parts/django/tests/regressiontests/templates/smartif.py
author Nishanth Amuluru <nishanth@fossee.in>
Tue, 11 Jan 2011 12:30:10 +0530
changeset 378 8fcde6f8f750
parent 307 c6bca38c1cbf
permissions -rw-r--r--
added view_user functionality

import unittest
from django.template.smartif import IfParser, Literal

class SmartIfTests(unittest.TestCase):

    def assertCalcEqual(self, expected, tokens):
        self.assertEqual(expected, IfParser(tokens).parse().eval({}))

    # We only test things here that are difficult to test elsewhere
    # Many other tests are found in the main tests for builtin template tags
    # Test parsing via the printed parse tree
    def test_not(self):
        var = IfParser(["not", False]).parse()
        self.assertEqual("(not (literal False))", repr(var))
        self.assert_(var.eval({}))

        self.assertFalse(IfParser(["not", True]).parse().eval({}))

    def test_or(self):
        var = IfParser([True, "or", False]).parse()
        self.assertEqual("(or (literal True) (literal False))", repr(var))
        self.assert_(var.eval({}))

    def test_in(self):
        list_ = [1,2,3]
        self.assertCalcEqual(True, [1, 'in', list_])
        self.assertCalcEqual(False, [1, 'in', None])
        self.assertCalcEqual(False, [None, 'in', list_])

    def test_not_in(self):
        list_ = [1,2,3]
        self.assertCalcEqual(False, [1, 'not', 'in', list_])
        self.assertCalcEqual(True, [4, 'not', 'in', list_])
        self.assertCalcEqual(False, [1, 'not', 'in', None])
        self.assertCalcEqual(True, [None, 'not', 'in', list_])

    def test_precedence(self):
        # (False and False) or True == True   <- we want this one, like Python
        # False and (False or True) == False
        self.assertCalcEqual(True, [False, 'and', False, 'or', True])

        # True or (False and False) == True   <- we want this one, like Python
        # (True or False) and False == False
        self.assertCalcEqual(True, [True, 'or', False, 'and', False])

        # (1 or 1) == 2  -> False
        # 1 or (1 == 2)  -> True   <- we want this one
        self.assertCalcEqual(True, [1, 'or', 1, '==', 2])

        self.assertCalcEqual(True, [True, '==', True, 'or', True, '==', False])

        self.assertEqual("(or (and (== (literal 1) (literal 2)) (literal 3)) (literal 4))",
                         repr(IfParser([1, '==', 2, 'and', 3, 'or', 4]).parse()))