# -*- coding: utf-8 -*- # (c) 2013, Bradley Young # (c) 2017 Ansible Project # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import (absolute_import, division, print_function) __metaclass__ = type DOCUMENTATION = ''' author: Unknown (!UNKNOWN) name: cartesian short_description: returns the cartesian product of lists description: - Takes the input lists and returns a list that represents the product of the input lists. - It is clearer with an example, it turns [1, 2, 3], [a, b] into [1, a], [1, b], [2, a], [2, b], [3, a], [3, b]. You can see the exact syntax in the examples section. options: _raw: description: - a set of lists required: True ''' EXAMPLES = """ - name: Example of the change in the description ansible.builtin.debug: msg: "{{ lookup('community.general.cartesian', [1,2,3], [a, b])}}" - name: loops over the cartesian product of the supplied lists ansible.builtin.debug: msg: "{{item}}" with_community.general.cartesian: - "{{list1}}" - "{{list2}}" - [1,2,3,4,5,6] """ RETURN = """ _list: description: - list of lists composed of elements of the input lists type: list elements: list """ from itertools import product from ansible.errors import AnsibleError from ansible.plugins.lookup import LookupBase from ansible.utils.listify import listify_lookup_plugin_terms class LookupModule(LookupBase): """ Create the cartesian product of lists """ def _lookup_variables(self, terms): """ Turn this: terms == ["1,2,3", "a,b"] into this: terms == [[1,2,3], [a, b]] """ results = [] for x in terms: intermediate = listify_lookup_plugin_terms(x, templar=self._templar, loader=self._loader) results.append(intermediate) return results def run(self, terms, variables=None, **kwargs): terms = self._lookup_variables(terms) my_list = terms[:] if len(my_list) == 0: raise AnsibleError("with_cartesian requires at least one element in each list") return [self._flatten(x) for x in product(*my_list)]