def createItem(name, category, price, user_id):
    """Create a new catalog item

    Args:
        name     (str): The name for the item.
        category (obj): The category object.
        price    (str): The item price.
        user_id  (int): The id of the creating user.

    Returns:
        Item: The created Item object.
    """
    try:
        description = wikipedia.summary(name)
    except wikipedia.exceptions.DisambiguationError as e:
        description = wikipedia.summary(name + " " + category.name)

    i = Item(name=name,
             description=description,
             category_id=category.id,
             price=price,
             user_id=user_id)
    session.add(i)
    session.commit()
    print 'Item "' + name + '" added.'
    return i
def create_user_and_sample_Items(name, phone_num):
    customer = Customer(name, phone_num)
    cookie = Item(name + "_Cookie", 1.50)
    muffin = Item(name + "_Muffin", 2.00, "Carby stuff")
    latte = Item(name + "_Latte", 4.35, "Steamed milk over expresso")
    mocha = Item(name + "_Mocha", 5.00,
                 "Steamed milk over expresso and chocolate syrup")

    session.add(customer)
    session.add(cookie)
    session.add(muffin)
    session.add(latte)
    session.add(mocha)
    session.commit()

    result = {"customer": customer}
    item_names = ['cookie', 'muffin', 'latte', 'mocha']
    for name in item_names:

        item = session.query(Item).\
            filter(func.lower(Item.name).like('%' + name + '%')).\
            filter(func.lower(Item.name).like('%' + customer_name + '%')).\
            scalar()

        result[name] = item

    return result
def test_user_creation_and_deletion():
    print "Inside test_creation"

    # Create user
    test_user = create_in_memory_user()
    session.add(test_user)
    session.commit()
    print "Created user with id " + str(test_user.id)

    # Find user from db and check if it exists
    found_user = session.query(TestUser).\
        filter(TestUser.id == test_user.id).scalar()

    print "Found user in db with id " + str(found_user.id)
    assert test_user.id is not None, "Created user id should not be None"
    assert found_user.id is not None, "User found in db should not be None"
    assert test_user.id == found_user.id, \
        "Both created user and user found in db should have the same id"

    # Delete created user
    session.delete(found_user)
    session.commit()
    print "Deleting the found user"
    found_user = session.query(TestUser).\
        filter(TestUser.id == test_user.id).scalar()
    assert found_user is None, "Once deleted the user should not be found in db"
    print "We were able to successfully delete the found User"
def create_user_and_sample_Items(name, phone_num):
    customer = Customer(name, phone_num)
    cookie = Item(name + "_Cookie", 1.50)
    muffin = Item(name + "_Muffin", 2.00, "Carby stuff")
    latte = Item(name + "_Latte", 4.35, "Steamed milk over expresso")
    mocha = Item(name + "_Mocha", 5.00,
                 "Steamed milk over expresso and chocolate syrup")

    session.add(customer)
    session.add(cookie)
    session.add(muffin)
    session.add(latte)
    session.add(mocha)
    session.commit()

    result = {"customer": customer}
    item_names = ['cookie', 'muffin', 'latte', 'mocha']
    for name in item_names:

        item = session.query(Item).\
            filter(func.lower(Item.name).like('%' + name + '%')).\
            filter(func.lower(Item.name).like('%' + customer_name + '%')).\
            scalar()

        result[name] = item

    return result
Beispiel #5
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def add_node():
    parser = reqparse.RequestParser()
    parser.add_argument('tag_pid', type=str, required=True)
    parser.add_argument('tag_level', type=str, required=True)
    parser.add_argument('tag_node', type=str, required=True)
    parser.add_argument('tag_name', type=str, required=True)
    args = parser.parse_args()

    if len(args['tag_pid']) == 0 or len(args['tag_level']) == 0 or len(
            args['tag_node']) == 0:
        flash("不能够为空目录添加属性,请走正确渠道")
        return render_template('error.html')
    if len(args['tag_name']) == 0:
        flash("属性名不能为空")
        return admin_add(args['tag_node'], args['tag_pid'], args['tag_level'])

    tag = Tag()
    tag.tag_pid = args['tag_pid']
    tag.tag_level = args['tag_level']
    tag.tag_node = args['tag_node']
    tag.tag_name = args['tag_name']

    session.add(tag)
    session.commit()

    return admin_index()
def test_user_creation_and_deletion():
    print "Inside test_creation"

    # Create user
    test_user = create_in_memory_user()
    session.add(test_user)
    session.commit()
    print "Created user with id " + str(test_user.id)

    # Find user from db and check if it exists
    found_user = session.query(TestUser).\
        filter(TestUser.id == test_user.id).scalar()

    print "Found user in db with id " + str(found_user.id)
    assert test_user.id is not None, "Created user id should not be None"
    assert found_user.id is not None, "User found in db should not be None"
    assert test_user.id == found_user.id, \
        "Both created user and user found in db should have the same id"

    # Delete created user
    session.delete(found_user)
    session.commit()
    print "Deleting the found user"
    found_user = session.query(TestUser).\
        filter(TestUser.id == test_user.id).scalar()
    assert found_user is None, "Once deleted the user should not be found in db"
    print "We were able to successfully delete the found User"
Beispiel #7
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def add_node():
    parser = reqparse.RequestParser()
    parser.add_argument('tag_pid', type=str, required=True)
    parser.add_argument('tag_level', type=str, required=True)
    parser.add_argument('tag_node', type=str, required=True)
    parser.add_argument('tag_name', type=str, required=True)
    args = parser.parse_args()

    if len(args['tag_pid']) == 0 or len(args['tag_level']) == 0 or len(args['tag_node']) == 0:
        flash("不能够为空目录添加属性,请走正确渠道")
        return render_template('error.html')
    if len(args['tag_name']) == 0:
        flash("属性名不能为空")
        return admin_add(args['tag_node'], args['tag_pid'], args['tag_level'])

    tag = Tag()
    tag.tag_pid = args['tag_pid']
    tag.tag_level = args['tag_level']
    tag.tag_node = args['tag_node']
    tag.tag_name = args['tag_name']

    session.add(tag)
    session.commit()

    return admin_index()
Beispiel #8
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def register(**kwargs):
    try:
        user = User(**kwargs)
        session.add(user)
        session.commit()
        token = user.get_token()
    except Exception as e:
        logger.warning(
            f'registration failed with errors: {e}')
        return {'message': str(e)}, 400
    return {'access_token': token}
Beispiel #9
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 def post(self, **kwargs):
     try:
         user = User(**kwargs)
         session.add(user)
         session.commit()
         #logger.info(
         #    f'user {user.id} created')
     except Exception as e:
         #logger.warning(
         #    f'user creation failed: {e}')
         return {'message': str(e)}, 400
     return user
Beispiel #10
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 def create(client):
     try:
         # Verify client doesn't exist
         # Insert client to the databasex
         session.add(client)
         session.commit()
         # Get a response from database and return it
         msg = "Client created successfully"
         response = { "data":msg }
         return response
     except Exception as e:
         print(e)
         session.rollback()
def createCategory(name, user_id):
    """Create a new item category

    Args:
        name    (str): The name for the category.
        user_id (int): The id of the creating user.

    Returns:
        Category: The created Category object.
    """
    c = Category(name=name, user_id=user_id)
    session.add(c)
    session.commit()
    print 'Category "' + name + '" created.'
    return c
Beispiel #12
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 def insert_img(self):
     path, img_time = meteorological_img.main()
     # image_file = self.img_io(path)
     now = datetime.now()
     cloud = Cloud()
     cloud.img_name = os.path.basename(path)
     cloud.img_path = path
     cloud.img_time = img_time
     cloud.created_at = now
     cloud.tag = "synthetic"
     cloud.zoom_level = 2
     session.add(cloud)
     session.commit()
     print(path)
     print("insert")
def createUser(name, email, picture):
    """Create a new user

    Args:
        name    (str): The name for the user.
        email   (str): The user's email address.
        picture (str): The URL for the user avatar.

    Returns:
        User: The created User object.
    """
    u = User(name=name, email=email, picture=picture)
    session.add(u)
    session.commit()
    print 'User "' + name + '" created.'
    return u
def create_a_user(base, prefix, email):
    name = base + prefix
    fullname = name + " singh"
    pwd = "password-" + name
    user = TestUser(name, fullname, pwd)
    if email:
        emails = [
            name + '*****@*****.**', name + '*****@*****.**', name + '*****@*****.**'
        ]
        user.add_email(emails[0])
        user.add_email(emails[1])
        user.add_email(emails[2])

    print "user id before commit - " + str(user.id) + "for user - " + str(user)
    session.add(user)
    session.commit()
    print "user id before commit - " + str(user.id) + "for user - " + str(user)
Beispiel #15
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def update_area():
    area = session.query(Area).filter_by(area_level=3).all()

    for area_child in area:
        parent_id = area_child.area_pid
        parent_line = []
        while parent_id != 21:
            parent = session.query(Area).filter_by(area_id=parent_id).first()
            if parent:
                parent_line.append(parent.area_id)
                parent_id = parent.area_pid

        if len(parent_line) > 1:
            parent_line = ','.join(parent_line)
        area_child.parent_line = parent_line
        session.commit()

    return render_template('status.html')
Beispiel #16
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def update_node():
    node = session.query(Node).filter_by(nod_level=101).all()

    for node_child in node:
        parent_id = node_child.nod_pid
        parent_line = []
        while parent_id != 21:
            parent = session.query(Node).filter_by(node_id=parent_id).first()
            if parent:
                parent_line.append(parent.node_id)
                parent_id = parent.nod_pid

        if len(parent_line) > 1:
            parent_line = ','.join(parent_line)

        node_child.parent_line = parent_line

    session.commit()
    return render_template('status.html')
def test_ordering_system():
    dict = create_user_and_sample_Items(customer_name, customer_phone_num)
    customer = dict['customer']
    cookie = dict['cookie']
    muffin = dict['muffin']
    latte = dict['latte']
    mocha = dict['mocha']

    # filter(lambda x: session.add(x), [customer, cookie, muffin, latte, mocha])
    customer.orders.append(Order())
    customer.orders.append(Order())
    session.commit()

    customer = session.query(Customer).\
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is not None, "Customer should be present"
    print "Successfully created Customer"

    orders = session.query(Order).filter(
        Order.customer_id == customer.id).all()
    assert len(orders) == 2, "Order size isn't accurate"
    print "Successfully created Orders"

    order1, order2 = orders[0], orders[1]

    order1.order_items.append(OrderItem(cookie.id, 2))
    order1.order_items.append(
        OrderItem(latte.id, 2, "Sugar please! Lots of it, in both"))
    order1.order_items.append(
        OrderItem(mocha.id, 10, "Buying for the whole group"))

    order2.order_items.append(OrderItem(cookie.id, 20))
    order2.order_items.append(OrderItem(muffin.id, 20, "In two boxes"))

    session.commit()

    order1_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order1.id).all()

    order2_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order2.id).all()

    assert len(order1_items) == 3, "Number of items in order1 is not accurate"
    assert len(order2_items) == 2, "Number of items in order2 is not accurate"
    print "Successfully created order items"

    # Test deleting an order item, has no effect on the customer, or the order,
    #  or the items

    session.delete(order1_items[0])
    session.commit()

    customer = session.query(Customer). \
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is not None,\
        "Deleting an order item should not delete the customer"

    orders = session.query(Order).filter(
        Order.customer_id == customer.id).all()
    assert len(orders) == 2,\
        "Deleting the order item should not delete the order"

    order1, order2 = orders[0], orders[1]
    assert len(order1.order_items) == 2, \
        "Deleting the order item should delete it from db"
    print "Successfully deleted order item"

    all_items = session.query(Item).\
        filter(func.lower(Item.name).like('%' + customer_name + '%')).all()
    assert len(all_items) == 4, \
        "Deleting the order item should not delete any item"

    # Test deleting an order, removes all the order items, but leaves the
    # items and customers untouched

    order1_id = order1.id
    session.delete(order1)
    session.commit()

    order_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order1_id).all()
    assert len(order_items) == 0, \
        "Deleting an order should remove all its order items"

    customer = session.query(Customer). \
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is not None,\
        "Deleting an order should not delete the customer"

    orders = session.query(Order).filter(
        Order.customer_id == customer.id).all()
    assert len(orders) == 1,\
        "Deleting an order item should only delete that order, no other order"
    print "Successfully deleted the order"

    # Test deleting an customer deletes all the orders, and the order items,
    # but leaves all the items untouched

    order_id = customer.orders[0].id
    customer_id = customer.id
    session.delete(customer)
    session.commit()

    customer = session.query(Customer). \
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is None,\
        "Deleting a customer should remove it from db"
    print "Successfully deleted the Customer"

    orders = session.query(Order).filter(
        Order.customer_id == customer_id).all()
    assert len(orders) == 0, "Deleting a customer should delete its orders"

    order_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order_id).all()
    assert len(order_items) == 0, \
        "Deleting a customer should delete all its order_items"
    print "    And the order items associated with the customer"

    all_items = session.query(Item). \
        filter(func.lower(Item.name).like('%' + customer_name + '%')).all()
    assert len(all_items) == 4, \
        "Deleting the order item should not delete any item"

    filter(lambda x: session.delete(x), all_items)
    session.commit()

    all_items = session.query(Item). \
        filter(func.lower(Item.name).like('%' + customer_name + '%')).all()
    assert len(all_items) == 0,\
        "Removing items to undo db changes during test should not fail"

    print "Ran test successfully to try adding/deleting orders," \
          " order items and customers"
def test_ordering_system():
    dict = create_user_and_sample_Items(customer_name, customer_phone_num)
    customer = dict['customer']
    cookie = dict['cookie']
    muffin = dict['muffin']
    latte = dict['latte']
    mocha = dict['mocha']

    # filter(lambda x: session.add(x), [customer, cookie, muffin, latte, mocha])
    customer.orders.append(Order())
    customer.orders.append(Order())
    session.commit()

    customer = session.query(Customer).\
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is not None, "Customer should be present"
    print "Successfully created Customer"

    orders = session.query(Order).filter(Order.customer_id == customer.id).all()
    assert len(orders) == 2, "Order size isn't accurate"
    print "Successfully created Orders"

    order1, order2 = orders[0], orders[1]

    order1.order_items.append(OrderItem(cookie.id, 2))
    order1.order_items.append(OrderItem(latte.id, 2,
                                        "Sugar please! Lots of it, in both"))
    order1.order_items.append(OrderItem(mocha.id, 10,
                              "Buying for the whole group"))

    order2.order_items.append(OrderItem(cookie.id, 20))
    order2.order_items.append(OrderItem(muffin.id, 20, "In two boxes"))

    session.commit()

    order1_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order1.id).all()

    order2_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order2.id).all()

    assert len(order1_items) == 3, "Number of items in order1 is not accurate"
    assert len(order2_items) == 2, "Number of items in order2 is not accurate"
    print "Successfully created order items"

    # Test deleting an order item, has no effect on the customer, or the order,
    #  or the items

    session.delete(order1_items[0])
    session.commit()

    customer = session.query(Customer). \
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is not None,\
        "Deleting an order item should not delete the customer"

    orders = session.query(Order).filter(Order.customer_id == customer.id).all()
    assert len(orders) == 2,\
        "Deleting the order item should not delete the order"

    order1, order2 = orders[0], orders[1]
    assert len(order1.order_items) == 2, \
        "Deleting the order item should delete it from db"
    print "Successfully deleted order item"

    all_items = session.query(Item).\
        filter(func.lower(Item.name).like('%' + customer_name + '%')).all()
    assert len(all_items) == 4, \
        "Deleting the order item should not delete any item"


    # Test deleting an order, removes all the order items, but leaves the
    # items and customers untouched

    order1_id = order1.id
    session.delete(order1)
    session.commit()

    order_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order1_id).all()
    assert len(order_items) == 0, \
        "Deleting an order should remove all its order items"

    customer = session.query(Customer). \
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is not None,\
        "Deleting an order should not delete the customer"

    orders = session.query(Order).filter(Order.customer_id == customer.id).all()
    assert len(orders) == 1,\
        "Deleting an order item should only delete that order, no other order"
    print "Successfully deleted the order"


    # Test deleting an customer deletes all the orders, and the order items,
    # but leaves all the items untouched

    order_id = customer.orders[0].id
    customer_id = customer.id
    session.delete(customer)
    session.commit()

    customer = session.query(Customer). \
        filter(func.lower(Customer.name) == func.lower(customer_name)).scalar()
    assert customer is None,\
        "Deleting a customer should remove it from db"
    print "Successfully deleted the Customer"

    orders = session.query(Order).filter(Order.customer_id == customer_id).all()
    assert len(orders) == 0, "Deleting a customer should delete its orders"

    order_items = session.query(OrderItem).\
        filter(OrderItem.order_id == order_id).all()
    assert len(order_items) == 0, \
        "Deleting a customer should delete all its order_items"
    print "    And the order items associated with the customer"

    all_items = session.query(Item). \
        filter(func.lower(Item.name).like('%' + customer_name + '%')).all()
    assert len(all_items) == 4, \
        "Deleting the order item should not delete any item"

    filter(lambda x: session.delete(x), all_items)
    session.commit()

    all_items = session.query(Item). \
        filter(func.lower(Item.name).like('%' + customer_name + '%')).all()
    assert len(all_items) == 0,\
        "Removing items to undo db changes during test should not fail"

    print "Ran test successfully to try adding/deleting orders," \
          " order items and customers"
def delete_user(id):
    query = session.query(TestUser).filter(TestUser.id == id)
    user = query.one()
    print 'About to delete', type(user), '---', user
    session.delete(user)
    session.commit()