#!/usr/bin/env python3 ############################################################################### # # Copyright 2016 - 2020, Thomas Lauf, Paul Beckingham, Federico Hernandez. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS # OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL # THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE # SOFTWARE. # # https://www.opensource.org/licenses/mit-license.php # ############################################################################### import os import sys import unittest from datetime import datetime, timedelta # Ensure python finds the local simpletap module sys.path.append(os.path.dirname(os.path.abspath(__file__))) from basetest import Timew, TestCase class TestMove(TestCase): def setUp(self): """Executed before each test in the class""" self.t = Timew() def test_move_closed_forwards(self): """Move a closed interval forwards in time""" self.t("track 2016-01-01T00:00:00 - 2016-01-01T01:00:00 foo") code, out, err = self.t("move @1 2016-01-01T02:00:00") self.assertIn('Moved @1 to 2016-01-01T02:00:00', out) j = self.t.export() self.assertEqual(len(j), 1) self.assertClosedInterval(j[0], expectedTags=["foo"]) def test_move_closed_backwards(self): """Move a closed interval backwards in time""" self.t("track 2016-01-01T04:00:00 - 2016-01-01T05:00:00 foo") code, out, err = self.t("move @1 2016-01-01T03:00:00") self.assertIn('Moved @1 to 2016-01-01T03:00:00', out) j = self.t.export() self.assertEqual(len(j), 1) self.assertClosedInterval(j[0], expectedTags=["foo"]) def test_move_open_backwards_to_specific_time(self): """Move an open interval backwards to specific time.""" one_hour_before = datetime.now() - timedelta(hours=1) self.t("start 5mins ago foo") code, out, err = self.t("move @1 {:%Y-%m-%dT%H}:01:23".format(one_hour_before)) self.assertRegex(out, "Moved @1 to {:%Y-%m-%dT%H}:01:23".format(one_hour_before)) j = self.t.export() self.assertEqual(len(j), 1) self.assertOpenInterval(j[0], expectedTags=["foo"]) def test_move_open_backwards(self): """Move an open interval backwards in time""" now = datetime.now() five_hours_before = now - timedelta(hours=5) now_utc = now.utcnow() five_hours_before_utc = now_utc - timedelta(hours=5) two_hours_before_utc = now_utc - timedelta(hours=2) self.t("start {:%Y-%m-%dT%H:%M:%S}Z foo".format(two_hours_before_utc)) code, out, err = self.t("move @1 {:%Y-%m-%dT%H:%M:%S}Z".format(five_hours_before_utc)) self.assertRegex(out, 'Moved @1 to {:%Y-%m-%dT%H:%M:%S}'.format(five_hours_before)) j = self.t.export() self.assertEqual(len(j), 1) self.assertOpenInterval(j[0], expectedStart="{:%Y%m%dT%H%M%S}Z".format(five_hours_before_utc), expectedTags=["foo"]) def test_move_open_forwards(self): """Move an open interval forwards in time""" now = datetime.now() two_hours_before = now - timedelta(hours=2) now_utc = now.utcnow() five_hours_before_utc = now_utc - timedelta(hours=5) two_hours_before_utc = now_utc - timedelta(hours=2) self.t("start {:%Y-%m-%dT%H:%M:%S}Z foo".format(five_hours_before_utc)) code, out, err = self.t("move @1 {:%Y-%m-%dT%H:%M:%S}Z".format(two_hours_before_utc)) self.assertRegex(out, 'Moved @1 to {:%Y-%m-%dT%H:%M:%S}'.format(two_hours_before)) j = self.t.export() self.assertEqual(len(j), 1) self.assertOpenInterval(j[0], expectedStart="{:%Y%m%dT%H%M%S}Z".format(two_hours_before_utc), expectedTags=["foo"]) def test_move_interval_over_another_with_adjust(self): """Move an interval over another with :adjust""" self.t("track 20170301T110000Z - 20170301T140000Z foo") self.t("track 20170301T150000Z - 20170301T160000Z bar") code, out, err = self.t("move @1 20170301T133000Z :adjust") self.assertRegex(out, 'Moved @1 to 2017-03-01T\d\d:\d\d:\d\d\n') j = self.t.export() self.assertEqual(len(j), 2) self.assertClosedInterval(j[0], expectedStart="20170301T110000Z", expectedEnd="20170301T133000Z", expectedTags=["foo"]) self.assertClosedInterval(j[1], expectedStart="20170301T133000Z", expectedEnd="20170301T143000Z", expectedTags=["bar"]) def test_move_synthetic_interval_into_exclusion(self): """Move a synthetic interval into exclusion""" now = datetime.now() three_hours_before = now - timedelta(hours=3) four_hours_before = now - timedelta(hours=4) now_utc = now.utcnow() three_hours_before_utc = now_utc - timedelta(hours=3) four_hours_before_utc = now_utc - timedelta(hours=4) five_hours_before_utc = now_utc - timedelta(hours=5) self.t.configure_exclusions((four_hours_before.time(), three_hours_before.time())) self.t("start {:%Y-%m-%dT%H:%M:%S}Z foo".format(five_hours_before_utc)) self.t("move @2 {:%Y-%m-%dT%H:%M:%S}Z".format(five_hours_before_utc + timedelta(minutes=20))) j = self.t.export() self.assertEqual(len(j), 2) self.assertClosedInterval(j[0], expectedStart=five_hours_before_utc + timedelta(minutes=20), expectedEnd=four_hours_before_utc + timedelta(minutes=20), expectedTags=[], description="moved interval") self.assertOpenInterval(j[1], expectedStart=three_hours_before_utc, expectedTags=[], description="unmodified interval") def test_move_synthetic_interval_away_from_exclusion(self): """Move a synthetic interval away from exclusion""" now = datetime.now() three_hours_before = now - timedelta(hours=3) four_hours_before = now - timedelta(hours=4) now_utc = now.utcnow() three_hours_before_utc = now_utc - timedelta(hours=3) four_hours_before_utc = now_utc - timedelta(hours=4) five_hours_before_utc = now_utc - timedelta(hours=5) self.t.configure_exclusions((four_hours_before.time(), three_hours_before.time())) self.t("start {:%Y-%m-%dT%H:%M:%S}Z foo".format(five_hours_before_utc)) self.t("move @2 {:%Y-%m-%dT%H:%M:%S}Z".format(five_hours_before_utc - timedelta(minutes=20))) j = self.t.export() self.assertEqual(len(j), 2) self.assertClosedInterval(j[0], expectedStart=five_hours_before_utc - timedelta(minutes=20), expectedEnd=four_hours_before_utc - timedelta(minutes=20), expectedTags=[], description="moved interval") self.assertOpenInterval(j[1], expectedStart=three_hours_before_utc, expectedTags=[], description="unmodified interval") def test_move_synthetic_interval_into_exclusion(self): """timew move should work with both synthetic and non-synethic intervals in database""" now = datetime.now() three_hours_before = now - timedelta(hours=3) four_hours_before = now - timedelta(hours=4) now_utc = now.utcnow() day_before = now_utc - timedelta(days=1) three_hours_before_utc = now_utc - timedelta(hours=3) four_hours_before_utc = now_utc - timedelta(hours=4) five_hours_before_utc = now_utc - timedelta(hours=5) self.t.configure_exclusions((four_hours_before.time(), three_hours_before.time())) # Place a non-synthetic interval in the history self.t("track {:%Y-%m-%dT%H:%M:%S}Z - {:%Y-%m-%dT%H:%M:%S}Z bar".format(day_before, day_before + timedelta(minutes=30))) # Now create an open interval that crosses the exlusions added # previously, which will result in synthetic intervals self.t("start {:%Y-%m-%dT%H:%M:%S}Z foo".format(five_hours_before_utc)) j = self.t.export() self.assertEqual(len(j), 3) self.assertClosedInterval(j[0], expectedStart=day_before, expectedEnd=day_before + timedelta(minutes=30), expectedTags=[], description="unmodified interval") self.assertClosedInterval(j[1], expectedStart=five_hours_before_utc, expectedEnd=four_hours_before_utc, expectedTags=[], description="unmodified interval") self.assertOpenInterval(j[2], expectedStart=three_hours_before_utc, expectedTags=[], description="unmodified interval") # First move the non-synthetic one self.t("move @3 {:%Y-%m-%dT%H:%M:%S}Z".format(day_before + timedelta(minutes=30))) j = self.t.export() self.assertEqual(len(j), 3) self.assertClosedInterval(j[0], expectedStart=day_before + timedelta(minutes=30), expectedEnd=day_before + timedelta(hours=1), expectedTags=[], description="moved interval") self.assertClosedInterval(j[1], expectedStart=five_hours_before_utc, expectedEnd=four_hours_before_utc, expectedTags=[], description="unmodified interval") self.assertOpenInterval(j[2], expectedStart=three_hours_before_utc, expectedTags=[], description="unmodified interval") # Then move the synthetic one self.t("move @2 {:%Y-%m-%dT%H:%M:%S}Z".format(five_hours_before_utc + timedelta(minutes=20))) j = self.t.export() self.assertEqual(len(j), 3) self.assertClosedInterval(j[0], expectedStart=day_before + timedelta(minutes=30), expectedEnd=day_before + timedelta(hours=1), expectedTags=[], description="non-synthetic interval") self.assertClosedInterval(j[1], expectedStart=five_hours_before_utc + timedelta(minutes=20), expectedEnd=four_hours_before_utc + timedelta(minutes=20), expectedTags=[], description="moved interval") self.assertOpenInterval(j[2], expectedStart=three_hours_before_utc, expectedTags=[], description="unmodified interval") def test_move_interval_to_enclose_a_month_border(self): """Move an interval to enclose a month border""" self.t("track 20180831T180000 - 20180831T230000 foo") self.t("move @1 20180831T220000") j = self.t.export() self.assertEqual(len(j), 1) self.assertClosedInterval(j[0]) # TODO Add :adjust tests. if __name__ == "__main__": from simpletap import TAPTestRunner unittest.main(testRunner=TAPTestRunner())