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"""Classes for managing templates and their runtime and compile time
options.
"""
import os
import sys
import typing
import typing as t
import weakref
from collections import ChainMap
from functools import lru_cache
from functools import partial
from functools import reduce
from types import CodeType
from markupsafe import Markup
from . import nodes
from .compiler import CodeGenerator
from .compiler import generate
from .defaults import BLOCK_END_STRING
from .defaults import BLOCK_START_STRING
from .defaults import COMMENT_END_STRING
from .defaults import COMMENT_START_STRING
from .defaults import DEFAULT_FILTERS
from .defaults import DEFAULT_NAMESPACE
from .defaults import DEFAULT_POLICIES
from .defaults import DEFAULT_TESTS
from .defaults import KEEP_TRAILING_NEWLINE
from .defaults import LINE_COMMENT_PREFIX
from .defaults import LINE_STATEMENT_PREFIX
from .defaults import LSTRIP_BLOCKS
from .defaults import NEWLINE_SEQUENCE
from .defaults import TRIM_BLOCKS
from .defaults import VARIABLE_END_STRING
from .defaults import VARIABLE_START_STRING
from .exceptions import TemplateNotFound
from .exceptions import TemplateRuntimeError
from .exceptions import TemplatesNotFound
from .exceptions import TemplateSyntaxError
from .exceptions import UndefinedError
from .lexer import get_lexer
from .lexer import Lexer
from .lexer import TokenStream
from .nodes import EvalContext
from .parser import Parser
from .runtime import Context
from .runtime import new_context
from .runtime import Undefined
from .utils import _PassArg
from .utils import concat
from .utils import consume
from .utils import import_string
from .utils import internalcode
from .utils import LRUCache
from .utils import missing
if t.TYPE_CHECKING:
import typing_extensions as te
from .bccache import BytecodeCache
from .ext import Extension
from .loaders import BaseLoader
_env_bound = t.TypeVar("_env_bound", bound="Environment")
# for direct template usage we have up to ten living environments
@lru_cache(maxsize=10)
def get_spontaneous_environment(cls: t.Type[_env_bound], *args: t.Any) -> _env_bound:
"""Return a new spontaneous environment. A spontaneous environment
is used for templates created directly rather than through an
existing environment.
:param cls: Environment class to create.
:param args: Positional arguments passed to environment.
"""
env = cls(*args)
env.shared = True
return env
def create_cache(
size: int,
) -> t.Optional[t.MutableMapping[t.Tuple[weakref.ref, str], "Template"]]:
"""Return the cache class for the given size."""
if size == 0:
return None
if size < 0:
return {}
return LRUCache(size) # type: ignore
def copy_cache(
cache: t.Optional[t.MutableMapping],
) -> t.Optional[t.MutableMapping[t.Tuple[weakref.ref, str], "Template"]]:
"""Create an empty copy of the given cache."""
if cache is None:
return None
if type(cache) is dict:
return {}
return LRUCache(cache.capacity) # type: ignore
def load_extensions(
environment: "Environment",
extensions: t.Sequence[t.Union[str, t.Type["Extension"]]],
) -> t.Dict[str, "Extension"]:
"""Load the extensions from the list and bind it to the environment.
Returns a dict of instantiated extensions.
"""
result = {}
for extension in extensions:
if isinstance(extension, str):
extension = t.cast(t.Type["Extension"], import_string(extension))
result[extension.identifier] = extension(environment)
return result
def _environment_config_check(environment: "Environment") -> "Environment":
"""Perform a sanity check on the environment."""
assert issubclass(
environment.undefined, Undefined
), "'undefined' must be a subclass of 'jinja2.Undefined'."
assert (
environment.block_start_string
!= environment.variable_start_string
!= environment.comment_start_string
), "block, variable and comment start strings must be different."
assert environment.newline_sequence in {
"\r",
"\r\n",
"\n",
}, "'newline_sequence' must be one of '\\n', '\\r\\n', or '\\r'."
return environment
class Environment:
r"""The core component of Jinja is the `Environment`. It contains
important shared variables like configuration, filters, tests,
globals and others. Instances of this class may be modified if
they are not shared and if no template was loaded so far.
Modifications on environments after the first template was loaded
will lead to surprising effects and undefined behavior.
Here are the possible initialization parameters:
`block_start_string`
The string marking the beginning of a block. Defaults to ``'{%'``.
`block_end_string`
The string marking the end of a block. Defaults to ``'%}'``.
`variable_start_string`
The string marking the beginning of a print statement.
Defaults to ``'{{'``.
`variable_end_string`
The string marking the end of a print statement. Defaults to
``'}}'``.
`comment_start_string`
The string marking the beginning of a comment. Defaults to ``'{#'``.
`comment_end_string`
The string marking the end of a comment. Defaults to ``'#}'``.
`line_statement_prefix`
If given and a string, this will be used as prefix for line based
statements. See also :ref:`line-statements`.
`line_comment_prefix`
If given and a string, this will be used as prefix for line based
comments. See also :ref:`line-statements`.
.. versionadded:: 2.2
`trim_blocks`
If this is set to ``True`` the first newline after a block is
removed (block, not variable tag!). Defaults to `False`.
`lstrip_blocks`
If this is set to ``True`` leading spaces and tabs are stripped
from the start of a line to a block. Defaults to `False`.
`newline_sequence`
The sequence that starts a newline. Must be one of ``'\r'``,
``'\n'`` or ``'\r\n'``. The default is ``'\n'`` which is a
useful default for Linux and OS X systems as well as web
applications.
`keep_trailing_newline`
Preserve the trailing newline when rendering templates.
The default is ``False``, which causes a single newline,
if present, to be stripped from the end of the template.
.. versionadded:: 2.7
`extensions`
List of Jinja extensions to use. This can either be import paths
as strings or extension classes. For more information have a
look at :ref:`the extensions documentation <jinja-extensions>`.
`optimized`
should the optimizer be enabled? Default is ``True``.
`undefined`
:class:`Undefined` or a subclass of it that is used to represent
undefined values in the template.
`finalize`
A callable that can be used to process the result of a variable
expression before it is output. For example one can convert
``None`` implicitly into an empty string here.
`autoescape`
If set to ``True`` the XML/HTML autoescaping feature is enabled by
default. For more details about autoescaping see
:class:`~markupsafe.Markup`. As of Jinja 2.4 this can also
be a callable that is passed the template name and has to
return ``True`` or ``False`` depending on autoescape should be
enabled by default.
.. versionchanged:: 2.4
`autoescape` can now be a function
`loader`
The template loader for this environment.
`cache_size`
The size of the cache. Per default this is ``400`` which means
that if more than 400 templates are loaded the loader will clean
out the least recently used template. If the cache size is set to
``0`` templates are recompiled all the time, if the cache size is
``-1`` the cache will not be cleaned.
.. versionchanged:: 2.8
The cache size was increased to 400 from a low 50.
`auto_reload`
Some loaders load templates from locations where the template
sources may change (ie: file system or database). If
``auto_reload`` is set to ``True`` (default) every time a template is
requested the loader checks if the source changed and if yes, it
will reload the template. For higher performance it's possible to
disable that.
`bytecode_cache`
If set to a bytecode cache object, this object will provide a
cache for the internal Jinja bytecode so that templates don't
have to be parsed if they were not changed.
See :ref:`bytecode-cache` for more information.
`enable_async`
If set to true this enables async template execution which
allows using async functions and generators.
"""
#: if this environment is sandboxed. Modifying this variable won't make
#: the environment sandboxed though. For a real sandboxed environment
#: have a look at jinja2.sandbox. This flag alone controls the code
#: generation by the compiler.
sandboxed = False
#: True if the environment is just an overlay
overlayed = False
#: the environment this environment is linked to if it is an overlay
linked_to: t.Optional["Environment"] = None
#: shared environments have this set to `True`. A shared environment
#: must not be modified
shared = False
#: the class that is used for code generation. See
#: :class:`~jinja2.compiler.CodeGenerator` for more information.
code_generator_class: t.Type["CodeGenerator"] = CodeGenerator
#: the context class that is used for templates. See
#: :class:`~jinja2.runtime.Context` for more information.
context_class: t.Type[Context] = Context
template_class: t.Type["Template"]
def __init__(
self,
block_start_string: str = BLOCK_START_STRING,
block_end_string: str = BLOCK_END_STRING,
variable_start_string: str = VARIABLE_START_STRING,
variable_end_string: str = VARIABLE_END_STRING,
comment_start_string: str = COMMENT_START_STRING,
comment_end_string: str = COMMENT_END_STRING,
line_statement_prefix: t.Optional[str] = LINE_STATEMENT_PREFIX,
line_comment_prefix: t.Optional[str] = LINE_COMMENT_PREFIX,
trim_blocks: bool = TRIM_BLOCKS,
lstrip_blocks: bool = LSTRIP_BLOCKS,
newline_sequence: "te.Literal['\\n', '\\r\\n', '\\r']" = NEWLINE_SEQUENCE,
keep_trailing_newline: bool = KEEP_TRAILING_NEWLINE,
extensions: t.Sequence[t.Union[str, t.Type["Extension"]]] = (),
optimized: bool = True,
undefined: t.Type[Undefined] = Undefined,
finalize: t.Optional[t.Callable[..., t.Any]] = None,
autoescape: t.Union[bool, t.Callable[[t.Optional[str]], bool]] = False,
loader: t.Optional["BaseLoader"] = None,
cache_size: int = 400,
auto_reload: bool = True,
bytecode_cache: t.Optional["BytecodeCache"] = None,
enable_async: bool = False,
):
# !!Important notice!!
# The constructor accepts quite a few arguments that should be
# passed by keyword rather than position. However it's important to
# not change the order of arguments because it's used at least
# internally in those cases:
# - spontaneous environments (i18n extension and Template)
# - unittests
# If parameter changes are required only add parameters at the end
# and don't change the arguments (or the defaults!) of the arguments
# existing already.
# lexer / parser information
self.block_start_string = block_start_string
self.block_end_string = block_end_string
self.variable_start_string = variable_start_string
self.variable_end_string = variable_end_string
self.comment_start_string = comment_start_string
self.comment_end_string = comment_end_string
self.line_statement_prefix = line_statement_prefix
self.line_comment_prefix = line_comment_prefix
self.trim_blocks = trim_blocks
self.lstrip_blocks = lstrip_blocks
self.newline_sequence = newline_sequence
self.keep_trailing_newline = keep_trailing_newline
# runtime information
self.undefined: t.Type[Undefined] = undefined
self.optimized = optimized
self.finalize = finalize
self.autoescape = autoescape
# defaults
self.filters = DEFAULT_FILTERS.copy()
self.tests = DEFAULT_TESTS.copy()
self.globals = DEFAULT_NAMESPACE.copy()
# set the loader provided
self.loader = loader
self.cache = create_cache(cache_size)
self.bytecode_cache = bytecode_cache
self.auto_reload = auto_reload
# configurable policies
self.policies = DEFAULT_POLICIES.copy()
# load extensions
self.extensions = load_extensions(self, extensions)
self.is_async = enable_async
_environment_config_check(self)
def add_extension(self, extension: t.Union[str, t.Type["Extension"]]) -> None:
"""Adds an extension after the environment was created.
.. versionadded:: 2.5
"""
self.extensions.update(load_extensions(self, [extension]))
def extend(self, **attributes: t.Any) -> None:
"""Add the items to the instance of the environment if they do not exist
yet. This is used by :ref:`extensions <writing-extensions>` to register
callbacks and configuration values without breaking inheritance.
"""
for key, value in attributes.items():
if not hasattr(self, key):
setattr(self, key, value)
def overlay(
self,
block_start_string: str = missing,
block_end_string: str = missing,
variable_start_string: str = missing,
variable_end_string: str = missing,
comment_start_string: str = missing,
comment_end_string: str = missing,
line_statement_prefix: t.Optional[str] = missing,
line_comment_prefix: t.Optional[str] = missing,
trim_blocks: bool = missing,
lstrip_blocks: bool = missing,
extensions: t.Sequence[t.Union[str, t.Type["Extension"]]] = missing,
optimized: bool = missing,
undefined: t.Type[Undefined] = missing,
finalize: t.Optional[t.Callable[..., t.Any]] = missing,
autoescape: t.Union[bool, t.Callable[[t.Optional[str]], bool]] = missing,
loader: t.Optional["BaseLoader"] = missing,
cache_size: int = missing,
auto_reload: bool = missing,
bytecode_cache: t.Optional["BytecodeCache"] = missing,
) -> "Environment":
"""Create a new overlay environment that shares all the data with the
current environment except for cache and the overridden attributes.
Extensions cannot be removed for an overlayed environment. An overlayed
environment automatically gets all the extensions of the environment it
is linked to plus optional extra extensions.
Creating overlays should happen after the initial environment was set
up completely. Not all attributes are truly linked, some are just
copied over so modifications on the original environment may not shine
through.
"""
args = dict(locals())
del args["self"], args["cache_size"], args["extensions"]
rv = object.__new__(self.__class__)
rv.__dict__.update(self.__dict__)
rv.overlayed = True
rv.linked_to = self
for key, value in args.items():
if value is not missing:
setattr(rv, key, value)
if cache_size is not missing:
rv.cache = create_cache(cache_size)
else:
rv.cache = copy_cache(self.cache)
rv.extensions = {}
for key, value in self.extensions.items():
rv.extensions[key] = value.bind(rv)
if extensions is not missing:
rv.extensions.update(load_extensions(rv, extensions))
return _environment_config_check(rv)
@property
def lexer(self) -> Lexer:
"""The lexer for this environment."""
return get_lexer(self)
def iter_extensions(self) -> t.Iterator["Extension"]:
"""Iterates over the extensions by priority."""
return iter(sorted(self.extensions.values(), key=lambda x: x.priority))
def getitem(
self, obj: t.Any, argument: t.Union[str, t.Any]
) -> t.Union[t.Any, Undefined]:
"""Get an item or attribute of an object but prefer the item."""
try:
return obj[argument]
except (AttributeError, TypeError, LookupError):
if isinstance(argument, str):
try:
attr = str(argument)
except Exception:
pass
else:
try:
return getattr(obj, attr)
except AttributeError:
pass
return self.undefined(obj=obj, name=argument)
def getattr(self, obj: t.Any, attribute: str) -> t.Any:
"""Get an item or attribute of an object but prefer the attribute.
Unlike :meth:`getitem` the attribute *must* be a string.
"""
try:
return getattr(obj, attribute)
except AttributeError:
pass
try:
return obj[attribute]
except (TypeError, LookupError, AttributeError):
return self.undefined(obj=obj, name=attribute)
def _filter_test_common(
self,
name: t.Union[str, Undefined],
value: t.Any,
args: t.Optional[t.Sequence[t.Any]],
kwargs: t.Optional[t.Mapping[str, t.Any]],
context: t.Optional[Context],
eval_ctx: t.Optional[EvalContext],
is_filter: bool,
) -> t.Any:
if is_filter:
env_map = self.filters
type_name = "filter"
else:
env_map = self.tests
type_name = "test"
func = env_map.get(name) # type: ignore
if func is None:
msg = f"No {type_name} named {name!r}."
if isinstance(name, Undefined):
try:
name._fail_with_undefined_error()
except Exception as e:
msg = f"{msg} ({e}; did you forget to quote the callable name?)"
raise TemplateRuntimeError(msg)
args = [value, *(args if args is not None else ())]
kwargs = kwargs if kwargs is not None else {}
pass_arg = _PassArg.from_obj(func)
if pass_arg is _PassArg.context:
if context is None:
raise TemplateRuntimeError(
f"Attempted to invoke a context {type_name} without context."
)
args.insert(0, context)
elif pass_arg is _PassArg.eval_context:
if eval_ctx is None:
if context is not None:
eval_ctx = context.eval_ctx
else:
eval_ctx = EvalContext(self)
args.insert(0, eval_ctx)
elif pass_arg is _PassArg.environment:
args.insert(0, self)
return func(*args, **kwargs)
def call_filter(
self,
name: str,
value: t.Any,
args: t.Optional[t.Sequence[t.Any]] = None,
kwargs: t.Optional[t.Mapping[str, t.Any]] = None,
context: t.Optional[Context] = None,
eval_ctx: t.Optional[EvalContext] = None,
) -> t.Any:
"""Invoke a filter on a value the same way the compiler does.
This might return a coroutine if the filter is running from an
environment in async mode and the filter supports async
execution. It's your responsibility to await this if needed.
.. versionadded:: 2.7
"""
return self._filter_test_common(
name, value, args, kwargs, context, eval_ctx, True
)
def call_test(
self,
name: str,
value: t.Any,
args: t.Optional[t.Sequence[t.Any]] = None,
kwargs: t.Optional[t.Mapping[str, t.Any]] = None,
context: t.Optional[Context] = None,
eval_ctx: t.Optional[EvalContext] = None,
) -> t.Any:
"""Invoke a test on a value the same way the compiler does.
This might return a coroutine if the test is running from an
environment in async mode and the test supports async execution.
It's your responsibility to await this if needed.
.. versionchanged:: 3.0
Tests support ``@pass_context``, etc. decorators. Added
the ``context`` and ``eval_ctx`` parameters.
.. versionadded:: 2.7
"""
return self._filter_test_common(
name, value, args, kwargs, context, eval_ctx, False
)
@internalcode
def parse(
self,
source: str,
name: t.Optional[str] = None,
filename: t.Optional[str] = None,
) -> nodes.Template:
"""Parse the sourcecode and return the abstract syntax tree. This
tree of nodes is used by the compiler to convert the template into
executable source- or bytecode. This is useful for debugging or to
extract information from templates.
If you are :ref:`developing Jinja extensions <writing-extensions>`
this gives you a good overview of the node tree generated.
"""
try:
return self._parse(source, name, filename)
except TemplateSyntaxError:
self.handle_exception(source=source)
def _parse(
self, source: str, name: t.Optional[str], filename: t.Optional[str]
) -> nodes.Template:
"""Internal parsing function used by `parse` and `compile`."""
return Parser(self, source, name, filename).parse()
def lex(
self,
source: str,
name: t.Optional[str] = None,
filename: t.Optional[str] = None,
) -> t.Iterator[t.Tuple[int, str, str]]:
"""Lex the given sourcecode and return a generator that yields
tokens as tuples in the form ``(lineno, token_type, value)``.
This can be useful for :ref:`extension development <writing-extensions>`
and debugging templates.
This does not perform preprocessing. If you want the preprocessing
of the extensions to be applied you have to filter source through
the :meth:`preprocess` method.
"""
source = str(source)
try:
return self.lexer.tokeniter(source, name, filename)
except TemplateSyntaxError:
self.handle_exception(source=source)
def preprocess(
self,
source: str,
name: t.Optional[str] = None,
filename: t.Optional[str] = None,
) -> str:
"""Preprocesses the source with all extensions. This is automatically
called for all parsing and compiling methods but *not* for :meth:`lex`
because there you usually only want the actual source tokenized.
"""
return reduce(
lambda s, e: e.preprocess(s, name, filename),
self.iter_extensions(),
str(source),
)
def _tokenize(
self,
source: str,
name: t.Optional[str],
filename: t.Optional[str] = None,
state: t.Optional[str] = None,
) -> TokenStream:
"""Called by the parser to do the preprocessing and filtering
for all the extensions. Returns a :class:`~jinja2.lexer.TokenStream`.
"""
source = self.preprocess(source, name, filename)
stream = self.lexer.tokenize(source, name, filename, state)
for ext in self.iter_extensions():
stream = ext.filter_stream(stream) # type: ignore
if not isinstance(stream, TokenStream):
stream = TokenStream(stream, name, filename) # type: ignore
return stream
def _generate(
self,
source: nodes.Template,
name: t.Optional[str],
filename: t.Optional[str],
defer_init: bool = False,
) -> str:
"""Internal hook that can be overridden to hook a different generate
method in.
.. versionadded:: 2.5
"""
return generate( # type: ignore
source,
self,
name,
filename,
defer_init=defer_init,
optimized=self.optimized,
)
def _compile(self, source: str, filename: str) -> CodeType:
"""Internal hook that can be overridden to hook a different compile
method in.
.. versionadded:: 2.5
"""
return compile(source, filename, "exec") # type: ignore
@typing.overload
def compile( # type: ignore
self,
source: t.Union[str, nodes.Template],
name: t.Optional[str] = None,
filename: t.Optional[str] = None,
raw: "te.Literal[False]" = False,
defer_init: bool = False,
) -> CodeType:
...
@typing.overload
def compile(
self,
source: t.Union[str, nodes.Template],
name: t.Optional[str] = None,
filename: t.Optional[str] = None,
raw: "te.Literal[True]" = ...,
defer_init: bool = False,
) -> str:
...
@internalcode
def compile(
self,
source: t.Union[str, nodes.Template],
name: t.Optional[str] = None,
filename: t.Optional[str] = None,
raw: bool = False,
defer_init: bool = False,
) -> t.Union[str, CodeType]:
"""Compile a node or template source code. The `name` parameter is
the load name of the template after it was joined using
:meth:`join_path` if necessary, not the filename on the file system.
the `filename` parameter is the estimated filename of the template on
the file system. If the template came from a database or memory this
can be omitted.
The return value of this method is a python code object. If the `raw`
parameter is `True` the return value will be a string with python
code equivalent to the bytecode returned otherwise. This method is
mainly used internally.
`defer_init` is use internally to aid the module code generator. This
causes the generated code to be able to import without the global
environment variable to be set.
.. versionadded:: 2.4
`defer_init` parameter added.
"""
source_hint = None
try:
if isinstance(source, str):
source_hint = source
source = self._parse(source, name, filename)
source = self._generate(source, name, filename, defer_init=defer_init)
if raw:
return source
if filename is None:
filename = "<template>"
return self._compile(source, filename)
except TemplateSyntaxError:
self.handle_exception(source=source_hint)
def compile_expression(
self, source: str, undefined_to_none: bool = True
) -> "TemplateExpression":
"""A handy helper method that returns a callable that accepts keyword
arguments that appear as variables in the expression. If called it
returns the result of the expression.
This is useful if applications want to use the same rules as Jinja
in template "configuration files" or similar situations.
Example usage:
>>> env = Environment()
>>> expr = env.compile_expression('foo == 42')
>>> expr(foo=23)
False
>>> expr(foo=42)
True
Per default the return value is converted to `None` if the
expression returns an undefined value. This can be changed
by setting `undefined_to_none` to `False`.
>>> env.compile_expression('var')() is None
True
>>> env.compile_expression('var', undefined_to_none=False)()
Undefined
.. versionadded:: 2.1
"""
parser = Parser(self, source, state="variable")
try:
expr = parser.parse_expression()
if not parser.stream.eos:
raise TemplateSyntaxError(
"chunk after expression", parser.stream.current.lineno, None, None
)
expr.set_environment(self)
except TemplateSyntaxError:
self.handle_exception(source=source)
body = [nodes.Assign(nodes.Name("result", "store"), expr, lineno=1)]
template = self.from_string(nodes.Template(body, lineno=1))
return TemplateExpression(template, undefined_to_none)
def compile_templates(
self,
target: t.Union[str, os.PathLike],
extensions: t.Optional[t.Collection[str]] = None,
filter_func: t.Optional[t.Callable[[str], bool]] = None,
zip: t.Optional[str] = "deflated",
log_function: t.Optional[t.Callable[[str], None]] = None,
ignore_errors: bool = True,
) -> None:
"""Finds all the templates the loader can find, compiles them
and stores them in `target`. If `zip` is `None`, instead of in a
zipfile, the templates will be stored in a directory.
By default a deflate zip algorithm is used. To switch to
the stored algorithm, `zip` can be set to ``'stored'``.
`extensions` and `filter_func` are passed to :meth:`list_templates`.
Each template returned will be compiled to the target folder or
zipfile.
By default template compilation errors are ignored. In case a
log function is provided, errors are logged. If you want template
syntax errors to abort the compilation you can set `ignore_errors`
to `False` and you will get an exception on syntax errors.
.. versionadded:: 2.4
"""
from .loaders import ModuleLoader
if log_function is None:
def log_function(x: str) -> None:
pass
assert log_function is not None
assert self.loader is not None, "No loader configured."
def write_file(filename: str, data: str) -> None:
if zip:
info = ZipInfo(filename)
info.external_attr = 0o755 << 16
zip_file.writestr(info, data)
else:
with open(os.path.join(target, filename), "wb") as f:
f.write(data.encode("utf8"))
if zip is not None:
from zipfile import ZipFile, ZipInfo, ZIP_DEFLATED, ZIP_STORED
zip_file = ZipFile(
target, "w", dict(deflated=ZIP_DEFLATED, stored=ZIP_STORED)[zip]
)
log_function(f"Compiling into Zip archive {target!r}")
else:
if not os.path.isdir(target):
os.makedirs(target)
log_function(f"Compiling into folder {target!r}")
try:
for name in self.list_templates(extensions, filter_func):
source, filename, _ = self.loader.get_source(self, name)
try:
code = self.compile(source, name, filename, True, True)
except TemplateSyntaxError as e:
if not ignore_errors:
raise
log_function(f'Could not compile "{name}": {e}')
continue
filename = ModuleLoader.get_module_filename(name)
write_file(filename, code)
log_function(f'Compiled "{name}" as {filename}')
finally:
if zip:
zip_file.close()
log_function("Finished compiling templates")
def list_templates(
self,
extensions: t.Optional[t.Collection[str]] = None,
filter_func: t.Optional[t.Callable[[str], bool]] = None,
) -> t.List[str]:
"""Returns a list of templates for this environment. This requires
that the loader supports the loader's
:meth:`~BaseLoader.list_templates` method.
If there are other files in the template folder besides the
actual templates, the returned list can be filtered. There are two
ways: either `extensions` is set to a list of file extensions for
templates, or a `filter_func` can be provided which is a callable that
is passed a template name and should return `True` if it should end up
in the result list.
If the loader does not support that, a :exc:`TypeError` is raised.
.. versionadded:: 2.4
"""
assert self.loader is not None, "No loader configured."
names = self.loader.list_templates()
if extensions is not None:
if filter_func is not None:
raise TypeError(
"either extensions or filter_func can be passed, but not both"
)
def filter_func(x: str) -> bool:
return "." in x and x.rsplit(".", 1)[1] in extensions # type: ignore
if filter_func is not None:
names = [name for name in names if filter_func(name)]
return names
def handle_exception(self, source: t.Optional[str] = None) -> "te.NoReturn":
"""Exception handling helper. This is used internally to either raise
rewritten exceptions or return a rendered traceback for the template.
"""
from .debug import rewrite_traceback_stack
raise rewrite_traceback_stack(source=source)
def join_path(self, template: str, parent: str) -> str:
"""Join a template with the parent. By default all the lookups are
relative to the loader root so this method returns the `template`
parameter unchanged, but if the paths should be relative to the
parent template, this function can be used to calculate the real
template name.
Subclasses may override this method and implement template path
joining here.
"""
return template
@internalcode
def _load_template(
self, name: str, globals: t.Optional[t.Mapping[str, t.Any]]
) -> "Template":
if self.loader is None:
raise TypeError("no loader for this environment specified")
cache_key = (weakref.ref(self.loader), name)
if self.cache is not None:
template = self.cache.get(cache_key)
if template is not None and (
not self.auto_reload or template.is_up_to_date
):
# template.globals is a ChainMap, modifying it will only
# affect the template, not the environment globals.
if globals:
template.globals.update(globals)
return template
template = self.loader.load(self, name, self.make_globals(globals))
if self.cache is not None:
self.cache[cache_key] = template
return template
@internalcode
def get_template(
self,
name: t.Union[str, "Template"],
parent: t.Optional[str] = None,
globals: t.Optional[t.Mapping[str, t.Any]] = None,
) -> "Template":
"""Load a template by name with :attr:`loader` and return a
:class:`Template`. If the template does not exist a
:exc:`TemplateNotFound` exception is raised.
:param name: Name of the template to load.
:param parent: The name of the parent template importing this
template. :meth:`join_path` can be used to implement name
transformations with this.
:param globals: Extend the environment :attr:`globals` with
these extra variables available for all renders of this
template. If the template has already been loaded and
cached, its globals are updated with any new items.
.. versionchanged:: 3.0
If a template is loaded from cache, ``globals`` will update
the template's globals instead of ignoring the new values.
.. versionchanged:: 2.4
If ``name`` is a :class:`Template` object it is returned
unchanged.
"""
if isinstance(name, Template):
return name
if parent is not None:
name = self.join_path(name, parent)
return self._load_template(name, globals)
@internalcode
def select_template(
self,
names: t.Iterable[t.Union[str, "Template"]],
parent: t.Optional[str] = None,
globals: t.Optional[t.Mapping[str, t.Any]] = None,
) -> "Template":
"""Like :meth:`get_template`, but tries loading multiple names.
If none of the names can be loaded a :exc:`TemplatesNotFound`
exception is raised.
:param names: List of template names to try loading in order.
:param parent: The name of the parent template importing this
template. :meth:`join_path` can be used to implement name
transformations with this.
:param globals: Extend the environment :attr:`globals` with
these extra variables available for all renders of this
template. If the template has already been loaded and
cached, its globals are updated with any new items.
.. versionchanged:: 3.0
If a template is loaded from cache, ``globals`` will update
the template's globals instead of ignoring the new values.
.. versionchanged:: 2.11
If ``names`` is :class:`Undefined`, an :exc:`UndefinedError`
is raised instead. If no templates were found and ``names``
contains :class:`Undefined`, the message is more helpful.
.. versionchanged:: 2.4
If ``names`` contains a :class:`Template` object it is
returned unchanged.
.. versionadded:: 2.3
"""
if isinstance(names, Undefined):
names._fail_with_undefined_error()
if not names:
raise TemplatesNotFound(
message="Tried to select from an empty list of templates."
)
for name in names:
if isinstance(name, Template):
return name
if parent is not None:
name = self.join_path(name, parent)
try:
return self._load_template(name, globals)
except (TemplateNotFound, UndefinedError):
pass
raise TemplatesNotFound(names) # type: ignore
@internalcode
def get_or_select_template(
self,
template_name_or_list: t.Union[
str, "Template", t.List[t.Union[str, "Template"]]
],
parent: t.Optional[str] = None,
globals: t.Optional[t.Mapping[str, t.Any]] = None,
) -> "Template":
"""Use :meth:`select_template` if an iterable of template names
is given, or :meth:`get_template` if one name is given.
.. versionadded:: 2.3
"""
if isinstance(template_name_or_list, (str, Undefined)):
return self.get_template(template_name_or_list, parent, globals)
elif isinstance(template_name_or_list, Template):
return template_name_or_list
return self.select_template(template_name_or_list, parent, globals)
def from_string(
self,
source: t.Union[str, nodes.Template],
globals: t.Optional[t.Mapping[str, t.Any]] = None,
template_class: t.Optional[t.Type["Template"]] = None,
) -> "Template":
"""Load a template from a source string without using
:attr:`loader`.
:param source: Jinja source to compile into a template.
:param globals: Extend the environment :attr:`globals` with
these extra variables available for all renders of this
template. If the template has already been loaded and
cached, its globals are updated with any new items.
:param template_class: Return an instance of this
:class:`Template` class.
"""
gs = self.make_globals(globals)
cls = template_class or self.template_class
return cls.from_code(self, self.compile(source), gs, None)
def make_globals(
self, d: t.Optional[t.Mapping[str, t.Any]]
) -> t.MutableMapping[str, t.Any]:
"""Make the globals map for a template. Any given template
globals overlay the environment :attr:`globals`.
Returns a :class:`collections.ChainMap`. This allows any changes
to a template's globals to only affect that template, while
changes to the environment's globals are still reflected.
However, avoid modifying any globals after a template is loaded.
:param d: Dict of template-specific globals.
.. versionchanged:: 3.0
Use :class:`collections.ChainMap` to always prevent mutating
environment globals.
"""
if d is None:
d = {}
return ChainMap(d, self.globals)
class Template:
"""A compiled template that can be rendered.
Use the methods on :class:`Environment` to create or load templates.
The environment is used to configure how templates are compiled and
behave.
It is also possible to create a template object directly. This is
not usually recommended. The constructor takes most of the same
arguments as :class:`Environment`. All templates created with the
same environment arguments share the same ephemeral ``Environment``
instance behind the scenes.
A template object should be considered immutable. Modifications on
the object are not supported.
"""
#: Type of environment to create when creating a template directly
#: rather than through an existing environment.
environment_class: t.Type[Environment] = Environment
environment: Environment
globals: t.MutableMapping[str, t.Any]
name: t.Optional[str]
filename: t.Optional[str]
blocks: t.Dict[str, t.Callable[[Context], t.Iterator[str]]]
root_render_func: t.Callable[[Context], t.Iterator[str]]
_module: t.Optional["TemplateModule"]
_debug_info: str
_uptodate: t.Optional[t.Callable[[], bool]]
def __new__(
cls,
source: t.Union[str, nodes.Template],
block_start_string: str = BLOCK_START_STRING,
block_end_string: str = BLOCK_END_STRING,
variable_start_string: str = VARIABLE_START_STRING,
variable_end_string: str = VARIABLE_END_STRING,
comment_start_string: str = COMMENT_START_STRING,
comment_end_string: str = COMMENT_END_STRING,
line_statement_prefix: t.Optional[str] = LINE_STATEMENT_PREFIX,
line_comment_prefix: t.Optional[str] = LINE_COMMENT_PREFIX,
trim_blocks: bool = TRIM_BLOCKS,
lstrip_blocks: bool = LSTRIP_BLOCKS,
newline_sequence: "te.Literal['\\n', '\\r\\n', '\\r']" = NEWLINE_SEQUENCE,
keep_trailing_newline: bool = KEEP_TRAILING_NEWLINE,
extensions: t.Sequence[t.Union[str, t.Type["Extension"]]] = (),
optimized: bool = True,
undefined: t.Type[Undefined] = Undefined,
finalize: t.Optional[t.Callable[..., t.Any]] = None,
autoescape: t.Union[bool, t.Callable[[t.Optional[str]], bool]] = False,
enable_async: bool = False,
) -> t.Any: # it returns a `Template`, but this breaks the sphinx build...
env = get_spontaneous_environment(
cls.environment_class, # type: ignore
block_start_string,
block_end_string,
variable_start_string,
variable_end_string,
comment_start_string,
comment_end_string,
line_statement_prefix,
line_comment_prefix,
trim_blocks,
lstrip_blocks,
newline_sequence,
keep_trailing_newline,
frozenset(extensions),
optimized,
undefined, # type: ignore
finalize,
autoescape,
None,
0,
False,
None,
enable_async,
)
return env.from_string(source, template_class=cls)
@classmethod
def from_code(
cls,
environment: Environment,
code: CodeType,
globals: t.MutableMapping[str, t.Any],
uptodate: t.Optional[t.Callable[[], bool]] = None,
) -> "Template":
"""Creates a template object from compiled code and the globals. This
is used by the loaders and environment to create a template object.
"""
namespace = {"environment": environment, "__file__": code.co_filename}
exec(code, namespace)
rv = cls._from_namespace(environment, namespace, globals)
rv._uptodate = uptodate
return rv
@classmethod
def from_module_dict(
cls,
environment: Environment,
module_dict: t.MutableMapping[str, t.Any],
globals: t.MutableMapping[str, t.Any],
) -> "Template":
"""Creates a template object from a module. This is used by the
module loader to create a template object.
.. versionadded:: 2.4
"""
return cls._from_namespace(environment, module_dict, globals)
@classmethod
def _from_namespace(
cls,
environment: Environment,
namespace: t.MutableMapping[str, t.Any],
globals: t.MutableMapping[str, t.Any],
) -> "Template":
t: "Template" = object.__new__(cls)
t.environment = environment
t.globals = globals
t.name = namespace["name"]
t.filename = namespace["__file__"]
t.blocks = namespace["blocks"]
# render function and module
t.root_render_func = namespace["root"] # type: ignore
t._module = None
# debug and loader helpers
t._debug_info = namespace["debug_info"]
t._uptodate = None
# store the reference
namespace["environment"] = environment
namespace["__jinja_template__"] = t
return t
def render(self, *args: t.Any, **kwargs: t.Any) -> str:
"""This method accepts the same arguments as the `dict` constructor:
A dict, a dict subclass or some keyword arguments. If no arguments
are given the context will be empty. These two calls do the same::
template.render(knights='that say nih')
template.render({'knights': 'that say nih'})
This will return the rendered template as a string.
"""
if self.environment.is_async:
import asyncio
close = False
if sys.version_info < (3, 7):
loop = asyncio.get_event_loop()
else:
try:
loop = asyncio.get_running_loop()
except RuntimeError:
loop = asyncio.new_event_loop()
close = True
try:
return loop.run_until_complete(self.render_async(*args, **kwargs))
finally:
if close:
loop.close()
ctx = self.new_context(dict(*args, **kwargs))
try:
return concat(self.root_render_func(ctx)) # type: ignore
except Exception:
self.environment.handle_exception()
async def render_async(self, *args: t.Any, **kwargs: t.Any) -> str:
"""This works similar to :meth:`render` but returns a coroutine
that when awaited returns the entire rendered template string. This
requires the async feature to be enabled.
Example usage::
await template.render_async(knights='that say nih; asynchronously')
"""
if not self.environment.is_async:
raise RuntimeError(
"The environment was not created with async mode enabled."
)
ctx = self.new_context(dict(*args, **kwargs))
try:
return concat([n async for n in self.root_render_func(ctx)]) # type: ignore
except Exception:
return self.environment.handle_exception()
def stream(self, *args: t.Any, **kwargs: t.Any) -> "TemplateStream":
"""Works exactly like :meth:`generate` but returns a
:class:`TemplateStream`.
"""
return TemplateStream(self.generate(*args, **kwargs))
def generate(self, *args: t.Any, **kwargs: t.Any) -> t.Iterator[str]:
"""For very large templates it can be useful to not render the whole
template at once but evaluate each statement after another and yield
piece for piece. This method basically does exactly that and returns
a generator that yields one item after another as strings.
It accepts the same arguments as :meth:`render`.
"""
if self.environment.is_async:
import asyncio
async def to_list() -> t.List[str]:
return [x async for x in self.generate_async(*args, **kwargs)]
if sys.version_info < (3, 7):
loop = asyncio.get_event_loop()
out = loop.run_until_complete(to_list())
else:
out = asyncio.run(to_list())
yield from out
return
ctx = self.new_context(dict(*args, **kwargs))
try:
yield from self.root_render_func(ctx) # type: ignore
except Exception:
yield self.environment.handle_exception()
async def generate_async(
self, *args: t.Any, **kwargs: t.Any
) -> t.AsyncIterator[str]:
"""An async version of :meth:`generate`. Works very similarly but
returns an async iterator instead.
"""
if not self.environment.is_async:
raise RuntimeError(
"The environment was not created with async mode enabled."
)
ctx = self.new_context(dict(*args, **kwargs))
try:
async for event in self.root_render_func(ctx): # type: ignore
yield event
except Exception:
yield self.environment.handle_exception()
def new_context(
self,
vars: t.Optional[t.Dict[str, t.Any]] = None,
shared: bool = False,
locals: t.Optional[t.Mapping[str, t.Any]] = None,
) -> Context:
"""Create a new :class:`Context` for this template. The vars
provided will be passed to the template. Per default the globals
are added to the context. If shared is set to `True` the data
is passed as is to the context without adding the globals.
`locals` can be a dict of local variables for internal usage.
"""
return new_context(
self.environment, self.name, self.blocks, vars, shared, self.globals, locals
)
def make_module(
self,
vars: t.Optional[t.Dict[str, t.Any]] = None,
shared: bool = False,
locals: t.Optional[t.Mapping[str, t.Any]] = None,
) -> "TemplateModule":
"""This method works like the :attr:`module` attribute when called
without arguments but it will evaluate the template on every call
rather than caching it. It's also possible to provide
a dict which is then used as context. The arguments are the same
as for the :meth:`new_context` method.
"""
ctx = self.new_context(vars, shared, locals)
return TemplateModule(self, ctx)
async def make_module_async(
self,
vars: t.Optional[t.Dict[str, t.Any]] = None,
shared: bool = False,
locals: t.Optional[t.Mapping[str, t.Any]] = None,
) -> "TemplateModule":
"""As template module creation can invoke template code for
asynchronous executions this method must be used instead of the
normal :meth:`make_module` one. Likewise the module attribute
becomes unavailable in async mode.
"""
ctx = self.new_context(vars, shared, locals)
return TemplateModule(
self, ctx, [x async for x in self.root_render_func(ctx)] # type: ignore
)
@internalcode
def _get_default_module(self, ctx: t.Optional[Context] = None) -> "TemplateModule":
"""If a context is passed in, this means that the template was
imported. Imported templates have access to the current
template's globals by default, but they can only be accessed via
the context during runtime.
If there are new globals, we need to create a new module because
the cached module is already rendered and will not have access
to globals from the current context. This new module is not
cached because the template can be imported elsewhere, and it
should have access to only the current template's globals.
"""
if self.environment.is_async:
raise RuntimeError("Module is not available in async mode.")
if ctx is not None:
keys = ctx.globals_keys - self.globals.keys()
if keys:
return self.make_module({k: ctx.parent[k] for k in keys})
if self._module is None:
self._module = self.make_module()
return self._module
async def _get_default_module_async(
self, ctx: t.Optional[Context] = None
) -> "TemplateModule":
if ctx is not None:
keys = ctx.globals_keys - self.globals.keys()
if keys:
return await self.make_module_async({k: ctx.parent[k] for k in keys})
if self._module is None:
self._module = await self.make_module_async()
return self._module
@property
def module(self) -> "TemplateModule":
"""The template as module. This is used for imports in the
template runtime but is also useful if one wants to access
exported template variables from the Python layer:
>>> t = Template('{% macro foo() %}42{% endmacro %}23')
>>> str(t.module)
'23'
>>> t.module.foo() == u'42'
True
This attribute is not available if async mode is enabled.
"""
return self._get_default_module()
def get_corresponding_lineno(self, lineno: int) -> int:
"""Return the source line number of a line number in the
generated bytecode as they are not in sync.
"""
for template_line, code_line in reversed(self.debug_info):
if code_line <= lineno:
return template_line
return 1
@property
def is_up_to_date(self) -> bool:
"""If this variable is `False` there is a newer version available."""
if self._uptodate is None:
return True
return self._uptodate()
@property
def debug_info(self) -> t.List[t.Tuple[int, int]]:
"""The debug info mapping."""
if self._debug_info:
return [
tuple(map(int, x.split("="))) # type: ignore
for x in self._debug_info.split("&")
]
return []
def __repr__(self) -> str:
if self.name is None:
name = f"memory:{id(self):x}"
else:
name = repr(self.name)
return f"<{type(self).__name__} {name}>"
class TemplateModule:
"""Represents an imported template. All the exported names of the
template are available as attributes on this object. Additionally
converting it into a string renders the contents.
"""
def __init__(
self,
template: Template,
context: Context,
body_stream: t.Optional[t.Iterable[str]] = None,
) -> None:
if body_stream is None:
if context.environment.is_async:
raise RuntimeError(
"Async mode requires a body stream to be passed to"
" a template module. Use the async methods of the"
" API you are using."
)
body_stream = list(template.root_render_func(context)) # type: ignore
self._body_stream = body_stream
self.__dict__.update(context.get_exported())
self.__name__ = template.name
def __html__(self) -> Markup:
return Markup(concat(self._body_stream))
def __str__(self) -> str:
return concat(self._body_stream)
def __repr__(self) -> str:
if self.__name__ is None:
name = f"memory:{id(self):x}"
else:
name = repr(self.__name__)
return f"<{type(self).__name__} {name}>"
class TemplateExpression:
"""The :meth:`jinja2.Environment.compile_expression` method returns an
instance of this object. It encapsulates the expression-like access
to the template with an expression it wraps.
"""
def __init__(self, template: Template, undefined_to_none: bool) -> None:
self._template = template
self._undefined_to_none = undefined_to_none
def __call__(self, *args: t.Any, **kwargs: t.Any) -> t.Optional[t.Any]:
context = self._template.new_context(dict(*args, **kwargs))
consume(self._template.root_render_func(context)) # type: ignore
rv = context.vars["result"]
if self._undefined_to_none and isinstance(rv, Undefined):
rv = None
return rv
class TemplateStream:
"""A template stream works pretty much like an ordinary python generator
but it can buffer multiple items to reduce the number of total iterations.
Per default the output is unbuffered which means that for every unbuffered
instruction in the template one string is yielded.
If buffering is enabled with a buffer size of 5, five items are combined
into a new string. This is mainly useful if you are streaming
big templates to a client via WSGI which flushes after each iteration.
"""
def __init__(self, gen: t.Iterator[str]) -> None:
self._gen = gen
self.disable_buffering()
def dump(
self,
fp: t.Union[str, t.IO],
encoding: t.Optional[str] = None,
errors: t.Optional[str] = "strict",
) -> None:
"""Dump the complete stream into a file or file-like object.
Per default strings are written, if you want to encode
before writing specify an `encoding`.
Example usage::
Template('Hello {{ name }}!').stream(name='foo').dump('hello.html')
"""
close = False
if isinstance(fp, str):
if encoding is None:
encoding = "utf-8"
fp = open(fp, "wb")
close = True
try:
if encoding is not None:
iterable = (x.encode(encoding, errors) for x in self) # type: ignore
else:
iterable = self # type: ignore
if hasattr(fp, "writelines"):
fp.writelines(iterable)
else:
for item in iterable:
fp.write(item)
finally:
if close:
fp.close()
def disable_buffering(self) -> None:
"""Disable the output buffering."""
self._next = partial(next, self._gen)
self.buffered = False
def _buffered_generator(self, size: int) -> t.Iterator[str]:
buf: t.List[str] = []
c_size = 0
push = buf.append
while True:
try:
while c_size < size:
c = next(self._gen)
push(c)
if c:
c_size += 1
except StopIteration:
if not c_size:
return
yield concat(buf)
del buf[:]
c_size = 0
def enable_buffering(self, size: int = 5) -> None:
"""Enable buffering. Buffer `size` items before yielding them."""
if size <= 1:
raise ValueError("buffer size too small")
self.buffered = True
self._next = partial(next, self._buffered_generator(size))
def __iter__(self) -> "TemplateStream":
return self
def __next__(self) -> str:
return self._next() # type: ignore
# hook in default template class. if anyone reads this comment: ignore that
# it's possible to use custom templates ;-)
Environment.template_class = Template