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path: root/buildstream/_yaml.py
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#!/usr/bin/env python3
#
#  Copyright (C) 2016 Codethink Limited
#
#  This program is free software; you can redistribute it and/or
#  modify it under the terms of the GNU Lesser General Public
#  License as published by the Free Software Foundation; either
#  version 2 of the License, or (at your option) any later version.
#
#  This library is distributed in the hope that it will be useful,
#  but WITHOUT ANY WARRANTY; without even the implied warranty of
#  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.	 See the GNU
#  Lesser General Public License for more details.
#
#  You should have received a copy of the GNU Lesser General Public
#  License along with this library. If not, see <http://www.gnu.org/licenses/>.
#
#  Authors:
#        Tristan Van Berkom <tristan.vanberkom@codethink.co.uk>

import sys
import collections
import copy
from contextlib import ExitStack

from ruamel import yaml
from ruamel.yaml.representer import SafeRepresenter, RoundTripRepresenter
from ruamel.yaml.constructor import RoundTripConstructor
from ._exceptions import LoadError, LoadErrorReason

# This overrides the ruamel constructor to treat everything as a string
RoundTripConstructor.add_constructor(u'tag:yaml.org,2002:int', RoundTripConstructor.construct_yaml_str)
RoundTripConstructor.add_constructor(u'tag:yaml.org,2002:float', RoundTripConstructor.construct_yaml_str)

# We store information in the loaded yaml on a DictProvenance
# stored in all dictionaries under this key
PROVENANCE_KEY = '__bst_provenance_info'


# Provenance tracks the origin of a given node in the parsed dictionary.
#
# Args:
#   node (dict, list, value): A binding to the originally parsed value
#   filename (string): The filename the node was loaded from
#   toplevel (dict): The toplevel of the loaded file, suitable for later dumps
#   line (int): The line number where node was parsed
#   col (int): The column number where node was parsed
#
class Provenance():
    def __init__(self, filename, node, toplevel, line=0, col=0):
        self.filename = filename
        self.node = node
        self.toplevel = toplevel
        self.line = line
        self.col = col

    # Convert a Provenance to a string for error reporting
    def __str__(self):
        return "{} [line {:d} column {:d}]".format(self.filename, self.line, self.col)

    # Abstract method
    def clone(self):
        pass  # pragma: nocover


# A Provenance for dictionaries, these are stored in the copy of the
# loaded YAML tree and track the provenance of all members
#
class DictProvenance(Provenance):
    def __init__(self, filename, node, toplevel, line=None, col=None):

        if line is None or col is None:
            # Special case for loading an empty dict
            if hasattr(node, 'lc'):
                line = node.lc.line + 1
                col = node.lc.col
            else:
                line = 1
                col = 0

        super(DictProvenance, self).__init__(filename, node, toplevel, line=line, col=col)

        self.members = {}

    def clone(self):
        provenance = DictProvenance(self.filename, self.node, self.toplevel,
                                    line=self.line, col=self.col)

        provenance.members = {
            member_name: member.clone()
            for member_name, member in self.members.items()
        }
        return provenance


# A Provenance for dict members
#
class MemberProvenance(Provenance):
    def __init__(self, filename, parent_dict, member_name, toplevel,
                 node=None, line=None, col=None):

        if parent_dict is not None:
            node = parent_dict[member_name]
            line, col = parent_dict.lc.value(member_name)
            line += 1

        super(MemberProvenance, self).__init__(
            filename, node, toplevel, line=line, col=col)

        # Only used if member is a list
        self.elements = []

    def clone(self):
        provenance = MemberProvenance(self.filename, None, None, self.toplevel,
                                      node=self.node, line=self.line, col=self.col)
        provenance.elements = [e.clone() for e in self.elements]
        return provenance


# A Provenance for list elements
#
class ElementProvenance(Provenance):
    def __init__(self, filename, parent_list, index, toplevel,
                 node=None, line=None, col=None):

        if parent_list is not None:
            node = parent_list[index]
            line, col = parent_list.lc.item(index)
            line += 1

        super(ElementProvenance, self).__init__(
            filename, node, toplevel, line=line, col=col)

        # Only used if element is a list
        self.elements = []

    def clone(self):
        provenance = ElementProvenance(self.filename, None, None, self.toplevel,
                                       node=self.node, line=self.line, col=self.col)

        provenance.elements = [e.clone for e in self.elements]
        return provenance


# These exceptions are intended to be caught entirely within
# the BuildStream framework, hence they do not reside in the
# public exceptions.py
class CompositeError(Exception):
    def __init__(self, path, message):
        super(CompositeError, self).__init__(message)
        self.path = path


class CompositeTypeError(CompositeError):
    def __init__(self, path, expected_type, actual_type):
        super(CompositeTypeError, self).__init__(
            path,
            "Error compositing dictionary key '{}', expected source type '{}' "
            "but received type '{}'"
            .format(path, expected_type.__name__, actual_type.__name__))
        self.expected_type = expected_type
        self.actual_type = actual_type


# Loads a dictionary from some YAML
#
# Args:
#    filename (str): The YAML file to load
#    shortname (str): The filename in shorthand for error reporting (or None)
#    copy_tree (bool): Whether to make a copy, preserving the original toplevels
#                      for later serialization
#
# Returns (dict): A loaded copy of the YAML file with provenance information
#
# Raises: LoadError
#
def load(filename, shortname=None, copy_tree=False):
    if not shortname:
        shortname = filename

    try:
        with open(filename) as f:
            return load_data(f, shortname=shortname, copy_tree=copy_tree)
    except FileNotFoundError as e:
        raise LoadError(LoadErrorReason.MISSING_FILE,
                        "Could not find file at {}".format(filename)) from e


# Like load(), but doesnt require the data to be in a file
#
def load_data(data, shortname=None, copy_tree=False):

    try:
        contents = yaml.load(data, yaml.loader.RoundTripLoader, preserve_quotes=True)
    except (yaml.scanner.ScannerError, yaml.composer.ComposerError, yaml.parser.ParserError) as e:
        raise LoadError(LoadErrorReason.INVALID_YAML,
                        "Malformed YAML:\n\n{}\n\n{}\n".format(e.problem, e.problem_mark)) from e

    if not isinstance(contents, dict):
        # Special case allowance for None, when the loaded file has only comments in it.
        if contents is None:
            contents = {}
        else:
            raise LoadError(LoadErrorReason.INVALID_YAML,
                            "YAML file has content of type '{}' instead of expected type 'dict': {}"
                            .format(type(contents).__name__, shortname))

    return node_decorated_copy(shortname, contents, copy_tree=copy_tree)


# Dumps a previously loaded YAML node to a file
#
# Args:
#    node (dict): A node previously loaded with _yaml.load() above
#    filename (str): The YAML file to load
#
def dump(node, filename=None):
    with ExitStack() as stack:
        if filename:
            from . import utils
            f = stack.enter_context(utils.save_file_atomic(filename, 'w'))
        else:
            f = sys.stdout
        yaml.round_trip_dump(node, f)


# node_decorated_copy()
#
# Create a copy of a loaded dict tree decorated with Provenance
# information, used directly after loading yaml
#
# Args:
#    filename (str): The filename
#    toplevel (node): The toplevel dictionary node
#    copy_tree (bool): Whether to load a copy and preserve the original
#
# Returns: A copy of the toplevel decorated with Provinance
#
def node_decorated_copy(filename, toplevel, copy_tree=False):
    if copy_tree:
        result = copy.deepcopy(toplevel)
    else:
        result = toplevel

    node_decorate_dict(filename, result, toplevel, toplevel)

    return result


def node_decorate_dict(filename, target, source, toplevel):
    provenance = DictProvenance(filename, source, toplevel)
    target[PROVENANCE_KEY] = provenance

    for key, value in node_items(source):
        member = MemberProvenance(filename, source, key, toplevel)
        provenance.members[key] = member

        target_value = target.get(key)
        if isinstance(value, collections.Mapping):
            node_decorate_dict(filename, target_value, value, toplevel)
        elif isinstance(value, list):
            member.elements = node_decorate_list(filename, target_value, value, toplevel)


def node_decorate_list(filename, target, source, toplevel):

    elements = []

    for item in source:
        idx = source.index(item)
        target_item = target[idx]
        element = ElementProvenance(filename, source, idx, toplevel)

        if isinstance(item, collections.Mapping):
            node_decorate_dict(filename, target_item, item, toplevel)
        elif isinstance(item, list):
            element.elements = node_decorate_list(filename, target_item, item, toplevel)

        elements.append(element)

    return elements


# node_get_provenance()
#
# Gets the provenance for a node
#
# Args:
#   node (dict): a dictionary
#   key (str): key in the dictionary
#   indices (list of indexes): Index path, in the case of list values
#
# Returns: The Provenance of the dict, member or list element
#
def node_get_provenance(node, key=None, indices=None):

    provenance = node.get(PROVENANCE_KEY)
    if provenance and key:
        provenance = provenance.members.get(key)
        if provenance and indices is not None:
            for index in indices:
                provenance = provenance.elements[index]

    return provenance


# node_get()
#
# Fetches a value from a dictionary node and checks it for
# an expected value. Use default_value when parsing a value
# which is only optionally supplied.
#
# Args:
#    node (dict): The dictionary node
#    expected_type (type): The expected type for the value being searched
#    key (str): The key to get a value for in node
#    indices (list of ints): Optionally decend into lists of lists
#
# Returns:
#    The value if found in node, otherwise default_value is returned
#
# Raises:
#    LoadError, when the value found is not of the expected type
#
# Note:
#    Returned strings are stripped of leading and trailing whitespace
#
def node_get(node, expected_type, key, indices=None, default_value=None):
    value = node.get(key, default_value)
    provenance = node_get_provenance(node)
    if value is None:
        raise LoadError(LoadErrorReason.INVALID_DATA,
                        "{}: Dictionary did not contain expected key '{}'".format(provenance, key))

    path = key
    if indices is not None:
        # Implied type check of the element itself
        value = node_get(node, list, key)
        for index in indices:
            value = value[index]
            path += '[{:d}]'.format(index)

    if not isinstance(value, expected_type):
        # Attempt basic conversions if possible, typically we want to
        # be able to specify numeric values and convert them to strings,
        # but we dont want to try converting dicts/lists
        try:
            if (expected_type == bool and isinstance(value, str)):
                # Dont coerce booleans to string, this makes "False" strings evaluate to True
                if value == 'true' or value == 'True':
                    value = True
                elif value == 'false' or value == 'False':
                    value = False
                else:
                    raise ValueError()
            elif not (expected_type == list or
                      expected_type == dict or
                      isinstance(value, (list, dict))):
                value = expected_type(value)
            else:
                raise ValueError()
        except (ValueError, TypeError):
            provenance = node_get_provenance(node, key=key, indices=indices)
            raise LoadError(LoadErrorReason.INVALID_DATA,
                            "{}: Value of '{}' is not of the expected type '{}'"
                            .format(provenance, path, expected_type.__name__))

    # Trim it at the bud, let all loaded strings from yaml be stripped of whitespace
    if isinstance(value, str):
        value = value.strip()

    return value


# node_items()
#
# A convenience generator for iterating over loaded key/value
# tuples in a dictionary loaded from project YAML.
#
# Args:
#    node (dict): The dictionary node
#
# Yields:
#    (str): The key name
#    (anything): The value for the key
#
def node_items(node):
    for key, value in node.items():
        if key == PROVENANCE_KEY:
            continue
        yield (key, value)


# Gives a node a dummy provenance, in case of compositing dictionaries
# where the target is an empty {}
def ensure_provenance(node):
    provenance = node.get(PROVENANCE_KEY)
    if not provenance:
        provenance = DictProvenance('', node, node)
    node[PROVENANCE_KEY] = provenance

    return provenance


# is_ruamel_str():
#
# Args:
#    value: A value loaded from ruamel
#
# This returns if the value is "stringish", since ruamel
# has some complex types to represent strings, this is needed
# to avoid compositing exceptions in order to allow various
# string types to be interchangable and acceptable
#
def is_ruamel_str(value):

    if isinstance(value, str):
        return True
    elif isinstance(value, yaml.scalarstring.ScalarString):
        return True

    return False


# is_composite_list
#
# Checks if the given node is a Mapping with array composition
# directives.
#
# Args:
#    node (value): Any node
#
# Returns:
#    (bool): True if node was a Mapping containing only
#            list composition directives
#
# Raises:
#    (LoadError): If node was a mapping and contained a mix of
#                 list composition directives and other keys
#
def is_composite_list(node):

    if isinstance(node, collections.Mapping):
        has_directives = False
        has_keys = False

        for key, _ in node_items(node):
            if key in ['(>)', '(<)', '(=)']:
                has_directives = True
            else:
                has_keys = True

            if has_keys and has_directives:
                provenance = node_get_provenance(node)
                raise LoadError(LoadErrorReason.INVALID_DATA,
                                "{}: Dictionary contains array composition directives and arbitrary keys"
                                .format(provenance))
        return has_directives

    return False


# composite_list_prepend
#
# Internal helper for list composition
#
# Args:
#    target_node (dict): A simple dictionary
#    target_key (dict): The key indicating a literal array to prepend to
#    source_node (dict): Another simple dictionary
#    source_key (str): The key indicating an array to prepend to the target
#
# Returns:
#    (bool): True if a source list was found and compositing occurred
#
def composite_list_prepend(target_node, target_key, source_node, source_key):

    source_list = node_get(source_node, list, source_key, default_value=[])
    if not source_list:
        return False

    target_provenance = node_get_provenance(target_node)
    source_provenance = node_get_provenance(source_node)

    if target_node.get(target_key) is None:
        target_node[target_key] = []

    source_list = list_chain_copy(source_list)
    target_list = target_node[target_key]

    for element in reversed(source_list):
        target_list.insert(0, element)

    if not target_provenance.members.get(target_key):
        target_provenance.members[target_key] = source_provenance.members[source_key].clone()
    else:
        for p in reversed(source_provenance.members[source_key].elements):
            target_provenance.members[target_key].elements.insert(0, p.clone())

    return True


# composite_list_append
#
# Internal helper for list composition
#
# Args:
#    target_node (dict): A simple dictionary
#    target_key (dict): The key indicating a literal array to append to
#    source_node (dict): Another simple dictionary
#    source_key (str): The key indicating an array to append to the target
#
# Returns:
#    (bool): True if a source list was found and compositing occurred
#
def composite_list_append(target_node, target_key, source_node, source_key):

    source_list = node_get(source_node, list, source_key, default_value=[])
    if not source_list:
        return False

    target_provenance = node_get_provenance(target_node)
    source_provenance = node_get_provenance(source_node)

    if target_node.get(target_key) is None:
        target_node[target_key] = []

    source_list = list_chain_copy(source_list)
    target_list = target_node[target_key]

    target_list.extend(source_list)

    if not target_provenance.members.get(target_key):
        target_provenance.members[target_key] = source_provenance.members[source_key].clone()
    else:
        target_provenance.members[target_key].elements.extend([
            p.clone() for p in source_provenance.members[source_key].elements
        ])

    return True


# composite_list_overwrite
#
# Internal helper for list composition
#
# Args:
#    target_node (dict): A simple dictionary
#    target_key (dict): The key indicating a literal array to overwrite
#    source_node (dict): Another simple dictionary
#    source_key (str): The key indicating an array to overwrite the target with
#
# Returns:
#    (bool): True if a source list was found and compositing occurred
#
def composite_list_overwrite(target_node, target_key, source_node, source_key):

    # We need to handle the legitimate case of overwriting a list with an empty
    # list, hence the slightly odd default_value of [None] rather than [].
    source_list = node_get(source_node, list, source_key, default_value=[None])
    if source_list == [None]:
        return False

    target_provenance = node_get_provenance(target_node)
    source_provenance = node_get_provenance(source_node)

    target_node[target_key] = list_chain_copy(source_list)
    target_provenance.members[target_key] = source_provenance.members[source_key].clone()

    return True


# composite_list():
#
# Composite the source value onto the target value, if either
# sides are lists, or dictionaries containing list compositing directives
#
# Args:
#    target_node (dict): A simple dictionary
#    source_node (dict): Another simple dictionary
#    key (str): The key to compose on
#
# Returns:
#    (bool): True if both sides were logical lists
#
# Raises:
#    (LoadError): If one side was a logical list and the other was not
#
def composite_list(target_node, source_node, key):
    target_value = target_node.get(key)
    source_value = source_node[key]

    target_key_provenance = node_get_provenance(target_node, key)
    source_key_provenance = node_get_provenance(source_node, key)

    # Whenever a literal list is encountered in the source, it
    # overwrites the target values and provenance completely.
    #
    if isinstance(source_value, list):

        source_provenance = node_get_provenance(source_node)
        target_provenance = node_get_provenance(target_node)

        # Assert target type
        if not (target_value is None or
                isinstance(target_value, list) or
                is_composite_list(target_value)):
            raise LoadError(LoadErrorReason.INVALID_DATA,
                            "{}: List cannot overwrite value at: {}"
                            .format(source_key_provenance, target_key_provenance))

        composite_list_overwrite(target_node, key, source_node, key)
        return True

    # When a composite list is encountered in the source, then
    # multiple outcomes can occur...
    #
    elif is_composite_list(source_value):

        # If there is nothing there, then the composite list
        # is copied in it's entirety as is, and preserved
        # for later composition
        #
        if target_value is None:
            source_provenance = node_get_provenance(source_node)
            target_provenance = node_get_provenance(target_node)

            target_node[key] = node_chain_copy(source_value)
            target_provenance.members[key] = source_provenance.members[key].clone()

        # If the target is a literal list, then composition
        # occurs directly onto that target, leaving the target
        # as a literal list to overwrite anything in later composition
        #
        elif isinstance(target_value, list):
            composite_list_overwrite(target_node, key, source_value, '(=)')
            composite_list_prepend(target_node, key, source_value, '(<)')
            composite_list_append(target_node, key, source_value, '(>)')

        # If the target is a composite list, then composition
        # occurs in the target composite list, and the composite
        # target list is preserved in dictionary form for further
        # composition.
        #
        elif is_composite_list(target_value):

            if composite_list_overwrite(target_value, '(=)', source_value, '(=)'):

                # When overwriting a target with composition directives, remove any
                # existing prepend/append directives in the target before adding our own
                target_provenance = node_get_provenance(target_value)

                for directive in ['(<)', '(>)']:
                    try:
                        del target_value[directive]
                        del target_provenance.members[directive]
                    except KeyError:
                        # Ignore errors from deletion of non-existing keys
                        pass

            # Prepend to the target prepend array, and append to the append array
            composite_list_prepend(target_value, '(<)', source_value, '(<)')
            composite_list_append(target_value, '(>)', source_value, '(>)')

        else:
            raise LoadError(LoadErrorReason.INVALID_DATA,
                            "{}: List cannot overwrite value at: {}"
                            .format(source_key_provenance, target_key_provenance))

        # We handled list composition in some way
        return True

    # Source value was not a logical list
    return False


# composite_dict():
#
# Composites values in target with values from source
#
# Args:
#    target (dict): A simple dictionary
#    source (dict): Another simple dictionary
#
# Raises: CompositeError
#
# Unlike the dictionary update() method, nested values in source
# will not obsolete entire subdictionaries in target, instead both
# dictionaries will be recursed and a composition of both will result
#
# This is useful for overriding configuration files and element
# configurations.
#
def composite_dict(target, source, path=None):
    target_provenance = ensure_provenance(target)
    source_provenance = ensure_provenance(source)

    for key, source_value in node_items(source):

        # Track the full path of keys, only for raising CompositeError
        if path:
            thispath = path + '.' + key
        else:
            thispath = key

        # Handle list composition separately
        if composite_list(target, source, key):
            continue

        target_value = target.get(key)

        if isinstance(source_value, collections.Mapping):

            # Handle creating new dicts on target side
            if target_value is None:
                target_value = {}
                target[key] = target_value

                # Give the new dict provenance
                value_provenance = source_value.get(PROVENANCE_KEY)
                if value_provenance:
                    target_value[PROVENANCE_KEY] = value_provenance.clone()

                # Add a new provenance member element to the containing dict
                target_provenance.members[key] = source_provenance.members[key]

            if not isinstance(target_value, collections.Mapping):
                raise CompositeTypeError(thispath, type(target_value), type(source_value))

            # Recurse into matching dictionary
            composite_dict(target_value, source_value, path=thispath)

        else:

            if target_value is not None:

                # Exception here: depending on how strings were declared ruamel may
                # use a different type, but for our purposes, any stringish type will do.
                if not (is_ruamel_str(source_value) and is_ruamel_str(target_value)) \
                   and not isinstance(source_value, type(target_value)):
                    raise CompositeTypeError(thispath, type(target_value), type(source_value))

            # Overwrite simple values, lists and mappings have already been handled
            target_provenance.members[key] = source_provenance.members[key].clone()
            target[key] = source_value


# Like composite_dict(), but raises an all purpose LoadError for convenience
#
def composite(target, source):
    assert hasattr(source, 'get')

    source_provenance = node_get_provenance(source)
    try:
        composite_dict(target, source)
    except CompositeTypeError as e:
        error_prefix = ""
        if source_provenance:
            error_prefix = "{}: ".format(source_provenance)
        raise LoadError(LoadErrorReason.ILLEGAL_COMPOSITE,
                        "{}Expected '{}' type for configuration '{}', instead received '{}'"
                        .format(error_prefix,
                                e.expected_type.__name__,
                                e.path,
                                e.actual_type.__name__)) from e


# SanitizedDict is an OrderedDict that is dumped as unordered mapping.
# This provides deterministic output for unordered mappings.
#
class SanitizedDict(collections.OrderedDict):
    pass


RoundTripRepresenter.add_representer(SanitizedDict,
                                     SafeRepresenter.represent_dict)


# node_sanitize()
#
# Returnes an alphabetically ordered recursive copy
# of the source node with internal provenance information stripped.
#
# Only dicts are ordered, list elements are left in order.
#
def node_sanitize(node):

    if isinstance(node, collections.Mapping):

        result = SanitizedDict()

        key_list = [key for key, _ in node_items(node)]
        for key in sorted(key_list):
            result[key] = node_sanitize(node[key])

        return result

    elif isinstance(node, list):
        return [node_sanitize(elt) for elt in node]

    return node


# node_validate()
#
# Validate the node so as to ensure the user has not specified
# any keys which are unrecognized by buildstream (usually this
# means a typo which would otherwise not trigger an error).
#
# Args:
#    node (dict): A dictionary loaded from YAML
#    valid_keys (list): A list of valid keys for the specified node
#
# Raises:
#    LoadError: In the case that the specified node contained
#               one or more invalid keys
#
def node_validate(node, valid_keys):

    # Probably the fastest way to do this: https://stackoverflow.com/a/23062482
    valid_keys = set(valid_keys)
    valid_keys.add(PROVENANCE_KEY)
    invalid = next((key for key in node if key not in valid_keys), None)

    if invalid:
        provenance = node_get_provenance(node, key=invalid)
        raise LoadError(LoadErrorReason.INVALID_DATA,
                        "{}: Unexpected key: {}".format(provenance, invalid))


# ChainMap
#
# This is a derivative of collections.ChainMap(), but supports
# explicit deletions of keys.
#
# The purpose of this is to create a virtual copy-on-write
# copy of a dictionary, so that mutating it in any way does
# not effect the underlying dictionaries.
#
# collections.ChainMap covers this already mostly, but fails
# to record internal state so as to hide keys which have been
# explicitly deleted.
#
class ChainMap(collections.ChainMap):

    def __init__(self, *maps):
        super().__init__(*maps)
        self.__deletions = set()

    def __getitem__(self, key):

        # Honor deletion state of 'key'
        if key in self.__deletions:
            return self.__missing__(key)

        return super().__getitem__(key)

    def __len__(self):
        return len(set().union(*self.maps) - self.__deletions)

    def __iter__(self):
        return iter(set().union(*self.maps) - self.__deletions)

    def __contains__(self, key):
        if key in self.__deletions:
            return False
        return any(key in m for m in self.maps)

    def __bool__(self):
        # Attempt to preserve 'any' optimization
        any_keys = any(self.maps)

        # Something existed, try again with deletions subtracted
        if any_keys:
            return any(set().union(*self.maps) - self.__deletions)

        return False

    def __setitem__(self, key, value):
        self.__deletions.discard(key)
        super().__setitem__(key, value)

    def __delitem__(self, key):
        if key in self.__deletions:
            raise KeyError('Key was already deleted from this mapping: {!r}'.format(key))

        # Ignore KeyError if it's not in the first map, just save the deletion state
        try:
            super().__delitem__(key)
        except KeyError:
            pass

        # Store deleted state
        self.__deletions.add(key)

    def popitem(self):
        poppable = set().union(*self.maps) - self.__deletions
        for key in poppable:
            return self.pop(key)

        raise KeyError('No keys found.')

    __marker = object()

    def pop(self, key, default=__marker):
        # Reimplement MutableMapping's behavior here
        try:
            value = self[key]
        except KeyError:
            if default is self.__marker:
                raise
            return default
        else:
            del self[key]
            return value

    def clear(self):
        clearable = set().union(*self.maps) - self.__deletions
        for key in clearable:
            del self[key]


def node_chain_copy(source):
    copy = ChainMap({}, source)
    for key, value in source.items():
        if isinstance(value, collections.Mapping):
            copy[key] = node_chain_copy(value)
        elif isinstance(value, list):
            copy[key] = list_chain_copy(value)
        elif isinstance(value, Provenance):
            copy[key] = value.clone()

    return copy


def list_chain_copy(source):
    copy = []
    for item in source:
        if isinstance(item, collections.Mapping):
            copy.append(node_chain_copy(item))
        elif isinstance(item, list):
            copy.append(list_chain_copy(item))
        elif isinstance(item, Provenance):
            copy.append(item.clone())
        else:
            copy.append(item)

    return copy


def node_copy(source):
    copy = {}
    for key, value in source.items():
        if isinstance(value, collections.Mapping):
            copy[key] = node_copy(value)
        elif isinstance(value, list):
            copy[key] = list_copy(value)
        elif isinstance(value, Provenance):
            copy[key] = value.clone()
        else:
            copy[key] = value

    ensure_provenance(copy)

    return copy


def list_copy(source):
    copy = []
    for item in source:
        if isinstance(item, collections.Mapping):
            copy.append(node_copy(item))
        elif isinstance(item, list):
            copy.append(list_copy(item))
        elif isinstance(item, Provenance):
            copy.append(item.clone())
        else:
            copy.append(item)

    return copy


# node_final_assertions()
#
# This must be called on a fully loaded and composited node,
# after all composition has completed.
#
# Args:
#    node (Mapping): The final composited node
#
# Raises:
#    (LoadError): If any assertions fail
#
def node_final_assertions(node):
    for key, value in node_items(node):

        # Assert that list composition directives dont remain, this
        # indicates that the user intended to override a list which
        # never existed in the underlying data
        #
        if key in ['(>)', '(<)', '(=)']:
            provenance = node_get_provenance(node, key)
            raise LoadError(LoadErrorReason.TRAILING_LIST_DIRECTIVE,
                            "{}: Attempt to override non-existing list".format(provenance))

        if isinstance(value, collections.Mapping):
            node_final_assertions(value)
        elif isinstance(value, list):
            list_final_assertions(value)


def list_final_assertions(values):
    for value in values:
        if isinstance(value, collections.Mapping):
            node_final_assertions(value)
        elif isinstance(value, list):
            list_final_assertions(value)