1. Colin Copeland
  2. django-timepiece


django-timepiece / timepiece / tests / management.py

import datetime
from StringIO import StringIO
from dateutil.relativedelta import relativedelta

from django.core.urlresolvers import reverse
from django.contrib.auth.models import User, Permission
from django.core.exceptions import ValidationError

from timepiece.tests.base import TimepieceDataTestCase

from timepiece import models as timepiece
from timepiece import forms as timepiece_forms
from timepiece import utils
from timepiece.management.commands import check_entries

class CheckEntries(TimepieceDataTestCase):
    def setUp(self):
        super(CheckEntries, self).setUp()
        self.default_data = {
            'user': self.user,
            'project': self.project,
            'seconds_paused': 0,
            'status': 'verified',
        self.good_start = datetime.datetime.now() - datetime.timedelta(days=0, hours=8)
        self.good_end = datetime.datetime.now() - datetime.timedelta(days=0)
        self.bad_start = datetime.datetime.now() - datetime.timedelta(days=1, hours=8)
        self.bad_end = datetime.datetime.now() - datetime.timedelta(days=1)
        #Create users for the test
        self.user.first_name = 'first1'
        self.user.last_name = 'last1'
        self.user2.first_name = 'first2'
        self.user2.last_name = 'last2'
        self.all_users = [self.user, self.user2, self.superuser]
        #Create a valid entry for all users on every day since 60 days ago
        self.make_entry_bulk(self.all_users, 60)

    #helper functions           
    def make_entry(self, **kwargs):
        Make a valid or invalid entry

        **kwargs can include: start_time, end_time, valid    
        Without any kwargs, make_entry makes a valid entry. (first time called)
        With valid=False, makes an invalid entry
        start_time and end_time can be specified.
        If start_time is used without end_time, end_time is 10 mintues later
        valid = kwargs.get('valid', True)
        if valid:
            default_start = self.good_start
            default_end = self.good_end
            default_start = self.bad_start
            default_end = self.bad_end
        user = kwargs.get('user', self.user)
        start = kwargs.get('start_time', default_start)
        if 'end_time' in kwargs:
            end = kwargs.get('end_time', default_end)
            if 'start_time' in kwargs:
                end = start + relativedelta(minutes=10)
                end = default_end
        data = self.default_data
            'user': user,
            'start_time': start,
            'end_time': end,

    def make_entry_bulk(self, users, days, *args, **kwargs):
        Create entries for users listed, from n days ago (but not today)
        make_entry_bulk(users_list, num_days)
        #Test cases may create overlapping entries later
        for user in users:
            self.default_data.update({'user': user})
            #Range uses 1 so that good_start/good_end use today as valid times.
            for day in range(1, days + 1):
                    'start_time': datetime.datetime.now() - \
                        datetime.timedelta(days=day, minutes=1),
                    'end_time': datetime.datetime.now() - \

    def testFindStart(self):
        With various kwargs, find_start should return the correct date
        #Establish some datetimes
        now = datetime.datetime.now()
        today = now - relativedelta(
            hour=0, minute=0, second=0, microsecond=0)
        last_billing = today - relativedelta(months=1, day=1)
        yesterday = today - relativedelta(days=1)
        ten_days_ago = today - relativedelta(days=10)
        thisweek = utils.get_week_start(today)
        thismonth = today - relativedelta(day=1)
        thisyear = today - relativedelta(month=1, day=1)
        #Use command flags to obtain datetimes
        start_default = check_entries.Command().find_start()
        start_yesterday = check_entries.Command().find_start(days=1)
        start_ten_days_ago = check_entries.Command().find_start(days=10)
        start_of_week = check_entries.Command().find_start(week=True)
        start_of_month = check_entries.Command().find_start(month=True)
        start_of_year = check_entries.Command().find_start(year=True)
        #assure the returned datetimes are correct
        self.assertEqual(start_default, last_billing)
        self.assertEqual(start_yesterday, yesterday)
        self.assertEqual(start_ten_days_ago, ten_days_ago)
        self.assertEqual(start_of_week, thisweek)
        self.assertEqual(start_of_month, thismonth)
        self.assertEqual(start_of_year, thisyear)

    def testFindPeople(self):
        With args, find_people should search and return those user objects
        Without args, find_people should return all user objects
        #Find one person by icontains first or last name, return all if no args
        people1 = check_entries.Command().find_people('firsT1')
        people2 = check_entries.Command().find_people('LasT2')
        all_people = check_entries.Command().find_people()
        #obtain instances from the querysets
        person1 = people1.get(pk=self.user.pk)
        person2 = people2.get(pk=self.user2.pk)
        all_1 = all_people.get(pk=self.user.pk)
        all_2 = all_people.get(pk=self.user2.pk)
        all_3 = all_people.get(pk=self.superuser.pk)
        self.assertEqual(people1.count(), 1)
        self.assertEqual(people2.count(), 1)
        self.assertEqual(all_people.count(), 3)
        self.assertEqual(person1, self.user)
        self.assertEqual(person2, self.user2)
        self.assertEqual(all_1, person1)
        self.assertEqual(all_2, person2)
        self.assertEqual(all_3, self.superuser)

    def testFindEntries(self):
        Given a list of users and a starting point, entries should generate a
        list of all entries for each user from that time until now.
        start = check_entries.Command().find_start()
        all_people = check_entries.Command().find_people()
        entries = check_entries.Command().find_entries(all_people, start)
        #Determine the number of days checked
        today = datetime.datetime.now() - \
            relativedelta(hour=0, minute=0, second=0, microsecond=0)
        diff = today - start
        days_checked = diff.days
        total_entries = 0
        while True:
                person_entries = entries.next()
                for entry in person_entries:
                    total_entries += 1
            except StopIteration:
                #Verify that every entry from the start point was returned
                self.assertEqual(total_entries, days_checked * len(self.all_users))

    def testCheckEntry(self):
        Given lists of entries from users, check_entry should return all 
        overlapping entries.
        start = check_entries.Command().find_start()
        all_people = check_entries.Command().find_people()
        entries = check_entries.Command().find_entries(all_people, start)
        total_overlaps = 0
        #make some bad entries
        num_days = 5
        self.make_entry_bulk(self.all_users, num_days)
        while True:
                person_entries = entries.next()
                user_overlaps = check_entries.Command().check_entry(
                    person_entries, verbosity=0)
                total_overlaps += user_overlaps
            except StopIteration:
                    total_overlaps, num_days * len(self.all_users) * 2)

    def testCheckOverlap(self):
        With every possbile type of overlap, check_overlap should return True
        With valid entries, check_overlap should return False
        #define start and end times relative to a valid entry
        a_start_before = self.good_start - datetime.timedelta(minutes=2)
        a_start_inside = self.good_end - datetime.timedelta(minutes=2)
        a_end_inside = self.good_start + datetime.timedelta(minutes=2)
        a_end_after = self.good_end + datetime.timedelta(minutes=2)
        #Create a valid entry for today

        #Create a bad entry starting inside the valid one
        self.make_entry(start_time=a_start_inside, end_time=a_end_after)
        #Create a bad entry ending inside the valid one
        self.make_entry(start_time=a_start_before, end_time=a_end_inside)
        #Create a bad entry that starts and ends inside a valid one
        self.make_entry(start_time=a_start_inside, end_time=a_end_inside)
        #Bump the day back one so this entry only conflicts with a valid entry
        a_start_before -= relativedelta(days=1)
        a_end_after -= relativedelta(days=1)
        #Create a bad entry that starts and ends outside a valid one
        self.make_entry(start_time=a_start_before, end_time=a_end_after)
        entries = timepiece.Entry.objects.filter(user=self.user)
        user_total_overlaps = 0
        for index_a, entry_a in enumerate(entries):
            for index_b in range(index_a, len(entries)):
                entry_b = entries[index_b]
                if entry_a.check_overlap(entry_b):
                    user_total_overlaps += 1
        self.assertEqual(user_total_overlaps, 4)