Пример #1
0
def test_finding_totals():
    rab = Rabbit()
    assert rab.males == 1
    assert rab.females == 1
    rab.list.append({'Males': 2, 'Females': 1})
    rab.calc_gender_totals()
    assert rab.males == 3
    assert rab.females == 2
def test_assign_gender():
    roger = Rabbit()
    # Given inputs for testing
    roger.list = [{'Males': 1, 'Females': 1}, {'Males': 0, 'Females': 0},
                              {'Males': 0, 'Females': 0}, {'Males': 2, 'Females': 3},
                              {'Males': 0, 'Females': 0}]
    roger.new_babies = 12
    roger.assign_genders()
    # Test to ensure previous data has not been modified
    assert roger.list[0:-1] == [{'Males': 1, 'Females': 1}, {'Males': 0, 'Females': 0},
                                      {'Males': 0, 'Females': 0}, {'Males': 2, 'Females': 3},
                                      {'Males': 0, 'Females': 0}]
    # Tests to check assigned genders are equal to number of babies
    assert 0 <= roger.list[-1]['Males'] <= 12
    assert roger.list[-1]['Males'] + roger.list[-1]['Females'] == 12
    # Tests to ensure that outputs are not none
    roger.assign_genders()
    assert roger.list[-1]['Males'] is not None
    assert roger.list[-1]['Females'] is not None
Пример #3
0
def test_birth_children():
    test = Rabbit()
    assert test.pregnancies == [
        0, 1
    ]  # Assert assumes that variable is already set as that number
    test.birth_children()
    assert test.new_babies == 0
    test.pregnancies = [0, 5]
    test.birth_children()
    assert test.new_babies == 0
    test.pregnancies = [7, 0]
    test.birth_children()
    assert 7 <= test.new_babies <= 98
    test.pregnancies = [10, 8]
    test.birth_children()
    assert 10 <= test.new_babies <= 140
def test_calculate_total_pop():
    r = Rabbit()
    r.list = r.init_list()
    assert r.calculate_total_pop() == 2
    r.list = [{"Males": 0, "Females": 0}]
    assert r.calculate_total_pop() == 0
    r.list = [{"Males": 1, "Females": 1}]
    assert r.calculate_total_pop() == 2
    r.list = [{"Males": 10, "Females": 9}, {"Males": 17, "Females": 22}]
    assert r.calculate_total_pop() == 58
from rabbit_project.classes.rabbit import Rabbit
from scipy import stats

test = Rabbit()

def test_pregnant_rabbits():
<<<<<<< HEAD:rabbit_project/tests/test_pregnant_rabbits.py
    assert test.males == 1
    assert test.females == 1
    assert test.pregnancies == [0, 1]
    assert stats.binom_test(test.pregnancies, test.females, 0.5, 'two-sided')

=======
    test.pregnant_rabbits()
    assert test.pregnancies == [0, 1, 0]

    test.males = 60
    test.females = 60
    test.list = []
    for each in range(0, 60):
        test.list.append({"Males": 1, "Females": 1})
    test.pregnancies = [0, 0]
    test.pregnant_rabbits()
    assert test.pregnancies == [0, 0, 58]

    test.males = 60
    test.females = 600
    test.list = []
    for each in range(0, 60):
        test.list.append({"Males": 1, "Females": 10})
    test.pregnancies = [0, 0]
import time as t
from rabbit_project.classes.rabbit import Rabbit

rabbit_population_model = Rabbit()


def time_passing(final_month):
    month = 1
    while month <= final_month:
        print(f"We are in month {month}")
        rabbit_one_month()
        print(f"Population: {rabbit_population_model.total_population}")
        print(f"Deaths: {rabbit_population_model.deaths_total}")
        print(f"Males: {rabbit_population_model.males}")
        print(f"Females: {rabbit_population_model.females}\n")
        t.sleep(1)
        month += 1


def rabbit_one_month():
    rabbit_population_model.pregnant_rabbits()
    rabbit_population_model.birth_children()
    rabbit_population_model.assign_genders()
    rabbit_population_model.calc_gender_totals()
    rabbit_population_model.rabbits_dead()
    rabbit_population_model.calculate_total_pop()

def test_initial_breeding_pair():
    rab = Rabbit()
    assert rab.males == 1
    assert rab.females == 1
from rabbit_project.classes.rabbit import Rabbit

test = Rabbit()


def test_rabbits_dead():
    assert test.list == test.init_list()
    test.rabbits_dead()
    assert test.deaths_total == 0  # Checking deaths from initial list

    test.list = []
    for i in range(0, 60):
        test.list.append({"Males": 3, "Females": 9})
    test.rabbits_dead()
    assert test.deaths_total == 12  # Checking total deaths from a made up list
    assert len(
        test.list) == 59  # Checking the list has been shortened by 1 element

    test.list = []
    for i in range(0, 60):
        test.list.append({"Males": 0, "Females": 4})
    test.rabbits_dead()
    assert test.deaths_total == 16  # Checking total deaths when added on previous total deaths