Upgrading to Newer Releases¶
Flask itself is changing like any software is changing over time. Most of the changes are the nice kind, the kind where you don’t have to change anything in your code to profit from a new release.
However every once in a while there are changes that do require some changes in your code or there are changes that make it possible for you to improve your own code quality by taking advantage of new features in Flask.
This section of the documentation enumerates all the changes in Flask from release to release and how you can change your code to have a painless updating experience.
If you want to use the easy_install command to upgrade your Flask
installation, make sure to pass it the
$ easy_install -U Flask
In Flask 0.7 we cleaned up the code base internally a lot and did some backwards incompatible changes that make it easier to implement larger applications with Flask. Because we want to make upgrading as easy as possible we tried to counter the problems arising from these changes by providing a script that can ease the transition.
The script scans your whole application and generates an unified diff with changes it assumes are safe to apply. However as this is an automated tool it won’t be able to find all use cases and it might miss some. We internally spread a lot of deprecation warnings all over the place to make it easy to find pieces of code that it was unable to upgrade.
We strongly recommend that you hand review the generated patchfile and only apply the chunks that look good.
If you are using git as version control system for your project we
recommend applying the patch with
path -p1 < patchfile.diff and then
using the interactive commit feature to only apply the chunks that look
To apply the upgrade script do the following:
Download the script: flask-07-upgrade.py
Run it in the directory of your application:
python flask-07-upgrade.py > patchfile.diff
Review the generated patchfile.
Apply the patch:
patch -p1 < patchfile.diff
If you were using per-module template folders you need to move some templates around. Previously if you had a folder named
templatesnext to a blueprint named
adminthe implicit template path automatically was
admin/index.htmlfor a template file called
templates/index.html. This no longer is the case. Now you need to name the template
templates/admin/index.html. The tool will not detect this so you will have to do that on your own.
Please note that deprecation warnings are disabled by default starting
with Python 2.7. In order to see the deprecation warnings that might be
emitted you have to enabled them with the
If you are working with windows and you lack the patch command line utility you can get it as part of various Unix runtime environments for windows including cygwin, msysgit or ming32. Also source control systems like svn, hg or git have builtin support for applying unified diffs as generated by the tool. Check the manual of your version control system for more information.
Bug in Request Locals¶
Due to a bug in earlier implementations the request local proxies now
RuntimeError instead of an
AttributeError when they
are unbound. If you caught these exceptions with
before, you should catch them with
send_file() function is now issuing
deprecation warnings if you depend on functionality that will be removed
in Flask 1.0. Previously it was possible to use etags and mimetypes
when file objects were passed. This was unreliable and caused issues
for a few setups. If you get a deprecation warning, make sure to
update your application to work with either filenames there or disable
etag attaching and attach them yourself.
return send_file(my_file_object) return send_file(my_file_object)
return send_file(my_file_object, add_etags=False)
Upgrading to new Teardown Handling¶
We streamlined the behavior of the callbacks for request handling. For
things that modify the response the
decorators continue to work as expected, but for things that absolutely
must happen at the end of request we introduced the new
teardown_request() decorator. Unfortunately that
change also made after-request work differently under error conditions.
It’s not consistently skipped if exceptions happen whereas previously it
might have been called twice to ensure it is executed at the end of the
If you have database connection code that looks like this:
@app.after_request def after_request(response): g.db.close() return response
You are now encouraged to use this instead:
@app.teardown_request def after_request(exception): g.db.close()
On the upside this change greatly improves the internal code flow and makes it easier to customize the dispatching and error handling. This makes it now a lot easier to write unit tests as you can prevent closing down of database connections for a while. You can take advantage of the fact that the teardown callbacks are called when the response context is removed from the stack so a test can query the database after request handling:
with app.test_client() as client: resp = client.get('/') # g.db is still bound if there is such a thing # and here it's gone
Manual Error Handler Attaching¶
While it is still possible to attach error handlers to
Flask.error_handlers it’s discouraged to do so and in fact
deprecated. In generaly we no longer recommend custom error handler
attaching via assignments to the underlying dictionary due to the more
complex internal handling to support arbitrary exception classes and
Flask.errorhandler() for more information.
The proper upgrade is to change this:
app.error_handlers = handle_error
Alternatively you should just attach the function with a decorator:
@app.errorhandler(403) def handle_error(e): ...
register_error_handler() is new in Flask 0.7)
Blueprints replace the previous concept of “Modules” in Flask. They provide better semantics for various features and work better with large applications. The update script provided should be able to upgrade your applications automatically, but there might be some cases where it fails to upgrade. What changed?
- Blueprints need explicit names. Modules had an automatic name guesssing scheme where the shortname for the module was taken from the last part of the import module. The upgrade script tries to guess that name but it might fail as this information could change at runtime.
- Blueprints have an inverse behavior for
url_for()that it should look for the endpoint foo on the application. Now it means “relative to current module”. The script will inverse all calls to
url_for()automatically for you. It will do this in a very eager way so you might end up with some unnecessary leading dots in your code if you’re not using modules.
- Blueprints do not automatically provide static folders. They will also no longer automatically export templates from a folder called templates next to their location however but it can be enabled from the constructor. Same with static files: if you want to continue serving static files you need to tell the constructor explicitly the path to the static folder (which can be relative to the blueprint’s module path).
- Rendering templates was simplified. Now the blueprints can provide
template folders which are added to a general template searchpath.
This means that you need to add another subfolder with the blueprint’s
name into that folder if you want
blueprintname/template.htmlas the template name.
If you continue to use the Module object which is deprecated, Flask will restore the previous behavior as good as possible. However we strongly recommend upgrading to the new blueprints as they provide a lot of useful improvement such as the ability to attach a blueprint multiple times, blueprint specific error handlers and a lot more.
Flask 0.6 comes with a backwards incompatible change which affects the order of after-request handlers. Previously they were called in the order of the registration, now they are called in reverse order. This change was made so that Flask behaves more like people expected it to work and how other systems handle request pre- and postprocessing. If you depend on the order of execution of post-request functions, be sure to change the order.
Another change that breaks backwards compatibility is that context processors will no longer override values passed directly to the template rendering function. If for example request is as variable passed directly to the template, the default context processor will not override it with the current request object. This makes it easier to extend context processors later to inject additional variables without breaking existing template not expecting them.
Flask 0.5 is the first release that comes as a Python package instead of a single module. There were a couple of internal refactoring so if you depend on undocumented internal details you probably have to adapt the imports.
The following changes may be relevant to your application:
- autoescaping no longer happens for all templates. Instead it is
configured to only happen on files ending with
.xhtml. If you have templates with different extensions you should override the
- Flask no longer supports zipped applications in this release. This functionality might come back in future releases if there is demand for this feature. Removing support for this makes the Flask internal code easier to understand and fixes a couple of small issues that make debugging harder than necessary.
- The create_jinja_loader function is gone. If you want to customize
the Jinja loader now, use the
For application developers there are no changes that require changes in
your code. In case you are developing on a Flask extension however, and
that extension has a unittest-mode you might want to link the activation
of that mode to the new
Flask 0.3 introduces configuration support and logging as well as categories for flashing messages. All these are features that are 100% backwards compatible but you might want to take advantage of them.
The configuration support makes it easier to write any kind of application that requires some sort of configuration. (Which most likely is the case for any application out there).
If you previously had code like this:
app.debug = DEBUG app.secret_key = SECRET_KEY
You no longer have to do that, instead you can just load a configuration into the config object. How this works is outlined in 配置管理.
Flask now configures a logger for you with some basic and useful defaults. If you run your application in production and want to profit from automatic error logging, you might be interested in attaching a proper log handler. Also you can start logging warnings and errors into the logger when appropriately. For more information on that, read 处理应用异常.
Categories for Flash Messages¶
Flash messages can now have categories attached. This makes it possible to render errors, warnings or regular messages differently for example. This is an opt-in feature because it requires some rethinking in the code.
Read all about that in the Message Flashing pattern.