lib3/yaml/resolver.py - third_party/pyyaml - Git at Google


 __all__ = ['BaseResolver', 'Resolver']

 from .error import *
 from .nodes import *

 import re

 class ResolverError(YAMLError):
     pass

 class BaseResolver:

     DEFAULT_SCALAR_TAG = 'tag:yaml.org,2002:str'
     DEFAULT_SEQUENCE_TAG = 'tag:yaml.org,2002:seq'
     DEFAULT_MAPPING_TAG = 'tag:yaml.org,2002:map'

     yaml_implicit_resolvers = {}
     yaml_path_resolvers = {}

     def __init__(self):
         self.resolver_exact_paths = []
         self.resolver_prefix_paths = []

     @classmethod
     def add_implicit_resolver(cls, tag, regexp, first):
         if not 'yaml_implicit_resolvers' in cls.__dict__:
             implicit_resolvers = {}
             for key in cls.yaml_implicit_resolvers:
                 implicit_resolvers[key] = cls.yaml_implicit_resolvers[key][:]
             cls.yaml_implicit_resolvers = implicit_resolvers
         if first is None:
             first = [None]
         for ch in first:
             cls.yaml_implicit_resolvers.setdefault(ch, []).append((tag, regexp))

     @classmethod
     def add_path_resolver(cls, tag, path, kind=None):
         # Note: `add_path_resolver` is experimental.  The API could be changed.
         # `new_path` is a pattern that is matched against the path from the
         # root to the node that is being considered.  `node_path` elements are
         # tuples `(node_check, index_check)`.  `node_check` is a node class:
         # `ScalarNode`, `SequenceNode`, `MappingNode` or `None`.  `None`
         # matches any kind of a node.  `index_check` could be `None`, a boolean
         # value, a string value, or a number.  `None` and `False` match against
         # any _value_ of sequence and mapping nodes.  `True` matches against
         # any _key_ of a mapping node.  A string `index_check` matches against
         # a mapping value that corresponds to a scalar key which content is
         # equal to the `index_check` value.  An integer `index_check` matches
         # against a sequence value with the index equal to `index_check`.
         if not 'yaml_path_resolvers' in cls.__dict__:
             cls.yaml_path_resolvers = cls.yaml_path_resolvers.copy()
         new_path = []
         for element in path:
             if isinstance(element, (list, tuple)):
                 if len(element) == 2:
                     node_check, index_check = element
                 elif len(element) == 1:
                     node_check = element[0]
                     index_check = True
                 else:
                     raise ResolverError("Invalid path element: %s" % element)
             else:
                 node_check = None
                 index_check = element
             if node_check is str:
                 node_check = ScalarNode
             elif node_check is list:
                 node_check = SequenceNode
             elif node_check is dict:
                 node_check = MappingNode
             elif node_check not in [ScalarNode, SequenceNode, MappingNode]  \
                     and not isinstance(node_check, str) \
                     and node_check is not None:
                 raise ResolverError("Invalid node checker: %s" % node_check)
             if not isinstance(index_check, (str, int))  \
                     and index_check is not None:
                 raise ResolverError("Invalid index checker: %s" % index_check)
             new_path.append((node_check, index_check))
         if kind is str:
             kind = ScalarNode
         elif kind is list:
             kind = SequenceNode
         elif kind is dict:
             kind = MappingNode
         elif kind not in [ScalarNode, SequenceNode, MappingNode]    \
                 and kind is not None:
             raise ResolverError("Invalid node kind: %s" % kind)
         cls.yaml_path_resolvers[tuple(new_path), kind] = tag

     def descend_resolver(self, current_node, current_index):
         if not self.yaml_path_resolvers:
             return
         exact_paths = {}
         prefix_paths = []
         if current_node:
             depth = len(self.resolver_prefix_paths)
             for path, kind in self.resolver_prefix_paths[-1]:
                 if self.check_resolver_prefix(depth, path, kind,
                         current_node, current_index):
                     if len(path) > depth:
                         prefix_paths.append((path, kind))
                     else:
                         exact_paths[kind] = self.yaml_path_resolvers[path, kind]
         else:
             for path, kind in self.yaml_path_resolvers:
                 if not path:
                     exact_paths[kind] = self.yaml_path_resolvers[path, kind]
                 else:
                     prefix_paths.append((path, kind))
         self.resolver_exact_paths.append(exact_paths)
         self.resolver_prefix_paths.append(prefix_paths)

     def ascend_resolver(self):
         if not self.yaml_path_resolvers:
             return
         self.resolver_exact_paths.pop()
         self.resolver_prefix_paths.pop()

     def check_resolver_prefix(self, depth, path, kind,
             current_node, current_index):
         node_check, index_check = path[depth-1]
         if isinstance(node_check, str):
             if current_node.tag != node_check:
                 return
         elif node_check is not None:
             if not isinstance(current_node, node_check):
                 return
         if index_check is True and current_index is not None:
             return
         if (index_check is False or index_check is None)    \
                 and current_index is None:
             return
         if isinstance(index_check, str):
             if not (isinstance(current_index, ScalarNode)
                     and index_check == current_index.value):
                 return
         elif isinstance(index_check, int) and not isinstance(index_check, bool):
             if index_check != current_index:
                 return
         return True

     def resolve(self, kind, value, implicit):
         if kind is ScalarNode and implicit[0]:
             if value == '':
                 resolvers = self.yaml_implicit_resolvers.get('', [])
             else:
                 resolvers = self.yaml_implicit_resolvers.get(value[0], [])
             resolvers += self.yaml_implicit_resolvers.get(None, [])
             for tag, regexp in resolvers:
                 if regexp.match(value):
                     return tag
             implicit = implicit[1]
         if self.yaml_path_resolvers:
             exact_paths = self.resolver_exact_paths[-1]
             if kind in exact_paths:
                 return exact_paths[kind]
             if None in exact_paths:
                 return exact_paths[None]
         if kind is ScalarNode:
             return self.DEFAULT_SCALAR_TAG
         elif kind is SequenceNode:
             return self.DEFAULT_SEQUENCE_TAG
         elif kind is MappingNode:
             return self.DEFAULT_MAPPING_TAG

 class Resolver(BaseResolver):
     pass

 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:bool',
         re.compile(r'''^(?:yes|Yes|YES|no|No|NO
                     |true|True|TRUE|false|False|FALSE
                     |on|On|ON|off|Off|OFF)$''', re.X),
         list('yYnNtTfFoO'))

 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:float',
         re.compile(r'''^(?:[-+]?(?:[0-9][0-9_]*)\.[0-9_]*(?:[eE][-+][0-9]+)?
                     |\.[0-9_]+(?:[eE][-+][0-9]+)?
                     |[-+]?[0-9][0-9_]*(?::[0-5]?[0-9])+\.[0-9_]*
                     |[-+]?\.(?:inf|Inf|INF)
                     |\.(?:nan|NaN|NAN))$''', re.X),
         list('-+0123456789.'))

 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:int',
         re.compile(r'''^(?:[-+]?0b[0-1_]+
                     |[-+]?0[0-7_]+
                     |[-+]?(?:0|[1-9][0-9_]*)
                     |[-+]?0x[0-9a-fA-F_]+
                     |[-+]?[1-9][0-9_]*(?::[0-5]?[0-9])+)$''', re.X),
         list('-+0123456789'))

 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:merge',
         re.compile(r'^(?:<<)$'),
         ['<'])

 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:null',
         re.compile(r'''^(?: ~
                     |null|Null|NULL
                     | )$''', re.X),
         ['~', 'n', 'N', ''])

 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:timestamp',
         re.compile(r'''^(?:[0-9][0-9][0-9][0-9]-[0-9][0-9]-[0-9][0-9]
                     |[0-9][0-9][0-9][0-9] -[0-9][0-9]? -[0-9][0-9]?
                      (?:[Tt]|[ \t]+)[0-9][0-9]?
                      :[0-9][0-9] :[0-9][0-9] (?:\.[0-9]*)?
                      (?:[ \t]*(?:Z|[-+][0-9][0-9]?(?::[0-9][0-9])?))?)$''', re.X),
         list('0123456789'))

 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:value',
         re.compile(r'^(?:=)$'),
         ['='])

 # The following resolver is only for documentation purposes. It cannot work
 # because plain scalars cannot start with '!', '&', or '*'.
 Resolver.add_implicit_resolver(
         'tag:yaml.org,2002:yaml',
         re.compile(r'^(?:!|&|\*)$'),
         list('!&*'))

	__all__ = ['BaseResolver', 'Resolver']

	from .error import *
	from .nodes import *

	import re

	class ResolverError(YAMLError):
	pass

	class BaseResolver:

	DEFAULT_SCALAR_TAG = 'tag:yaml.org,2002:str'
	DEFAULT_SEQUENCE_TAG = 'tag:yaml.org,2002:seq'
	DEFAULT_MAPPING_TAG = 'tag:yaml.org,2002:map'

	yaml_implicit_resolvers = {}
	yaml_path_resolvers = {}

	def __init__(self):
	self.resolver_exact_paths = []
	self.resolver_prefix_paths = []

	@classmethod
	def add_implicit_resolver(cls, tag, regexp, first):
	if not 'yaml_implicit_resolvers' in cls.__dict__:
	implicit_resolvers = {}
	for key in cls.yaml_implicit_resolvers:
	implicit_resolvers[key] = cls.yaml_implicit_resolvers[key][:]
	cls.yaml_implicit_resolvers = implicit_resolvers
	if first is None:
	first = [None]
	for ch in first:
	cls.yaml_implicit_resolvers.setdefault(ch, []).append((tag, regexp))

	@classmethod
	def add_path_resolver(cls, tag, path, kind=None):
	# Note: `add_path_resolver` is experimental. The API could be changed.
	# `new_path` is a pattern that is matched against the path from the
	# root to the node that is being considered. `node_path` elements are
	# tuples `(node_check, index_check)`. `node_check` is a node class:
	# `ScalarNode`, `SequenceNode`, `MappingNode` or `None`. `None`
	# matches any kind of a node. `index_check` could be `None`, a boolean
	# value, a string value, or a number. `None` and `False` match against
	# any _value_ of sequence and mapping nodes. `True` matches against
	# any _key_ of a mapping node. A string `index_check` matches against
	# a mapping value that corresponds to a scalar key which content is
	# equal to the `index_check` value. An integer `index_check` matches
	# against a sequence value with the index equal to `index_check`.
	if not 'yaml_path_resolvers' in cls.__dict__:
	cls.yaml_path_resolvers = cls.yaml_path_resolvers.copy()
	new_path = []
	for element in path:
	if isinstance(element, (list, tuple)):
	if len(element) == 2:
	node_check, index_check = element
	elif len(element) == 1:
	node_check = element[0]
	index_check = True
	else:
	raise ResolverError("Invalid path element: %s" % element)
	else:
	node_check = None
	index_check = element
	if node_check is str:
	node_check = ScalarNode
	elif node_check is list:
	node_check = SequenceNode
	elif node_check is dict:
	node_check = MappingNode
	elif node_check not in [ScalarNode, SequenceNode, MappingNode] \
	and not isinstance(node_check, str) \
	and node_check is not None:
	raise ResolverError("Invalid node checker: %s" % node_check)
	if not isinstance(index_check, (str, int)) \
	and index_check is not None:
	raise ResolverError("Invalid index checker: %s" % index_check)
	new_path.append((node_check, index_check))
	if kind is str:
	kind = ScalarNode
	elif kind is list:
	kind = SequenceNode
	elif kind is dict:
	kind = MappingNode
	elif kind not in [ScalarNode, SequenceNode, MappingNode] \
	and kind is not None:
	raise ResolverError("Invalid node kind: %s" % kind)
	cls.yaml_path_resolvers[tuple(new_path), kind] = tag

	def descend_resolver(self, current_node, current_index):
	if not self.yaml_path_resolvers:
	return
	exact_paths = {}
	prefix_paths = []
	if current_node:
	depth = len(self.resolver_prefix_paths)
	for path, kind in self.resolver_prefix_paths[-1]:
	if self.check_resolver_prefix(depth, path, kind,
	current_node, current_index):
	if len(path) > depth:
	prefix_paths.append((path, kind))
	else:
	exact_paths[kind] = self.yaml_path_resolvers[path, kind]
	else:
	for path, kind in self.yaml_path_resolvers:
	if not path:
	exact_paths[kind] = self.yaml_path_resolvers[path, kind]
	else:
	prefix_paths.append((path, kind))
	self.resolver_exact_paths.append(exact_paths)
	self.resolver_prefix_paths.append(prefix_paths)

	def ascend_resolver(self):
	if not self.yaml_path_resolvers:
	return
	self.resolver_exact_paths.pop()
	self.resolver_prefix_paths.pop()

	def check_resolver_prefix(self, depth, path, kind,
	current_node, current_index):
	node_check, index_check = path[depth-1]
	if isinstance(node_check, str):
	if current_node.tag != node_check:
	return
	elif node_check is not None:
	if not isinstance(current_node, node_check):
	return
	if index_check is True and current_index is not None:
	return
	if (index_check is False or index_check is None) \
	and current_index is None:
	return
	if isinstance(index_check, str):
	if not (isinstance(current_index, ScalarNode)
	and index_check == current_index.value):
	return
	elif isinstance(index_check, int) and not isinstance(index_check, bool):
	if index_check != current_index:
	return
	return True

	def resolve(self, kind, value, implicit):
	if kind is ScalarNode and implicit[0]:
	if value == '':
	resolvers = self.yaml_implicit_resolvers.get('', [])
	else:
	resolvers = self.yaml_implicit_resolvers.get(value[0], [])
	resolvers += self.yaml_implicit_resolvers.get(None, [])
	for tag, regexp in resolvers:
	if regexp.match(value):
	return tag
	implicit = implicit[1]
	if self.yaml_path_resolvers:
	exact_paths = self.resolver_exact_paths[-1]
	if kind in exact_paths:
	return exact_paths[kind]
	if None in exact_paths:
	return exact_paths[None]
	if kind is ScalarNode:
	return self.DEFAULT_SCALAR_TAG
	elif kind is SequenceNode:
	return self.DEFAULT_SEQUENCE_TAG
	elif kind is MappingNode:
	return self.DEFAULT_MAPPING_TAG

	class Resolver(BaseResolver):
	pass

	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:bool',
	re.compile(r'''^(?:yes\|Yes\|YES\|no\|No\|NO
	\|true\|True\|TRUE\|false\|False\|FALSE
	\|on\|On\|ON\|off\|Off\|OFF)$''', re.X),
	list('yYnNtTfFoO'))

	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:float',
	re.compile(r'''^(?:[-+]?(?:[0-9][0-9_])\.[0-9_](?:[eE][-+][0-9]+)?
	\|\.[0-9_]+(?:[eE][-+][0-9]+)?
	\|[-+]?[0-9][0-9_](?::[0-5]?[0-9])+\.[0-9_]
	\|[-+]?\.(?:inf\|Inf\|INF)
	\|\.(?:nan\|NaN\|NAN))$''', re.X),
	list('-+0123456789.'))

	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:int',
	re.compile(r'''^(?:[-+]?0b[0-1_]+
	\|[-+]?0[0-7_]+
	\|[-+]?(?:0\|[1-9][0-9_]*)
	\|[-+]?0x[0-9a-fA-F_]+
	\|[-+]?[1-9][0-9_]*(?::[0-5]?[0-9])+)$''', re.X),
	list('-+0123456789'))

	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:merge',
	re.compile(r'^(?:<<)$'),
	['<'])

	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:null',
	re.compile(r'''^(?: ~
	\|null\|Null\|NULL
	\| )$''', re.X),
	['~', 'n', 'N', ''])

	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:timestamp',
	re.compile(r'''^(?:[0-9][0-9][0-9][0-9]-[0-9][0-9]-[0-9][0-9]
	\|[0-9][0-9][0-9][0-9] -[0-9][0-9]? -[0-9][0-9]?
	(?:[Tt]\|[ \t]+)[0-9][0-9]?
	:[0-9][0-9] :[0-9][0-9] (?:\.[0-9]*)?
	(?:[ \t]*(?:Z\|[-+][0-9][0-9]?(?::[0-9][0-9])?))?)$''', re.X),
	list('0123456789'))

	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:value',
	re.compile(r'^(?:=)$'),
	['='])

	# The following resolver is only for documentation purposes. It cannot work
	# because plain scalars cannot start with '!', '&', or '*'.
	Resolver.add_implicit_resolver(
	'tag:yaml.org,2002:yaml',
	re.compile(r'^(?:!\|&\|\*)$'),
	list('!&*'))