def _tag(value):
if isinstance(value, CheckerSessionObject):
return {" ch": dict((k, _tag(v)) for k, v in iteritems(value))}
elif isinstance(value, MeansTest):
return {" mt": dict((k, _tag(v)) for k, v in iteritems(value))}
elif isinstance(value, tuple):
return {" t": [_tag(x) for x in value]}
elif isinstance(value, uuid.UUID):
return {" u": value.hex}
elif isinstance(value, bytes):
return {" b": b64encode(value).decode("ascii")}
elif callable(getattr(value, "__html__", None)):
return {" m": text_type(value.__html__())}
elif isinstance(value, list):
return [_tag(x) for x in value]
elif isinstance(value, datetime):
return {" d": http_date(value)}
elif isinstance(value, dict):
return dict((k, _tag(v)) for k, v in iteritems(value))
elif isinstance(value, str):
try:
return text_type(value)
except UnicodeError:
raise UnexpectedUnicodeError(
u"A byte string with "
u"non-ASCII data was passed to the session system "
u"which can only store unicode strings. Consider "
u"base64 encoding your string (String was %r)" % value
)
return value
def _tag(value):
if isinstance(value, CheckerSessionObject):
return {" ch": dict((k, _tag(v)) for k, v in iteritems(value))}
elif isinstance(value, MeansTest):
return {" mt": dict((k, _tag(v)) for k, v in iteritems(value))}
elif isinstance(value, tuple):
return {" t": [_tag(x) for x in value]}
elif isinstance(value, uuid.UUID):
return {" u": value.hex}
elif isinstance(value, bytes):
return {" b": b64encode(value).decode("ascii")}
elif callable(getattr(value, "__html__", None)):
return {" m": text_type(value.__html__())}
elif isinstance(value, list):
return [_tag(x) for x in value]
elif isinstance(value, datetime):
return {" d": http_date(value)}
elif isinstance(value, dict):
return dict((k, _tag(v)) for k, v in iteritems(value))
elif isinstance(value, str):
try:
return text_type(value)
except UnicodeError:
raise UnexpectedUnicodeError(
u"A byte string with "
u"non-ASCII data was passed to the session system "
u"which can only store unicode strings. Consider "
u"base64 encoding your string (String was %r)" % value)
return value
def get_namespace(self, namespace, lowercase=True, trim_namespace=True):
"""Returns a dictionary containing a subset of configuration options
that match the specified namespace/prefix. Example usage::
app.config['IMAGE_STORE_TYPE'] = 'fs'
app.config['IMAGE_STORE_PATH'] = '/var/app/images'
app.config['IMAGE_STORE_BASE_URL'] = 'http://img.website.com'
image_store_config = app.config.get_namespace('IMAGE_STORE_')
The resulting dictionary `image_store` would look like::
{
'type': 'fs',
'path': '/var/app/images',
'base_url': 'http://img.website.com'
}
This is often useful when configuration options map directly to
keyword arguments in functions or class constructors.
:param namespace: a configuration namespace
:param lowercase: a flag indicating if the keys of the resulting
dictionary should be lowercase
:param trim_namespace: a flag indicating if the keys of the resulting
dictionary should not include the namespace
.. versionadded:: 1.0
"""
rv = {}
for k, v in iteritems(self):
if not k.startswith(namespace):
continue
if trim_namespace:
key = k[len(namespace):]
else:
key = k
if lowercase:
key = key.lower()
rv[key] = v
return rv
def merge_branches(self, dictionary, sep='_'):
'''Merge the branches where a key has only one value.
This resolves the problem of getting a plain dictionary
with any key containing the 'sep' element.
Parameters
----------
dictionary: dict
dictionary for which we want to merge branches
sep: string, optional
string used to merge the key and the value of the
elements of a dictionary in different layers.
Default is '_'.
Returns
-------
new_dict: dict
a new dictionary with the branches merged
'''
for k, v in iteritems(dictionary):
if isinstance(v, dict):
if len(dictionary.keys()) == 1:
for vkey in v.keys():
dictionary[k + sep + vkey] = v[vkey]
dictionary.pop(k)
self.merge_branches(v)
return dictionary
def get_namespace(self, namespace, lowercase=True, trim_namespace=True):
"""Returns a dictionary containing a subset of configuration options
that match the specified namespace/prefix. Example usage::
app.config['IMAGE_STORE_TYPE'] = 'fs'
app.config['IMAGE_STORE_PATH'] = '/var/app/images'
app.config['IMAGE_STORE_BASE_URL'] = 'http://img.website.com'
image_store_config = app.config.get_namespace('IMAGE_STORE_')
The resulting dictionary `image_store` would look like::
{
'type': 'fs',
'path': '/var/app/images',
'base_url': 'http://img.website.com'
}
This is often useful when configuration options map directly to
keyword arguments in functions or class constructors.
:param namespace: a configuration namespace
:param lowercase: a flag indicating if the keys of the resulting
dictionary should be lowercase
:param trim_namespace: a flag indicating if the keys of the resulting
dictionary should not include the namespace
.. versionadded:: 1.0
"""
rv = {}
for k, v in iteritems(self):
if not k.startswith(namespace):
continue
if trim_namespace:
key = k[len(namespace):]
else:
key = k
if lowercase:
key = key.lower()
rv[key] = v
return rv
def get_namespace(self, namespace, lowercase=True, trim_namespace=True):
"""根据字符串返回和前缀相符合的Flask选项。
示例用法:
>>> app.config['IMAGE_STORE_TYPE'] = 'fs'
>>> app.config['IMAGE_STORE_PATH'] = '/var/app/images'
>>> app.config['IMAGE_STORE_BASE_URL'] = 'http://img.website.com'
>>> image_store_config = app.config.get_namespace('IMAGE_STORE_')
结果字典`image_store`看上去像这样:
{
'type': 'fs',
'path': '/var/app/images',
'base_url': 'http://img.website.com'
}
当需要根据配置的参数,渲染为作为函数或类的传入参数时,这个方法
十分不错。
:param namespace: 配置的namespace
:param lowercase: 选项是否转为小写的
:param trim_namespace: 是否去除选项中的空格
"""
rv = {}
for k, v in iteritems(self):
if not k.startswith(namespace):
continue
if trim_namespace:
key = k[len(namespace) :]
else:
key = k
if lowercase:
key = key.lower()
rv[key] = v
return rv
def list_templates(self):
res = []
ctx = _request_ctx_stack.top
for ident, theme in iteritems(ctx.app.theme_manager.themes):
res.extend('_themes/%s/%s' % (ident, t)
for t in theme.jinja_loader.list_templates())
return res
def _iter_app_blueprint_loaders(self):
for name, blueprint in iteritems(self.app.blueprints):
if name in self.app.feature_blueprint_names:
continue
loader = blueprint.jinja_loader
if loader is not None:
yield loader
def get_namespace(self, namespace, lowercase=True, trim_namespace=True):
"""获取命名空间"""
rv = {}
for k, v in iteritems(self):
if not k.startswith(namespace):
continue
if trim_namespace:
key = k[len(namespace):]
else:
key = k
if lowercase:
key = key.lower()
rv[key] = v
return rv
def _get_environment(self, env, config):
"""Return a dictionary containing the top level values updated with
those from the environment.
:param env: The name of the environment as a string
:param config: the configuration mapping
:return: a dictionary
"""
# Get the top level keys
defaults = {k: v for k, v in iteritems(config) if k != 'environments'}
try:
defaults.update(config['environments'][env])
return defaults
except KeyError as e:
msg = 'Unable to find %s environment in configuration file' % env
raise ConfigError(msg)
def _get_environment(self, env, config):
"""Return a dictionary containing the top level values updated with
those from the environment.
:param env: The name of the environment as a string
:param config: the configuration mapping
:return: a dictionary
"""
# Get the top level keys
defaults = {k: v for k, v in iteritems(config) if k != 'environments'}
try:
defaults.update(config['environments'][env])
return defaults
except KeyError as e:
msg = 'Unable to find %s environment in configuration file' % env
raise ConfigError(msg)
def find_best_app(module):
"""Given a module instance this tries to find the best possible
application in the module or raises an exception.
"""
from . import Flask
# Search for the most common names first.
for attr_name in 'app', 'application':
app = getattr(module, attr_name, None)
if app is not None and isinstance(app, Flask):
return app
# Otherwise find the only object that is a Flask instance.
matches = [v for k, v in iteritems(module.__dict__)
if isinstance(v, Flask)]
if len(matches) == 1:
return matches[0]
raise NoAppException('Failed to find application in module "%s". Are '
'you sure it contains a Flask application? Maybe '
'you wrapped it in a WSGI middleware or you are '
'using a factory function.' % module.__name__)
def find_best_app(module):
"""Given a module instance this tries to find the best possible
application in the module or raises an exception.
"""
from . import Flask
# Search for the most common names first.
for attr_name in 'app', 'application':
app = getattr(module, attr_name, None)
if app is not None and isinstance(app, Flask):
return app
# Otherwise find the only object that is a Flask instance.
matches = [
v for k, v in iteritems(module.__dict__) if isinstance(v, Flask)
]
if len(matches) == 1:
return matches[0]
raise NoAppException('Failed to find application in module "%s". Are '
'you sure it contains a Flask application? Maybe '
'you wrapped it in a WSGI middleware or you are '
'using a factory function.' % module.__name__)
def object_hook(obj):
if len(obj) != 1:
return obj
the_key, the_value = next(iteritems(obj))
if the_key == " t":
return tuple(the_value)
elif the_key == " u":
return uuid.UUID(the_value)
elif the_key == " b":
return b64decode(the_value)
elif the_key == " m":
return Markup(the_value)
elif the_key == " d":
return parse_date(the_value)
elif the_key == " ch":
c = CheckerSessionObject()
c.update(the_value)
return c
elif the_key == " mt":
m = MeansTest()
m.update(the_value)
return m
return obj
def remove_null_elements(self, dictionary):
'''This methods removes the null elements of a
plain dictionary
Parameters
----------
dictionary: dict
dictionary for which we want to remove the null elements
Returns
-------
new_dict: dict
a new dictionary without the null elements
'''
new_dict = OrderedDict()
for k, v in iteritems(dictionary):
if v != 0.:
new_dict[k] = dictionary[k]
return new_dict
def object_hook(obj):
if len(obj) != 1:
return obj
the_key, the_value = next(iteritems(obj))
if the_key == " t":
return tuple(the_value)
elif the_key == " u":
return uuid.UUID(the_value)
elif the_key == " b":
return b64decode(the_value)
elif the_key == " m":
return Markup(the_value)
elif the_key == " d":
return parse_date(the_value)
elif the_key == " ch":
c = CheckerSessionObject()
c.update(the_value)
return c
elif the_key == " mt":
m = MeansTest()
m.update(the_value)
return m
return obj
def to_json(self, value):
# JSON objects may only have string keys, so don't bother tagging the
# key here.
return dict((k, self.serializer.tag(v)) for k, v in iteritems(value))
def to_json(self, value):
# JSON objects may only have string keys, so don't bother tagging the
# key here.
return dict((k, self.serializer.tag(v)) for k, v in iteritems(value))
def plot_nested_pie(self,
dictionary,
ax=None,
radius=1.,
delta=0.2,
dontlabel=None,
breakdonut=True,
metric='energy use',
units='kW*h'):
'''This method appends a pie plot from a nested dictionary
to an axes of matplotlib object. If all the elements
of the dictionary are float values it will make a simple
pie plot with those values. If there are other nested
dictionaries it will continue plotting them in a nested
pie plot.
Parameters
----------
dictionary: dict
dictionary containing other dictionaries and/or
float numbers for which the pie plot is going to be
created.
ax: matplotlib axes object, optional
axes object where the plot is going to be appended.
Default is None.
radius: float, optional
radius of the outer layer of the pie plot.
Default is 1.
delta: float, optional
desired difference between the radius of two
consecutive pie plot layers.
Default is 0.2.
dontlabel: list, optional
list of items to not be labeled for more clarity.
Default is None.
breakdonut: boolean, optional
if true it will not show the non labeled slices.
Default is True.
metric: string, optional
indicates the metric that is being plotted. Notice that
this is only used for the title of the plot.
Default is 'energy use'.
units: string, optional
indicates the units used for the metric. Notice that
this is only used for the title of the plot.
Default is 'kW*h'.
'''
# Initialize the pie plot if not initialized yet
if ax is None:
_, ax = plt.subplots()
if dontlabel is None:
dontlabel = []
# Get the color map to be used in this pie
cmap = plt.get_cmap('rainbow')
labels = []
# Parse the color indexes to be used in this pie
color_indexes = self.parse_color_indexes(dictionary)
# Initialize the color indexes to be used in this layer
cindexes_layer = [0]
# Initialize the list of values to plot in this layer
vals = []
# Initialize a new dictionary for the next inner layer
new_dict = OrderedDict()
# Initialize the shifts for the required indices
shift = np.zeros(len(dictionary.keys()))
# Initialize a counter for the loop
i = 0
# Go through every component in this layer
for k_outer, v_outer in iteritems(dictionary):
# Calculate the slice size of this component
vals.append(self.sum_dict(v_outer))
# Append the new label if not end point (if not in dontlabel)
last_key = k_outer.split('__')[-1]
label = last_key if not any(k_outer.startswith(dntlbl) \
for dntlbl in dontlabel) else ''
labels.append(label)
# Check if this component has nested dictionaries
if isinstance(v_outer, dict):
# If it has, add them to the new dictionary
for k_inner, v_inner in iteritems(v_outer):
# Give a unique nested key name to it
new_dict[k_outer + '__' + k_inner] = v_inner
# Check if this component is already a float end point
elif isinstance(v_outer, float):
# If it is, add it to the new dictionary
new_dict[k_outer] = v_outer
# Count the number of elements in this component
n = self.count_elements(v_outer)
# Append the index of this component according to its
# number of components in order to follow a progressive
# chromatic circle
cindexes_layer.append(cindexes_layer[-1] + n)
# Make a shift if this is not an end point to do not use
# the same color as the underlying end points. Make this
# shift something characteristic of this layer by making
# use of its radius
shift[i] = 0 if n == 1 else 60 * radius
# Do not label this slice in the next layer if this was
# already an end point or a null slice
if n == 1:
dontlabel.append(k_outer)
# Increase counter
i += 1
# Assign the colors to every component in this layer
colors = cmap((color_indexes[[cindexes_layer[:-1]]] + \
shift).astype(int))
# If breakdonut=True show a blank in the unlabeled items
if breakdonut:
for j, l in enumerate(labels):
if l is '': colors[j] = [0., 0., 0., 0.]
# Append the obtained slice values of this layer to the axes
ax.pie(np.array(vals),
radius=radius,
labels=labels,
labeldistance=radius,
colors=colors,
wedgeprops=dict(width=0.2, edgecolor='w', linewidth=0.3))
# Keep nesting if there is still any dictionary between the values
if not all(isinstance(v, float) for v in dictionary.values()):
self.plot_nested_pie(new_dict,
ax,
radius=radius - delta,
dontlabel=dontlabel,
metric=metric,
units=units)
# Don't continue nesting if all components were float end points
else:
plt.title('Total {metric} = {value:.2f} {units}'.format(\
metric=metric, value=self.sum_dict(dictionary), units=units))
# Equal aspect ratio ensures that pie is drawn as a circle
ax.axis('equal')
plt.show()
def serialize_dict(self, value):
return dict((k, self.checkTag(v)) for k, v in iteritems(value))
def serialize_means_test(self, value):
return {
" mt": dict((k, self.checkTag(v)) for k, v in iteritems(value))
}
def serialize_checker_session_object(self, value):
return {
" ch": dict((k, self.checkTag(v)) for k, v in iteritems(value))
}
def load_config(self):
config = dict([(key, value) for key, value in iteritems(self.options)
if key in self.cfg.settings and value is not None])
for key, value in iteritems(config):
self.cfg.set(key.lower(), value)
