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"""
Alex Martelli's soulution for recursive dict update from
http://stackoverflow.com/a/3233356
"""

import copy
import logging
from collections.abc import Mapping

import salt.utils.data
from salt.defaults import DEFAULT_TARGET_DELIM
from salt.exceptions import SaltInvocationError
from salt.utils.decorators.jinja import jinja_filter
from salt.utils.odict import OrderedDict

log = logging.getLogger(__name__)


def update(dest, upd, recursive_update=True, merge_lists=False):
    """
    Recursive version of the default dict.update

    Merges upd recursively into dest

    If recursive_update=False, will use the classic dict.update, or fall back
    on a manual merge (helpful for non-dict types like FunctionWrapper)

    If merge_lists=True, will aggregate list object types instead of replace.
    The list in ``upd`` is added to the list in ``dest``, so the resulting list
    is ``dest[key] + upd[key]``. This behavior is only activated when
    recursive_update=True. By default merge_lists=False.

    .. versionchanged:: 2016.11.6
        When merging lists, duplicate values are removed. Values already
        present in the ``dest`` list are not added from the ``upd`` list.
    """
    if (not isinstance(dest, Mapping)) or (not isinstance(upd, Mapping)):
        raise TypeError("Cannot update using non-dict types in dictupdate.update()")
    updkeys = list(upd.keys())
    if not set(list(dest.keys())) & set(updkeys):
        recursive_update = False
    if recursive_update:
        for key in updkeys:
            val = upd[key]
            try:
                dest_subkey = dest.get(key, None)
            except AttributeError:
                dest_subkey = None
            if isinstance(dest_subkey, Mapping) and isinstance(val, Mapping):
                ret = update(dest_subkey, val, merge_lists=merge_lists)
                dest[key] = ret
            elif isinstance(dest_subkey, list) and isinstance(val, list):
                if merge_lists:
                    merged = copy.deepcopy(dest_subkey)
                    merged.extend([x for x in val if x not in merged])
                    dest[key] = merged
                else:
                    dest[key] = upd[key]
            else:
                dest[key] = upd[key]
        return dest
    for k in upd:
        dest[k] = upd[k]
    return dest


def merge_list(obj_a, obj_b):
    ret = {}
    for key, val in obj_a.items():
        if key in obj_b:
            ret[key] = [val, obj_b[key]]
        else:
            ret[key] = val
    return ret


def merge_recurse(obj_a, obj_b, merge_lists=False):
    copied = copy.deepcopy(obj_a)
    return update(copied, obj_b, merge_lists=merge_lists)


def merge_aggregate(obj_a, obj_b):
    from salt.serializers.yamlex import merge_recursive as _yamlex_merge_recursive

    return _yamlex_merge_recursive(obj_a, obj_b, level=1)


def merge_overwrite(obj_a, obj_b, merge_lists=False):
    for obj in obj_b:
        if obj in obj_a:
            obj_a[obj] = obj_b[obj]
    return merge_recurse(obj_a, obj_b, merge_lists=merge_lists)


def merge(obj_a, obj_b, strategy="smart", renderer="yaml", merge_lists=False):
    if strategy == "smart":
        if renderer.split("|")[-1] == "yamlex" or renderer.startswith("yamlex_"):
            strategy = "aggregate"
        else:
            strategy = "recurse"

    if strategy == "list":
        merged = merge_list(obj_a, obj_b)
    elif strategy == "recurse":
        merged = merge_recurse(obj_a, obj_b, merge_lists)
    elif strategy == "aggregate":
        #: level = 1 merge at least root data
        merged = merge_aggregate(obj_a, obj_b)
    elif strategy == "overwrite":
        merged = merge_overwrite(obj_a, obj_b, merge_lists)
    elif strategy == "none":
        # If we do not want to merge, there is only one pillar passed, so we can safely use the default recurse,
        # we just do not want to log an error
        merged = merge_recurse(obj_a, obj_b)
    else:
        log.warning("Unknown merging strategy '%s', fallback to recurse", strategy)
        merged = merge_recurse(obj_a, obj_b)

    return merged


def ensure_dict_key(in_dict, keys, delimiter=DEFAULT_TARGET_DELIM, ordered_dict=False):
    """
    Ensures that in_dict contains the series of recursive keys defined in keys.

    :param dict in_dict: The dict to work with.
    :param str keys: The delimited string with one or more keys.
    :param str delimiter: The delimiter to use in `keys`. Defaults to ':'.
    :param bool ordered_dict: Create OrderedDicts if keys are missing.
                              Default: create regular dicts.
    :rtype: dict
    :return: Returns the modified in-place `in_dict`.
    """
    if delimiter in keys:
        a_keys = keys.split(delimiter)
    else:
        a_keys = [keys]
    dict_pointer = in_dict
    while a_keys:
        current_key = a_keys.pop(0)
        if current_key not in dict_pointer or not isinstance(
            dict_pointer[current_key], dict
        ):
            dict_pointer[current_key] = OrderedDict() if ordered_dict else {}
        dict_pointer = dict_pointer[current_key]
    return in_dict


def _dict_rpartition(in_dict, keys, delimiter=DEFAULT_TARGET_DELIM, ordered_dict=False):
    """
    Helper function to:
    - Ensure all but the last key in `keys` exist recursively in `in_dict`.
    - Return the dict at the one-to-last key, and the last key

    :param dict in_dict: The dict to work with.
    :param str keys: The delimited string with one or more keys.
    :param str delimiter: The delimiter to use in `keys`. Defaults to ':'.
    :param bool ordered_dict: Create OrderedDicts if keys are missing.
                              Default: create regular dicts.
    :rtype: tuple(dict, str)
    :return: (The dict at the one-to-last key, the last key)
    """
    if delimiter in keys:
        all_but_last_keys, _, last_key = keys.rpartition(delimiter)
        ensure_dict_key(
            in_dict, all_but_last_keys, delimiter=delimiter, ordered_dict=ordered_dict
        )
        dict_pointer = salt.utils.data.traverse_dict(
            in_dict, all_but_last_keys, default=None, delimiter=delimiter
        )
    else:
        dict_pointer = in_dict
        last_key = keys
    return dict_pointer, last_key


@jinja_filter("set_dict_key_value")
def set_dict_key_value(
    in_dict, keys, value, delimiter=DEFAULT_TARGET_DELIM, ordered_dict=False
):
    """
    Ensures that in_dict contains the series of recursive keys defined in keys.
    Also sets whatever is at the end of `in_dict` traversed with `keys` to `value`.

    :param dict in_dict: The dictionary to work with
    :param str keys: The delimited string with one or more keys.
    :param any value: The value to assign to the nested dict-key.
    :param str delimiter: The delimiter to use in `keys`. Defaults to ':'.
    :param bool ordered_dict: Create OrderedDicts if keys are missing.
                              Default: create regular dicts.
    :rtype: dict
    :return: Returns the modified in-place `in_dict`.
    """
    dict_pointer, last_key = _dict_rpartition(
        in_dict, keys, delimiter=delimiter, ordered_dict=ordered_dict
    )
    dict_pointer[last_key] = value
    return in_dict


@jinja_filter("update_dict_key_value")
def update_dict_key_value(
    in_dict, keys, value, delimiter=DEFAULT_TARGET_DELIM, ordered_dict=False
):
    """
    Ensures that in_dict contains the series of recursive keys defined in keys.
    Also updates the dict, that is at the end of `in_dict` traversed with `keys`,
    with `value`.

    :param dict in_dict: The dictionary to work with
    :param str keys: The delimited string with one or more keys.
    :param any value: The value to update the nested dict-key with.
    :param str delimiter: The delimiter to use in `keys`. Defaults to ':'.
    :param bool ordered_dict: Create OrderedDicts if keys are missing.
                              Default: create regular dicts.
    :rtype: dict
    :return: Returns the modified in-place `in_dict`.
    """
    dict_pointer, last_key = _dict_rpartition(
        in_dict, keys, delimiter=delimiter, ordered_dict=ordered_dict
    )
    if last_key not in dict_pointer or dict_pointer[last_key] is None:
        dict_pointer[last_key] = OrderedDict() if ordered_dict else {}
    try:
        dict_pointer[last_key].update(value)
    except AttributeError:
        raise SaltInvocationError(
            "The last key contains a {}, which cannot update.".format(
                type(dict_pointer[last_key])
            )
        )
    except (ValueError, TypeError):
        raise SaltInvocationError(
            "Cannot update {} with a {}.".format(
                type(dict_pointer[last_key]), type(value)
            )
        )
    return in_dict


@jinja_filter("append_dict_key_value")
def append_dict_key_value(
    in_dict, keys, value, delimiter=DEFAULT_TARGET_DELIM, ordered_dict=False
):
    """
    Ensures that in_dict contains the series of recursive keys defined in keys.
    Also appends `value` to the list that is at the end of `in_dict` traversed
    with `keys`.

    :param dict in_dict: The dictionary to work with
    :param str keys: The delimited string with one or more keys.
    :param any value: The value to append to the nested dict-key.
    :param str delimiter: The delimiter to use in `keys`. Defaults to ':'.
    :param bool ordered_dict: Create OrderedDicts if keys are missing.
                              Default: create regular dicts.
    :rtype: dict
    :return: Returns the modified in-place `in_dict`.
    """
    dict_pointer, last_key = _dict_rpartition(
        in_dict, keys, delimiter=delimiter, ordered_dict=ordered_dict
    )
    if last_key not in dict_pointer or dict_pointer[last_key] is None:
        dict_pointer[last_key] = []
    try:
        dict_pointer[last_key].append(value)
    except AttributeError:
        raise SaltInvocationError(
            "The last key contains a {}, which cannot append.".format(
                type(dict_pointer[last_key])
            )
        )
    return in_dict


@jinja_filter("extend_dict_key_value")
def extend_dict_key_value(
    in_dict, keys, value, delimiter=DEFAULT_TARGET_DELIM, ordered_dict=False
):
    """
    Ensures that in_dict contains the series of recursive keys defined in keys.
    Also extends the list, that is at the end of `in_dict` traversed with `keys`,
    with `value`.

    :param dict in_dict: The dictionary to work with
    :param str keys: The delimited string with one or more keys.
    :param any value: The value to extend the nested dict-key with.
    :param str delimiter: The delimiter to use in `keys`. Defaults to ':'.
    :param bool ordered_dict: Create OrderedDicts if keys are missing.
                              Default: create regular dicts.
    :rtype: dict
    :return: Returns the modified in-place `in_dict`.
    """
    dict_pointer, last_key = _dict_rpartition(
        in_dict, keys, delimiter=delimiter, ordered_dict=ordered_dict
    )
    if last_key not in dict_pointer or dict_pointer[last_key] is None:
        dict_pointer[last_key] = []
    try:
        dict_pointer[last_key].extend(value)
    except AttributeError:
        raise SaltInvocationError(
            "The last key contains a {}, which cannot extend.".format(
                type(dict_pointer[last_key])
            )
        )
    except TypeError:
        raise SaltInvocationError(
            "Cannot extend {} with a {}.".format(
                type(dict_pointer[last_key]), type(value)
            )
        )
    return in_dict

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