Creating a Pyramid Project¶
As we saw in Creating Your First Pyramid Application, it's possible to create a Pyramid application completely manually. However, it's usually more convenient to use our cookiecutter to generate a basic Pyramid project.
A project is a directory that contains at least one Python package. You'll use the Pyramid cookiecutter to create a project, and you'll create your application logic within a package that lives inside the project. Even if your application is extremely simple, it is useful to place code that drives the application within a package, because (1) a package is more easily extended with new code, and (2) an application that lives inside a package can also be distributed more easily than one which does not live within a package.
The Pylons Project provides a Pyramid cookiecutter that you can use to generate a project. Our cookiecutter allows several configuration options to generate the type of application you're trying to construct.
This cookiecutter is rendered using the cookiecutter
command that you may install.
参考
See also Cookiecutter Installation.
Creating the Project¶
In Installing Pyramid, you created a virtual Python environment via the
venv
command. We called the virtual environment directory
env
and set an environment variable VENV
to its path.
We assume that you previously installed cookiecutter, following its installation instructions.
When we invoke cookiecutter
, it will create a directory that represents our project.
We assume our current working directory is the value of VENV
.
On all platforms, generate a project using cookiecutter.
cookiecutter gh:Pylons/pyramid-cookiecutter-starter --checkout master
If prompted for the first item, accept the default yes
by hitting return.
You've cloned ~/.cookiecutters/pyramid-cookiecutter-starter before.
Is it okay to delete and re-clone it? [yes]: yes
project_name [Pyramid Scaffold]: myproject
repo_name [myproject]: myproject
Select template_language:
1 - jinja2
2 - chameleon
3 - mako
Choose from 1, 2, 3 [1]: 1
Select backend:
1 - none
2 - sqlalchemy
3 - zodb
Choose from 1, 2, 3 [1]: 1
We then run through the following commands.
On Unix:
# Reset our environment variable for a new virtual environment.
export VENV=~/env/myproject/env
# Change directory into your newly created project.
cd myproject
# Create a new virtual environment...
python3 -m venv $VENV
# ...where we upgrade packaging tools.
$VENV/bin/pip install --upgrade pip setuptools
Or on Windows:
# Reset our environment variable for a new virtual environment.
set VENV=c:\env\myproject\env
# Change directory into your newly created project.
cd myproject
# Create a new virtual environment...
python -m venv %VENV%
# ...where we upgrade packaging tools.
%VENV%\Scripts\pip install --upgrade pip setuptools
As a result of invoking the cookiecutter
command, a directory named
myproject
is created. That directory is a project directory. The
setup.py
file in that directory can be used to distribute your application,
or install your application for deployment or development.
An .ini
file named development.ini
will be created in the project
directory. You will use this .ini
file to configure a server, to run your
application, and to debug your application.
It contains configuration that enables an interactive debugger and settings optimized for development.
Another .ini
file named production.ini
will also be created in the
project directory. It contains configuration that disables any interactive
debugger (to prevent inappropriate access and disclosure), and turns off a
number of debugging settings. You can use this file to put your application
into production.
The myproject
project directory contains an additional subdirectory named
myproject
representing a Python package
which holds very simple Pyramid sample code. This is where you'll edit
your application's Python code and templates.
We created this project in a directory next to its virtual environment directory.
However, note that this is not mandatory. The project directory can go more or
less anywhere on your filesystem. You don't need to put it in a special "web
server" directory. You could put it within a virtual environment
directory. The author uses Linux mainly, and tends to put project directories
which he creates within his ~/projects
directory. On Windows, it's a good
idea to put project directories within a directory that contains no space
characters, so it's wise to avoid a path that contains, i.e., My
Documents
. As a result, the author, when he uses Windows, just puts his
projects in C:\projects
.
警告
You'll need to avoid using cookiecutter
to create a project with the same
name as a Python standard library component. In particular, this means you
should avoid using the names site
or test
, both of which conflict
with Python standard library packages. You should also avoid using the name
pyramid
, which will conflict with Pyramid itself.
Installing your Newly Created Project for Development¶
To install a newly created project for development, you should cd
to the
newly created project directory and use the Python interpreter from the
virtual environment you created during Installing Pyramid to
invoke the command pip install -e .
, which installs the project in
development mode (-e
is for "editable") into the current directory (.
).
The file named setup.py
will be in the root of the cookiecutter-generated
project directory. The python
you're invoking should be the one that lives
in the bin
(or Scripts
on Windows) directory of your virtual Python
environment. Your terminal's current working directory must be the newly
created project directory.
On Unix:
$VENV/bin/pip install -e .
Or on Windows:
%VENV%\Scripts\pip install -e .
Elided output from a run of this command on Unix is shown below:
Running setup.py develop for myproject
Successfully installed Jinja2-2.11.2 Mako-1.1.3 MarkupSafe-1.1.1 PasteDeploy-2.1.1 Pygments-2.7.3 hupper-1.10.2 myproject plaster-1.0 plaster-pastedeploy-0.7 pyramid-1.10.5 pyramid-debugtoolbar-4.9 pyramid-jinja2-2.8 pyramid-mako-1.1.0 repoze.lru-0.7 translationstring-1.4 venusian-3.0.0 waitress-1.4.4 webob-1.8.6 zope.deprecation-4.4.0 zope.interface-5.2.0
This will install a distribution representing your project into the
virtual environment interpreter's library set so it can be found by import
statements and by other console scripts such as pserve
, pshell
,
proutes
, and pviews
.
Running the Tests for Your Application¶
To run unit tests for your application, you must first install the testing dependencies.
On Unix:
$VENV/bin/pip install -e ".[testing]"
On Windows:
%VENV%\Scripts\pip install -e ".[testing]"
Once the testing requirements are installed, then you can run the tests using
the pytest
command that was just installed in the bin
directory of
your virtual environment.
On Unix:
$VENV/bin/pytest -q
On Windows:
%VENV%\Scripts\pytest -q
Here's sample output from a test run on Unix:
$VENV/bin/pytest -q
....
4 passed in 0.31s
The tests themselves are found in the tests
package in your cookiecutter
-generated project.
Within this project generated by the pyramid-cookiecutter-starter
cookiecutter, only a few sample tests exist.
注釈
The -q
option is passed to the pytest
command to limit the output
to a stream of dots. If you don't pass -q
, you'll see verbose test
result output (which normally isn't very useful).
Alternatively, if you'd like to see test coverage, pass the --cov
option
to pytest
:
$VENV/bin/pytest --cov -q
Cookiecutters include configuration defaults for pytest
and test coverage.
These configuration files are pytest.ini
and .coveragerc
, located at
the root of your package. Without these defaults, we would need to specify the
path to the module on which we want to run tests and coverage.
$VENV/bin/pytest --cov=myproject myproject tests -q
参考
See pytest
's documentation for How to invoke pytest or invoke
pytest -h
to see its full set of options.
Running the Project Application¶
参考
See also the output of pserve --help.
Once a project is installed for development, you can run the application it
represents using the pserve
command against the generated configuration
file. In our case, this file is named development.ini
.
On Unix:
$VENV/bin/pserve development.ini
On Windows:
%VENV%\Scripts\pserve development.ini
Here's sample output from a run of pserve
on Unix:
$VENV/bin/pserve development.ini
Starting server in PID 77171.
Serving on http://localhost:6543
Serving on http://localhost:6543
Access is restricted such that only a browser running on the same machine as
Pyramid will be able to access your Pyramid application. However, if you want
to open access to other machines on the same network, then edit the
development.ini
file, and replace the listen
value in the
[server:main]
section, changing it from localhost:6543
to *:6543
(this is equivalent to 0.0.0.0:6543 [::]:6543
). For example:
[server:main]
use = egg:waitress#main
listen = *:6543
Now when you use pserve
to start the application, it will respond to
requests on all IP addresses possessed by your system, not just requests to
localhost
. This is what the 0.0.0.0
in
serving on http://0.0.0.0:6543
means. The server will respond to requests
made to 127.0.0.1
and on any external IP address. For example, your system
might be configured to have an external IP address 192.168.1.50
. If that's
the case, if you use a browser running on the same system as Pyramid, it will
be able to access the application via http://127.0.0.1:6543/
as well as via
http://192.168.1.50:6543/
. However, other people on other computers on
the same network will also be able to visit your Pyramid application in their
browser by visiting http://192.168.1.50:6543/
. The same holds true if you use
IPv6. [::]
means the same as 0.0.0.0
but for IPv6 protocol.
You can change the port on which the server runs on by changing the same
portion of the development.ini
file. For example, you can change the
listen = localhost:6543
line in the development.ini
file's [server:main]
section to listen = localhost:8080
to run the server on port 8080 instead of port 6543.
You can shut down a server started this way by pressing Ctrl-C
(or
Ctrl-Break
on Windows).
The default server used to run your Pyramid application when a project is
created from a cookiecutter is named Waitress. This server is what prints
the Serving on...
line when you run pserve
. It's a good idea to use
this server during development because it's very simple. It can also be used
for light production. Setting your application up under a different server is
not advised until you've done some development work under the default server,
particularly if you're not yet experienced with Python web development. Python
web server setup can be complex, and you should get some confidence that your
application works in a default environment before trying to optimize it or make
it "more like production". It's awfully easy to get sidetracked trying to set
up a non-default server for hours without actually starting to do any
development. One of the nice things about Python web servers is that they're
largely interchangeable, so if your application works under the default server,
it will almost certainly work under any other server in production if you
eventually choose to use a different one. Don't worry about it right now.
For more detailed information about the startup process, see Startup. For more information about environment variables and configuration file settings that influence startup and runtime behavior, see Environment Variables and .ini File Settings.
Reloading Code¶
During development, it's often useful to run pserve
using its --reload
option. When --reload
is passed to pserve
, changes to any Python
module your project uses will cause the server to restart. This typically
makes development easier, as changes to Python code made within a
Pyramid application is not put into effect until the server restarts.
For example, on Unix:
$VENV/bin/pserve development.ini --reload
Starting monitor for PID 36224.
Starting server in PID 36224.
Serving on http://localhost:6543
Serving on http://localhost:6543
Now if you make a change to any of your project's .py
files or .ini
files, you'll see the server restart automatically:
/file-path-to/myproject/development.ini changed; reloading ...
Gracefully killing the server.
Starting monitor for PID 36286.
Starting server in PID 36286.
Serving on http://localhost:6543
Serving on http://localhost:6543
Changes to template files (such as .pt
or .mak
files) won't cause the
server to restart. Changes to template files don't require a server restart as
long as the pyramid.reload_templates
setting in the development.ini
file is true
. Changes made to template files when this setting is true
will take effect immediately without a server restart.
Viewing the Application¶
Once your application is running via pserve
, you may visit
http://localhost:6543/
in your browser. You will see something in your
browser like what is displayed in the following image:
This is the page shown by default when you visit an unmodified cookiecutter
generated pyramid-cookiecutter-starter
application in a browser.
The Debug Toolbar¶
If you click on the Pyramid logo at the top right of the page, a new target window will open to present a debug toolbar that provides various niceties while you're developing. This logo will float above every HTML page served by Pyramid while you develop an application, and allows you to show the toolbar as necessary.
If you don't see the Pyramid logo on the top right of the page, it means you're
browsing from a system that does not have debugging access. By default, for
security reasons, only a browser originating from localhost
(127.0.0.1
)
can see the debug toolbar. To allow your browser on a remote system to access
the server, add a line within the [app:main]
section of the
development.ini
file in the form debugtoolbar.hosts = X.X.X.X
. For
example, if your Pyramid application is running on a remote system, and you're
browsing from a host with the IP address 192.168.1.1
, you'd add something
like this to enable the toolbar when your system contacts Pyramid:
[app:main]
# ... other settings ...
debugtoolbar.hosts = 192.168.1.1
For more information about what the debug toolbar allows you to do, see the documentation for pyramid_debugtoolbar.
The debug toolbar will not be shown (and all debugging will be turned off) when
you use the production.ini
file instead of the development.ini
ini file
to run the application.
You can also turn the debug toolbar off by editing development.ini
and
commenting out a line. For example, instead of:
1[app:main]
2# ... elided configuration
3pyramid.includes =
4 pyramid_debugtoolbar
Put a hash mark at the beginning of the pyramid_debugtoolbar
line:
1[app:main]
2# ... elided configuration
3pyramid.includes =
4# pyramid_debugtoolbar
Then restart the application to see that the toolbar has been turned off.
Note that if you comment out the pyramid_debugtoolbar
line, the #
must be in the first column. If you put it anywhere else, and then attempt
to restart the application, you'll receive an error that ends something like
this:
ImportError: No module named #pyramid_debugtoolbar
The Project Structure¶
The pyramid-cookiecutter-starter
cookiecutter generated a project (named myproject
),
which contains a Python package. The package is also named
myproject
; the cookiecutter generates a project which
contains a package that shares its name.
All Pyramid cookiecutter
-generated projects share a similar structure.
The myproject
project we've generated has the following directory structure:
myproject
├── .coveragerc
├── .gitignore
├── CHANGES.txt
├── MANIFEST.in
├── README.txt
├── development.ini
├── myproject
│ ├── __init__.py
│ ├── routes.py
│ ├── static
│ │ ├── pyramid-16x16.png
│ │ ├── pyramid.png
│ │ └── theme.css
│ ├── templates
│ │ ├── 404.jinja2
│ │ ├── layout.jinja2
│ │ └── mytemplate.jinja2
│ └── views
│ ├── __init__.py
│ ├── default.py
│ └── notfound.py
├── production.ini
├── pytest.ini
├── setup.py
├── testing.ini
└── tests
├── __init__.py
├── conftest.py
├── test_functional.py
└── test_views.py
tests
package¶
The conftest.py
, test_functional.py
, and test_views.py
modules in the tests
package includes tests for your application.
1import os
2from pyramid.paster import get_appsettings
3from pyramid.scripting import prepare
4from pyramid.testing import DummyRequest, testConfig
5import pytest
6import webtest
7
8from myproject import main
9
10
11def pytest_addoption(parser):
12 parser.addoption('--ini', action='store', metavar='INI_FILE')
13
14@pytest.fixture(scope='session')
15def ini_file(request):
16 # potentially grab this path from a pytest option
17 return os.path.abspath(request.config.option.ini or 'testing.ini')
18
19@pytest.fixture(scope='session')
20def app_settings(ini_file):
21 return get_appsettings(ini_file)
22
23@pytest.fixture(scope='session')
24def app(app_settings):
25 return main({}, **app_settings)
26
27@pytest.fixture
28def testapp(app):
29 testapp = webtest.TestApp(app, extra_environ={
30 'HTTP_HOST': 'example.com',
31 })
32
33 return testapp
34
35@pytest.fixture
36def app_request(app):
37 """
38 A real request.
39
40 This request is almost identical to a real request but it has some
41 drawbacks in tests as it's harder to mock data and is heavier.
42
43 """
44 with prepare(registry=app.registry) as env:
45 request = env['request']
46 request.host = 'example.com'
47 yield request
48
49@pytest.fixture
50def dummy_request():
51 """
52 A lightweight dummy request.
53
54 This request is ultra-lightweight and should be used only when the request
55 itself is not a large focus in the call-stack. It is much easier to mock
56 and control side-effects using this object, however:
57
58 - It does not have request extensions applied.
59 - Threadlocals are not properly pushed.
60
61 """
62 request = DummyRequest()
63 request.host = 'example.com'
64
65 return request
66
67@pytest.fixture
68def dummy_config(dummy_request):
69 """
70 A dummy :class:`pyramid.config.Configurator` object. This allows for
71 mock configuration, including configuration for ``dummy_request``, as well
72 as pushing the appropriate threadlocals.
73
74 """
75 with testConfig(request=dummy_request) as config:
76 yield config
1def test_root(testapp):
2 res = testapp.get('/', status=200)
3 assert b'Pyramid' in res.body
4
5def test_notfound(testapp):
6 res = testapp.get('/badurl', status=404)
7 assert res.status_code == 404
1from myproject.views.default import my_view
2from myproject.views.notfound import notfound_view
3
4
5def test_my_view(app_request):
6 info = my_view(app_request)
7 assert app_request.response.status_int == 200
8 assert info['project'] == 'myproject'
9
10def test_notfound_view(app_request):
11 info = notfound_view(app_request)
12 assert app_request.response.status_int == 404
13 assert info == {}
The sample conftest.py
file contains test configuration and fixtures.
The sample test_functional.py
file has two functional tests defined within it.
The sample test_views.py
file has two unit tests defined within it.
These tests are executed when you run pytest -q
.
You may add more tests here as you build your application.
You are not required to write tests to use Pyramid.
These files are provided only for convenience and example.
See Unit, Integration, and Functional Testing for more information about writing Pyramid unit tests.
The myproject
Project¶
The myproject
project directory is the distribution and deployment
wrapper for your application. It contains both the myproject
package representing your application as well as files used to
describe, run, and test your application.
.coveragerc
configures coverage when running tests..gitignore
tells git which files and directories to ignore from source code version control.CHANGES.txt
describes the changes you've made to the application. It is conventionally written in reStructuredText format.MANIFEST.in
is a distutils "manifest" file, naming which files should be included in a source distribution of the package whenpython setup.py sdist
is run.README.txt
describes the application in general. It is conventionally written in reStructuredText format.development.ini
is a PasteDeploy configuration file that can be used to execute your application during development.production.ini
is a PasteDeploy configuration file that can be used to execute your application in a production configuration.pytest.ini
is a configuration file for running tests.setup.py
is the file you'll use to test and distribute your application. It is a standard Setuptoolssetup.py
file.testing.ini
is a PasteDeploy configuration file that can be used to execute your application's tests.tests
package which contains unit and functional test code for the application.
development.ini
¶
The development.ini
file is a PasteDeploy configuration file. Its
purpose is to specify an application to run when you invoke pserve
, as well
as the deployment settings provided to that application.
The generated development.ini
file looks like so:
1###
2# app configuration
3# https://docs.pylonsproject.org/projects/pyramid/en/latest/narr/environment.html
4###
5
6[app:main]
7use = egg:myproject
8
9pyramid.reload_templates = true
10pyramid.debug_authorization = false
11pyramid.debug_notfound = false
12pyramid.debug_routematch = false
13pyramid.default_locale_name = en
14pyramid.includes =
15 pyramid_debugtoolbar
16
17# By default, the toolbar only appears for clients from IP addresses
18# '127.0.0.1' and '::1'.
19# debugtoolbar.hosts = 127.0.0.1 ::1
20
21###
22# wsgi server configuration
23###
24
25[server:main]
26use = egg:waitress#main
27listen = localhost:6543
28
29###
30# logging configuration
31# https://docs.pylonsproject.org/projects/pyramid/en/latest/narr/logging.html
32###
33
34[loggers]
35keys = root, myproject
36
37[handlers]
38keys = console
39
40[formatters]
41keys = generic
42
43[logger_root]
44level = INFO
45handlers = console
46
47[logger_myproject]
48level = DEBUG
49handlers =
50qualname = myproject
51
52[handler_console]
53class = StreamHandler
54args = (sys.stderr,)
55level = NOTSET
56formatter = generic
57
58[formatter_generic]
59format = %(asctime)s %(levelname)-5.5s [%(name)s:%(lineno)s][%(threadName)s] %(message)s
This file contains several sections including [app:main]
,
[server:main]
, and several other sections related to logging configuration.
The [app:main]
section represents configuration for your Pyramid
application. The use
setting is the only setting required to be present in
the [app:main]
section. Its default value, egg:myproject
, indicates
that our myproject project contains the application that should be served.
Other settings added to this section are passed as keyword arguments to the
function named main
in our package's __init__.py
module. You can
provide startup-time configuration parameters to your application by adding
more settings to this section.
参考
See Entry Points and PasteDeploy .ini Files for more information about the
meaning of the use = egg:myproject
value in this section.
The pyramid.reload_templates
setting in the [app:main]
section is a
Pyramid-specific setting which is passed into the framework. If it
exists, and its value is true
, supported template changes will not require
an application restart to be detected. See Automatically Reloading Templates for
more information.
警告
The pyramid.reload_templates
option should be turned off for
production applications, as template rendering is slowed when it is turned
on.
The pyramid.includes
setting in the [app:main]
section tells Pyramid to
"include" configuration from another package. In this case, the line
pyramid.includes = pyramid_debugtoolbar
tells Pyramid to include
configuration from the pyramid_debugtoolbar
package. This turns on a
debugging panel in development mode which can be opened by clicking on the
Pyramid logo on the top right of the screen. Including the debug
toolbar will also make it possible to interactively debug exceptions when an
error occurs.
Various other settings may exist in this section having to do with debugging or influencing runtime behavior of a Pyramid application. See Environment Variables and .ini File Settings for more information about these settings.
The name main
in [app:main]
signifies that this is the default
application run by pserve
when it is invoked against this configuration
file. The name main
is a convention used by PasteDeploy signifying that it
is the default application.
The [server:main]
section of the configuration file configures a WSGI
server which listens on TCP port 6543. It is configured to listen on localhost
only (127.0.0.1
).
The sections after # logging configuration
represent Python's standard
library logging
module configuration for your application.
The default configuration
sends application logging output to the standard error output of your terminal.
For more information see Logging.
See the PasteDeploy documentation for more information about other
types of things you can put into this .ini
file, such as other
applications, middleware, and alternate WSGI server
implementations.
production.ini
¶
The production.ini
file is a PasteDeploy configuration file with a
purpose much like that of development.ini
. However, it disables the debug
toolbar, and filters all log messages except those above the WARN level. It
also turns off template development options such that templates are not
automatically reloaded when changed, and turns off all debugging options. This
file is appropriate to use instead of development.ini
when you put your
application into production.
It's important to use production.ini
(and not development.ini
) to
benchmark your application and put it into production. development.ini
configures your system with a debug toolbar that helps development, but the
inclusion of this toolbar slows down page rendering times by over an order of
magnitude. The debug toolbar is also a potential security risk if you have it
configured incorrectly.
testing.ini
¶
The testing.ini
file is a PasteDeploy configuration file with a purpose much like that of development.ini
.
It is similar to development.ini
, but is optimized to reduce test execution time.
It disables the debug toolbar and automatic reloading of templates, as these slow down test execution.
This file is appropriate to use instead of development.ini
when you run your application's tests.
MANIFEST.in
¶
The MANIFEST.in
file is a distutils configuration file which
specifies the non-Python files that should be included when a
distribution of your Pyramid project is created when you run python
setup.py sdist
. Due to the information contained in the default
MANIFEST.in
, an sdist of your Pyramid project will include .txt
files,
.ini
files, .rst
files, graphics files, and template files, as well as
.py
files.
See the Python Packaging Authority's Python Packaging User Guide Including files in source distributions with MANIFEST.in for more information about the syntax and usage of MANIFEST.in
.
Without the presence of a MANIFEST.in
file or without checking your source
code into a version control repository, setup.py sdist
places only Python
source files (files ending with a .py
extension) into tarballs generated
by python setup.py sdist
. This means, for example, if your project was not
checked into a Setuptools-compatible source control system, and your project
directory didn't contain a MANIFEST.in
file that told the sdist
machinery to include *.pt
files, the myproject/templates/mytemplate.pt
file would not be included in the generated tarball.
Projects generated by Pyramid cookiecutters include a default MANIFEST.in
file.
The MANIFEST.in
file contains declarations which tell it to include files
like *.pt
, *.css
and *.js
in the generated tarball. If you include
files with extensions other than the files named in the project's
MANIFEST.in
and you don't make use of a Setuptools-compatible version
control system, you'll need to edit the MANIFEST.in
file and include the
statements necessary to include your new files.
In the aforementioned Python Packaging User Guide, see MANIFEST.in commands for more information about how to do this.
You can also delete MANIFEST.in
from your project and rely on a Setuptools
feature which simply causes all files checked into a version control system to
be put into the generated tarball. To allow this to happen, check all the
files that you'd like to be distributed along with your application's Python
files into Subversion. After you do this, when you rerun setup.py sdist
,
all files checked into the version control system will be included in the
tarball. If you don't use Subversion, and instead use a different version
control system, you may need to install a Setuptools add-on such as
setuptools-git
or setuptools-hg
for this behavior to work properly.
setup.py
¶
The setup.py
file is a Setuptools setup file. It is meant to be
used to define requirements for installing dependencies for your package and
testing, as well as distributing your application.
注釈
setup.py
is the de facto standard which Python developers use to
distribute their reusable code. You can read more about setup.py
files
and their usage in the Python Packaging User Guide and Setuptools documentation.
Our generated setup.py
looks like this:
1import os
2
3from setuptools import setup, find_packages
4
5here = os.path.abspath(os.path.dirname(__file__))
6with open(os.path.join(here, 'README.txt')) as f:
7 README = f.read()
8with open(os.path.join(here, 'CHANGES.txt')) as f:
9 CHANGES = f.read()
10
11requires = [
12 'plaster_pastedeploy',
13 'pyramid',
14 'pyramid_jinja2',
15 'pyramid_debugtoolbar',
16 'waitress',
17]
18
19tests_require = [
20 'WebTest',
21 'pytest',
22 'pytest-cov',
23]
24
25setup(
26 name='myproject',
27 version='0.0',
28 description='myproject',
29 long_description=README + '\n\n' + CHANGES,
30 classifiers=[
31 'Programming Language :: Python',
32 'Framework :: Pyramid',
33 'Topic :: Internet :: WWW/HTTP',
34 'Topic :: Internet :: WWW/HTTP :: WSGI :: Application',
35 ],
36 author='',
37 author_email='',
38 url='',
39 keywords='web pyramid pylons',
40 packages=find_packages(exclude=['tests']),
41 include_package_data=True,
42 zip_safe=False,
43 extras_require={
44 'testing': tests_require,
45 },
46 install_requires=requires,
47 entry_points={
48 'paste.app_factory': [
49 'main = myproject:main',
50 ],
51 },
52)
The setup.py
file calls the Setuptools setup
function, which does
various things depending on the arguments passed to pip
on the command
line.
Within the arguments to this function call, information about your application is kept. While it's beyond the scope of this documentation to explain everything about Setuptools setup files, we'll provide a whirlwind tour of what exists in this file in this section.
Your application's name can be any string; it is specified in the name
field. The version number is specified in the version
value. A short
description is provided in the description
field. The long_description
is conventionally the content of the README
and CHANGES
files appended
together. The classifiers
field is a list of Trove classifiers describing your
application. author
and author_email
are text fields which probably
don't need any description. url
is a field that should point at your
application project's URL (if any).
keywords
are keywords that describe your project.
packages=find_packages(exclude=['tests'])
causes all
packages within the project to be found when packaging the application.
include_package_data
will include non-Python files when the application is
packaged if those files are checked into version control. zip_safe=False
indicates that this package is not safe to use as a zipped egg; instead it will
always unpack as a directory, which is more convenient.
extras_require
is a Python dictionary that defines what is required to be installed for running tests.
install_requires
indicates that this package depends on the pyramid
package.
We examined entry_points
in our discussion of
the development.ini
file; this file defines the main
entry point that
represents our project's application.
Usually you only need to think about the contents of the setup.py
file when
distributing your application to other people, when adding Python package
dependencies, or when versioning your application for your own use. For fun,
you can try this command now:
$VENV/bin/python setup.py sdist
This will create a tarball of your application in a dist
subdirectory named
myproject-0.0.tar.gz
. You can send this tarball to other people who want
to install and use your application.
The myproject
Package¶
The myproject
package lives inside the myproject
project. It contains:
An
__init__.py
file signifies that this is a Python package. It also contains code that helps users run the application, including amain
function which is used as a entry point for commands such aspserve
,pshell
,pviews
, and others.A
templates
directory, which contains Jinja2 (or other types of) templates.A
routes.py
module, which contains routing code for the application.A
views
package, which contains view code for the application.A
static
directory, which contains static files, including images and CSS.
These are purely conventions established by the cookiecutter. Pyramid doesn't insist that you name things in any particular way. However, it's generally a good idea to follow Pyramid standards for naming, so that other Pyramid developers can get up to speed quickly on your code when you need help.
__init__.py
¶
We need a small Python module that configures our application and which
advertises an entry point for use by our PasteDeploy .ini
file.
This is the file named __init__.py
. The presence of an __init__.py
also informs Python that the directory which contains it is a package.
1from pyramid.config import Configurator
2
3
4def main(global_config, **settings):
5 """ This function returns a Pyramid WSGI application.
6 """
7 with Configurator(settings=settings) as config:
8 config.include('pyramid_jinja2')
9 config.include('.routes')
10 config.scan()
11 return config.make_wsgi_app()
Line 1 imports the Configurator class from
pyramid.config
that we use later.Lines 4-11 define a function named
main
that returns a Pyramid WSGI application. This function is meant to be called by the PasteDeploy framework as a result of runningpserve
.The
main
function configures the application.Line 7 opens a context manager with an instance of a Configurator.
Line 8 adds support for Jinja2 templating bindings, allowing us to specify renderers with the
.jinja2
extension.Line 9 includes the
routes.py
module.Line 10 calls
config.scan()
, which picks up view registrations declared elsewhere in the package (in this case, in theviews.py
module).Line 11 returns a WSGI application to the caller of the function (Pyramid's pserve).
参考
See The Startup Process for more about the application's settings and main
's arguments and statements.
routes.py
¶
The routes.py
module gets included by the main
function in our __init__.py
.
It registers a view and a route.
1def includeme(config):
2 config.add_static_view('static', 'static', cache_max_age=3600)
3 config.add_route('home', '/')
Line 2 registers a static view, which will serve up the files from the myproject:static
asset specification (the static
directory of the myproject
package).
Line 3 adds a route to the configuration. This route is later used by a view in the views
module.
views
package¶
Much of the heavy lifting in a Pyramid application is done by view callables. A view callable is the main tool of a Pyramid web application developer; it is a bit of code which accepts a request and which returns a response.
Our project has a views
package by virtue of it being a directory containing an __init__.py
file.
This __init__.py
file happens to have no content, although it could as a project develops.
We have two view modules in the views
package.
Let's look at default.py
.
1from pyramid.view import view_config
2
3
4@view_config(route_name='home', renderer='myproject:templates/mytemplate.jinja2')
5def my_view(request):
6 return {'project': 'myproject'}
Lines 4-6 define and register a view callable named my_view
. The
function named my_view
is decorated with a view_config
decorator (which
is processed by the config.scan()
line in our __init__.py
). The
view_config decorator asserts that this view be found when a route
named home
is matched. In our case, because our routes.py
maps the
route named home
to the URL pattern /
, this route will match when a
visitor visits the root URL. The view_config decorator also names a
renderer
, which in this case is a template that will be used to render the
result of the view callable. This particular view declaration points at
myproject:templates/mytemplate.jinja2
, which is an asset specification that
specifies the mytemplate.jinja2
file within the templates
directory of the
myproject
package.
There is a second form of asset specification: a relative asset specification.
Instead of using an "absolute" asset specification which includes the package name, in certain circumstances you can omit the package name from the specification.
For example, you might be able to use ../templates/mytemplate.jinja2
.
The template file pointed to is a Jinja2 template
file (templates/mytemplate.jinja2
).
This view callable function is handed a single piece of information: the
request. The request is an instance of the WebOb Request
class representing the browser's request to our server.
This view is configured to invoke a renderer on a template. The dictionary the view returns (on line 6) provides the value the renderer substitutes into the template when generating HTML. The renderer then returns the HTML in a response.
注釈
Dictionaries provide values to templates.
Now let's look at notfound.py
.
1from pyramid.view import notfound_view_config
2
3
4@notfound_view_config(renderer='myproject:templates/404.jinja2')
5def notfound_view(request):
6 request.response.status = 404
7 return {}
This file is similar to default.py
.
It merely returns a 404
response status and an empty dictionary to the template at myproject:templates/404.jinja2
.
注釈
When the application is run with the cookiecutter's default
development.ini configuration, logging is set up to aid debugging. If an exception is raised,
uncaught tracebacks are displayed after the startup messages on the
console running the server. Also
print()
statements may be inserted into the application for debugging to
send output to this console.
注釈
development.ini
has a setting that controls how templates are
reloaded, pyramid.reload_templates
.
When set to
True
(as in the cookiecutterdevelopment.ini
), changed templates automatically reload without a server restart. This is convenient while developing, but slows template rendering speed.When set to
False
(the default value), changing templates requires a server restart to reload them. Production applications should usepyramid.reload_templates = False
.
参考
See also Writing View Callables Which Use a Renderer for more information about how views, renderers, and templates relate and cooperate.
参考
Pyramid can also dynamically reload changed Python files. See also Reloading Code.
参考
See also the The Debug Toolbar, which provides interactive access to your application's internals and, should an exception occur, allows interactive access to traceback execution stack frames from the Python interpreter.
static
¶
This directory contains static assets which support the layout.jinja2
template. It includes CSS and images.
templates/layout.jinja2
¶
This is the base layout content. It contains a single marker for content block. Other templates inherit its content, providing layout for the web application. Its contents are too long to show here, but here is an excerpt:
34 <div class="col-md-10">
35 {% block content %}
36 <p>No content</p>
37 {% endblock content %}
38 </div>
templates/mytemplate.jinja2
¶
This is the content Jinja2 template that exists in the project. It is referenced by the call to @view_config
as the renderer
of the my_view
view callable in the views/default.py
file. See
Writing View Callables Which Use a Renderer for more information about renderers. It inherits ("extends") the HTML provided by layout.jinja2
, replacing the content block with its own content.
1{% extends "layout.jinja2" %}
2
3{% block content %}
4<div class="content">
5 <h1><span class="font-semi-bold">Pyramid</span> <span class="smaller">Starter project</span></h1>
6 <p class="lead">Welcome to <span class="font-normal">{{project}}</span>, a Pyramid application generated by<br><span class="font-normal">Cookiecutter</span>.</p>
7</div>
8{% endblock content %}
Templates are accessed and used by view configurations and sometimes by view functions themselves. See Using Templates Directly and Templates Used as Renderers via Configuration.
templates/404.jinja2
¶
This template is similar to mytemplate.jinja2
, but with a few differences.
It is referenced by the call to @notfound_view_config
as the renderer
of the notfound_view
view callable in the views/notfound.py
file.
It inherits the HTML provided by layout.jinja2
, replacing the content block with its own content.
1{% extends "layout.jinja2" %}
2
3{% block content %}
4<div class="content">
5 <h1><span class="font-semi-bold">Pyramid</span> <span class="smaller">Starter project</span></h1>
6 <p class="lead"><span class="font-semi-bold">404</span> Page Not Found</p>
7</div>
8{% endblock content %}
Modifying Package Structure¶
It is best practice for your application's code layout to not stray too much from accepted Pyramid cookiecutter defaults. If you refrain from changing things very much, other Pyramid coders will be able to more quickly understand your application. However, the code layout choices made for you by a cookiecutter are in no way magical or required. Despite the choices made for you by any cookiecutter, you can decide to lay your code out any way you see fit.
For example, the configuration method named
add_view()
requires you to pass a
dotted Python name or a direct object reference as the class or
function to be used as a view.
By default, the starter
cookiecutter would have you create a views
directory, and add a single file for each view or collection of related views.
However, you might be more comfortable creating a single views.py
module in your package and add view functions to it.
Whatever structure you prefer, as long as you use the @view_config
directive
to register views in conjunction with config.scan()
, they will be picked up
automatically when the application is restarted.
Using the Interactive Shell¶
It is possible to use the pshell
command to load a Python interpreter
prompt with a similar configuration as would be loaded if you were running your
Pyramid application via pserve
. This can be a useful debugging tool. See
pshell: The Interactive Shell for more details.
What Is This pserve
Thing¶
The code generated by a Pyramid cookiecutter assumes that you will be using
the pserve
command to start your application while you do development.
pserve
is a command that reads a PasteDeploy .ini
file (e.g.,
development.ini
), and configures a server to serve a Pyramid
application based on the data in the file.
pserve
is by no means the only way to start up and serve a Pyramid
application. As we saw in Creating Your First Pyramid Application, pserve
needn't be
invoked at all to run a Pyramid application. The use of pserve
to
run a Pyramid application is purely conventional based on the output of
its cookiecutter. But we strongly recommend using pserve
while developing
your application because many other convenience introspection commands (such as
pviews
, prequest
, proutes
, and others) are also implemented in
terms of configuration availability of this .ini
file format. It also
configures Pyramid logging and provides the --reload
switch for convenient
restarting of the server when code changes.
Using an Alternate WSGI Server¶
Pyramid cookiecutters generate projects which use the Waitress WSGI server. Waitress is a server that is suited for development and light production usage. It's not the fastest nor the most featureful WSGI server. Instead, its main feature is that it works on all platforms that Pyramid needs to run on, making it a good choice as a default server from the perspective of Pyramid's developers.
Any WSGI server is capable of running a Pyramid application. But we suggest you stick with the default server for development, and that you wait to investigate other server options until you're ready to deploy your application to production. Unless for some reason you need to develop on a non-local system, investigating alternate server options is usually a distraction until you're ready to deploy. But we recommend developing using the default configuration on a local system that you have complete control over; it will provide the best development experience.
One popular production alternative to the default Waitress server is
mod_wsgi. You can use mod_wsgi
to serve your Pyramid application
using the Apache web server rather than any "pure-Python" server like Waitress.
It is fast and featureful. See Running a Pyramid Application under mod_wsgi for details.
Another good production alternative is gunicorn.
It's faster than Waitress and slightly easier to configure than
mod_wsgi
, although it depends, in its default configuration, on having a
buffering HTTP proxy in front of it. It does not, as of this writing, work on
Windows.
Automatically Reloading Your Code¶
During development, it can be really useful to automatically have the
webserver restart when you make changes. pserve
has a --reload
switch
to enable this. It uses the
hupper package
to enable this behavior. When your code crashes, hupper
will wait for
another change or the SIGHUP
signal before restarting again.
inotify support¶
By default hupper
will poll the filesystem for changes to all Python
code. This can be pretty inefficient in larger projects.
To be nicer to your hard drive, you should install either the watchman or watchdog package in development.
hupper
will use, in order of preference for efficiency, if available, watchman
, watchdog
, or finally polling to detect changes to the filesystem.
Monitoring Custom Files¶
By default, pserve --reload
will monitor all imported Python code
(everything in sys.modules
) as well as the config file passed to
pserve
(e.g., development.ini
). You can instruct pserve
to watch
other files for changes as well by defining a [pserve]
section in your
configuration file. For example, let's say your application loads the
favicon.ico
file at startup and stores it in memory to efficiently
serve it many times. When you change it, you want pserve
to restart:
[pserve]
watch_files =
myproject/static/favicon.ico
Paths may be absolute or relative to the configuration file. They may also
be an asset specification. These paths are passed to hupper
, which
has some basic support for globbing. Acceptable glob patterns depend on the
version of Python being used.