django1/tests/regressiontests/templates/callables.py

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from __future__ import unicode_literals
from django import template
from django.utils.unittest import TestCase
class CallableVariablesTests(TestCase):
def test_callable(self):
class Doodad(object):
def __init__(self, value):
self.num_calls = 0
self.value = value
def __call__(self):
self.num_calls += 1
return {"the_value": self.value}
my_doodad = Doodad(42)
c = template.Context({"my_doodad": my_doodad})
# We can't access ``my_doodad.value`` in the template, because
# ``my_doodad.__call__`` will be invoked first, yielding a dictionary
# without a key ``value``.
t = template.Template('{{ my_doodad.value }}')
self.assertEqual(t.render(c), '')
# We can confirm that the doodad has been called
self.assertEqual(my_doodad.num_calls, 1)
# But we can access keys on the dict that's returned
# by ``__call__``, instead.
t = template.Template('{{ my_doodad.the_value }}')
self.assertEqual(t.render(c), '42')
self.assertEqual(my_doodad.num_calls, 2)
def test_alters_data(self):
class Doodad(object):
alters_data = True
def __init__(self, value):
self.num_calls = 0
self.value = value
def __call__(self):
self.num_calls += 1
return {"the_value": self.value}
my_doodad = Doodad(42)
c = template.Context({"my_doodad": my_doodad})
# Since ``my_doodad.alters_data`` is True, the template system will not
# try to call our doodad but will use TEMPLATE_STRING_IF_INVALID
t = template.Template('{{ my_doodad.value }}')
self.assertEqual(t.render(c), '')
t = template.Template('{{ my_doodad.the_value }}')
self.assertEqual(t.render(c), '')
# Double-check that the object was really never called during the
# template rendering.
self.assertEqual(my_doodad.num_calls, 0)
def test_do_not_call(self):
class Doodad(object):
do_not_call_in_templates = True
def __init__(self, value):
self.num_calls = 0
self.value = value
def __call__(self):
self.num_calls += 1
return {"the_value": self.value}
my_doodad = Doodad(42)
c = template.Context({"my_doodad": my_doodad})
# Since ``my_doodad.do_not_call_in_templates`` is True, the template
# system will not try to call our doodad. We can access its attributes
# as normal, and we don't have access to the dict that it returns when
# called.
t = template.Template('{{ my_doodad.value }}')
self.assertEqual(t.render(c), '42')
t = template.Template('{{ my_doodad.the_value }}')
self.assertEqual(t.render(c), '')
# Double-check that the object was really never called during the
# template rendering.
self.assertEqual(my_doodad.num_calls, 0)
def test_do_not_call_and_alters_data(self):
# If we combine ``alters_data`` and ``do_not_call_in_templates``, the
# ``alters_data`` attribute will not make any difference in the
# template system's behavior.
class Doodad(object):
do_not_call_in_templates = True
alters_data = True
def __init__(self, value):
self.num_calls = 0
self.value = value
def __call__(self):
self.num_calls += 1
return {"the_value": self.value}
my_doodad = Doodad(42)
c = template.Context({"my_doodad": my_doodad})
t = template.Template('{{ my_doodad.value }}')
self.assertEqual(t.render(c), '42')
t = template.Template('{{ my_doodad.the_value }}')
self.assertEqual(t.render(c), '')
# Double-check that the object was really never called during the
# template rendering.
self.assertEqual(my_doodad.num_calls, 0)