def __init__(self, context, *args, **kwargs):

super().__init__(*args, **kwargs)

context.dicts.append(self)

self.context = context

def __enter__(self):

return self

def __exit__(self, *args, **kwargs):

def __init__(self, dict_=None):

self._reset_dicts(dict_)

def _reset_dicts(self, value=None):

builtins = {"True": True, "False": False, "None": None}

self.dicts = [builtins]

if isinstance(value, BaseContext):

self.dicts += value.dicts[1:]

elif value is not None:

self.dicts.append(value)

def __copy__(self):

duplicate = BaseContext()

duplicate.__class__ = self.__class__

duplicate.__dict__ = copy(self.__dict__)

duplicate.dicts = self.dicts[:]

return duplicate

def __repr__(self):

return repr(self.dicts)

def __iter__(self):

return reversed(self.dicts)

def push(self, *args, **kwargs):

dicts = []

for d in args:

if isinstance(d, BaseContext):

dicts += d.dicts[1:]

else:

dicts.append(d)

return ContextDict(self, *dicts, **kwargs)

def pop(self):

if len(self.dicts) == 1:

raise ContextPopException

return self.dicts.pop()

def __setitem__(self, key, value):

"Set a variable in the current context"

self.dicts[-1][key] = value

def set_upward(self, key, value):

"""

Set a variable in one of the higher contexts if it exists there,

otherwise in the current context.

"""

context = self.dicts[-1]

for d in reversed(self.dicts):

if key in d:

context = d

break

context[key] = value

def __getitem__(self, key):

"Get a variable's value, starting at the current context and going upward"

for d in reversed(self.dicts):

if key in d:

return d[key]

raise KeyError(key)

def __delitem__(self, key):

"Delete a variable from the current context"

del self.dicts[-1][key]

def __contains__(self, key):

return any(key in d for d in self.dicts)

def get(self, key, otherwise=None):

for d in reversed(self.dicts):

if key in d:

return d[key]

return otherwise

def setdefault(self, key, default=None):

try:

return self[key]

except KeyError:

self[key] = default

return default

def new(self, values=None):

"""

Return a new context with the same properties, but with only the

values given in 'values' stored.

"""

new_context = copy(self)

new_context._reset_dicts(values)

return new_context

def flatten(self):

"""

Return self.dicts as one dictionary.

"""

flat = {}

for d in self.dicts:

flat.update(d)

return flat

def __eq__(self, other):

"""

Compare two contexts by comparing theirs 'dicts' attributes.

"""

if not isinstance(other, BaseContext):

return NotImplemented

# flatten dictionaries because they can be put in a different order.

"A stack container for variable context"

def __init__(self, dict_=None, autoescape=True, use_l10n=None, use_tz=None):

self.autoescape = autoescape

self.use_l10n = use_l10n

self.use_tz = use_tz

self.template_name = "unknown"

self.render_context = RenderContext()

# Set to the original template -- as opposed to extended or included

# templates -- during rendering, see bind_template.

self.template = None

super().__init__(dict_)

@contextmanager

def bind_template(self, template):

if self.template is not None:

raise RuntimeError("Context is already bound to a template")

self.template = template

try:

yield

finally:

self.template = None

def __copy__(self):

duplicate = super().__copy__()

duplicate.render_context = copy(self.render_context)

return duplicate

def update(self, other_dict):

"Push other_dict to the stack of dictionaries in the Context"

if not hasattr(other_dict, "__getitem__"):

raise TypeError("other_dict must be a mapping (dictionary-like) object.")

if isinstance(other_dict, BaseContext):

other_dict = other_dict.dicts[1:].pop()

"""

A stack container for storing Template state.

RenderContext simplifies the implementation of template Nodes by providing a

safe place to store state between invocations of a node's `render` method.

The RenderContext also provides scoping rules that are more sensible for

'template local' variables. The render context stack is pushed before each

template is rendered, creating a fresh scope with nothing in it. Name

resolution fails if a variable is not found at the top of the RequestContext

stack. Thus, variables are local to a specific template and don't affect the

rendering of other templates as they would if they were stored in the normal

template context.

"""

template = None

def __iter__(self):

yield from self.dicts[-1]

def __contains__(self, key):

return key in self.dicts[-1]

def get(self, key, otherwise=None):

return self.dicts[-1].get(key, otherwise)

def __getitem__(self, key):

return self.dicts[-1][key]

@contextmanager

def push_state(self, template, isolated_context=True):

initial = self.template

self.template = template

if isolated_context:

self.push()

try:

yield

finally:

self.template = initial

if isolated_context:

"""

This subclass of template.Context automatically populates itself using

the processors defined in the engine's configuration.

Additional processors can be specified as a list of callables

using the "processors" keyword argument.

"""

def __init__(

self,

request,

dict_=None,

processors=None,

use_l10n=None,

use_tz=None,

autoescape=True,

):

super().__init__(dict_, use_l10n=use_l10n, use_tz=use_tz, autoescape=autoescape)

self.request = request

self._processors = () if processors is None else tuple(processors)

self._processors_index = len(self.dicts)

# placeholder for context processors output

self.update({})

# empty dict for any new modifications

# (so that context processors don't overwrite them)

self.update({})

@contextmanager

def bind_template(self, template):

if self.template is not None:

raise RuntimeError("Context is already bound to a template")

self.template = template

# Set context processors according to the template engine's settings.

processors = template.engine.template_context_processors + self._processors

updates = {}

for processor in processors:

context = processor(self.request)

try:

updates.update(context)

except TypeError as e:

raise TypeError(

f"Context processor {processor.__qualname__} didn't return a "

"dictionary."

) from e

self.dicts[self._processors_index] = updates

try:

yield

finally:

self.template = None

# Unset context processors.

self.dicts[self._processors_index] = {}

def new(self, values=None):

new_context = super().new(values)

# This is for backwards-compatibility: RequestContexts created via

# Context.new don't include values from context processors.

if hasattr(new_context, "_processors_index"):

del new_context._processors_index

"""

Create a suitable Context from a plain dict and optionally an HttpRequest.

"""

if context is not None and not isinstance(context, dict):

raise TypeError(

"context must be a dict rather than %s." % context.__class__.__name__

)

if request is None:

context = Context(context, **kwargs)

else:

# The following pattern is required to ensure values from

# context override those from template context processors.

original_context = context

context = RequestContext(request, **kwargs)

if original_context:

context.push(original_context)