"""Test suite for our JSON utilities. """ #----------------------------------------------------------------------------- # Copyright (C) 2010-2011 The IPython Development Team # # Distributed under the terms of the BSD License. The full license is in # the file COPYING.txt, distributed as part of this software. #----------------------------------------------------------------------------- #----------------------------------------------------------------------------- # Imports #----------------------------------------------------------------------------- # stdlib import json from base64 import decodestring # third party import nose.tools as nt # our own from IPython.testing import decorators as dec from ..jsonutil import json_clean, encode_images from ..py3compat import unicode_to_str, str_to_bytes #----------------------------------------------------------------------------- # Test functions #----------------------------------------------------------------------------- def test(): # list of input/expected output. Use None for the expected output if it # can be the same as the input. pairs = [(1, None), # start with scalars (1.0, None), ('a', None), (True, None), (False, None), (None, None), # complex numbers for now just go to strings, as otherwise they # are unserializable (1j, '1j'), # Containers ([1, 2], None), ((1, 2), [1, 2]), (set([1, 2]), [1, 2]), (dict(x=1), None), ({'x': 1, 'y':[1,2,3], '1':'int'}, None), # More exotic objects ((x for x in range(3)), [0, 1, 2]), (iter([1, 2]), [1, 2]), ] for val, jval in pairs: if jval is None: jval = val out = json_clean(val) # validate our cleanup nt.assert_equal(out, jval) # and ensure that what we return, indeed encodes cleanly json.loads(json.dumps(out)) @dec.parametric def test_encode_images(): # invalid data, but the header and footer are from real files pngdata = b'\x89PNG\r\n\x1a\nblahblahnotactuallyvalidIEND\xaeB`\x82' jpegdata = b'\xff\xd8\xff\xe0\x00\x10JFIFblahblahjpeg(\xa0\x0f\xff\xd9' fmt = { 'image/png' : pngdata, 'image/jpeg' : jpegdata, } encoded = encode_images(fmt) for key, value in fmt.iteritems(): # encoded has unicode, want bytes decoded = decodestring(encoded[key].encode('ascii')) yield nt.assert_equal(decoded, value) encoded2 = encode_images(encoded) yield nt.assert_equal(encoded, encoded2) b64_str = {} for key, encoded in encoded.iteritems(): b64_str[key] = unicode_to_str(encoded) encoded3 = encode_images(b64_str) yield nt.assert_equal(encoded3, b64_str) for key, value in fmt.iteritems(): # encoded3 has str, want bytes decoded = decodestring(str_to_bytes(encoded3[key])) yield nt.assert_equal(decoded, value) def test_lambda(): jc = json_clean(lambda : 1) assert isinstance(jc, str) assert '' in jc json.dumps(jc) def test_exception(): bad_dicts = [{1:'number', '1':'string'}, {True:'bool', 'True':'string'}, ] for d in bad_dicts: nt.assert_raises(ValueError, json_clean, d)