def test_brianglobalpreferences():
# test that pre-setting a nonexistent preference in a subsequently
# existing base name raises an error at the correct point
gp = BrianGlobalPreferences()
# This shouldn't work, in user code only registered preferences can be set
with pytest.raises(PreferenceError):
gp.__setitem__('a.b', 5)
# This uses the method that is used when reading preferences from a file
gp._set_preference('a.b', 5)
gp._set_preference('a.c', 5)
with pytest.raises(PreferenceError):
gp.register_preferences('a',
'docs for a',
b=BrianPreference(5, 'docs for b'))
# test that post-setting a nonexistent preference in an existing base
# name raises an error
gp = BrianGlobalPreferences()
gp.register_preferences('a',
'docs for a',
b=BrianPreference(5, 'docs for b'))
with pytest.raises(PreferenceError):
gp.__setitem__('a.c', 5)
# Test pre and post-setting some correct names but valid and invalid values
gp = BrianGlobalPreferences()
gp._set_preference('a.b', 5)
gp.register_preferences(
'a',
'docs for a',
b=BrianPreference(5, 'docs for b'),
c=BrianPreference(1 * volt, 'docs for c'),
d=BrianPreference(0, 'docs for d', validator=lambda x: x >= 0),
e=BrianPreference(float64,
'docs for e',
representor=lambda x: x.__name__),
)
assert gp['a.c'] == 1 * volt
gp['a.c'] = 2 * volt
with pytest.raises(PreferenceError):
gp.__setitem__('a.c', 3 * amp)
gp['a.d'] = 2.0
with pytest.raises(PreferenceError):
gp.__setitem__('a.d', -1)
gp['a.e'] = float32
with pytest.raises(PreferenceError):
gp.__setitem__('a.e', 0)
# test backup and restore
gp._backup()
gp['a.d'] = 10
assert gp['a.d'] == 10
gp._restore()
assert gp['a.d'] == 2.0
# test that documentation and as_file generation runs without error, but
# don't test for values because we might change the organisation of it
assert len(gp.get_documentation())
gp.as_file
gp.defaults_as_file
# test that reading a preference file works as expected
pref_file = StringIO(u'''
# a comment
a.b = 10
[a]
c = 5*volt
d = 1
e = float64
''')
gp.read_preference_file(pref_file)
assert gp['a.b'] == 10
assert gp['a.c'] == 5 * volt
assert gp['a.d'] == 1
assert gp['a.e'] == float64
# test that reading a badly formatted prefs file fails
pref_file = StringIO(u'''
[a
b = 10
''')
with pytest.raises(PreferenceError):
gp.read_preference_file(pref_file)
# test that reading a well formatted prefs file with an invalid value fails
pref_file = StringIO(u'''
a.b = 'oh no, not a string'
''')
with pytest.raises(PreferenceError):
gp.read_preference_file(pref_file)
# assert that writing the prefs to a file and loading them gives the
# same values
gp = BrianGlobalPreferences()
gp.register_preferences(
'a',
'docs for a',
b=BrianPreference(5, 'docs for b'),
)
gp._backup()
gp['a.b'] = 10
str_modified = gp.as_file
str_defaults = gp.defaults_as_file
gp['a.b'] = 15
gp.read_preference_file(StringIO(str_modified))
assert gp['a.b'] == 10
gp.read_preference_file(StringIO(str_defaults))
assert gp['a.b'] == 5
# check that load_preferences works, but nothing about its values
gp = BrianGlobalPreferences()
gp.load_preferences()
def test_brianglobalpreferences():
# test that pre-setting a nonexistent preference in a subsequently
# existing base name raises an error at the correct point
gp = BrianGlobalPreferences()
# This shouldn't work, in user code only registered preferences can be set
assert_raises(PreferenceError, lambda: gp.__setitem__('a.b', 5))
# This uses the method that is used when reading preferences from a file
gp._set_preference('a.b', 5)
gp._set_preference('a.c', 5)
assert_raises(PreferenceError, gp.register_preferences, 'a', 'docs for a',
b=BrianPreference(5, 'docs for b'))
# test that post-setting a nonexistent preference in an existing base
# name raises an error
gp = BrianGlobalPreferences()
gp.register_preferences('a', 'docs for a',
b=BrianPreference(5, 'docs for b'))
assert_raises(PreferenceError, gp.__setitem__, 'a.c', 5)
# Test pre and post-setting some correct names but valid and invalid values
gp = BrianGlobalPreferences()
gp._set_preference('a.b', 5)
gp.register_preferences('a', 'docs for a',
b=BrianPreference(5, 'docs for b'),
c=BrianPreference(1*volt, 'docs for c'),
d=BrianPreference(0, 'docs for d', validator=lambda x:x>=0),
e=BrianPreference(float64, 'docs for e',
representor=lambda x: x.__name__),
)
assert gp['a.c']==1*volt
gp['a.c'] = 2*volt
assert_raises(PreferenceError, gp.__setitem__, 'a.c', 3*amp)
gp['a.d'] = 2.0
assert_raises(PreferenceError, gp.__setitem__, 'a.d', -1)
gp['a.e'] = float32
assert_raises(PreferenceError, gp.__setitem__, 'a.e', 0)
# test backup and restore
gp._backup()
gp['a.d'] = 10
assert gp['a.d']==10
gp._restore()
assert gp['a.d']==2.0
# test that documentation and as_file generation runs without error, but
# don't test for values because we might change the organisation of it
assert len(gp.get_documentation())
gp.as_file
gp.defaults_as_file
# test that reading a preference file works as expected
pref_file = StringIO('''
# a comment
a.b = 10
[a]
c = 5*volt
d = 1
e = float64
''')
gp.read_preference_file(pref_file)
assert gp['a.b']==10
assert gp['a.c']==5*volt
assert gp['a.d']==1
assert gp['a.e']==float64
# test that reading a badly formatted prefs file fails
pref_file = StringIO('''
[a
b = 10
''')
assert_raises(PreferenceError, gp.read_preference_file, pref_file)
# test that reading a well formatted prefs file with an invalid value fails
pref_file = StringIO('''
a.b = 'oh no, not a string'
''')
assert_raises(PreferenceError, gp.read_preference_file, pref_file)
# assert that writing the prefs to a file and loading them gives the
# same values
gp = BrianGlobalPreferences()
gp.register_preferences('a', 'docs for a',
b=BrianPreference(5, 'docs for b'),
)
gp._backup()
gp['a.b'] = 10
str_modified = gp.as_file
str_defaults = gp.defaults_as_file
gp['a.b'] = 15
gp.read_preference_file(StringIO(str_modified))
assert gp['a.b']==10
gp.read_preference_file(StringIO(str_defaults))
assert gp['a.b']==5
# check that load_preferences works, but nothing about its values
gp = BrianGlobalPreferences()
gp.load_preferences()
def test_preference_name_access():
'''
Test various ways of accessing preferences
'''
gp = BrianGlobalPreferences()
gp.register_preferences('main',
'main category',
name=BrianPreference(True, 'some preference'))
gp.register_preferences('main.sub',
'subcategory',
name2=BrianPreference(True, 'some preference'))
gp.register_preferences('main.sub_no_pref',
'subcategory without preference')
gp.register_preferences('main.sub_no_pref.sub',
'deep subcategory',
name=BrianPreference(True, 'some preference'))
# Keyword based access
assert gp['main.name']
assert gp['main.sub.name2']
assert gp['main.sub_no_pref.sub.name']
gp['main.name'] = False
gp['main.sub.name2'] = False
gp['main.sub_no_pref.sub.name'] = False
# Attribute based access
assert not gp.main.name # we set it to False above
assert not gp.main.sub.name2
assert not gp.main.sub_no_pref.sub.name
gp.main.name = True
gp.main.sub.name2 = True
gp.main.sub_no_pref.sub.name = True
# Mixed access
assert gp.main['name']
assert gp['main'].name
assert gp.main['sub'].name2
assert gp['main'].sub['name2']
# Accessing categories
assert isinstance(gp['main'], BrianGlobalPreferencesView)
assert isinstance(gp['main.sub'], BrianGlobalPreferencesView)
assert isinstance(gp.main, BrianGlobalPreferencesView)
assert isinstance(gp.main.sub, BrianGlobalPreferencesView)
# Setting categories shouldn't work
with pytest.raises(PreferenceError):
gp.__setitem__('main', None)
with pytest.raises(PreferenceError):
gp.__setattr__('main', None)
with pytest.raises(PreferenceError):
gp.main.__setitem__('sub', None)
with pytest.raises(PreferenceError):
gp.main.__setattr__('sub', None)
# Neither should deleting categories or preferences
with pytest.raises(PreferenceError):
gp.__delitem__('main')
with pytest.raises(PreferenceError):
gp.__delattr__('main')
with pytest.raises(PreferenceError):
gp.main.__delitem__('name')
with pytest.raises(PreferenceError):
gp.main.__delattr__('name')
with pytest.raises(PreferenceError):
gp.main.__delitem__('sub')
with pytest.raises(PreferenceError):
gp.main.__delattr__('sub')
#Errors for accessing non-existing preferences
with pytest.raises(KeyError):
gp['main.doesnotexist']
with pytest.raises(KeyError):
gp['nonexisting.name']
with pytest.raises(KeyError):
gp.main.doesnotexist
with pytest.raises(KeyError):
gp.nonexisting.name
# Check dictionary functionality
for name, value in gp.items():
assert gp[name] == value
for name, value in gp.main.items():
assert gp.main[name] == value
assert len(gp) == 3 # three preferences in total
assert len(gp['main']) == 3 # all preferences are in the main category
assert len(gp['main.sub']) == 1 # one preference in main.sub
assert 'main.name' in gp
assert 'name' in gp['main']
assert 'name2' in gp['main.sub']
assert not 'name' in gp['main.sub']
gp['main.name'] = True
gp.update({'main.name': False})
assert not gp['main.name']
gp.main.update({'name': True})
assert gp['main.name']
# Class based functionality
assert 'main' in dir(gp)
assert 'sub' in dir(gp.main)
assert 'name' in dir(gp.main)
# Check that the fiddling with getattr and setattr did not destroy the
# access to standard attributes
assert len(gp.prefs)
assert gp.main._basename == 'main'
def test_preference_name_access():
'''
Test various ways of accessing preferences
'''
gp = BrianGlobalPreferences()
gp.register_preferences('main', 'main category',
name=BrianPreference(True, 'some preference'))
gp.register_preferences('main.sub', 'subcategory',
name2=BrianPreference(True, 'some preference'))
# Keyword based access
assert gp['main.name']
assert gp['main.sub.name2']
gp['main.name'] = False
gp['main.sub.name2'] = False
# Attribute based access
assert not gp.main.name # we set it to False above
assert not gp.main.sub.name2
gp.main.name = True
gp.main.sub.name2 = True
# Mixed access
assert gp.main['name']
assert gp['main'].name
assert gp.main['sub'].name2
assert gp['main'].sub['name2']
# Accessing categories
assert isinstance(gp['main'], BrianGlobalPreferencesView)
assert isinstance(gp['main.sub'], BrianGlobalPreferencesView)
assert isinstance(gp.main, BrianGlobalPreferencesView)
assert isinstance(gp.main.sub, BrianGlobalPreferencesView)
# Setting categories shouldn't work
assert_raises(PreferenceError, lambda: gp.__setitem__('main', None))
assert_raises(PreferenceError, lambda: gp.__setattr__('main', None))
assert_raises(PreferenceError, lambda: gp.main.__setitem__('sub', None))
assert_raises(PreferenceError, lambda: gp.main.__setattr__('sub', None))
# Neither should deleting categories or preferences
assert_raises(PreferenceError, lambda: gp.__delitem__('main'))
assert_raises(PreferenceError, lambda: gp.__delattr__('main'))
assert_raises(PreferenceError, lambda: gp.main.__delitem__('name'))
assert_raises(PreferenceError, lambda: gp.main.__delattr__('name'))
assert_raises(PreferenceError, lambda: gp.main.__delitem__('sub'))
assert_raises(PreferenceError, lambda: gp.main.__delattr__('sub'))
#Errors for accessing non-existing preferences
assert_raises(KeyError, lambda: gp['main.doesnotexist'])
assert_raises(KeyError, lambda: gp['nonexisting.name'])
assert_raises(KeyError, lambda: gp.main.doesnotexist)
assert_raises(KeyError, lambda: gp.nonexisting.name)
# Check dictionary functionality
for name, value in gp.iteritems():
assert gp[name] == value
for name, value in gp.main.iteritems():
assert gp.main[name] == value
assert len(gp) == 2 # two preferences in total
assert len(gp['main']) == 2 # both preferences are in the main category
assert len(gp['main.sub']) == 1 # one preference in main.sub
assert 'main.name' in gp
assert 'name' in gp['main']
assert 'name2' in gp['main.sub']
assert not 'name' in gp['main.sub']
gp['main.name'] = True
gp.update({'main.name': False})
assert not gp['main.name']
gp.main.update({'name': True})
assert gp['main.name']
# Class based functionality
assert 'main' in dir(gp)
assert 'sub' in dir(gp.main)
assert 'name' in dir(gp.main)
# Check that the fiddling with getattr and setattr did not destroy the
# access to standard attributes
assert len(gp.prefs)
assert gp.main._basename == 'main'