From d6b35abc39171690e9adedc22c186ed80d8d854c Mon Sep 17 00:00:00 2001 From: Justin Santa Barbara Date: Wed, 23 Feb 2011 14:07:08 -0800 Subject: [PATCH] Rename minixpath_select to get_from_path --- nova/tests/test_minixpath.py | 177 ----------------------------------- 1 file changed, 177 deletions(-) delete mode 100644 nova/tests/test_minixpath.py diff --git a/nova/tests/test_minixpath.py b/nova/tests/test_minixpath.py deleted file mode 100644 index cc4a35ef..00000000 --- a/nova/tests/test_minixpath.py +++ /dev/null @@ -1,177 +0,0 @@ -# vim: tabstop=4 shiftwidth=4 softtabstop=4 - -# Copyright 2011 Justin Santa Barbara -# -# Licensed under the Apache License, Version 2.0 (the "License"); you may -# not use this file except in compliance with the License. You may obtain -# a copy of the License at -# -# http://www.apache.org/licenses/LICENSE-2.0 -# -# Unless required by applicable law or agreed to in writing, software -# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT -# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the -# License for the specific language governing permissions and limitations -# under the License. - -from nova import test -from nova import utils -from nova import exception - - -class MiniXPathTestCase(test.TestCase): - def test_tolerates_nones(self): - xp = utils.minixpath_select - - input = [] - self.assertEquals([], xp(input, "a")) - self.assertEquals([], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [None] - self.assertEquals([], xp(input, "a")) - self.assertEquals([], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': None}] - self.assertEquals([], xp(input, "a")) - self.assertEquals([], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': None}}] - self.assertEquals([{'b': None}], xp(input, "a")) - self.assertEquals([], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': {'c': None}}}] - self.assertEquals([{'b': {'c': None}}], xp(input, "a")) - self.assertEquals([{'c': None}], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': {'c': None}}}, {'a': None}] - self.assertEquals([{'b': {'c': None}}], xp(input, "a")) - self.assertEquals([{'c': None}], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': {'c': None}}}, {'a': {'b': None}}] - self.assertEquals([{'b': {'c': None}}, {'b': None}], xp(input, "a")) - self.assertEquals([{'c': None}], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - def test_does_select(self): - xp = utils.minixpath_select - - input = [{'a': 'a_1'}] - self.assertEquals(['a_1'], xp(input, "a")) - self.assertEquals([], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': 'b_1'}}] - self.assertEquals([{'b': 'b_1'}], xp(input, "a")) - self.assertEquals(['b_1'], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': {'c': 'c_1'}}}] - self.assertEquals([{'b': {'c': 'c_1'}}], xp(input, "a")) - self.assertEquals([{'c': 'c_1'}], xp(input, "a/b")) - self.assertEquals(['c_1'], xp(input, "a/b/c")) - - input = [{'a': {'b': {'c': 'c_1'}}}, {'a': None}] - self.assertEquals([{'b': {'c': 'c_1'}}], - xp(input, "a")) - self.assertEquals([{'c': 'c_1'}], xp(input, "a/b")) - self.assertEquals(['c_1'], xp(input, "a/b/c")) - - input = [{'a': {'b': {'c': 'c_1'}}}, - {'a': {'b': None}}] - self.assertEquals([{'b': {'c': 'c_1'}}, {'b': None}], - xp(input, "a")) - self.assertEquals([{'c': 'c_1'}], xp(input, "a/b")) - self.assertEquals(['c_1'], xp(input, "a/b/c")) - - input = [{'a': {'b': {'c': 'c_1'}}}, - {'a': {'b': {'c': 'c_2'}}}] - self.assertEquals([{'b': {'c': 'c_1'}}, {'b': {'c': 'c_2'}}], - xp(input, "a")) - self.assertEquals([{'c': 'c_1'}, {'c': 'c_2'}], - xp(input, "a/b")) - self.assertEquals(['c_1', 'c_2'], xp(input, "a/b/c")) - - self.assertEquals([], xp(input, "a/b/c/d")) - self.assertEquals([], xp(input, "c/a/b/d")) - self.assertEquals([], xp(input, "i/r/t")) - - def test_flattens_lists(self): - xp = utils.minixpath_select - - input = [{'a': [1, 2, 3]}] - self.assertEquals([1, 2, 3], xp(input, "a")) - self.assertEquals([], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': [1, 2, 3]}}] - self.assertEquals([{'b': [1, 2, 3]}], xp(input, "a")) - self.assertEquals([1, 2, 3], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': {'b': [1, 2, 3]}}, {'a': {'b': [4, 5, 6]}}] - self.assertEquals([1, 2, 3, 4, 5, 6], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': [{'b': [1, 2, 3]}, {'b': [4, 5, 6]}]}] - self.assertEquals([1, 2, 3, 4, 5, 6], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = [{'a': [1, 2, {'b': 'b_1'}]}] - self.assertEquals([1, 2, {'b': 'b_1'}], xp(input, "a")) - self.assertEquals(['b_1'], xp(input, "a/b")) - - def test_bad_xpath(self): - xp = utils.minixpath_select - - self.assertRaises(exception.Error, xp, [], None) - self.assertRaises(exception.Error, xp, [], "") - self.assertRaises(exception.Error, xp, [], "/") - self.assertRaises(exception.Error, xp, [], "/a") - self.assertRaises(exception.Error, xp, [], "/a/") - self.assertRaises(exception.Error, xp, [], "//") - self.assertRaises(exception.Error, xp, [], "//a") - self.assertRaises(exception.Error, xp, [], "a//a") - self.assertRaises(exception.Error, xp, [], "a//a/") - self.assertRaises(exception.Error, xp, [], "a/a/") - - def test_real_failure1(self): - # Real world failure case... - # We weren't coping when the input was a Dictionary instead of a List - # This led to test_accepts_dictionaries - xp = utils.minixpath_select - - inst = {'fixed_ip': {'floating_ips': [{'address': '1.2.3.4'}], - 'address': '192.168.0.3'}, - 'hostname': ''} - - private_ips = xp(inst, 'fixed_ip/address') - public_ips = xp(inst, 'fixed_ip/floating_ips/address') - self.assertEquals(['192.168.0.3'], private_ips) - self.assertEquals(['1.2.3.4'], public_ips) - - def test_accepts_dictionaries(self): - xp = utils.minixpath_select - - input = {'a': [1, 2, 3]} - self.assertEquals([1, 2, 3], xp(input, "a")) - self.assertEquals([], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = {'a': {'b': [1, 2, 3]}} - self.assertEquals([{'b': [1, 2, 3]}], xp(input, "a")) - self.assertEquals([1, 2, 3], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = {'a': [{'b': [1, 2, 3]}, {'b': [4, 5, 6]}]} - self.assertEquals([1, 2, 3, 4, 5, 6], xp(input, "a/b")) - self.assertEquals([], xp(input, "a/b/c")) - - input = {'a': [1, 2, {'b': 'b_1'}]} - self.assertEquals([1, 2, {'b': 'b_1'}], xp(input, "a")) - self.assertEquals(['b_1'], xp(input, "a/b"))