any, omap: Any, flow_style: Any = None) -> SequenceNode:
value: List[Any] = []
try:
flow_style = omap.fa.flow_style(flow_style)
except AttributeError:
flow_style = flow_style
try:
anchor = omap.yaml_anchor()
except AttributeError:
anchor = None
if isinstance(tag, str):
tag = Tag(suffix=tag)
node = SequenceNode(tag, value, flow_style=flow_style, anchor=anchor)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
try:
comment = getattr(omap, comment_attrib)
if node.comment is None:
node.comment = comment.comment
else:
# as we are potentially going to extend this, make a new list
node.comment = comment.comment[:]
if node.comment and node.comment[1]:
for ct in node.comment[1]:
ct.reset()
item_comments = comment.items
for v in item_comments.values():
if v and v[1]:
for ct in v[1]:
ct.reset()
try:
node.comment.append(comment.end)
except AttributeError:
pass
except AttributeError:
item_comments = {}
for item_key in omap:
item_val = omap[item_key]
node_item = self.represent_data({item_key: item_val})
# node_item.flow_style = False
# node item has two scalars in value: node_key and node_value
item_comment = item_comments.get(item_key)
if item_comment:
if item_comment[1]:
node_item.comment = [None, item_comment[1]]
assert getattr(node_item.value[0][0], 'comment', None) is None
node_item.value[0][0].comment = [item_comment[0], None]
nvc = getattr(node_item.value[0][1], 'comment', None)
if nvc is not None: # end comment already there
nvc[0] = item_comment[2]
nvc[1] = item_comment[3]
else:
node_item.value[0][1].comment = item_comment[2:]
# if not (isinstance(node_item, ScalarNode) \
# and not node_item.style):
# best_style = False
value.append(node_item)
if flow_style is None:
if self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
return node
def represent_set(self, setting: Any) -> MappingNode:
flow_style = False
tag = Tag(suffix='tag:yaml.org,2002:set')
# return self.represent_mapping(tag, value)
value: List[Any] = []
flow_style = setting.fa.flow_style(flow_style)
try:
anchor = setting.yaml_anchor()
except AttributeError:
anchor = None
node = MappingNode(tag, value, flow_style=flow_style, anchor=anchor)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
# no sorting! !!
try:
comment = getattr(setting, comment_attrib)
if node.comment is None:
node.comment = comment.comment
else:
# as we are potentially going to extend this, make a new list
node.comment = comment.comment[:]
if node.comment and node.comment[1]:
for ct in node.comment[1]:
ct.reset()
item_comments = comment.items
for v in item_comments.values():
if v and v[1]:
for ct in v[1]:
ct.reset()
try:
node.comment.append(comment.end)
except AttributeError:
pass
except AttributeError:
item_comments = {}
for item_key in setting.odict:
node_key = self.represent_key(item_key)
node_value = self.represent_data(None)
item_comment = item_comments.get(item_key)
if item_comment:
assert getattr(node_key, 'comment', None) is None
node_key.comment = item_comment[:2]
node_key.style = '?'
node_value.style = '-' if flow_style else '?'
if not (isinstance(node_key, ScalarNode) and not node_key.style):
best_style = False
if not (isinstance(node_value, ScalarNode) and not node_value.style):
best_style = False
value.append((node_key, node_value))
best_style = best_style
return node
def represent_dict(self, data: Any) -> MappingNode:
"""write out tag if saved on loading"""
try:
_ = data.tag
except AttributeError:
tag = Tag(suffix='tag:yaml.org,2002:map')
else:
if data.tag.trval:
if data.tag.startswith('!!'):
tag = Tag(suffix='tag:yaml.org,2002:' + data.tag.trval[2:])
else:
tag = data.tag
else:
tag = Tag(suffix='tag:yaml.org,2002:map')
return self.represent_mapping(tag, data)
def represent_list(self, data: Any) -> SequenceNode:
try:
_ = data.tag
except AttributeError:
tag = Tag(suffix='tag:yaml.org,2002:seq')
else:
if data.tag.trval:
if data.tag.startswith('!!'):
tag = Tag(suffix='tag:yaml.org,2002:' + data.tag.trval[2:])
else:
tag = data.tag
else:
tag = Tag(suffix='tag:yaml.org,2002:seq')
return self.represent_sequence(tag, data)
def represent_datetime(self, data: Any) -> ScalarNode:
inter = 'T' if data._yaml['t'] else ' '
_yaml = data._yaml
if _yaml['delta']:
data += _yaml['delta']
value = data.isoformat(inter)
else:
value = data.isoformat(inter)
if _yaml['tz']:
value += _yaml['tz']
return self.represent_scalar('tag:yaml.org,2002:timestamp', value)
def represent_tagged_scalar(self, data: Any) -> ScalarNode:
try:
if data.tag.handle == '!!':
tag = f'{data.tag.handle} {data.tag.suffix}'
else:
tag = data.tag
except AttributeError:
tag = None
try:
anchor = data.yaml_anchor()
except AttributeError:
anchor = None
return self.represent_scalar(tag, data.value, style=data.style, anchor=anchor)
def represent_scalar_bool(self, data: Any) -> ScalarNode:
try:
anchor = data.yaml_anchor()
except AttributeError:
anchor = None
return SafeRepresenter.represent_bool(self, data, anchor=anchor)
def represent_yaml_object(
self, tag: Any, data: Any, cls: Any, flow_style: Optional[Any] = None,
) -> MappingNode:
if hasattr(data, '__getstate__'):
state = data.__getstate__()
else:
state = data.__dict__.copy()
anchor = state.pop(Anchor.attrib, None)
res = self.represent_mapping(tag, state, flow_style=flow_style)
if anchor is not None:
res.anchor = anchor
return res
RoundTripRepresenter.add_representer(type(None), RoundTripRepresenter.represent_none)
RoundTripRepresenter.add_representer(
LiteralScalarString, RoundTripRepresenter.represent_literal_scalarstring,
)
RoundTripRepresenter.add_representer(
FoldedScalarString, RoundTripRepresenter.represent_folded_scalarstring,
)
RoundTripRepresenter.add_representer(
SingleQuotedScalarString, RoundTripRepresenter.represent_single_quoted_scalarstring,
)
RoundTripRepresenter.add_representer(
DoubleQuotedScalarString, RoundTripRepresenter.represent_double_quoted_scalarstring,
)
RoundTripRepresenter.add_representer(
PlainScalarString, RoundTripRepresenter.represent_plain_scalarstring,
)
# RoundTripRepresenter.add_representer(tuple, Representer.represent_tuple)
RoundTripRepresenter.add_representer(ScalarInt, RoundTripRepresenter.represent_scalar_int)
RoundTripRepresenter.add_representer(BinaryInt, RoundTripRepresenter.represent_binary_int)
RoundTripRepresenter.add_representer(OctalInt, RoundTripRepresenter.represent_octal_int)
RoundTripRepresenter.add_representer(HexInt, RoundTripRepresenter.represent_hex_int)
RoundTripRepresenter.add_representer(HexCapsInt, RoundTripRepresenter.represent_hex_caps_int)
RoundTripRepresenter.add_representer(ScalarFloat, RoundTripRepresenter.represent_scalar_float)
RoundTripRepresenter.add_representer(ScalarBoolean, RoundTripRepresenter.represent_scalar_bool)
RoundTripRepresenter.add_representer(CommentedSeq, RoundTripRepresenter.represent_list)
RoundTripRepresenter.add_representer(CommentedMap, RoundTripRepresenter.represent_dict)
RoundTripRepresenter.add_representer(
CommentedOrderedMap, RoundTripRepresenter.represent_ordereddict,
)
RoundTripRepresenter.add_representer(
collections.OrderedDict, RoundTripRepresenter.represent_ordereddict,
)
RoundTripRepresenter.add_representer(CommentedSet, RoundTripRepresenter.represent_set)
RoundTripRepresenter.add_representer(
TaggedScalar, RoundTripRepresenter.represent_tagged_scalar,
)
RoundTripRepresenter.add_representer(TimeStamp, RoundTripRepresenter.represent_datetime)
|