pax_global_header00006660000000000000000000000064126276266570014535gustar00rootroot0000000000000052 comment=3c8fe6a7d24023bee4237320fb0b461929dd4d63 django-model-utils-2.4/000077500000000000000000000000001262762665700151005ustar00rootroot00000000000000django-model-utils-2.4/.coveragerc000066400000000000000000000001011262762665700172110ustar00rootroot00000000000000[run] source = model_utils omit = model_utils/tests/* branch = 1 django-model-utils-2.4/.editorconfig000066400000000000000000000003561262762665700175610ustar00rootroot00000000000000# http://editorconfig.org root = true [*] charset = utf-8 end_of_line = lf insert_final_newline = true trim_trailing_whitespace = true [*.{py,rst,ini}] indent_style = space indent_size = 4 [*.yml] indent_style = space indent_size = 2 django-model-utils-2.4/.gitignore000066400000000000000000000001621262762665700170670ustar00rootroot00000000000000dist/* django_model_utils.egg-info/* HGREV .coverage .tox/ Django-*.egg *.pyc htmlcov/ docs/_build/ .idea/ .eggs/ django-model-utils-2.4/.hgignore000066400000000000000000000001351262762665700167020ustar00rootroot00000000000000^dist/ ^django_model_utils\.egg-info/ ^HGREV$ ^\.coverage$ ^\.tox/ ^Django.*\.egg$ ^htmlcov/ django-model-utils-2.4/.hgtags000066400000000000000000000004321262762665700163550ustar00rootroot00000000000000b5efc435bb7e21b0d7ba422d28d174ccca3b3322 0.2.0 71b54b8b44fa2456beebd51c474ba55ad625486a 0.3.1 1e6f730f8c3a648c9fb70844a68fcfa663608600 0.4.0 004dbee634cb661c52acac034063989e521c4bb8 0.5.0 bd164041e5fabd64de19c38fefe9af9237a2a59e 1.0.0 92792fb14a51b580e5cc8991e815f3b3b57a6204 1.1.0 django-model-utils-2.4/.travis.yml000066400000000000000000000017171262762665700172170ustar00rootroot00000000000000language: python python: 2.7 env: - TOXENV=py26-django14 - TOXENV=py26-django15 - TOXENV=py26-django16 - TOXENV=py27-django14 - TOXENV=py27-django15 - TOXENV=py27-django15_nosouth - TOXENV=py27-django16 - TOXENV=py27-django17 - TOXENV=py27-django18 - TOXENV=py27-django19 - TOXENV=py27-django_trunk - TOXENV=py32-django15 - TOXENV=py32-django16 - TOXENV=py32-django17 - TOXENV=py32-django18 - TOXENV=py32-django_trunk - TOXENV=py33-django15 - TOXENV=py33-django16 - TOXENV=py33-django17 - TOXENV=py33-django18 - TOXENV=py33-django_trunk - TOXENV=py34-django17 - TOXENV=py34-django18 - TOXENV=py34-django19 - TOXENV=py34-django_trunk install: - pip install --upgrade pip setuptools tox virtualenv coveralls script: - tox matrix: allow_failures: - env: TOXENV=py27-django_trunk - env: TOXENV=py32-django_trunk - env: TOXENV=py33-django_trunk - env: TOXENV=py34-django_trunk after_success: coveralls django-model-utils-2.4/AUTHORS.rst000066400000000000000000000024761262762665700167700ustar00rootroot00000000000000ad-m Alejandro Varas Alex Orange Andy Freeland Bram Boogaard Carl Meyer Curtis Maloney Den Lesnov Dmytro Kyrychuk Donald Stufft Douglas Meehan Facundo Gaich Felipe Prenholato Filipe Ximenes Gregor Müllegger ivirabyan James Oakley Jannis Leidel Jarek Glowacki Javier García Sogo Jeff Elmore Keryn Knight Matthew Schinckel Michael van Tellingen Mikhail Silonov Patryk Zawadzki Paul McLanahan Philipp Steinhardt Rinat Shigapov Rodney Folz rsenkbeil Ryan Kaskel Simon Meers sayane Tony Aldridge Travis Swicegood Trey Hunner Karl Wan Nan Wo zyegfryed django-model-utils-2.4/CHANGES.rst000066400000000000000000000235311262762665700167060ustar00rootroot00000000000000CHANGES ======= 2.4 (2015-12-03) ---------------- * Add support for Django 1.9. Drop support for Django 1.6 and earlier. 2.3.1 (2015-07-20) ------------------ * Remove all translation-related automation in `setup.py`. Fixes GH-178 and GH-179. Thanks Joe Weiss, Matt Molyneaux, and others for the reports. 2.3 (2015.07.17) ---------------- * Keep track of deferred fields on model instance instead of on FieldInstanceTracker instance. Fixes accessing deferred fields for multiple instances of a model from the same queryset. Thanks Bram Boogaard. Merge of GH-151. * Fix Django 1.7 migrations compatibility for SplitField. Thanks ad-m. Merge of GH-157; fixes GH-156. * Add German translations. * Django 1.8 compatibility. 2.2 (2014.07.31) ---------------- * Revert GH-130, restoring ability to access ``FieldTracker`` changes in overridden ``save`` methods or ``post_save`` handlers. This reopens GH-83 (inability to pickle models with ``FieldTracker``) until a solution can be found that doesn't break behavior otherwise. Thanks Brian May for the report. Fixes GH-143. 2.1.1 (2014.07.28) ------------------ * ASCII-fold all non-ASCII characters in changelog; again. Argh. Apologies to those whose names are mangled by this change. It seems that distutils makes it impossible to handle non-ASCII content reliably under Python 3 in a setup.py long_description, when the system encoding may be ASCII. Thanks Brian May for the report. Fixes GH-141. 2.1.0 (2014.07.25) ------------------ * Add support for Django's built-in migrations to ``MonitorField`` and ``StatusField``. * ``PassThroughManager`` now has support for seeing exposed methods via ``dir``, allowing `IPython`_ tab completion to be useful. Merge of GH-104, fixes GH-55. * Add pickle support for models using ``FieldTracker``. Thanks Ondrej Slintak for the report. Thanks Matthew Schinckel for the fix. Merge of GH-130, fixes GH-83. .. _IPython: http://ipython.org/ 2.0.3 (2014.03.19) ------------------- * Fix ``get_query_set`` vs ``get_queryset`` in ``PassThroughManager`` for Django <1.6. Fixes issues with related managers not filtering by relation properly. Thanks whop, Bojan Mihelac, Daniel Shapiro, and Matthew Schinckel for the report; Matthew for the fix. Merge of GH-121. * Fix ``FieldTracker`` with deferred model attributes. Thanks Michael van Tellingen. Merge of GH-115. * Fix ``InheritanceManager`` with self-referential FK; avoid infinite recursion. Thanks rsenkbeil. Merge of GH-114. 2.0.2 (2014.02.19) ------------------- * ASCII-fold all non-ASCII characters in changelog. Apologies to those whose names are mangled by this change. It seems that distutils makes it impossible to handle non-ASCII content reliably under Python 3 in a setup.py long_description, when the system encoding may be ASCII. Thanks Simone Dalla for the report. Fixes GH-113. 2.0.1 (2014.02.11) ------------------- * Fix dependency to be on "Django" rather than "django", which plays better with static PyPI mirrors. Thanks Travis Swicegood. * Fix issue with attempt to access ``__slots__`` when copying ``PassThroughManager``. Thanks Patryk Zawadzki. Merge of GH-105. * Improve ``InheritanceManager`` so any attributes added by using extra(select) will be propagated onto children. Thanks Curtis Maloney. Merge of GH-101, fixes GH-34. * Added ``InheritanceManagerMixin``, ``InheritanceQuerySetMixin``, ``PassThroughManagerMixin``, and ``QueryManagerMixin`` to allow composing their functionality with other custom manager/queryset subclasses (e.g. those in GeoDjango). Thanks Douglas Meehan! 2.0 (2014.01.06) ---------------- * BACKWARDS-INCOMPATIBLE: Indexing into a ``Choices`` instance now translates database representations to human-readable choice names, rather than simply indexing into an array of choice tuples. (Indexing into ``Choices`` was previously not documented.) If you have code that is relying on indexing or slicing ``Choices``, the simplest workaround is to change e.g. ``STATUS[1:]`` to ``list(STATUS)[1:]``. * Fixed bug with checking for field name conflicts for added query managers on `StatusModel`. * Can pass `choices_name` to `StatusField` to use a different name for choices class attribute. ``STATUS`` is used by default. * Can pass model subclasses, rather than strings, into `select_subclasses()`. Thanks Keryn Knight. Merge of GH-79. * Deepcopying a `Choices` instance no longer fails with infinite recursion in `getattr`. Thanks Leden. Merge of GH-75. * `get_subclass()` method is now available on both managers and querysets. Thanks Travis Swicegood. Merge of GH-82. * Fix bug in `InheritanceManager` with grandchild classes on Django 1.6+; `select_subclasses('child', 'child__grandchild')` would only ever get to the child class. Thanks Keryn Knight for report and proposed fix. * MonitorField now accepts a 'when' parameter. It will update only when the field changes to one of the values specified. 1.5.0 (2013.08.29) ------------------ * `Choices` now accepts option-groupings. Fixes GH-14. * `Choices` can now be added to other `Choices` or to any iterable, and can be compared for equality with itself. Thanks Tony Aldridge. (Merge of GH-76.) * `Choices` now `__contains__` its Python identifier values. Thanks Keryn Knight. (Merge of GH-69). * Fixed a bug causing ``KeyError`` when saving with the parameter ``update_fields`` in which there are untracked fields. Thanks Mikhail Silonov. (Merge of GH-70, fixes GH-71). * Fixed ``FieldTracker`` usage on inherited models. Fixes GH-57. * Added mutable field support to ``FieldTracker`` (Merge of GH-73, fixes GH-74) 1.4.0 (2013.06.03) ------------------ - Introduced ``FieldTracker`` as replacement for ``ModelTracker``, which is now deprecated. - ``PassThroughManager.for_queryset_class()`` no longer ignores superclass ``get_query_set``. Thanks Andy Freeland. - Fixed ``InheritanceManager`` bug with grandchildren in Django 1.6. Thanks CrazyCasta. - Fixed lack of ``get_FOO_display`` method for ``StatusField``. Fixes GH-41. 1.3.1 (2013.04.11) ------------------ - Added explicit default to ``BooleanField`` in tests, for Django trunk compatibility. - Fixed intermittent ``StatusField`` bug. Fixes GH-29. - Added Python 3 support. - Dropped support for Django 1.2 and 1.3. Django 1.4.2+ required. 1.3.0 (2013.03.27) ------------------ - Allow specifying default value for a ``StatusField``. Thanks Felipe Prenholato. - Fix calling ``create()`` on a ``RelatedManager`` that subclasses a dynamic ``PassThroughManager``. Thanks SeiryuZ for the report. Fixes GH-24. - Add workaround for https://code.djangoproject.com/ticket/16855 in InheritanceQuerySet to avoid overriding prior calls to ``select_related()``. Thanks ivirabyan. - Added support for arbitrary levels of model inheritance in InheritanceManager. Thanks ivirabyan. (This feature only works in Django 1.6+ due to https://code.djangoproject.com/ticket/16572). - Added ``ModelTracker`` for tracking field changes between model saves. Thanks Trey Hunner. 1.2.0 (2013.01.27) ------------------ - Moved primary development from `Bitbucket`_ to `GitHub`_. Bitbucket mirror will continue to receive updates; Bitbucket issue tracker will be closed once all issues tracked in it are resolved. .. _BitBucket: https://bitbucket.org/carljm/django-model-utils/overview .. _GitHub: https://github.com/carljm/django-model-utils/ - Removed deprecated ``ChoiceEnum``, ``InheritanceCastModel``, ``InheritanceCastManager``, and ``manager_from``. - Fixed pickling of ``PassThroughManager``. Thanks Rinat Shigapov. - Set ``use_for_related_fields = True`` on ``QueryManager``. - Added ``__len__`` method to ``Choices``. Thanks Ryan Kaskel and James Oakley. - Fixed ``InheritanceQuerySet`` on Django 1.5. Thanks Javier Garcia Sogo. 1.1.0 (2012.04.13) ------------------ - Updated AutoCreatedField, AutoLastModifiedField, MonitorField, and TimeFramedModel to use ``django.utils.timezone.now`` on Django 1.4. Thanks Donald Stufft. - Fixed annotation of InheritanceQuerysets. Thanks Jeff Elmore and Facundo Gaich. - Dropped support for Python 2.5 and Django 1.1. Both are no longer supported even for security fixes, and should not be used. - Added ``PassThroughManager.for_queryset_class()``, which fixes use of ``PassThroughManager`` with related fields. Thanks Ryan Kaskel for report and fix. - Added ``InheritanceManager.get_subclass()``. Thanks smacker. 1.0.0 (2011.06.16) ------------------ - Fixed using SplitField on an abstract base model. - Fixed issue #8, adding ``use_for_related_fields = True`` to ``InheritanceManager``. - Added ``PassThroughManager``. Thanks Paul McLanahan. - Added pending-deprecation warnings for ``InheritanceCastModel``, ``manager_from``, and Django 1.1 support. Removed documentation for the deprecated utilities. Bumped ``ChoiceEnum`` from pending-deprecation to deprecation. - Fixed issue #6, bug with InheritanceManager and descriptor fields (e.g. FileField). Thanks zyegfryed for the fix and sayane for tests. 0.6.0 (2011.02.18) ------------------ - updated SplitField to define get_prep_value rather than get_db_prep_value. This avoids deprecation warnings on Django trunk/1.3, but makes SplitField incompatible with Django versions prior to 1.2. - added InheritanceManager, a better approach to selecting subclass instances for Django 1.2+. Thanks Jeff Elmore. - added InheritanceCastManager and InheritanceCastQuerySet, to allow bulk casting of a queryset to child types. Thanks Gregor Muellegger. 0.5.0 (2010.09.24) ------------------ - added manager_from (thanks George Sakkis) - added StatusField, MonitorField, TimeFramedModel, and StatusModel (thanks Jannis Leidel) - deprecated ChoiceEnum and replaced with Choices 0.4.0 (2010.03.16) ------------------ - added SplitField - added ChoiceEnum - added South support for custom model fields 0.3.0 ----- * Added ``QueryManager`` django-model-utils-2.4/CONTRIBUTING.rst000066400000000000000000000041271262762665700175450ustar00rootroot00000000000000Contributing ============ Below is a list of tips for submitting issues and pull requests. These are suggestions and not requirements. Submitting Issues ----------------- Issues are often easier to reproduce/resolve when they have: - A pull request with a failing test demonstrating the issue - A code example that produces the issue consistently - A traceback (when applicable) Pull Requests ------------- When creating a pull request, try to: - Write tests if applicable - Note important changes in the `CHANGES`_ file - Update the documentation if needed - Add yourself to the `AUTHORS`_ file - If you have added or changed translated strings, run ``make messages`` to update the ``.po`` translation files, and update translations for any languages you know. Then run ``make compilemessages`` to compile the ``.mo`` files. If your pull request leaves some translations incomplete, please mention that in the pull request and commit message. .. _AUTHORS: AUTHORS.rst .. _CHANGES: CHANGES.rst Translations ------------ If you are able to provide translations for a new language or to update an existing translation file, make sure to run makemessages beforehand:: python django-admin.py makemessages -l ISO_LANGUAGE_CODE This command will collect all translation strings from the source directory and create or update the translation file for the given language. Now open the translation file (.po) with a text-editor and start editing. After you finished editing add yourself to the list of translators. If you have created a new translation, make sure to copy the header from one of the existing translation files. Testing ------- Please add tests for your code and ensure existing tests don't break. To run the tests against your code:: python setup.py test Please use tox to test the code against supported Python and Django versions. First install tox:: pip install tox coverage To run tox and generate a coverage report (in ``htmlcov`` directory):: make test **Please note**: Before a pull request can be merged, all tests must pass and code/branch coverage in tests must be 100%. django-model-utils-2.4/LICENSE.txt000066400000000000000000000030011262762665700167150ustar00rootroot00000000000000Copyright (c) 2009-2015, Carl Meyer and contributors All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. * Neither the name of the author nor the names of other contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. django-model-utils-2.4/MANIFEST.in000066400000000000000000000002221262762665700166320ustar00rootroot00000000000000include AUTHORS.rst include CHANGES.rst include LICENSE.txt include MANIFEST.in include README.rst include TODO.rst locale/*/LC_MESSAGES/django.podjango-model-utils-2.4/Makefile000066400000000000000000000004351262762665700165420ustar00rootroot00000000000000all: init docs test init: python setup.py develop pip install tox coverage Sphinx test: coverage erase tox coverage html docs: documentation documentation: python setup.py build_sphinx messages: python translations.py make compilemessages: python translations.py compile django-model-utils-2.4/README.rst000066400000000000000000000026401262762665700165710ustar00rootroot00000000000000================== django-model-utils ================== .. image:: https://secure.travis-ci.org/carljm/django-model-utils.png?branch=master :target: http://travis-ci.org/carljm/django-model-utils .. image:: https://coveralls.io/repos/carljm/django-model-utils/badge.png?branch=master :target: https://coveralls.io/r/carljm/django-model-utils .. image:: https://img.shields.io/pypi/v/django-model-utils.svg :target: https://crate.io/packages/django-model-utils Django model mixins and utilities. ``django-model-utils`` supports `Django`_ 1.4.10 and later on Python 2.6, 2.7, 3.2, 3.3 and 3.4. .. _Django: http://www.djangoproject.com/ Getting Help ============ Documentation for django-model-utils is available at https://django-model-utils.readthedocs.org/ This app is available on `PyPI`_. .. _PyPI: https://pypi.python.org/pypi/django-model-utils/ Contributing ============ Please file bugs and send pull requests to the `GitHub repository`_ and `issue tracker`_. .. _GitHub repository: https://github.com/carljm/django-model-utils/ .. _issue tracker: https://github.com/carljm/django-model-utils/issues (Until January 2013 django-model-utils primary development was hosted at `BitBucket`_; the issue tracker there will remain open until all issues and pull requests tracked in it are closed, but all new issues should be filed at GitHub.) .. _BitBucket: https://bitbucket.org/carljm/django-model-utils/overview django-model-utils-2.4/TODO.rst000066400000000000000000000001171262762665700163760ustar00rootroot00000000000000TODO ==== * Switch to proper test skips once Django 1.3 is minimum supported. django-model-utils-2.4/docs/000077500000000000000000000000001262762665700160305ustar00rootroot00000000000000django-model-utils-2.4/docs/Makefile000066400000000000000000000152321262762665700174730ustar00rootroot00000000000000# Makefile for Sphinx documentation # # You can set these variables from the command line. SPHINXOPTS = SPHINXBUILD = sphinx-build PAPER = BUILDDIR = _build # User-friendly check for sphinx-build ifeq ($(shell which $(SPHINXBUILD) >/dev/null 2>&1; echo $$?), 1) $(error The '$(SPHINXBUILD)' command was not found. Make sure you have Sphinx installed, then set the SPHINXBUILD environment variable to point to the full path of the '$(SPHINXBUILD)' executable. Alternatively you can add the directory with the executable to your PATH. If you don't have Sphinx installed, grab it from http://sphinx-doc.org/) endif # Internal variables. PAPEROPT_a4 = -D latex_paper_size=a4 PAPEROPT_letter = -D latex_paper_size=letter ALLSPHINXOPTS = -d $(BUILDDIR)/doctrees $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) . # the i18n builder cannot share the environment and doctrees with the others I18NSPHINXOPTS = $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) . .PHONY: help clean html dirhtml singlehtml pickle json htmlhelp qthelp devhelp epub latex latexpdf text man changes linkcheck doctest gettext help: @echo "Please use \`make ' where is one of" @echo " html to make standalone HTML files" @echo " dirhtml to make HTML files named index.html in directories" @echo " singlehtml to make a single large HTML file" @echo " pickle to make pickle files" @echo " json to make JSON files" @echo " htmlhelp to make HTML files and a HTML help project" @echo " qthelp to make HTML files and a qthelp project" @echo " devhelp to make HTML files and a Devhelp project" @echo " epub to make an epub" @echo " latex to make LaTeX files, you can set PAPER=a4 or PAPER=letter" @echo " latexpdf to make LaTeX files and run them through pdflatex" @echo " latexpdfja to make LaTeX files and run them through platex/dvipdfmx" @echo " text to make text files" @echo " man to make manual pages" @echo " texinfo to make Texinfo files" @echo " info to make Texinfo files and run them through makeinfo" @echo " gettext to make PO message catalogs" @echo " changes to make an overview of all changed/added/deprecated items" @echo " xml to make Docutils-native XML files" @echo " pseudoxml to make pseudoxml-XML files for display purposes" @echo " linkcheck to check all external links for integrity" @echo " doctest to run all doctests embedded in the documentation (if enabled)" clean: rm -rf $(BUILDDIR)/* html: $(SPHINXBUILD) -b html $(ALLSPHINXOPTS) $(BUILDDIR)/html @echo @echo "Build finished. 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The pseudo-XML files are in $(BUILDDIR)/pseudoxml." django-model-utils-2.4/docs/conf.py000066400000000000000000000202051262762665700173260ustar00rootroot00000000000000# -*- coding: utf-8 -*- # # django-model-utils documentation build configuration file, created by # sphinx-quickstart on Wed Jul 31 22:27:07 2013. # # This file is execfile()d with the current directory set to its containing dir. # # Note that not all possible configuration values are present in this # autogenerated file. # # All configuration values have a default; values that are commented out # serve to show the default. import sys, os # If extensions (or modules to document with autodoc) are in another directory, # add these directories to sys.path here. If the directory is relative to the # documentation root, use os.path.abspath to make it absolute, like shown here. #sys.path.insert(0, os.path.abspath('.')) # -- General configuration ----------------------------------------------------- # If your documentation needs a minimal Sphinx version, state it here. #needs_sphinx = '1.0' # Add any Sphinx extension module names here, as strings. They can be extensions # coming with Sphinx (named 'sphinx.ext.*') or your custom ones. extensions = [] # Add any paths that contain templates here, relative to this directory. templates_path = ['_templates'] # The suffix of source filenames. source_suffix = '.rst' # The encoding of source files. #source_encoding = 'utf-8-sig' # The master toctree document. master_doc = 'index' # General information about the project. project = u'django-model-utils' copyright = u'2015, Carl Meyer' parent_dir = os.path.dirname(os.path.dirname(__file__)) def get_version(): with open(os.path.join(parent_dir, 'model_utils', '__init__.py')) as f: for line in f: if line.startswith('__version__ ='): return line.split('=')[1].strip().strip('"\'') # The version info for the project you're documenting, acts as replacement for # |version| and |release|, also used in various other places throughout the # built documents. # # The full version, including alpha/beta/rc tags. release = get_version() # The short X.Y version. version = release # The language for content autogenerated by Sphinx. Refer to documentation # for a list of supported languages. #language = None # There are two options for replacing |today|: either, you set today to some # non-false value, then it is used: #today = '' # Else, today_fmt is used as the format for a strftime call. #today_fmt = '%B %d, %Y' # List of patterns, relative to source directory, that match files and # directories to ignore when looking for source files. exclude_patterns = ['_build'] # The reST default role (used for this markup: `text`) to use for all documents. #default_role = None # If true, '()' will be appended to :func: etc. cross-reference text. #add_function_parentheses = True # If true, the current module name will be prepended to all description # unit titles (such as .. function::). #add_module_names = True # If true, sectionauthor and moduleauthor directives will be shown in the # output. They are ignored by default. #show_authors = False # The name of the Pygments (syntax highlighting) style to use. pygments_style = 'sphinx' # A list of ignored prefixes for module index sorting. #modindex_common_prefix = [] # If true, keep warnings as "system message" paragraphs in the built documents. #keep_warnings = False # -- Options for HTML output --------------------------------------------------- # The theme to use for HTML and HTML Help pages. See the documentation for # a list of builtin themes. html_theme = 'default' # Theme options are theme-specific and customize the look and feel of a theme # further. For a list of options available for each theme, see the # documentation. #html_theme_options = {} # Add any paths that contain custom themes here, relative to this directory. #html_theme_path = [] # The name for this set of Sphinx documents. If None, it defaults to # " v documentation". #html_title = None # A shorter title for the navigation bar. Default is the same as html_title. #html_short_title = None # The name of an image file (relative to this directory) to place at the top # of the sidebar. #html_logo = None # The name of an image file (within the static path) to use as favicon of the # docs. This file should be a Windows icon file (.ico) being 16x16 or 32x32 # pixels large. #html_favicon = None # Add any paths that contain custom static files (such as style sheets) here, # relative to this directory. They are copied after the builtin static files, # so a file named "default.css" will overwrite the builtin "default.css". html_static_path = ['_static'] # If not '', a 'Last updated on:' timestamp is inserted at every page bottom, # using the given strftime format. #html_last_updated_fmt = '%b %d, %Y' # If true, SmartyPants will be used to convert quotes and dashes to # typographically correct entities. #html_use_smartypants = True # Custom sidebar templates, maps document names to template names. #html_sidebars = {} # Additional templates that should be rendered to pages, maps page names to # template names. #html_additional_pages = {} # If false, no module index is generated. #html_domain_indices = True # If false, no index is generated. #html_use_index = True # If true, the index is split into individual pages for each letter. #html_split_index = False # If true, links to the reST sources are added to the pages. #html_show_sourcelink = True # If true, "Created using Sphinx" is shown in the HTML footer. Default is True. #html_show_sphinx = True # If true, "(C) Copyright ..." is shown in the HTML footer. Default is True. #html_show_copyright = True # If true, an OpenSearch description file will be output, and all pages will # contain a tag referring to it. The value of this option must be the # base URL from which the finished HTML is served. #html_use_opensearch = '' # This is the file name suffix for HTML files (e.g. ".xhtml"). #html_file_suffix = None # Output file base name for HTML help builder. htmlhelp_basename = 'django-model-utilsdoc' # -- Options for LaTeX output -------------------------------------------------- latex_elements = { # The paper size ('letterpaper' or 'a4paper'). #'papersize': 'letterpaper', # The font size ('10pt', '11pt' or '12pt'). #'pointsize': '10pt', # Additional stuff for the LaTeX preamble. #'preamble': '', } # Grouping the document tree into LaTeX files. List of tuples # (source start file, target name, title, author, documentclass [howto/manual]). latex_documents = [ ('index', 'django-model-utils.tex', u'django-model-utils Documentation', u'Carl Meyer', 'manual'), ] # The name of an image file (relative to this directory) to place at the top of # the title page. #latex_logo = None # For "manual" documents, if this is true, then toplevel headings are parts, # not chapters. #latex_use_parts = False # If true, show page references after internal links. #latex_show_pagerefs = False # If true, show URL addresses after external links. #latex_show_urls = False # Documents to append as an appendix to all manuals. #latex_appendices = [] # If false, no module index is generated. #latex_domain_indices = True # -- Options for manual page output -------------------------------------------- # One entry per manual page. List of tuples # (source start file, name, description, authors, manual section). man_pages = [ ('index', 'django-model-utils', u'django-model-utils Documentation', [u'Carl Meyer'], 1) ] # If true, show URL addresses after external links. #man_show_urls = False # -- Options for Texinfo output ------------------------------------------------ # Grouping the document tree into Texinfo files. List of tuples # (source start file, target name, title, author, # dir menu entry, description, category) texinfo_documents = [ ('index', 'django-model-utils', u'django-model-utils Documentation', u'Carl Meyer', 'django-model-utils', 'One line description of project.', 'Miscellaneous'), ] # Documents to append as an appendix to all manuals. #texinfo_appendices = [] # If false, no module index is generated. #texinfo_domain_indices = True # How to display URL addresses: 'footnote', 'no', or 'inline'. #texinfo_show_urls = 'footnote' # If true, do not generate a @detailmenu in the "Top" node's menu. #texinfo_no_detailmenu = False django-model-utils-2.4/docs/fields.rst000066400000000000000000000106531262762665700200350ustar00rootroot00000000000000Fields ====== .. _StatusField: StatusField ----------- A simple convenience for giving a model a set of "states." ``StatusField`` is a ``CharField`` subclass that expects to find a class attribute called ``STATUS`` on its model or you can pass ``choices_name`` to use a different attribute name, and uses that as its ``choices``. Also sets a default ``max_length`` of 100, and sets its default value to the first item in the ``STATUS`` choices: .. code-block:: python from model_utils.fields import StatusField from model_utils import Choices class Article(models.Model): STATUS = Choices('draft', 'published') # ... status = StatusField() (The ``STATUS`` class attribute does not have to be a :ref:`Choices` instance, it can be an ordinary list of two-tuples). Using a different name for the model's choices class attribute .. code-block:: python from model_utils.fields import StatusField from model_utils import Choices class Article(models.Model): ANOTHER_CHOICES = Choices('draft', 'published') # ... another_field = StatusField(choices_name='ANOTHER_CHOICES') ``StatusField`` does not set ``db_index=True`` automatically; if you expect to frequently filter on your status field (and it will have enough selectivity to make an index worthwhile) you may want to add this yourself. .. _MonitorField: MonitorField ------------ A ``DateTimeField`` subclass that monitors another field on the model, and updates itself to the current date-time whenever the monitored field changes: .. code-block:: python from model_utils.fields import MonitorField, StatusField class Article(models.Model): STATUS = Choices('draft', 'published') status = StatusField() status_changed = MonitorField(monitor='status') (A ``MonitorField`` can monitor any type of field for changes, not only a ``StatusField``.) If a list is passed to the ``when`` parameter, the field will only update when it matches one of the specified values: .. code-block:: python from model_utils.fields import MonitorField, StatusField class Article(models.Model): STATUS = Choices('draft', 'published') status = StatusField() published_at = MonitorField(monitor='status', when=['published']) SplitField ---------- A ``TextField`` subclass that automatically pulls an excerpt out of its content (based on a "split here" marker or a default number of initial paragraphs) and stores both its content and excerpt values in the database. A ``SplitField`` is easy to add to any model definition: .. code-block:: python from django.db import models from model_utils.fields import SplitField class Article(models.Model): title = models.CharField(max_length=100) body = SplitField() ``SplitField`` automatically creates an extra non-editable field ``_body_excerpt`` to store the excerpt. This field doesn't need to be accessed directly; see below. Accessing a SplitField on a model ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ When accessing an attribute of a model that was declared as a ``SplitField``, a ``SplitText`` object is returned. The ``SplitText`` object has three attributes: ``content``: The full field contents. ``excerpt``: The excerpt of ``content`` (read-only). ``has_more``: True if the excerpt and content are different, False otherwise. This object also has a ``__unicode__`` method that returns the full content, allowing ``SplitField`` attributes to appear in templates without having to access ``content`` directly. Assuming the ``Article`` model above: .. code-block:: pycon >>> a = Article.objects.all()[0] >>> a.body.content u'some text\n\n\n\nmore text' >>> a.body.excerpt u'some text\n' >>> unicode(a.body) u'some text\n\n\n\nmore text' Assignment to ``a.body`` is equivalent to assignment to ``a.body.content``. .. note:: a.body.excerpt is only updated when a.save() is called Customized excerpting ~~~~~~~~~~~~~~~~~~~~~ By default, ``SplitField`` looks for the marker ```` alone on a line and takes everything before that marker as the excerpt. This marker can be customized by setting the ``SPLIT_MARKER`` setting. If no marker is found in the content, the first two paragraphs (where paragraphs are blocks of text separated by a blank line) are taken to be the excerpt. This number can be customized by setting the ``SPLIT_DEFAULT_PARAGRAPHS`` setting. django-model-utils-2.4/docs/index.rst000066400000000000000000000010511262762665700176660ustar00rootroot00000000000000================== django-model-utils ================== Django model mixins and utilities. Contents ======== .. toctree:: :maxdepth: 3 setup fields models managers utilities Contributing ============ Please file bugs and send pull requests to the `GitHub repository`_ and `issue tracker`_. .. _GitHub repository: https://github.com/carljm/django-model-utils/ .. _issue tracker: https://github.com/carljm/django-model-utils/issues Indices and tables ================== * :ref:`genindex` * :ref:`modindex` * :ref:`search` django-model-utils-2.4/docs/make.bat000066400000000000000000000145231262762665700174420ustar00rootroot00000000000000@ECHO OFF REM Command file for Sphinx documentation if "%SPHINXBUILD%" == "" ( set SPHINXBUILD=sphinx-build ) set BUILDDIR=_build set ALLSPHINXOPTS=-d %BUILDDIR%/doctrees %SPHINXOPTS% . set I18NSPHINXOPTS=%SPHINXOPTS% . if NOT "%PAPER%" == "" ( set ALLSPHINXOPTS=-D latex_paper_size=%PAPER% %ALLSPHINXOPTS% set I18NSPHINXOPTS=-D latex_paper_size=%PAPER% %I18NSPHINXOPTS% ) if "%1" == "" goto help if "%1" == "help" ( :help echo.Please use `make ^` where ^ is one of echo. html to make standalone HTML files echo. dirhtml to make HTML files named index.html in directories echo. singlehtml to make a single large HTML file echo. pickle to make pickle files echo. json to make JSON files echo. htmlhelp to make HTML files and a HTML help project echo. qthelp to make HTML files and a qthelp project echo. devhelp to make HTML files and a Devhelp project echo. epub to make an epub echo. latex to make LaTeX files, you can set PAPER=a4 or PAPER=letter echo. text to make text files echo. man to make manual pages echo. texinfo to make Texinfo files echo. gettext to make PO message catalogs echo. changes to make an overview over all changed/added/deprecated items echo. xml to make Docutils-native XML files echo. pseudoxml to make pseudoxml-XML files for display purposes echo. linkcheck to check all external links for integrity echo. doctest to run all doctests embedded in the documentation if enabled goto end ) if "%1" == "clean" ( for /d %%i in (%BUILDDIR%\*) do rmdir /q /s %%i del /q /s %BUILDDIR%\* goto end ) %SPHINXBUILD% 2> nul if errorlevel 9009 ( echo. echo.The 'sphinx-build' command was not found. 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For instance, if you have a ``Place`` model with subclasses ``Restaurant`` and ``Bar``, you may want to query all Places: .. code-block:: python nearby_places = Place.objects.filter(location='here') But when you iterate over ``nearby_places``, you'll get only ``Place`` instances back, even for objects that are "really" ``Restaurant`` or ``Bar``. If you attach an ``InheritanceManager`` to ``Place``, you can just call the ``select_subclasses()`` method on the ``InheritanceManager`` or any ``QuerySet`` from it, and the resulting objects will be instances of ``Restaurant`` or ``Bar``: .. code-block:: python from model_utils.managers import InheritanceManager class Place(models.Model): # ... objects = InheritanceManager() class Restaurant(Place): # ... class Bar(Place): # ... nearby_places = Place.objects.filter(location='here').select_subclasses() for place in nearby_places: # "place" will automatically be an instance of Place, Restaurant, or Bar The database query performed will have an extra join for each subclass; if you want to reduce the number of joins and you only need particular subclasses to be returned as their actual type, you can pass subclass names to ``select_subclasses()``, much like the built-in ``select_related()`` method: .. code-block:: python nearby_places = Place.objects.select_subclasses("restaurant") # restaurants will be Restaurant instances, bars will still be Place instances nearby_places = Place.objects.select_subclasses("restaurant", "bar") # all Places will be converted to Restaurant and Bar instances. It is also possible to use the subclasses themselves as arguments to ``select_subclasses``, leaving it to calculate the relationship for you: .. code-block:: python nearby_places = Place.objects.select_subclasses(Restaurant) # restaurants will be Restaurant instances, bars will still be Place instances nearby_places = Place.objects.select_subclasses(Restaurant, Bar) # all Places will be converted to Restaurant and Bar instances. It is even possible to mix and match the two: .. code-block:: python nearby_places = Place.objects.select_subclasses(Restaurant, "bar") # all Places will be converted to Restaurant and Bar instances. ``InheritanceManager`` also provides a subclass-fetching alternative to the ``get()`` method: .. code-block:: python place = Place.objects.get_subclass(id=some_id) # "place" will automatically be an instance of Place, Restaurant, or Bar If you don't explicitly call ``select_subclasses()`` or ``get_subclass()``, an ``InheritanceManager`` behaves identically to a normal ``Manager``; so it's safe to use as your default manager for the model. .. note:: Due to `Django bug #16572`_, on Django versions prior to 1.6 ``InheritanceManager`` only supports a single level of model inheritance; it won't work for grandchild models. .. _contributed by Jeff Elmore: http://jeffelmore.org/2010/11/11/automatic-downcasting-of-inherited-models-in-django/ .. _Django bug #16572: https://code.djangoproject.com/ticket/16572 .. _QueryManager: QueryManager ------------ Many custom model managers do nothing more than return a QuerySet that is filtered in some way. ``QueryManager`` allows you to express this pattern with a minimum of boilerplate: .. code-block:: python from django.db import models from model_utils.managers import QueryManager class Post(models.Model): ... published = models.BooleanField() pub_date = models.DateField() ... objects = models.Manager() public = QueryManager(published=True).order_by('-pub_date') The kwargs passed to ``QueryManager`` will be passed as-is to the ``QuerySet.filter()`` method. You can also pass a ``Q`` object to ``QueryManager`` to express more complex conditions. Note that you can set the ordering of the ``QuerySet`` returned by the ``QueryManager`` by chaining a call to ``.order_by()`` on the ``QueryManager`` (this is not required). PassThroughManager ------------------ A common "gotcha" when defining methods on a custom manager class is that those same methods are not automatically also available on the QuerySets returned by that manager, so are not "chainable". This can be counterintuitive, as most of the public QuerySet API is mirrored on managers. It is possible to create a custom Manager that returns QuerySets that have the same additional methods, but this requires boilerplate code. The ``PassThroughManager`` class (`contributed by Paul McLanahan`_) removes this boilerplate. .. _contributed by Paul McLanahan: http://paulm.us/post/3717466639/passthroughmanager-for-django To use ``PassThroughManager``, rather than defining a custom manager with additional methods, define a custom ``QuerySet`` subclass with the additional methods you want, and pass that ``QuerySet`` subclass to the ``PassThroughManager.for_queryset_class()`` class method. The returned ``PassThroughManager`` subclass will always return instances of your custom ``QuerySet``, and you can also call methods of your custom ``QuerySet`` directly on the manager: .. code-block:: python from datetime import datetime from django.db import models from django.db.models.query import QuerySet from model_utils.managers import PassThroughManager class PostQuerySet(QuerySet): def by_author(self, user): return self.filter(user=user) def published(self): return self.filter(published__lte=datetime.now()) def unpublished(self): return self.filter(published__gte=datetime.now()) class Post(models.Model): user = models.ForeignKey(User) published = models.DateTimeField() objects = PassThroughManager.for_queryset_class(PostQuerySet)() Post.objects.published() Post.objects.by_author(user=request.user).unpublished() Mixins ------ Each of the above manager classes has a corresponding mixin that can be used to add functionality to any manager. For example, to create a GeoDjango ``GeoManager`` that includes "pass through" functionality, you can write the following code: .. code-block:: python from django.contrib.gis.db import models from django.contrib.gis.db.models.query import GeoQuerySet from model_utils.managers import PassThroughManagerMixin class PassThroughGeoManager(PassThroughManagerMixin, models.GeoManager): pass class LocationQuerySet(GeoQuerySet): def within_boundary(self, geom): return self.filter(point__within=geom) def public(self): return self.filter(public=True) class Location(models.Model): point = models.PointField() public = models.BooleanField(default=True) objects = PassThroughGeoManager.for_queryset_class(LocationQuerySet)() Location.objects.public() Location.objects.within_boundary(geom=geom) Location.objects.within_boundary(geom=geom).public() Now you have a "pass through manager" that can also take advantage of GeoDjango's spatial lookups. You can similarly add additional functionality to any manager by composing that manager with ``InheritanceManagerMixin`` or ``QueryManagerMixin``. (Note that any manager class using ``InheritanceManagerMixin`` must return a ``QuerySet`` class using ``InheritanceQuerySetMixin`` from its ``get_queryset`` method. This means that if composing ``InheritanceManagerMixin`` and ``PassThroughManagerMixin``, the ``QuerySet`` class passed to ``PassThroughManager.for_queryset_class`` must inherit ``InheritanceQuerySetMixin``.) django-model-utils-2.4/docs/models.rst000066400000000000000000000024561262762665700200540ustar00rootroot00000000000000Models ====== TimeFramedModel --------------- An abstract base class for any model that expresses a time-range. Adds ``start`` and ``end`` nullable DateTimeFields, and a ``timeframed`` manager that returns only objects for whom the current date-time lies within their time range. TimeStampedModel ---------------- This abstract base class just provides self-updating ``created`` and ``modified`` fields on any model that inherits from it. StatusModel ----------- Pulls together :ref:`StatusField`, :ref:`MonitorField` and :ref:`QueryManager` into an abstract base class for any model with a "status." Just provide a ``STATUS`` class-attribute (a :ref:`Choices` object or a list of two-tuples), and your model will have a ``status`` field with those choices, a ``status_changed`` field containing the date-time the ``status`` was last changed, and a manager for each status that returns objects with that status only: .. code-block:: python from model_utils.models import StatusModel from model_utils import Choices class Article(StatusModel): STATUS = Choices('draft', 'published') # ... a = Article() a.status = Article.STATUS.published # this save will update a.status_changed a.save() # this query will only return published articles: Article.published.all() django-model-utils-2.4/docs/setup.rst000066400000000000000000000007231262762665700177240ustar00rootroot00000000000000===== Setup ===== Installation ============ Install from PyPI with ``pip``:: pip install django-model-utils To use ``django-model-utils`` in your Django project, just import and use the utility classes described in this documentation; there is no need to modify your ``INSTALLED_APPS`` setting. Dependencies ============ ``django-model-utils`` supports `Django`_ 1.4.2 and later on Python 2.6, 2.7, 3.2, and 3.3. .. _Django: http://www.djangoproject.com/ django-model-utils-2.4/docs/utilities.rst000066400000000000000000000160221262762665700205760ustar00rootroot00000000000000======================= Miscellaneous Utilities ======================= .. _Choices: Choices ======= ``Choices`` provides some conveniences for setting ``choices`` on a Django model field: .. code-block:: python from model_utils import Choices class Article(models.Model): STATUS = Choices('draft', 'published') status = models.CharField(choices=STATUS, default=STATUS.draft, max_length=20) A ``Choices`` object is initialized with any number of choices. In the simplest case, each choice is a string; that string will be used both as the database representation of the choice, and the human-readable representation. Note that you can access options as attributes on the ``Choices`` object: ``STATUS.draft``. But you may want your human-readable versions translated, in which case you need to separate the human-readable version from the DB representation. In this case you can provide choices as two-tuples: .. code-block:: python from model_utils import Choices class Article(models.Model): STATUS = Choices(('draft', _('draft')), ('published', _('published'))) status = models.CharField(choices=STATUS, default=STATUS.draft, max_length=20) But what if your database representation of choices is constrained in a way that would hinder readability of your code? For instance, you may need to use an ``IntegerField`` rather than a ``CharField``, or you may want the database to order the values in your field in some specific way. In this case, you can provide your choices as triples, where the first element is the database representation, the second is a valid Python identifier you will use in your code as a constant, and the third is the human-readable version: .. code-block:: python from model_utils import Choices class Article(models.Model): STATUS = Choices((0, 'draft', _('draft')), (1, 'published', _('published'))) status = models.IntegerField(choices=STATUS, default=STATUS.draft) You can index into a ``Choices`` instance to translate a database representation to its display name: .. code-block:: python status_display = Article.STATUS[article.status] Option groups can also be used with ``Choices``; in that case each argument is a tuple consisting of the option group name and a list of options, where each option in the list is either a string, a two-tuple, or a triple as outlined above. For example: .. code-block:: python from model_utils import Choices class Article(models.Model): STATUS = Choices(('Visible', ['new', 'archived']), ('Invisible', ['draft', 'deleted'])) Choices can be concatenated with the ``+`` operator, both to other Choices instances and other iterable objects that could be converted into Choices: .. code-block:: python from model_utils import Choices GENERIC_CHOICES = Choices((0, 'draft', _('draft')), (1, 'published', _('published'))) class Article(models.Model): STATUS = GENERIC_CHOICES + [(2, 'featured', _('featured'))] status = models.IntegerField(choices=STATUS, default=STATUS.draft) Field Tracker ============= A ``FieldTracker`` can be added to a model to track changes in model fields. A ``FieldTracker`` allows querying for field changes since a model instance was last saved. An example of applying ``FieldTracker`` to a model: .. code-block:: python from django.db import models from model_utils import FieldTracker class Post(models.Model): title = models.CharField(max_length=100) body = models.TextField() tracker = FieldTracker() .. note:: ``django-model-utils`` 1.3.0 introduced the ``ModelTracker`` object for tracking changes to model field values. Unfortunately ``ModelTracker`` suffered from some serious flaws in its handling of ``ForeignKey`` fields, potentially resulting in many extra database queries if a ``ForeignKey`` field was tracked. In order to avoid breaking API backwards-compatibility, ``ModelTracker`` retains the previous behavior but is deprecated, and ``FieldTracker`` has been introduced to provide better ``ForeignKey`` handling. All uses of ``ModelTracker`` should be replaced by ``FieldTracker``. Summary of differences between ``ModelTracker`` and ``FieldTracker``: * The previous value returned for a tracked ``ForeignKey`` field will now be the raw ID rather than the full object (avoiding extra database queries). (GH-43) * The ``changed()`` method no longer returns the empty dictionary for all unsaved instances; rather, ``None`` is considered to be the initial value of all fields if the model has never been saved, thus ``changed()`` on an unsaved instance will return a dictionary containing all fields whose current value is not ``None``. * The ``has_changed()`` method no longer crashes after an object's first save. (GH-53). Accessing a field tracker ------------------------- There are multiple methods available for checking for changes in model fields. previous ~~~~~~~~ Returns the value of the given field during the last save: .. code-block:: pycon >>> a = Post.objects.create(title='First Post') >>> a.title = 'Welcome' >>> a.tracker.previous('title') u'First Post' Returns ``None`` when the model instance isn't saved yet. has_changed ~~~~~~~~~~~ Returns ``True`` if the given field has changed since the last save: .. code-block:: pycon >>> a = Post.objects.create(title='First Post') >>> a.title = 'Welcome' >>> a.tracker.has_changed('title') True >>> a.tracker.has_changed('body') False The ``has_changed`` method relies on ``previous`` to determine whether a field's values has changed. changed ~~~~~~~ Returns a dictionary of all fields that have been changed since the last save and the values of the fields during the last save: .. code-block:: pycon >>> a = Post.objects.create(title='First Post') >>> a.title = 'Welcome' >>> a.body = 'First post!' >>> a.tracker.changed() {'title': 'First Post', 'body': ''} The ``changed`` method relies on ``has_changed`` to determine which fields have changed. Tracking specific fields ------------------------ A fields parameter can be given to ``FieldTracker`` to limit tracking to specific fields: .. code-block:: python from django.db import models from model_utils import FieldTracker class Post(models.Model): title = models.CharField(max_length=100) body = models.TextField() title_tracker = FieldTracker(fields=['title']) An example using the model specified above: .. code-block:: pycon >>> a = Post.objects.create(title='First Post') >>> a.body = 'First post!' >>> a.title_tracker.changed() {'title': None} Checking changes using signals ------------------------------ The field tracker methods may also be used in ``pre_save`` and ``post_save`` signal handlers to identify field changes on model save. .. NOTE:: Due to the implementation of ``FieldTracker``, ``post_save`` signal handlers relying on field tracker methods should only be registered after model creation. django-model-utils-2.4/model_utils/000077500000000000000000000000001262762665700174205ustar00rootroot00000000000000django-model-utils-2.4/model_utils/__init__.py000066400000000000000000000001421262762665700215260ustar00rootroot00000000000000from .choices import Choices from .tracker import FieldTracker, ModelTracker __version__ = '2.4' django-model-utils-2.4/model_utils/choices.py000066400000000000000000000122301262762665700214050ustar00rootroot00000000000000from __future__ import unicode_literals import copy class Choices(object): """ A class to encapsulate handy functionality for lists of choices for a Django model field. Each argument to ``Choices`` is a choice, represented as either a string, a two-tuple, or a three-tuple. If a single string is provided, that string is used as the database representation of the choice as well as the human-readable presentation. If a two-tuple is provided, the first item is used as the database representation and the second the human-readable presentation. If a triple is provided, the first item is the database representation, the second a valid Python identifier that can be used as a readable label in code, and the third the human-readable presentation. This is most useful when the database representation must sacrifice readability for some reason: to achieve a specific ordering, to use an integer rather than a character field, etc. Regardless of what representation of each choice is originally given, when iterated over or indexed into, a ``Choices`` object behaves as the standard Django choices list of two-tuples. If the triple form is used, the Python identifier names can be accessed as attributes on the ``Choices`` object, returning the database representation. (If the single or two-tuple forms are used and the database representation happens to be a valid Python identifier, the database representation itself is available as an attribute on the ``Choices`` object, returning itself.) Option groups can also be used with ``Choices``; in that case each argument is a tuple consisting of the option group name and a list of options, where each option in the list is either a string, a two-tuple, or a triple as outlined above. """ def __init__(self, *choices): # list of choices expanded to triples - can include optgroups self._triples = [] # list of choices as (db, human-readable) - can include optgroups self._doubles = [] # dictionary mapping db representation to human-readable self._display_map = {} # dictionary mapping Python identifier to db representation self._identifier_map = {} # set of db representations self._db_values = set() self._process(choices) def _store(self, triple, triple_collector, double_collector): self._identifier_map[triple[1]] = triple[0] self._display_map[triple[0]] = triple[2] self._db_values.add(triple[0]) triple_collector.append(triple) double_collector.append((triple[0], triple[2])) def _process(self, choices, triple_collector=None, double_collector=None): if triple_collector is None: triple_collector = self._triples if double_collector is None: double_collector = self._doubles store = lambda c: self._store(c, triple_collector, double_collector) for choice in choices: if isinstance(choice, (list, tuple)): if len(choice) == 3: store(choice) elif len(choice) == 2: if isinstance(choice[1], (list, tuple)): # option group group_name = choice[0] subchoices = choice[1] tc = [] triple_collector.append((group_name, tc)) dc = [] double_collector.append((group_name, dc)) self._process(subchoices, tc, dc) else: store((choice[0], choice[0], choice[1])) else: raise ValueError( "Choices can't take a list of length %s, only 2 or 3" % len(choice) ) else: store((choice, choice, choice)) def __len__(self): return len(self._doubles) def __iter__(self): return iter(self._doubles) def __getattr__(self, attname): try: return self._identifier_map[attname] except KeyError: raise AttributeError(attname) def __getitem__(self, key): return self._display_map[key] def __add__(self, other): if isinstance(other, self.__class__): other = other._triples else: other = list(other) return Choices(*(self._triples + other)) def __radd__(self, other): # radd is never called for matching types, so we don't check here other = list(other) return Choices(*(other + self._triples)) def __eq__(self, other): if isinstance(other, self.__class__): return self._triples == other._triples return False def __repr__(self): return '%s(%s)' % ( self.__class__.__name__, ', '.join(("%s" % repr(i) for i in self._triples)) ) def __contains__(self, item): return item in self._db_values def __deepcopy__(self, memo): return self.__class__(*copy.deepcopy(self._triples, memo)) django-model-utils-2.4/model_utils/fields.py000066400000000000000000000227701262762665700212500ustar00rootroot00000000000000from __future__ import unicode_literals import django from django.db import models from django.conf import settings from django.utils.encoding import python_2_unicode_compatible from django.utils.timezone import now DEFAULT_CHOICES_NAME = 'STATUS' class AutoCreatedField(models.DateTimeField): """ A DateTimeField that automatically populates itself at object creation. By default, sets editable=False, default=datetime.now. """ def __init__(self, *args, **kwargs): kwargs.setdefault('editable', False) kwargs.setdefault('default', now) super(AutoCreatedField, self).__init__(*args, **kwargs) class AutoLastModifiedField(AutoCreatedField): """ A DateTimeField that updates itself on each save() of the model. By default, sets editable=False and default=datetime.now. """ def pre_save(self, model_instance, add): value = now() setattr(model_instance, self.attname, value) return value class StatusField(models.CharField): """ A CharField that looks for a ``STATUS`` class-attribute and automatically uses that as ``choices``. The first option in ``STATUS`` is set as the default. Also has a default max_length so you don't have to worry about setting that. Also features a ``no_check_for_status`` argument to make sure South can handle this field when it freezes a model. """ def __init__(self, *args, **kwargs): kwargs.setdefault('max_length', 100) self.check_for_status = not kwargs.pop('no_check_for_status', False) self.choices_name = kwargs.pop('choices_name', DEFAULT_CHOICES_NAME) super(StatusField, self).__init__(*args, **kwargs) def prepare_class(self, sender, **kwargs): if not sender._meta.abstract and self.check_for_status: assert hasattr(sender, self.choices_name), \ "To use StatusField, the model '%s' must have a %s choices class attribute." \ % (sender.__name__, self.choices_name) self._choices = getattr(sender, self.choices_name) if django.VERSION >= (1, 9, 0): self.choices = self._choices if not self.has_default(): self.default = tuple(getattr(sender, self.choices_name))[0][0] # set first as default def contribute_to_class(self, cls, name): models.signals.class_prepared.connect(self.prepare_class, sender=cls) # we don't set the real choices until class_prepared (so we can rely on # the STATUS class attr being available), but we need to set some dummy # choices now so the super method will add the get_FOO_display method self._choices = [(0, 'dummy')] if django.VERSION >= (1, 9, 0): self.choices = self._choices super(StatusField, self).contribute_to_class(cls, name) def deconstruct(self): name, path, args, kwargs = super(StatusField, self).deconstruct() kwargs['no_check_for_status'] = True return name, path, args, kwargs class MonitorField(models.DateTimeField): """ A DateTimeField that monitors another field on the same model and sets itself to the current date/time whenever the monitored field changes. """ def __init__(self, *args, **kwargs): kwargs.setdefault('default', now) monitor = kwargs.pop('monitor', None) if not monitor: raise TypeError( '%s requires a "monitor" argument' % self.__class__.__name__) self.monitor = monitor when = kwargs.pop('when', None) if when is not None: when = set(when) self.when = when super(MonitorField, self).__init__(*args, **kwargs) def contribute_to_class(self, cls, name): self.monitor_attname = '_monitor_%s' % name models.signals.post_init.connect(self._save_initial, sender=cls) super(MonitorField, self).contribute_to_class(cls, name) def get_monitored_value(self, instance): return getattr(instance, self.monitor) def _save_initial(self, sender, instance, **kwargs): setattr(instance, self.monitor_attname, self.get_monitored_value(instance)) def pre_save(self, model_instance, add): value = now() previous = getattr(model_instance, self.monitor_attname, None) current = self.get_monitored_value(model_instance) if previous != current: if self.when is None or current in self.when: setattr(model_instance, self.attname, value) self._save_initial(model_instance.__class__, model_instance) return super(MonitorField, self).pre_save(model_instance, add) def deconstruct(self): name, path, args, kwargs = super(MonitorField, self).deconstruct() kwargs['monitor'] = self.monitor if self.when is not None: kwargs['when'] = self.when return name, path, args, kwargs SPLIT_MARKER = getattr(settings, 'SPLIT_MARKER', '') # the number of paragraphs after which to split if no marker SPLIT_DEFAULT_PARAGRAPHS = getattr(settings, 'SPLIT_DEFAULT_PARAGRAPHS', 2) _excerpt_field_name = lambda name: '_%s_excerpt' % name def get_excerpt(content): excerpt = [] default_excerpt = [] paras_seen = 0 for line in content.splitlines(): if not line.strip(): paras_seen += 1 if paras_seen < SPLIT_DEFAULT_PARAGRAPHS: default_excerpt.append(line) if line.strip() == SPLIT_MARKER: return '\n'.join(excerpt) excerpt.append(line) return '\n'.join(default_excerpt) @python_2_unicode_compatible class SplitText(object): def __init__(self, instance, field_name, excerpt_field_name): # instead of storing actual values store a reference to the instance # along with field names, this makes assignment possible self.instance = instance self.field_name = field_name self.excerpt_field_name = excerpt_field_name # content is read/write def _get_content(self): return self.instance.__dict__[self.field_name] def _set_content(self, val): setattr(self.instance, self.field_name, val) content = property(_get_content, _set_content) # excerpt is a read only property def _get_excerpt(self): return getattr(self.instance, self.excerpt_field_name) excerpt = property(_get_excerpt) # has_more is a boolean property def _get_has_more(self): return self.excerpt.strip() != self.content.strip() has_more = property(_get_has_more) def __str__(self): return self.content class SplitDescriptor(object): def __init__(self, field): self.field = field self.excerpt_field_name = _excerpt_field_name(self.field.name) def __get__(self, instance, owner): if instance is None: raise AttributeError('Can only be accessed via an instance.') content = instance.__dict__[self.field.name] if content is None: return None return SplitText(instance, self.field.name, self.excerpt_field_name) def __set__(self, obj, value): if isinstance(value, SplitText): obj.__dict__[self.field.name] = value.content setattr(obj, self.excerpt_field_name, value.excerpt) else: obj.__dict__[self.field.name] = value class SplitField(models.TextField): def __init__(self, *args, **kwargs): # for South FakeORM compatibility: the frozen version of a # SplitField can't try to add an _excerpt field, because the # _excerpt field itself is frozen as well. See introspection # rules below. self.add_excerpt_field = not kwargs.pop('no_excerpt_field', False) super(SplitField, self).__init__(*args, **kwargs) def contribute_to_class(self, cls, name): if self.add_excerpt_field and not cls._meta.abstract: excerpt_field = models.TextField(editable=False) cls.add_to_class(_excerpt_field_name(name), excerpt_field) super(SplitField, self).contribute_to_class(cls, name) setattr(cls, self.name, SplitDescriptor(self)) def pre_save(self, model_instance, add): value = super(SplitField, self).pre_save(model_instance, add) excerpt = get_excerpt(value.content) setattr(model_instance, _excerpt_field_name(self.attname), excerpt) return value.content def value_to_string(self, obj): value = self._get_val_from_obj(obj) return value.content def get_prep_value(self, value): try: return value.content except AttributeError: return value def deconstruct(self): name, path, args, kwargs = super(SplitField, self).deconstruct() kwargs['no_excerpt_field'] = True return name, path, args, kwargs # allow South to handle these fields smoothly try: from south.modelsinspector import add_introspection_rules # For a normal MarkupField, the add_excerpt_field attribute is # always True, which means no_excerpt_field arg will always be # True in a frozen MarkupField, which is what we want. add_introspection_rules(rules=[ ( (SplitField,), [], {'no_excerpt_field': ('add_excerpt_field', {})} ), ( (MonitorField,), [], {'monitor': ('monitor', {})} ), ( (StatusField,), [], {'no_check_for_status': ('check_for_status', {})} ), ], patterns=['model_utils\.fields\.']) except ImportError: pass django-model-utils-2.4/model_utils/locale/000077500000000000000000000000001262762665700206575ustar00rootroot00000000000000django-model-utils-2.4/model_utils/locale/de/000077500000000000000000000000001262762665700212475ustar00rootroot00000000000000django-model-utils-2.4/model_utils/locale/de/LC_MESSAGES/000077500000000000000000000000001262762665700230345ustar00rootroot00000000000000django-model-utils-2.4/model_utils/locale/de/LC_MESSAGES/django.mo000066400000000000000000000013701262762665700246340ustar00rootroot00000000000000Þ• l ¼ðñø #*n9¨® ·Á ÆÑÙàç  activecreateddeletedendmodifiedon holdstartstatusstatus changedProject-Id-Version: django-model-utils Report-Msgid-Bugs-To: POT-Creation-Date: 2015-07-20 10:17-0600 PO-Revision-Date: 2015-07-01 10:12+0200 Last-Translator: Philipp Steinhardt Language-Team: Language: de MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Plural-Forms: nplurals=2; plural=(n != 1); aktiverstelltgelöschtEndebearbeitetwartendBeginnStatusStatus geändertdjango-model-utils-2.4/model_utils/locale/de/LC_MESSAGES/django.po000066400000000000000000000022371262762665700246420ustar00rootroot00000000000000# This file is distributed under the same license as the django-model-utils package. # # Translators: # Philipp Steinhardt , 2015. msgid "" msgstr "" "Project-Id-Version: django-model-utils\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2015-07-20 10:17-0600\n" "PO-Revision-Date: 2015-07-01 10:12+0200\n" "Last-Translator: Philipp Steinhardt \n" "Language-Team: \n" "Language: de\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" #: models.py:20 msgid "created" msgstr "erstellt" #: models.py:21 msgid "modified" msgstr "bearbeitet" #: models.py:33 msgid "start" msgstr "Beginn" #: models.py:34 msgid "end" msgstr "Ende" #: models.py:49 msgid "status" msgstr "Status" #: models.py:50 msgid "status changed" msgstr "Status geändert" #: tests/models.py:106 tests/models.py:115 tests/models.py:124 msgid "active" msgstr "aktiv" #: tests/models.py:107 tests/models.py:116 tests/models.py:125 msgid "deleted" msgstr "gelöscht" #: tests/models.py:108 tests/models.py:117 tests/models.py:126 msgid "on hold" msgstr "wartend" django-model-utils-2.4/model_utils/managers.py000066400000000000000000000176441262762665700216030ustar00rootroot00000000000000from __future__ import unicode_literals import django from django.db import models from django.db.models.fields.related import OneToOneField from django.db.models.query import QuerySet from django.core.exceptions import ObjectDoesNotExist try: from django.db.models.constants import LOOKUP_SEP from django.utils.six import string_types except ImportError: # Django < 1.5 from django.db.models.sql.constants import LOOKUP_SEP string_types = (basestring,) class InheritanceQuerySetMixin(object): def select_subclasses(self, *subclasses): levels = self._get_maximum_depth() calculated_subclasses = self._get_subclasses_recurse( self.model, levels=levels) # if none were passed in, we can just short circuit and select all if not subclasses: subclasses = calculated_subclasses else: verified_subclasses = [] for subclass in subclasses: # special case for passing in the same model as the queryset # is bound against. Rather than raise an error later, we know # we can allow this through. if subclass is self.model: continue if not isinstance(subclass, string_types): subclass = self._get_ancestors_path( subclass, levels=levels) if subclass in calculated_subclasses: verified_subclasses.append(subclass) else: raise ValueError( '%r is not in the discovered subclasses, tried: %s' % ( subclass, ', '.join(calculated_subclasses)) ) subclasses = verified_subclasses # workaround https://code.djangoproject.com/ticket/16855 previous_select_related = self.query.select_related new_qs = self.select_related(*subclasses) previous_is_dict = isinstance(previous_select_related, dict) new_is_dict = isinstance(new_qs.query.select_related, dict) if previous_is_dict and new_is_dict: new_qs.query.select_related.update(previous_select_related) new_qs.subclasses = subclasses return new_qs def _clone(self, klass=None, setup=False, **kwargs): for name in ['subclasses', '_annotated']: if hasattr(self, name): kwargs[name] = getattr(self, name) if django.VERSION < (1, 9): kwargs['klass'] = klass kwargs['setup'] = setup return super(InheritanceQuerySetMixin, self)._clone(**kwargs) def annotate(self, *args, **kwargs): qset = super(InheritanceQuerySetMixin, self).annotate(*args, **kwargs) qset._annotated = [a.default_alias for a in args] + list(kwargs.keys()) return qset def iterator(self): iter = super(InheritanceQuerySetMixin, self).iterator() if getattr(self, 'subclasses', False): extras = tuple(self.query.extra.keys()) # sort the subclass names longest first, # so with 'a' and 'a__b' it goes as deep as possible subclasses = sorted(self.subclasses, key=len, reverse=True) for obj in iter: sub_obj = None for s in subclasses: sub_obj = self._get_sub_obj_recurse(obj, s) if sub_obj: break if not sub_obj: sub_obj = obj if getattr(self, '_annotated', False): for k in self._annotated: setattr(sub_obj, k, getattr(obj, k)) for k in extras: setattr(sub_obj, k, getattr(obj, k)) yield sub_obj else: for obj in iter: yield obj def _get_subclasses_recurse(self, model, levels=None): """ Given a Model class, find all related objects, exploring children recursively, returning a `list` of strings representing the relations for select_related """ rels = [ rel for rel in model._meta.get_all_related_objects() if isinstance(rel.field, OneToOneField) and issubclass(rel.field.model, model) and model is not rel.field.model ] subclasses = [] if levels: levels -= 1 for rel in rels: if levels or levels is None: for subclass in self._get_subclasses_recurse( rel.field.model, levels=levels): subclasses.append( rel.get_accessor_name() + LOOKUP_SEP + subclass) subclasses.append(rel.get_accessor_name()) return subclasses def _get_ancestors_path(self, model, levels=None): """ Serves as an opposite to _get_subclasses_recurse, instead walking from the Model class up the Model's ancestry and constructing the desired select_related string backwards. """ if not issubclass(model, self.model): raise ValueError( "%r is not a subclass of %r" % (model, self.model)) ancestry = [] # should be a OneToOneField or None parent_link = model._meta.get_ancestor_link(self.model) if levels: levels -= 1 while parent_link is not None: ancestry.insert(0, parent_link.related.get_accessor_name()) if levels or levels is None: if django.VERSION < (1, 8): parent_model = parent_link.related.parent_model else: parent_model = parent_link.related.model parent_link = parent_model._meta.get_ancestor_link( self.model) else: parent_link = None return LOOKUP_SEP.join(ancestry) def _get_sub_obj_recurse(self, obj, s): rel, _, s = s.partition(LOOKUP_SEP) try: node = getattr(obj, rel) except ObjectDoesNotExist: return None if s: child = self._get_sub_obj_recurse(node, s) return child else: return node def get_subclass(self, *args, **kwargs): return self.select_subclasses().get(*args, **kwargs) def _get_maximum_depth(self): """ Under Django versions < 1.6, to avoid triggering https://code.djangoproject.com/ticket/16572 we can only look as far as children. """ levels = None if django.VERSION < (1, 6, 0): levels = 1 return levels class InheritanceManagerMixin(object): use_for_related_fields = True def get_queryset(self): return InheritanceQuerySet(self.model) get_query_set = get_queryset def select_subclasses(self, *subclasses): return self.get_queryset().select_subclasses(*subclasses) def get_subclass(self, *args, **kwargs): return self.get_queryset().get_subclass(*args, **kwargs) class InheritanceQuerySet(InheritanceQuerySetMixin, QuerySet): pass class InheritanceManager(InheritanceManagerMixin, models.Manager): pass class QueryManagerMixin(object): use_for_related_fields = True def __init__(self, *args, **kwargs): if args: self._q = args[0] else: self._q = models.Q(**kwargs) self._order_by = None super(QueryManagerMixin, self).__init__() def order_by(self, *args): self._order_by = args return self def get_queryset(self): try: qs = super(QueryManagerMixin, self).get_queryset().filter(self._q) except AttributeError: qs = super(QueryManagerMixin, self).get_query_set().filter(self._q) if self._order_by is not None: return qs.order_by(*self._order_by) return qs get_query_set = get_queryset class QueryManager(QueryManagerMixin, models.Manager): pass django-model-utils-2.4/model_utils/models.py000066400000000000000000000060161262762665700212600ustar00rootroot00000000000000from __future__ import unicode_literals import django from django.db import models from django.utils.translation import ugettext_lazy as _ from django.core.exceptions import ImproperlyConfigured if django.VERSION >= (1, 9, 0): from django.db.models.functions import Now now = Now() else: from django.utils.timezone import now from model_utils.managers import QueryManager from model_utils.fields import AutoCreatedField, AutoLastModifiedField, \ StatusField, MonitorField class TimeStampedModel(models.Model): """ An abstract base class model that provides self-updating ``created`` and ``modified`` fields. """ created = AutoCreatedField(_('created')) modified = AutoLastModifiedField(_('modified')) class Meta: abstract = True class TimeFramedModel(models.Model): """ An abstract base class model that provides ``start`` and ``end`` fields to record a timeframe. """ start = models.DateTimeField(_('start'), null=True, blank=True) end = models.DateTimeField(_('end'), null=True, blank=True) class Meta: abstract = True class StatusModel(models.Model): """ An abstract base class model with a ``status`` field that automatically uses a ``STATUS`` class attribute of choices, a ``status_changed`` date-time field that records when ``status`` was last modified, and an automatically-added manager for each status that returns objects with that status only. """ status = StatusField(_('status')) status_changed = MonitorField(_('status changed'), monitor='status') class Meta: abstract = True def add_status_query_managers(sender, **kwargs): """ Add a Querymanager for each status item dynamically. """ if not issubclass(sender, StatusModel): return for value, display in getattr(sender, 'STATUS', ()): if _field_exists(sender, value): raise ImproperlyConfigured( "StatusModel: Model '%s' has a field named '%s' which " "conflicts with a status of the same name." % (sender.__name__, value) ) sender.add_to_class(value, QueryManager(status=value)) def add_timeframed_query_manager(sender, **kwargs): """ Add a QueryManager for a specific timeframe. """ if not issubclass(sender, TimeFramedModel): return if _field_exists(sender, 'timeframed'): raise ImproperlyConfigured( "Model '%s' has a field named 'timeframed' " "which conflicts with the TimeFramedModel manager." % sender.__name__ ) sender.add_to_class('timeframed', QueryManager( (models.Q(start__lte=now) | models.Q(start__isnull=True)) & (models.Q(end__gte=now) | models.Q(end__isnull=True)) )) models.signals.class_prepared.connect(add_status_query_managers) models.signals.class_prepared.connect(add_timeframed_query_manager) def _field_exists(model_class, field_name): return field_name in [f.attname for f in model_class._meta.local_fields] django-model-utils-2.4/model_utils/tests/000077500000000000000000000000001262762665700205625ustar00rootroot00000000000000django-model-utils-2.4/model_utils/tests/__init__.py000066400000000000000000000000001262762665700226610ustar00rootroot00000000000000django-model-utils-2.4/model_utils/tests/fields.py000066400000000000000000000024141262762665700224030ustar00rootroot00000000000000import django from django.db import models from django.utils.six import with_metaclass, string_types def mutable_from_db(value): if value == '': return None try: if isinstance(value, string_types): return [int(i) for i in value.split(',')] except ValueError: pass return value def mutable_to_db(value): if value is None: return '' if isinstance(value, list): value = ','.join((str(i) for i in value)) return str(value) if django.VERSION >= (1, 9, 0): class MutableField(models.TextField): def to_python(self, value): return mutable_from_db(value) def from_db_value(self, value, expression, connection, context): return mutable_from_db(value) def get_db_prep_save(self, value, connection): value = super(MutableField, self).get_db_prep_save(value, connection) return mutable_to_db(value) else: class MutableField(with_metaclass(models.SubfieldBase, models.TextField)): def to_python(self, value): return mutable_from_db(value) def get_db_prep_save(self, value, connection): value = mutable_to_db(value) return super(MutableField, self).get_db_prep_save(value, connection) django-model-utils-2.4/model_utils/tests/models.py000066400000000000000000000160061262762665700224220ustar00rootroot00000000000000from __future__ import unicode_literals from django.db import models from django.utils.encoding import python_2_unicode_compatible from django.utils.translation import ugettext_lazy as _ from model_utils.models import TimeStampedModel, StatusModel, TimeFramedModel from model_utils.tracker import FieldTracker, ModelTracker from model_utils.managers import QueryManager, InheritanceManager from model_utils.fields import SplitField, MonitorField, StatusField from model_utils.tests.fields import MutableField from model_utils import Choices class InheritanceManagerTestRelated(models.Model): pass @python_2_unicode_compatible class InheritanceManagerTestParent(models.Model): # FileField is just a handy descriptor-using field. Refs #6. non_related_field_using_descriptor = models.FileField(upload_to="test") related = models.ForeignKey( InheritanceManagerTestRelated, related_name="imtests", null=True) normal_field = models.TextField() related_self = models.OneToOneField("self", related_name="imtests_self", null=True) objects = InheritanceManager() def __unicode__(self): return unicode(self.pk) def __str__(self): return "%s(%s)" % ( self.__class__.__name__[len('InheritanceManagerTest'):], self.pk, ) class InheritanceManagerTestChild1(InheritanceManagerTestParent): non_related_field_using_descriptor_2 = models.FileField(upload_to="test") normal_field_2 = models.TextField() objects = InheritanceManager() class InheritanceManagerTestGrandChild1(InheritanceManagerTestChild1): text_field = models.TextField() class InheritanceManagerTestGrandChild1_2(InheritanceManagerTestChild1): text_field = models.TextField() class InheritanceManagerTestChild2(InheritanceManagerTestParent): non_related_field_using_descriptor_2 = models.FileField(upload_to="test") normal_field_2 = models.TextField() class InheritanceManagerTestChild3(InheritanceManagerTestParent): parent_ptr = models.OneToOneField( InheritanceManagerTestParent, related_name='manual_onetoone', parent_link=True) class TimeStamp(TimeStampedModel): pass class TimeFrame(TimeFramedModel): pass class TimeFrameManagerAdded(TimeFramedModel): pass class Monitored(models.Model): name = models.CharField(max_length=25) name_changed = MonitorField(monitor="name") class MonitorWhen(models.Model): name = models.CharField(max_length=25) name_changed = MonitorField(monitor="name", when=["Jose", "Maria"]) class MonitorWhenEmpty(models.Model): name = models.CharField(max_length=25) name_changed = MonitorField(monitor="name", when=[]) class Status(StatusModel): STATUS = Choices( ("active", _("active")), ("deleted", _("deleted")), ("on_hold", _("on hold")), ) class StatusPlainTuple(StatusModel): STATUS = ( ("active", _("active")), ("deleted", _("deleted")), ("on_hold", _("on hold")), ) class StatusManagerAdded(StatusModel): STATUS = ( ("active", _("active")), ("deleted", _("deleted")), ("on_hold", _("on hold")), ) class Post(models.Model): published = models.BooleanField(default=False) confirmed = models.BooleanField(default=False) order = models.IntegerField() objects = models.Manager() public = QueryManager(published=True) public_confirmed = QueryManager(models.Q(published=True) & models.Q(confirmed=True)) public_reversed = QueryManager(published=True).order_by("-order") class Meta: ordering = ("order",) class Article(models.Model): title = models.CharField(max_length=50) body = SplitField() class SplitFieldAbstractParent(models.Model): content = SplitField() class Meta: abstract = True class NoRendered(models.Model): """ Test that the no_excerpt_field keyword arg works. This arg should never be used except by the South model-freezing. """ body = SplitField(no_excerpt_field=True) class AuthorMixin(object): def by_author(self, name): return self.filter(author=name) class PublishedMixin(object): def published(self): return self.filter(published=True) def unpublished(self): return self.filter(published=False) class ByAuthorQuerySet(models.query.QuerySet, AuthorMixin): pass class FeaturedManager(models.Manager): def get_queryset(self): kwargs = {} if hasattr(self, "_db"): kwargs["using"] = self._db return ByAuthorQuerySet(self.model, **kwargs).filter(feature=True) get_query_set = get_queryset class Tracked(models.Model): name = models.CharField(max_length=20) number = models.IntegerField() mutable = MutableField(default=None) tracker = FieldTracker() class TrackedFK(models.Model): fk = models.ForeignKey('Tracked') tracker = FieldTracker() custom_tracker = FieldTracker(fields=['fk_id']) custom_tracker_without_id = FieldTracker(fields=['fk']) class TrackedNotDefault(models.Model): name = models.CharField(max_length=20) number = models.IntegerField() name_tracker = FieldTracker(fields=['name']) class TrackedNonFieldAttr(models.Model): number = models.FloatField() @property def rounded(self): return round(self.number) if self.number is not None else None tracker = FieldTracker(fields=['rounded']) class TrackedMultiple(models.Model): name = models.CharField(max_length=20) number = models.IntegerField() name_tracker = FieldTracker(fields=['name']) number_tracker = FieldTracker(fields=['number']) class InheritedTracked(Tracked): name2 = models.CharField(max_length=20) class ModelTracked(models.Model): name = models.CharField(max_length=20) number = models.IntegerField() mutable = MutableField(default=None) tracker = ModelTracker() class ModelTrackedFK(models.Model): fk = models.ForeignKey('ModelTracked') tracker = ModelTracker() custom_tracker = ModelTracker(fields=['fk_id']) custom_tracker_without_id = ModelTracker(fields=['fk']) class ModelTrackedNotDefault(models.Model): name = models.CharField(max_length=20) number = models.IntegerField() name_tracker = ModelTracker(fields=['name']) class ModelTrackedMultiple(models.Model): name = models.CharField(max_length=20) number = models.IntegerField() name_tracker = ModelTracker(fields=['name']) number_tracker = ModelTracker(fields=['number']) class InheritedModelTracked(ModelTracked): name2 = models.CharField(max_length=20) class StatusFieldDefaultFilled(models.Model): STATUS = Choices((0, "no", "No"), (1, "yes", "Yes")) status = StatusField(default=STATUS.yes) class StatusFieldDefaultNotFilled(models.Model): STATUS = Choices((0, "no", "No"), (1, "yes", "Yes")) status = StatusField() class StatusFieldChoicesName(models.Model): NAMED_STATUS = Choices((0, "no", "No"), (1, "yes", "Yes")) status = StatusField(choices_name='NAMED_STATUS') django-model-utils-2.4/model_utils/tests/tests.py000066400000000000000000001771111262762665700223060ustar00rootroot00000000000000from __future__ import unicode_literals from datetime import datetime, timedelta try: from unittest import skipUnless except ImportError: # Python 2.6 from django.utils.unittest import skipUnless import django from django.db import models from django.db.models.fields import FieldDoesNotExist from django.utils.six import text_type from django.core.exceptions import ImproperlyConfigured, FieldError from django.core.management import call_command from django.test import TestCase from model_utils import Choices, FieldTracker from model_utils.fields import get_excerpt, MonitorField, StatusField from model_utils.managers import QueryManager from model_utils.models import StatusModel, TimeFramedModel from model_utils.tests.models import ( InheritanceManagerTestRelated, InheritanceManagerTestGrandChild1, InheritanceManagerTestGrandChild1_2, InheritanceManagerTestParent, InheritanceManagerTestChild1, InheritanceManagerTestChild2, TimeStamp, Post, Article, Status, StatusPlainTuple, TimeFrame, Monitored, MonitorWhen, MonitorWhenEmpty, StatusManagerAdded, TimeFrameManagerAdded, SplitFieldAbstractParent, ModelTracked, ModelTrackedFK, ModelTrackedNotDefault, ModelTrackedMultiple, InheritedModelTracked, Tracked, TrackedFK, TrackedNotDefault, TrackedNonFieldAttr, TrackedMultiple, InheritedTracked, StatusFieldDefaultFilled, StatusFieldDefaultNotFilled, InheritanceManagerTestChild3, StatusFieldChoicesName) class MigrationsTests(TestCase): @skipUnless(django.VERSION >= (1, 7, 0), "test only applies to Django 1.7+") def test_makemigrations(self): call_command('makemigrations', dry_run=True) class GetExcerptTests(TestCase): def test_split(self): e = get_excerpt("some content\n\n\n\nsome more") self.assertEqual(e, 'some content\n') def test_auto_split(self): e = get_excerpt("para one\n\npara two\n\npara three") self.assertEqual(e, 'para one\n\npara two') def test_middle_of_para(self): e = get_excerpt("some text\n\nmore text") self.assertEqual(e, 'some text') def test_middle_of_line(self): e = get_excerpt("some text more text") self.assertEqual(e, "some text more text") class SplitFieldTests(TestCase): full_text = 'summary\n\n\n\nmore' excerpt = 'summary\n' def setUp(self): self.post = Article.objects.create( title='example post', body=self.full_text) def test_unicode_content(self): self.assertEqual(text_type(self.post.body), self.full_text) def test_excerpt(self): self.assertEqual(self.post.body.excerpt, self.excerpt) def test_content(self): self.assertEqual(self.post.body.content, self.full_text) def test_has_more(self): self.assertTrue(self.post.body.has_more) def test_not_has_more(self): post = Article.objects.create(title='example 2', body='some text\n\nsome more\n') self.assertFalse(post.body.has_more) def test_load_back(self): post = Article.objects.get(pk=self.post.pk) self.assertEqual(post.body.content, self.post.body.content) self.assertEqual(post.body.excerpt, self.post.body.excerpt) def test_assign_to_body(self): new_text = 'different\n\n\n\nother' self.post.body = new_text self.post.save() self.assertEqual(text_type(self.post.body), new_text) def test_assign_to_content(self): new_text = 'different\n\n\n\nother' self.post.body.content = new_text self.post.save() self.assertEqual(text_type(self.post.body), new_text) def test_assign_to_excerpt(self): with self.assertRaises(AttributeError): self.post.body.excerpt = 'this should fail' def test_access_via_class(self): with self.assertRaises(AttributeError): Article.body def test_none(self): a = Article(title='Some Title', body=None) self.assertEqual(a.body, None) def test_assign_splittext(self): a = Article(title='Some Title') a.body = self.post.body self.assertEqual(a.body.excerpt, 'summary\n') def test_value_to_string(self): f = self.post._meta.get_field('body') self.assertEqual(f.value_to_string(self.post), self.full_text) def test_abstract_inheritance(self): class Child(SplitFieldAbstractParent): pass self.assertEqual( [f.name for f in Child._meta.fields], ["id", "content", "_content_excerpt"]) class MonitorFieldTests(TestCase): def setUp(self): self.instance = Monitored(name='Charlie') self.created = self.instance.name_changed def test_save_no_change(self): self.instance.save() self.assertEqual(self.instance.name_changed, self.created) def test_save_changed(self): self.instance.name = 'Maria' self.instance.save() self.assertTrue(self.instance.name_changed > self.created) def test_double_save(self): self.instance.name = 'Jose' self.instance.save() changed = self.instance.name_changed self.instance.save() self.assertEqual(self.instance.name_changed, changed) def test_no_monitor_arg(self): with self.assertRaises(TypeError): MonitorField() class MonitorWhenFieldTests(TestCase): """ Will record changes only when name is 'Jose' or 'Maria' """ def setUp(self): self.instance = MonitorWhen(name='Charlie') self.created = self.instance.name_changed def test_save_no_change(self): self.instance.save() self.assertEqual(self.instance.name_changed, self.created) def test_save_changed_to_Jose(self): self.instance.name = 'Jose' self.instance.save() self.assertTrue(self.instance.name_changed > self.created) def test_save_changed_to_Maria(self): self.instance.name = 'Maria' self.instance.save() self.assertTrue(self.instance.name_changed > self.created) def test_save_changed_to_Pedro(self): self.instance.name = 'Pedro' self.instance.save() self.assertEqual(self.instance.name_changed, self.created) def test_double_save(self): self.instance.name = 'Jose' self.instance.save() changed = self.instance.name_changed self.instance.save() self.assertEqual(self.instance.name_changed, changed) class MonitorWhenEmptyFieldTests(TestCase): """ Monitor should never be updated id when is an empty list. """ def setUp(self): self.instance = MonitorWhenEmpty(name='Charlie') self.created = self.instance.name_changed def test_save_no_change(self): self.instance.save() self.assertEqual(self.instance.name_changed, self.created) def test_save_changed_to_Jose(self): self.instance.name = 'Jose' self.instance.save() self.assertEqual(self.instance.name_changed, self.created) def test_save_changed_to_Maria(self): self.instance.name = 'Maria' self.instance.save() self.assertEqual(self.instance.name_changed, self.created) class StatusFieldTests(TestCase): def test_status_with_default_filled(self): instance = StatusFieldDefaultFilled() self.assertEqual(instance.status, instance.STATUS.yes) def test_status_with_default_not_filled(self): instance = StatusFieldDefaultNotFilled() self.assertEqual(instance.status, instance.STATUS.no) def test_no_check_for_status(self): field = StatusField(no_check_for_status=True) # this model has no STATUS attribute, so checking for it would error field.prepare_class(Article) def test_get_status_display(self): instance = StatusFieldDefaultFilled() self.assertEqual(instance.get_status_display(), "Yes") def test_choices_name(self): StatusFieldChoicesName() class ChoicesTests(TestCase): def setUp(self): self.STATUS = Choices('DRAFT', 'PUBLISHED') def test_getattr(self): self.assertEqual(self.STATUS.DRAFT, 'DRAFT') def test_indexing(self): self.assertEqual(self.STATUS['PUBLISHED'], 'PUBLISHED') def test_iteration(self): self.assertEqual(tuple(self.STATUS), (('DRAFT', 'DRAFT'), ('PUBLISHED', 'PUBLISHED'))) def test_len(self): self.assertEqual(len(self.STATUS), 2) def test_repr(self): self.assertEqual(repr(self.STATUS), "Choices" + repr(( ('DRAFT', 'DRAFT', 'DRAFT'), ('PUBLISHED', 'PUBLISHED', 'PUBLISHED'), ))) def test_wrong_length_tuple(self): with self.assertRaises(ValueError): Choices(('a',)) def test_contains_value(self): self.assertTrue('PUBLISHED' in self.STATUS) self.assertTrue('DRAFT' in self.STATUS) def test_doesnt_contain_value(self): self.assertFalse('UNPUBLISHED' in self.STATUS) def test_deepcopy(self): import copy self.assertEqual(list(self.STATUS), list(copy.deepcopy(self.STATUS))) def test_equality(self): self.assertEqual(self.STATUS, Choices('DRAFT', 'PUBLISHED')) def test_inequality(self): self.assertNotEqual(self.STATUS, ['DRAFT', 'PUBLISHED']) self.assertNotEqual(self.STATUS, Choices('DRAFT')) def test_composability(self): self.assertEqual(Choices('DRAFT') + Choices('PUBLISHED'), self.STATUS) self.assertEqual(Choices('DRAFT') + ('PUBLISHED',), self.STATUS) self.assertEqual(('DRAFT',) + Choices('PUBLISHED'), self.STATUS) def test_option_groups(self): c = Choices(('group a', ['one', 'two']), ['group b', ('three',)]) self.assertEqual( list(c), [ ('group a', [('one', 'one'), ('two', 'two')]), ('group b', [('three', 'three')]), ], ) class LabelChoicesTests(ChoicesTests): def setUp(self): self.STATUS = Choices( ('DRAFT', 'is draft'), ('PUBLISHED', 'is published'), 'DELETED', ) def test_iteration(self): self.assertEqual(tuple(self.STATUS), ( ('DRAFT', 'is draft'), ('PUBLISHED', 'is published'), ('DELETED', 'DELETED')) ) def test_indexing(self): self.assertEqual(self.STATUS['PUBLISHED'], 'is published') def test_default(self): self.assertEqual(self.STATUS.DELETED, 'DELETED') def test_provided(self): self.assertEqual(self.STATUS.DRAFT, 'DRAFT') def test_len(self): self.assertEqual(len(self.STATUS), 3) def test_equality(self): self.assertEqual(self.STATUS, Choices( ('DRAFT', 'is draft'), ('PUBLISHED', 'is published'), 'DELETED', )) def test_inequality(self): self.assertNotEqual(self.STATUS, [ ('DRAFT', 'is draft'), ('PUBLISHED', 'is published'), 'DELETED' ]) self.assertNotEqual(self.STATUS, Choices('DRAFT')) def test_repr(self): self.assertEqual(repr(self.STATUS), "Choices" + repr(( ('DRAFT', 'DRAFT', 'is draft'), ('PUBLISHED', 'PUBLISHED', 'is published'), ('DELETED', 'DELETED', 'DELETED'), ))) def test_contains_value(self): self.assertTrue('PUBLISHED' in self.STATUS) self.assertTrue('DRAFT' in self.STATUS) # This should be True, because both the display value # and the internal representation are both DELETED. self.assertTrue('DELETED' in self.STATUS) def test_doesnt_contain_value(self): self.assertFalse('UNPUBLISHED' in self.STATUS) def test_doesnt_contain_display_value(self): self.assertFalse('is draft' in self.STATUS) def test_composability(self): self.assertEqual( Choices(('DRAFT', 'is draft',)) + Choices(('PUBLISHED', 'is published'), 'DELETED'), self.STATUS ) self.assertEqual( (('DRAFT', 'is draft',),) + Choices(('PUBLISHED', 'is published'), 'DELETED'), self.STATUS ) self.assertEqual( Choices(('DRAFT', 'is draft',)) + (('PUBLISHED', 'is published'), 'DELETED'), self.STATUS ) def test_option_groups(self): c = Choices( ('group a', [(1, 'one'), (2, 'two')]), ['group b', ((3, 'three'),)] ) self.assertEqual( list(c), [ ('group a', [(1, 'one'), (2, 'two')]), ('group b', [(3, 'three')]), ], ) class IdentifierChoicesTests(ChoicesTests): def setUp(self): self.STATUS = Choices( (0, 'DRAFT', 'is draft'), (1, 'PUBLISHED', 'is published'), (2, 'DELETED', 'is deleted')) def test_iteration(self): self.assertEqual(tuple(self.STATUS), ( (0, 'is draft'), (1, 'is published'), (2, 'is deleted'))) def test_indexing(self): self.assertEqual(self.STATUS[1], 'is published') def test_getattr(self): self.assertEqual(self.STATUS.DRAFT, 0) def test_len(self): self.assertEqual(len(self.STATUS), 3) def test_repr(self): self.assertEqual(repr(self.STATUS), "Choices" + repr(( (0, 'DRAFT', 'is draft'), (1, 'PUBLISHED', 'is published'), (2, 'DELETED', 'is deleted'), ))) def test_contains_value(self): self.assertTrue(0 in self.STATUS) self.assertTrue(1 in self.STATUS) self.assertTrue(2 in self.STATUS) def test_doesnt_contain_value(self): self.assertFalse(3 in self.STATUS) def test_doesnt_contain_display_value(self): self.assertFalse('is draft' in self.STATUS) def test_doesnt_contain_python_attr(self): self.assertFalse('PUBLISHED' in self.STATUS) def test_equality(self): self.assertEqual(self.STATUS, Choices( (0, 'DRAFT', 'is draft'), (1, 'PUBLISHED', 'is published'), (2, 'DELETED', 'is deleted') )) def test_inequality(self): self.assertNotEqual(self.STATUS, [ (0, 'DRAFT', 'is draft'), (1, 'PUBLISHED', 'is published'), (2, 'DELETED', 'is deleted') ]) self.assertNotEqual(self.STATUS, Choices('DRAFT')) def test_composability(self): self.assertEqual( Choices( (0, 'DRAFT', 'is draft'), (1, 'PUBLISHED', 'is published') ) + Choices( (2, 'DELETED', 'is deleted'), ), self.STATUS ) self.assertEqual( Choices( (0, 'DRAFT', 'is draft'), (1, 'PUBLISHED', 'is published') ) + ( (2, 'DELETED', 'is deleted'), ), self.STATUS ) self.assertEqual( ( (0, 'DRAFT', 'is draft'), (1, 'PUBLISHED', 'is published') ) + Choices( (2, 'DELETED', 'is deleted'), ), self.STATUS ) def test_option_groups(self): c = Choices( ('group a', [(1, 'ONE', 'one'), (2, 'TWO', 'two')]), ['group b', ((3, 'THREE', 'three'),)] ) self.assertEqual( list(c), [ ('group a', [(1, 'one'), (2, 'two')]), ('group b', [(3, 'three')]), ], ) class InheritanceManagerTests(TestCase): def setUp(self): self.child1 = InheritanceManagerTestChild1.objects.create() self.child2 = InheritanceManagerTestChild2.objects.create() self.grandchild1 = InheritanceManagerTestGrandChild1.objects.create() self.grandchild1_2 = \ InheritanceManagerTestGrandChild1_2.objects.create() def get_manager(self): return InheritanceManagerTestParent.objects def test_normal(self): children = set([ InheritanceManagerTestParent(pk=self.child1.pk), InheritanceManagerTestParent(pk=self.child2.pk), InheritanceManagerTestParent(pk=self.grandchild1.pk), InheritanceManagerTestParent(pk=self.grandchild1_2.pk), ]) self.assertEqual(set(self.get_manager().all()), children) def test_select_all_subclasses(self): children = set([self.child1, self.child2]) if django.VERSION >= (1, 6, 0): children.add(self.grandchild1) children.add(self.grandchild1_2) else: children.add(InheritanceManagerTestChild1(pk=self.grandchild1.pk)) children.add(InheritanceManagerTestChild1(pk=self.grandchild1_2.pk)) self.assertEqual( set(self.get_manager().select_subclasses()), children) def test_select_subclasses_invalid_relation(self): """ If an invalid relation string is provided, we can provide the user with a list which is valid, rather than just have the select_related() raise an AttributeError further in. """ regex = '^.+? is not in the discovered subclasses, tried:.+$' with self.assertRaisesRegexp(ValueError, regex): self.get_manager().select_subclasses('user') def test_select_specific_subclasses(self): children = set([ self.child1, InheritanceManagerTestParent(pk=self.child2.pk), InheritanceManagerTestChild1(pk=self.grandchild1.pk), InheritanceManagerTestChild1(pk=self.grandchild1_2.pk), ]) self.assertEqual( set( self.get_manager().select_subclasses( "inheritancemanagertestchild1") ), children, ) @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_select_specific_grandchildren(self): children = set([ InheritanceManagerTestParent(pk=self.child1.pk), InheritanceManagerTestParent(pk=self.child2.pk), self.grandchild1, InheritanceManagerTestParent(pk=self.grandchild1_2.pk), ]) self.assertEqual( set( self.get_manager().select_subclasses( "inheritancemanagertestchild1__inheritancemanagertestgrandchild1" ) ), children, ) @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_children_and_grandchildren(self): children = set([ self.child1, InheritanceManagerTestParent(pk=self.child2.pk), self.grandchild1, InheritanceManagerTestChild1(pk=self.grandchild1_2.pk), ]) self.assertEqual( set( self.get_manager().select_subclasses( "inheritancemanagertestchild1", "inheritancemanagertestchild1__inheritancemanagertestgrandchild1" ) ), children, ) def test_get_subclass(self): self.assertEqual( self.get_manager().get_subclass(pk=self.child1.pk), self.child1) def test_get_subclass_on_queryset(self): self.assertEqual( self.get_manager().all().get_subclass(pk=self.child1.pk), self.child1) def test_prior_select_related(self): with self.assertNumQueries(1): obj = self.get_manager().select_related( "inheritancemanagertestchild1").select_subclasses( "inheritancemanagertestchild2").get(pk=self.child1.pk) obj.inheritancemanagertestchild1 @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_version_determining_any_depth(self): self.assertIsNone(self.get_manager().all()._get_maximum_depth()) @skipUnless(django.VERSION < (1, 6, 0), "test only applies to Django < 1.6") def test_version_determining_only_child_depth(self): self.assertEqual(1, self.get_manager().all()._get_maximum_depth()) @skipUnless(django.VERSION < (1, 6, 0), "test only applies to Django < 1.6") def test_manually_specifying_parent_fk_only_children(self): """ given a Model which inherits from another Model, but also declares the OneToOne link manually using `related_name` and `parent_link`, ensure that the relation names and subclasses are obtained correctly. """ child3 = InheritanceManagerTestChild3.objects.create() results = InheritanceManagerTestParent.objects.all().select_subclasses() expected_objs = [self.child1, self.child2, InheritanceManagerTestChild1(pk=self.grandchild1.pk), InheritanceManagerTestChild1(pk=self.grandchild1_2.pk), child3] self.assertEqual(list(results), expected_objs) expected_related_names = [ 'inheritancemanagertestchild1', 'inheritancemanagertestchild2', 'manual_onetoone', # this was set via parent_link & related_name ] self.assertEqual(set(results.subclasses), set(expected_related_names)) @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_manually_specifying_parent_fk_including_grandchildren(self): """ given a Model which inherits from another Model, but also declares the OneToOne link manually using `related_name` and `parent_link`, ensure that the relation names and subclasses are obtained correctly. """ child3 = InheritanceManagerTestChild3.objects.create() results = InheritanceManagerTestParent.objects.all().select_subclasses() expected_objs = [self.child1, self.child2, self.grandchild1, self.grandchild1_2, child3] self.assertEqual(list(results), expected_objs) expected_related_names = [ 'inheritancemanagertestchild1__inheritancemanagertestgrandchild1', 'inheritancemanagertestchild1__inheritancemanagertestgrandchild1_2', 'inheritancemanagertestchild1', 'inheritancemanagertestchild2', 'manual_onetoone', # this was set via parent_link & related_name ] self.assertEqual(set(results.subclasses), set(expected_related_names)) def test_manually_specifying_parent_fk_single_subclass(self): """ Using a string related_name when the relation is manually defined instead of implicit should still work in the same way. """ related_name = 'manual_onetoone' child3 = InheritanceManagerTestChild3.objects.create() results = InheritanceManagerTestParent.objects.all().select_subclasses(related_name) expected_objs = [InheritanceManagerTestParent(pk=self.child1.pk), InheritanceManagerTestParent(pk=self.child2.pk), InheritanceManagerTestParent(pk=self.grandchild1.pk), InheritanceManagerTestParent(pk=self.grandchild1_2.pk), child3] self.assertEqual(list(results), expected_objs) expected_related_names = [related_name] self.assertEqual(set(results.subclasses), set(expected_related_names)) def test_filter_on_values_queryset(self): queryset = InheritanceManagerTestChild1.objects.values('id').filter(pk=self.child1.pk) self.assertEqual(list(queryset), [{'id': self.child1.pk}]) class InheritanceManagerUsingModelsTests(TestCase): def setUp(self): self.parent1 = InheritanceManagerTestParent.objects.create() self.child1 = InheritanceManagerTestChild1.objects.create() self.child2 = InheritanceManagerTestChild2.objects.create() self.grandchild1 = InheritanceManagerTestGrandChild1.objects.create() self.grandchild1_2 = InheritanceManagerTestGrandChild1_2.objects.create() def test_select_subclass_by_child_model(self): """ Confirm that passing a child model works the same as passing the select_related manually """ objs = InheritanceManagerTestParent.objects.select_subclasses( "inheritancemanagertestchild1").order_by('pk') objsmodels = InheritanceManagerTestParent.objects.select_subclasses( InheritanceManagerTestChild1).order_by('pk') self.assertEqual(objs.subclasses, objsmodels.subclasses) self.assertEqual(list(objs), list(objsmodels)) @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_select_subclass_by_grandchild_model(self): """ Confirm that passing a grandchild model works the same as passing the select_related manually """ objs = InheritanceManagerTestParent.objects.select_subclasses( "inheritancemanagertestchild1__inheritancemanagertestgrandchild1")\ .order_by('pk') objsmodels = InheritanceManagerTestParent.objects.select_subclasses( InheritanceManagerTestGrandChild1).order_by('pk') self.assertEqual(objs.subclasses, objsmodels.subclasses) self.assertEqual(list(objs), list(objsmodels)) @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_selecting_all_subclasses_specifically_grandchildren(self): """ A bare select_subclasses() should achieve the same results as doing select_subclasses and specifying all possible subclasses. This test checks grandchildren, so only works on 1.6>= """ objs = InheritanceManagerTestParent.objects.select_subclasses().order_by('pk') objsmodels = InheritanceManagerTestParent.objects.select_subclasses( InheritanceManagerTestChild1, InheritanceManagerTestChild2, InheritanceManagerTestChild3, InheritanceManagerTestGrandChild1, InheritanceManagerTestGrandChild1_2).order_by('pk') self.assertEqual(set(objs.subclasses), set(objsmodels.subclasses)) self.assertEqual(list(objs), list(objsmodels)) def test_selecting_all_subclasses_specifically_children(self): """ A bare select_subclasses() should achieve the same results as doing select_subclasses and specifying all possible subclasses. Note: This is sort of the same test as `test_selecting_all_subclasses_specifically_grandchildren` but it specifically switches what models are used because that happens behind the scenes in a bare select_subclasses(), so we need to emulate it. """ objs = InheritanceManagerTestParent.objects.select_subclasses().order_by('pk') if django.VERSION >= (1, 6, 0): models = (InheritanceManagerTestChild1, InheritanceManagerTestChild2, InheritanceManagerTestChild3, InheritanceManagerTestGrandChild1, InheritanceManagerTestGrandChild1_2) else: models = (InheritanceManagerTestChild1, InheritanceManagerTestChild2, InheritanceManagerTestChild3) objsmodels = InheritanceManagerTestParent.objects.select_subclasses( *models).order_by('pk') # order shouldn't matter, I don't think, as long as the resulting # queryset (when cast to a list) is the same. self.assertEqual(set(objs.subclasses), set(objsmodels.subclasses)) self.assertEqual(list(objs), list(objsmodels)) def test_select_subclass_just_self(self): """ Passing in the same model as the manager/queryset is bound against (ie: the root parent) should have no effect on the result set. """ objsmodels = InheritanceManagerTestParent.objects.select_subclasses( InheritanceManagerTestParent).order_by('pk') self.assertEqual([], objsmodels.subclasses) self.assertEqual(list(objsmodels), [ InheritanceManagerTestParent(pk=self.parent1.pk), InheritanceManagerTestParent(pk=self.child1.pk), InheritanceManagerTestParent(pk=self.child2.pk), InheritanceManagerTestParent(pk=self.grandchild1.pk), InheritanceManagerTestParent(pk=self.grandchild1_2.pk), ]) def test_select_subclass_invalid_related_model(self): """ Confirming that giving a stupid model doesn't work. """ regex = '^.+? is not a subclass of .+$' with self.assertRaisesRegexp(ValueError, regex): InheritanceManagerTestParent.objects.select_subclasses( TimeFrame).order_by('pk') @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_mixing_strings_and_classes_with_grandchildren(self): """ Given arguments consisting of both strings and model classes, ensure the right resolutions take place, accounting for the extra depth (grandchildren etc) 1.6> allows. """ objs = InheritanceManagerTestParent.objects.select_subclasses( "inheritancemanagertestchild2", InheritanceManagerTestGrandChild1_2).order_by('pk') expecting = ['inheritancemanagertestchild1__inheritancemanagertestgrandchild1_2', 'inheritancemanagertestchild2'] self.assertEqual(set(objs.subclasses), set(expecting)) expecting2 = [ InheritanceManagerTestParent(pk=self.parent1.pk), InheritanceManagerTestParent(pk=self.child1.pk), InheritanceManagerTestChild2(pk=self.child2.pk), InheritanceManagerTestParent(pk=self.grandchild1.pk), InheritanceManagerTestGrandChild1_2(pk=self.grandchild1_2.pk), ] self.assertEqual(list(objs), expecting2) def test_mixing_strings_and_classes_with_children(self): """ Given arguments consisting of both strings and model classes, ensure the right resolutions take place, walking down as far as children. """ objs = InheritanceManagerTestParent.objects.select_subclasses( "inheritancemanagertestchild2", InheritanceManagerTestChild1).order_by('pk') expecting = ['inheritancemanagertestchild1', 'inheritancemanagertestchild2'] self.assertEqual(set(objs.subclasses), set(expecting)) expecting2 = [ InheritanceManagerTestParent(pk=self.parent1.pk), InheritanceManagerTestChild1(pk=self.child1.pk), InheritanceManagerTestChild2(pk=self.child2.pk), InheritanceManagerTestChild1(pk=self.grandchild1.pk), InheritanceManagerTestChild1(pk=self.grandchild1_2.pk), ] self.assertEqual(list(objs), expecting2) def test_duplications(self): """ Check that even if the same thing is provided as a string and a model that the right results are retrieved. """ # mixing strings and models which evaluate to the same thing is fine. objs = InheritanceManagerTestParent.objects.select_subclasses( "inheritancemanagertestchild2", InheritanceManagerTestChild2).order_by('pk') self.assertEqual(list(objs), [ InheritanceManagerTestParent(pk=self.parent1.pk), InheritanceManagerTestParent(pk=self.child1.pk), InheritanceManagerTestChild2(pk=self.child2.pk), InheritanceManagerTestParent(pk=self.grandchild1.pk), InheritanceManagerTestParent(pk=self.grandchild1_2.pk), ]) @skipUnless(django.VERSION >= (1, 6, 0), "test only applies to Django 1.6+") def test_child_doesnt_accidentally_get_parent(self): """ Given a Child model which also has an InheritanceManager, none of the returned objects should be Parent objects. """ objs = InheritanceManagerTestChild1.objects.select_subclasses( InheritanceManagerTestGrandChild1).order_by('pk') self.assertEqual([ InheritanceManagerTestChild1(pk=self.child1.pk), InheritanceManagerTestGrandChild1(pk=self.grandchild1.pk), InheritanceManagerTestChild1(pk=self.grandchild1_2.pk), ], list(objs)) def test_manually_specifying_parent_fk_only_specific_child(self): """ given a Model which inherits from another Model, but also declares the OneToOne link manually using `related_name` and `parent_link`, ensure that the relation names and subclasses are obtained correctly. """ child3 = InheritanceManagerTestChild3.objects.create() results = InheritanceManagerTestParent.objects.all().select_subclasses( InheritanceManagerTestChild3) expected_objs = [InheritanceManagerTestParent(pk=self.parent1.pk), InheritanceManagerTestParent(pk=self.child1.pk), InheritanceManagerTestParent(pk=self.child2.pk), InheritanceManagerTestParent(pk=self.grandchild1.pk), InheritanceManagerTestParent(pk=self.grandchild1_2.pk), child3] self.assertEqual(list(results), expected_objs) expected_related_names = ['manual_onetoone'] self.assertEqual(set(results.subclasses), set(expected_related_names)) def test_extras_descend(self): """ Ensure that extra(select=) values are copied onto sub-classes. """ results = InheritanceManagerTestParent.objects.select_subclasses().extra( select={'foo': 'id + 1'} ) self.assertTrue(all(result.foo == (result.id + 1) for result in results)) class InheritanceManagerRelatedTests(InheritanceManagerTests): def setUp(self): self.related = InheritanceManagerTestRelated.objects.create() self.child1 = InheritanceManagerTestChild1.objects.create( related=self.related) self.child2 = InheritanceManagerTestChild2.objects.create( related=self.related) self.grandchild1 = InheritanceManagerTestGrandChild1.objects.create(related=self.related) self.grandchild1_2 = InheritanceManagerTestGrandChild1_2.objects.create(related=self.related) def get_manager(self): return self.related.imtests def test_get_method_with_select_subclasses(self): self.assertEqual( InheritanceManagerTestParent.objects.select_subclasses().get( id=self.child1.id), self.child1) def test_annotate_with_select_subclasses(self): qs = InheritanceManagerTestParent.objects.select_subclasses().annotate( models.Count('id')) self.assertEqual(qs.get(id=self.child1.id).id__count, 1) def test_annotate_with_named_arguments_with_select_subclasses(self): qs = InheritanceManagerTestParent.objects.select_subclasses().annotate( test_count=models.Count('id')) self.assertEqual(qs.get(id=self.child1.id).test_count, 1) def test_annotate_before_select_subclasses(self): qs = InheritanceManagerTestParent.objects.annotate( models.Count('id')).select_subclasses() self.assertEqual(qs.get(id=self.child1.id).id__count, 1) def test_annotate_with_named_arguments_before_select_subclasses(self): qs = InheritanceManagerTestParent.objects.annotate( test_count=models.Count('id')).select_subclasses() self.assertEqual(qs.get(id=self.child1.id).test_count, 1) class TimeStampedModelTests(TestCase): def test_created(self): t1 = TimeStamp.objects.create() t2 = TimeStamp.objects.create() self.assertTrue(t2.created > t1.created) def test_modified(self): t1 = TimeStamp.objects.create() t2 = TimeStamp.objects.create() t1.save() self.assertTrue(t2.modified < t1.modified) class TimeFramedModelTests(TestCase): def setUp(self): self.now = datetime.now() def test_not_yet_begun(self): TimeFrame.objects.create(start=self.now+timedelta(days=2)) self.assertEqual(TimeFrame.timeframed.count(), 0) def test_finished(self): TimeFrame.objects.create(end=self.now-timedelta(days=1)) self.assertEqual(TimeFrame.timeframed.count(), 0) def test_no_end(self): TimeFrame.objects.create(start=self.now-timedelta(days=10)) self.assertEqual(TimeFrame.timeframed.count(), 1) def test_no_start(self): TimeFrame.objects.create(end=self.now+timedelta(days=2)) self.assertEqual(TimeFrame.timeframed.count(), 1) def test_within_range(self): TimeFrame.objects.create(start=self.now-timedelta(days=1), end=self.now+timedelta(days=1)) self.assertEqual(TimeFrame.timeframed.count(), 1) class TimeFrameManagerAddedTests(TestCase): def test_manager_available(self): self.assertTrue(isinstance(TimeFrameManagerAdded.timeframed, QueryManager)) def test_conflict_error(self): with self.assertRaises(ImproperlyConfigured): class ErrorModel(TimeFramedModel): timeframed = models.BooleanField() class StatusModelTests(TestCase): def setUp(self): self.model = Status self.on_hold = Status.STATUS.on_hold self.active = Status.STATUS.active def test_created(self): c1 = self.model.objects.create() c2 = self.model.objects.create() self.assertTrue(c2.status_changed > c1.status_changed) self.assertEqual(self.model.active.count(), 2) self.assertEqual(self.model.deleted.count(), 0) def test_modification(self): t1 = self.model.objects.create() date_created = t1.status_changed t1.status = self.on_hold t1.save() self.assertEqual(self.model.active.count(), 0) self.assertEqual(self.model.on_hold.count(), 1) self.assertTrue(t1.status_changed > date_created) date_changed = t1.status_changed t1.save() self.assertEqual(t1.status_changed, date_changed) date_active_again = t1.status_changed t1.status = self.active t1.save() self.assertTrue(t1.status_changed > date_active_again) class StatusModelPlainTupleTests(StatusModelTests): def setUp(self): self.model = StatusPlainTuple self.on_hold = StatusPlainTuple.STATUS[2][0] self.active = StatusPlainTuple.STATUS[0][0] class StatusManagerAddedTests(TestCase): def test_manager_available(self): self.assertTrue(isinstance(StatusManagerAdded.active, QueryManager)) def test_conflict_error(self): with self.assertRaises(ImproperlyConfigured): class ErrorModel(StatusModel): STATUS = ( ('active', 'Is Active'), ('deleted', 'Is Deleted'), ) active = models.BooleanField() class QueryManagerTests(TestCase): def setUp(self): data = ((True, True, 0), (True, False, 4), (False, False, 2), (False, True, 3), (True, True, 1), (True, False, 5)) for p, c, o in data: Post.objects.create(published=p, confirmed=c, order=o) def test_passing_kwargs(self): qs = Post.public.all() self.assertEqual([p.order for p in qs], [0, 1, 4, 5]) def test_passing_Q(self): qs = Post.public_confirmed.all() self.assertEqual([p.order for p in qs], [0, 1]) def test_ordering(self): qs = Post.public_reversed.all() self.assertEqual([p.order for p in qs], [5, 4, 1, 0]) try: from south.modelsinspector import introspector except ImportError: introspector = None @skipUnless(introspector, 'South is not installed') class SouthFreezingTests(TestCase): def test_introspector_adds_no_excerpt_field(self): mf = Article._meta.get_field('body') args, kwargs = introspector(mf) self.assertEqual(kwargs['no_excerpt_field'], 'True') def test_no_excerpt_field_works(self): from .models import NoRendered with self.assertRaises(FieldDoesNotExist): NoRendered._meta.get_field('_body_excerpt') def test_status_field_no_check_for_status(self): sf = StatusFieldDefaultFilled._meta.get_field('status') args, kwargs = introspector(sf) self.assertEqual(kwargs['no_check_for_status'], 'True') class FieldTrackerTestCase(TestCase): tracker = None def assertHasChanged(self, **kwargs): tracker = kwargs.pop('tracker', self.tracker) for field, value in kwargs.items(): if value is None: with self.assertRaises(FieldError): tracker.has_changed(field) else: self.assertEqual(tracker.has_changed(field), value) def assertPrevious(self, **kwargs): tracker = kwargs.pop('tracker', self.tracker) for field, value in kwargs.items(): self.assertEqual(tracker.previous(field), value) def assertChanged(self, **kwargs): tracker = kwargs.pop('tracker', self.tracker) self.assertEqual(tracker.changed(), kwargs) def assertCurrent(self, **kwargs): tracker = kwargs.pop('tracker', self.tracker) self.assertEqual(tracker.current(), kwargs) def update_instance(self, **kwargs): for field, value in kwargs.items(): setattr(self.instance, field, value) self.instance.save() class FieldTrackerCommonTests(object): def test_pre_save_previous(self): self.assertPrevious(name=None, number=None) self.instance.name = 'new age' self.instance.number = 8 self.assertPrevious(name=None, number=None) class FieldTrackerTests(FieldTrackerTestCase, FieldTrackerCommonTests): tracked_class = Tracked def setUp(self): self.instance = self.tracked_class() self.tracker = self.instance.tracker def test_descriptor(self): self.assertTrue(isinstance(self.tracked_class.tracker, FieldTracker)) def test_pre_save_changed(self): self.assertChanged(name=None) self.instance.name = 'new age' self.assertChanged(name=None) self.instance.number = 8 self.assertChanged(name=None, number=None) self.instance.name = '' self.assertChanged(name=None, number=None) self.instance.mutable = [1,2,3] self.assertChanged(name=None, number=None, mutable=None) def test_pre_save_has_changed(self): self.assertHasChanged(name=True, number=False, mutable=False) self.instance.name = 'new age' self.assertHasChanged(name=True, number=False, mutable=False) self.instance.number = 7 self.assertHasChanged(name=True, number=True) self.instance.mutable = [1,2,3] self.assertHasChanged(name=True, number=True, mutable=True) def test_first_save(self): self.assertHasChanged(name=True, number=False, mutable=False) self.assertPrevious(name=None, number=None, mutable=None) self.assertCurrent(name='', number=None, id=None, mutable=None) self.assertChanged(name=None) self.instance.name = 'retro' self.instance.number = 4 self.instance.mutable = [1,2,3] self.assertHasChanged(name=True, number=True, mutable=True) self.assertPrevious(name=None, number=None, mutable=None) self.assertCurrent(name='retro', number=4, id=None, mutable=[1,2,3]) self.assertChanged(name=None, number=None, mutable=None) # Django 1.4 doesn't have update_fields if django.VERSION >= (1, 5, 0): self.instance.save(update_fields=[]) self.assertHasChanged(name=True, number=True, mutable=True) self.assertPrevious(name=None, number=None, mutable=None) self.assertCurrent(name='retro', number=4, id=None, mutable=[1,2,3]) self.assertChanged(name=None, number=None, mutable=None) with self.assertRaises(ValueError): self.instance.save(update_fields=['number']) def test_post_save_has_changed(self): self.update_instance(name='retro', number=4, mutable=[1,2,3]) self.assertHasChanged(name=False, number=False, mutable=False) self.instance.name = 'new age' self.assertHasChanged(name=True, number=False) self.instance.number = 8 self.assertHasChanged(name=True, number=True) self.instance.mutable[1] = 4 self.assertHasChanged(name=True, number=True, mutable=True) self.instance.name = 'retro' self.assertHasChanged(name=False, number=True, mutable=True) def test_post_save_previous(self): self.update_instance(name='retro', number=4, mutable=[1,2,3]) self.instance.name = 'new age' self.assertPrevious(name='retro', number=4, mutable=[1,2,3]) self.instance.mutable[1] = 4 self.assertPrevious(name='retro', number=4, mutable=[1,2,3]) def test_post_save_changed(self): self.update_instance(name='retro', number=4, mutable=[1,2,3]) self.assertChanged() self.instance.name = 'new age' self.assertChanged(name='retro') self.instance.number = 8 self.assertChanged(name='retro', number=4) self.instance.name = 'retro' self.assertChanged(number=4) self.instance.mutable[1] = 4 self.assertChanged(number=4, mutable=[1,2,3]) self.instance.mutable = [1,2,3] self.assertChanged(number=4) def test_current(self): self.assertCurrent(id=None, name='', number=None, mutable=None) self.instance.name = 'new age' self.assertCurrent(id=None, name='new age', number=None, mutable=None) self.instance.number = 8 self.assertCurrent(id=None, name='new age', number=8, mutable=None) self.instance.mutable = [1,2,3] self.assertCurrent(id=None, name='new age', number=8, mutable=[1,2,3]) self.instance.mutable[1] = 4 self.assertCurrent(id=None, name='new age', number=8, mutable=[1,4,3]) self.instance.save() self.assertCurrent(id=self.instance.id, name='new age', number=8, mutable=[1,4,3]) @skipUnless( django.VERSION >= (1, 5, 0), "Django 1.4 doesn't have update_fields") def test_update_fields(self): self.update_instance(name='retro', number=4, mutable=[1,2,3]) self.assertChanged() self.instance.name = 'new age' self.instance.number = 8 self.instance.mutable = [4,5,6] self.assertChanged(name='retro', number=4, mutable=[1,2,3]) self.instance.save(update_fields=[]) self.assertChanged(name='retro', number=4, mutable=[1,2,3]) self.instance.save(update_fields=['name']) in_db = self.tracked_class.objects.get(id=self.instance.id) self.assertEqual(in_db.name, self.instance.name) self.assertNotEqual(in_db.number, self.instance.number) self.assertChanged(number=4, mutable=[1,2,3]) self.instance.save(update_fields=['number']) self.assertChanged(mutable=[1,2,3]) self.instance.save(update_fields=['mutable']) self.assertChanged() in_db = self.tracked_class.objects.get(id=self.instance.id) self.assertEqual(in_db.name, self.instance.name) self.assertEqual(in_db.number, self.instance.number) self.assertEqual(in_db.mutable, self.instance.mutable) def test_with_deferred(self): self.instance.name = 'new age' self.instance.number = 1 self.instance.save() item = list(self.tracked_class.objects.only('name').all())[0] self.assertTrue(item._deferred_fields) self.assertEqual(item.tracker.previous('number'), None) self.assertTrue('number' in item._deferred_fields) self.assertEqual(item.number, 1) self.assertTrue('number' not in item._deferred_fields) self.assertEqual(item.tracker.previous('number'), 1) self.assertFalse(item.tracker.has_changed('number')) item.number = 2 self.assertTrue(item.tracker.has_changed('number')) class FieldTrackerMultipleInstancesTests(TestCase): def test_with_deferred_fields_access_multiple(self): Tracked.objects.create(pk=1, name='foo', number=1) Tracked.objects.create(pk=2, name='bar', number=2) queryset = Tracked.objects.only('id') for instance in queryset: instance.name class FieldTrackedModelCustomTests(FieldTrackerTestCase, FieldTrackerCommonTests): tracked_class = TrackedNotDefault def setUp(self): self.instance = self.tracked_class() self.tracker = self.instance.name_tracker def test_pre_save_changed(self): self.assertChanged(name=None) self.instance.name = 'new age' self.assertChanged(name=None) self.instance.number = 8 self.assertChanged(name=None) self.instance.name = '' self.assertChanged(name=None) def test_first_save(self): self.assertHasChanged(name=True, number=None) self.assertPrevious(name=None, number=None) self.assertCurrent(name='') self.assertChanged(name=None) self.instance.name = 'retro' self.instance.number = 4 self.assertHasChanged(name=True, number=None) self.assertPrevious(name=None, number=None) self.assertCurrent(name='retro') self.assertChanged(name=None) def test_pre_save_has_changed(self): self.assertHasChanged(name=True, number=None) self.instance.name = 'new age' self.assertHasChanged(name=True, number=None) self.instance.number = 7 self.assertHasChanged(name=True, number=None) def test_post_save_has_changed(self): self.update_instance(name='retro', number=4) self.assertHasChanged(name=False, number=None) self.instance.name = 'new age' self.assertHasChanged(name=True, number=None) self.instance.number = 8 self.assertHasChanged(name=True, number=None) self.instance.name = 'retro' self.assertHasChanged(name=False, number=None) def test_post_save_previous(self): self.update_instance(name='retro', number=4) self.instance.name = 'new age' self.assertPrevious(name='retro', number=None) def test_post_save_changed(self): self.update_instance(name='retro', number=4) self.assertChanged() self.instance.name = 'new age' self.assertChanged(name='retro') self.instance.number = 8 self.assertChanged(name='retro') self.instance.name = 'retro' self.assertChanged() def test_current(self): self.assertCurrent(name='') self.instance.name = 'new age' self.assertCurrent(name='new age') self.instance.number = 8 self.assertCurrent(name='new age') self.instance.save() self.assertCurrent(name='new age') @skipUnless( django.VERSION >= (1, 5, 0), "Django 1.4 doesn't have update_fields") def test_update_fields(self): self.update_instance(name='retro', number=4) self.assertChanged() self.instance.name = 'new age' self.instance.number = 8 self.instance.save(update_fields=['name', 'number']) self.assertChanged() class FieldTrackedModelAttributeTests(FieldTrackerTestCase): tracked_class = TrackedNonFieldAttr def setUp(self): self.instance = self.tracked_class() self.tracker = self.instance.tracker def test_previous(self): self.assertPrevious(rounded=None) self.instance.number = 7.5 self.assertPrevious(rounded=None) self.instance.save() self.assertPrevious(rounded=8) self.instance.number = 7.2 self.assertPrevious(rounded=8) self.instance.save() self.assertPrevious(rounded=7) def test_has_changed(self): self.assertHasChanged(rounded=False) self.instance.number = 7.5 self.assertHasChanged(rounded=True) self.instance.save() self.assertHasChanged(rounded=False) self.instance.number = 7.2 self.assertHasChanged(rounded=True) self.instance.number = 7.8 self.assertHasChanged(rounded=False) def test_changed(self): self.assertChanged() self.instance.number = 7.5 self.assertPrevious(rounded=None) self.instance.save() self.assertPrevious() self.instance.number = 7.8 self.assertPrevious() self.instance.number = 7.2 self.assertPrevious(rounded=8) self.instance.save() self.assertPrevious() def test_current(self): self.assertCurrent(rounded=None) self.instance.number = 7.5 self.assertCurrent(rounded=8) self.instance.save() self.assertCurrent(rounded=8) class FieldTrackedModelMultiTests(FieldTrackerTestCase, FieldTrackerCommonTests): tracked_class = TrackedMultiple def setUp(self): self.instance = self.tracked_class() self.trackers = [self.instance.name_tracker, self.instance.number_tracker] def test_pre_save_changed(self): self.tracker = self.instance.name_tracker self.assertChanged(name=None) self.instance.name = 'new age' self.assertChanged(name=None) self.instance.number = 8 self.assertChanged(name=None) self.instance.name = '' self.assertChanged(name=None) self.tracker = self.instance.number_tracker self.assertChanged(number=None) self.instance.name = 'new age' self.assertChanged(number=None) self.instance.number = 8 self.assertChanged(number=None) def test_pre_save_has_changed(self): self.tracker = self.instance.name_tracker self.assertHasChanged(name=True, number=None) self.instance.name = 'new age' self.assertHasChanged(name=True, number=None) self.tracker = self.instance.number_tracker self.assertHasChanged(name=None, number=False) self.instance.name = 'new age' self.assertHasChanged(name=None, number=False) def test_pre_save_previous(self): for tracker in self.trackers: self.tracker = tracker super(FieldTrackedModelMultiTests, self).test_pre_save_previous() def test_post_save_has_changed(self): self.update_instance(name='retro', number=4) self.assertHasChanged(tracker=self.trackers[0], name=False, number=None) self.assertHasChanged(tracker=self.trackers[1], name=None, number=False) self.instance.name = 'new age' self.assertHasChanged(tracker=self.trackers[0], name=True, number=None) self.assertHasChanged(tracker=self.trackers[1], name=None, number=False) self.instance.number = 8 self.assertHasChanged(tracker=self.trackers[0], name=True, number=None) self.assertHasChanged(tracker=self.trackers[1], name=None, number=True) self.instance.name = 'retro' self.instance.number = 4 self.assertHasChanged(tracker=self.trackers[0], name=False, number=None) self.assertHasChanged(tracker=self.trackers[1], name=None, number=False) def test_post_save_previous(self): self.update_instance(name='retro', number=4) self.instance.name = 'new age' self.instance.number = 8 self.assertPrevious(tracker=self.trackers[0], name='retro', number=None) self.assertPrevious(tracker=self.trackers[1], name=None, number=4) def test_post_save_changed(self): self.update_instance(name='retro', number=4) self.assertChanged(tracker=self.trackers[0]) self.assertChanged(tracker=self.trackers[1]) self.instance.name = 'new age' self.assertChanged(tracker=self.trackers[0], name='retro') self.assertChanged(tracker=self.trackers[1]) self.instance.number = 8 self.assertChanged(tracker=self.trackers[0], name='retro') self.assertChanged(tracker=self.trackers[1], number=4) self.instance.name = 'retro' self.instance.number = 4 self.assertChanged(tracker=self.trackers[0]) self.assertChanged(tracker=self.trackers[1]) def test_current(self): self.assertCurrent(tracker=self.trackers[0], name='') self.assertCurrent(tracker=self.trackers[1], number=None) self.instance.name = 'new age' self.assertCurrent(tracker=self.trackers[0], name='new age') self.assertCurrent(tracker=self.trackers[1], number=None) self.instance.number = 8 self.assertCurrent(tracker=self.trackers[0], name='new age') self.assertCurrent(tracker=self.trackers[1], number=8) self.instance.save() self.assertCurrent(tracker=self.trackers[0], name='new age') self.assertCurrent(tracker=self.trackers[1], number=8) class FieldTrackerForeignKeyTests(FieldTrackerTestCase): fk_class = Tracked tracked_class = TrackedFK def setUp(self): self.old_fk = self.fk_class.objects.create(number=8) self.instance = self.tracked_class.objects.create(fk=self.old_fk) def test_default(self): self.tracker = self.instance.tracker self.assertChanged() self.assertPrevious() self.assertCurrent(id=self.instance.id, fk_id=self.old_fk.id) self.instance.fk = self.fk_class.objects.create(number=8) self.assertChanged(fk_id=self.old_fk.id) self.assertPrevious(fk_id=self.old_fk.id) self.assertCurrent(id=self.instance.id, fk_id=self.instance.fk_id) def test_custom(self): self.tracker = self.instance.custom_tracker self.assertChanged() self.assertPrevious() self.assertCurrent(fk_id=self.old_fk.id) self.instance.fk = self.fk_class.objects.create(number=8) self.assertChanged(fk_id=self.old_fk.id) self.assertPrevious(fk_id=self.old_fk.id) self.assertCurrent(fk_id=self.instance.fk_id) def test_custom_without_id(self): with self.assertNumQueries(1): self.tracked_class.objects.get() self.tracker = self.instance.custom_tracker_without_id self.assertChanged() self.assertPrevious() self.assertCurrent(fk=self.old_fk.id) self.instance.fk = self.fk_class.objects.create(number=8) self.assertChanged(fk=self.old_fk.id) self.assertPrevious(fk=self.old_fk.id) self.assertCurrent(fk=self.instance.fk_id) class InheritedFieldTrackerTests(FieldTrackerTests): tracked_class = InheritedTracked def test_child_fields_not_tracked(self): self.name2 = 'test' self.assertEqual(self.tracker.previous('name2'), None) self.assertRaises(FieldError, self.tracker.has_changed, 'name2') class ModelTrackerTests(FieldTrackerTests): tracked_class = ModelTracked def test_pre_save_changed(self): self.assertChanged() self.instance.name = 'new age' self.assertChanged() self.instance.number = 8 self.assertChanged() self.instance.name = '' self.assertChanged() self.instance.mutable = [1,2,3] self.assertChanged() def test_first_save(self): self.assertHasChanged(name=True, number=True, mutable=True) self.assertPrevious(name=None, number=None, mutable=None) self.assertCurrent(name='', number=None, id=None, mutable=None) self.assertChanged() self.instance.name = 'retro' self.instance.number = 4 self.instance.mutable = [1,2,3] self.assertHasChanged(name=True, number=True, mutable=True) self.assertPrevious(name=None, number=None, mutable=None) self.assertCurrent(name='retro', number=4, id=None, mutable=[1,2,3]) self.assertChanged() # Django 1.4 doesn't have update_fields if django.VERSION >= (1, 5, 0): self.instance.save(update_fields=[]) self.assertHasChanged(name=True, number=True, mutable=True) self.assertPrevious(name=None, number=None, mutable=None) self.assertCurrent(name='retro', number=4, id=None, mutable=[1,2,3]) self.assertChanged() with self.assertRaises(ValueError): self.instance.save(update_fields=['number']) def test_pre_save_has_changed(self): self.assertHasChanged(name=True, number=True) self.instance.name = 'new age' self.assertHasChanged(name=True, number=True) self.instance.number = 7 self.assertHasChanged(name=True, number=True) class ModelTrackedModelCustomTests(FieldTrackedModelCustomTests): tracked_class = ModelTrackedNotDefault def test_first_save(self): self.assertHasChanged(name=True, number=True) self.assertPrevious(name=None, number=None) self.assertCurrent(name='') self.assertChanged() self.instance.name = 'retro' self.instance.number = 4 self.assertHasChanged(name=True, number=True) self.assertPrevious(name=None, number=None) self.assertCurrent(name='retro') self.assertChanged() def test_pre_save_has_changed(self): self.assertHasChanged(name=True, number=True) self.instance.name = 'new age' self.assertHasChanged(name=True, number=True) self.instance.number = 7 self.assertHasChanged(name=True, number=True) def test_pre_save_changed(self): self.assertChanged() self.instance.name = 'new age' self.assertChanged() self.instance.number = 8 self.assertChanged() self.instance.name = '' self.assertChanged() class ModelTrackedModelMultiTests(FieldTrackedModelMultiTests): tracked_class = ModelTrackedMultiple def test_pre_save_has_changed(self): self.tracker = self.instance.name_tracker self.assertHasChanged(name=True, number=True) self.instance.name = 'new age' self.assertHasChanged(name=True, number=True) self.tracker = self.instance.number_tracker self.assertHasChanged(name=True, number=True) self.instance.name = 'new age' self.assertHasChanged(name=True, number=True) def test_pre_save_changed(self): self.tracker = self.instance.name_tracker self.assertChanged() self.instance.name = 'new age' self.assertChanged() self.instance.number = 8 self.assertChanged() self.instance.name = '' self.assertChanged() self.tracker = self.instance.number_tracker self.assertChanged() self.instance.name = 'new age' self.assertChanged() self.instance.number = 8 self.assertChanged() class ModelTrackerForeignKeyTests(FieldTrackerForeignKeyTests): fk_class = ModelTracked tracked_class = ModelTrackedFK def test_custom_without_id(self): with self.assertNumQueries(2): self.tracked_class.objects.get() self.tracker = self.instance.custom_tracker_without_id self.assertChanged() self.assertPrevious() self.assertCurrent(fk=self.old_fk) self.instance.fk = self.fk_class.objects.create(number=8) self.assertNotEqual(self.instance.fk, self.old_fk) self.assertChanged(fk=self.old_fk) self.assertPrevious(fk=self.old_fk) self.assertCurrent(fk=self.instance.fk) class InheritedModelTrackerTests(ModelTrackerTests): tracked_class = InheritedModelTracked def test_child_fields_not_tracked(self): self.name2 = 'test' self.assertEqual(self.tracker.previous('name2'), None) self.assertTrue(self.tracker.has_changed('name2')) django-model-utils-2.4/model_utils/tracker.py000066400000000000000000000146621262762665700214360ustar00rootroot00000000000000from __future__ import unicode_literals from copy import deepcopy from django.db import models from django.core.exceptions import FieldError from django.db.models.query_utils import DeferredAttribute class FieldInstanceTracker(object): def __init__(self, instance, fields, field_map): self.instance = instance self.fields = fields self.field_map = field_map self.init_deferred_fields() def get_field_value(self, field): return getattr(self.instance, self.field_map[field]) def set_saved_fields(self, fields=None): if not self.instance.pk: self.saved_data = {} elif fields is None: self.saved_data = self.current() else: self.saved_data.update(**self.current(fields=fields)) # preventing mutable fields side effects for field, field_value in self.saved_data.items(): self.saved_data[field] = deepcopy(field_value) def current(self, fields=None): """Returns dict of current values for all tracked fields""" if fields is None: if self.instance._deferred_fields: fields = [ field for field in self.fields if field not in self.instance._deferred_fields ] else: fields = self.fields return dict((f, self.get_field_value(f)) for f in fields) def has_changed(self, field): """Returns ``True`` if field has changed from currently saved value""" if field in self.fields: return self.previous(field) != self.get_field_value(field) else: raise FieldError('field "%s" not tracked' % field) def previous(self, field): """Returns currently saved value of given field""" return self.saved_data.get(field) def changed(self): """Returns dict of fields that changed since save (with old values)""" return dict( (field, self.previous(field)) for field in self.fields if self.has_changed(field) ) def init_deferred_fields(self): self.instance._deferred_fields = [] if not self.instance._deferred: return class DeferredAttributeTracker(DeferredAttribute): def __get__(field, instance, owner): data = instance.__dict__ if data.get(field.field_name, field) is field: instance._deferred_fields.remove(field.field_name) value = super(DeferredAttributeTracker, field).__get__( instance, owner) self.saved_data[field.field_name] = deepcopy(value) return data[field.field_name] for field in self.fields: field_obj = self.instance.__class__.__dict__.get(field) if isinstance(field_obj, DeferredAttribute): self.instance._deferred_fields.append(field) # Django 1.4 model = None if hasattr(field_obj, 'model_ref'): model = field_obj.model_ref() field_tracker = DeferredAttributeTracker( field_obj.field_name, model) setattr(self.instance.__class__, field, field_tracker) class FieldTracker(object): tracker_class = FieldInstanceTracker def __init__(self, fields=None): self.fields = fields def get_field_map(self, cls): """Returns dict mapping fields names to model attribute names""" field_map = dict((field, field) for field in self.fields) all_fields = dict((f.name, f.attname) for f in cls._meta.local_fields) field_map.update(**dict((k, v) for (k, v) in all_fields.items() if k in field_map)) return field_map def contribute_to_class(self, cls, name): self.name = name self.attname = '_%s' % name models.signals.class_prepared.connect(self.finalize_class, sender=cls) def finalize_class(self, sender, **kwargs): if self.fields is None: self.fields = (field.attname for field in sender._meta.local_fields) self.fields = set(self.fields) self.field_map = self.get_field_map(sender) models.signals.post_init.connect(self.initialize_tracker) self.model_class = sender setattr(sender, self.name, self) def initialize_tracker(self, sender, instance, **kwargs): if not isinstance(instance, self.model_class): return # Only init instances of given model (including children) tracker = self.tracker_class(instance, self.fields, self.field_map) setattr(instance, self.attname, tracker) tracker.set_saved_fields() self.patch_save(instance) def patch_save(self, instance): original_save = instance.save def save(**kwargs): ret = original_save(**kwargs) update_fields = kwargs.get('update_fields') if not update_fields and update_fields is not None: # () or [] fields = update_fields elif update_fields is None: fields = None else: fields = ( field for field in update_fields if field in self.fields ) getattr(instance, self.attname).set_saved_fields( fields=fields ) return ret instance.save = save def __get__(self, instance, owner): if instance is None: return self else: return getattr(instance, self.attname) class ModelInstanceTracker(FieldInstanceTracker): def has_changed(self, field): """Returns ``True`` if field has changed from currently saved value""" if not self.instance.pk: return True elif field in self.saved_data: return self.previous(field) != self.get_field_value(field) else: raise FieldError('field "%s" not tracked' % field) def changed(self): """Returns dict of fields that changed since save (with old values)""" if not self.instance.pk: return {} saved = self.saved_data.items() current = self.current() return dict((k, v) for k, v in saved if v != current[k]) class ModelTracker(FieldTracker): tracker_class = ModelInstanceTracker def get_field_map(self, cls): return dict((field, field) for field in self.fields) django-model-utils-2.4/runtests.py000077500000000000000000000021621262762665700173450ustar00rootroot00000000000000#!/usr/bin/env python import os, sys from django.conf import settings import django DEFAULT_SETTINGS = dict( INSTALLED_APPS=( 'model_utils', 'model_utils.tests', ), DATABASES={ "default": { "ENGINE": "django.db.backends.sqlite3" } }, SILENCED_SYSTEM_CHECKS=["1_7.W001"], ) def runtests(): if not settings.configured: settings.configure(**DEFAULT_SETTINGS) # Compatibility with Django 1.7's stricter initialization if hasattr(django, 'setup'): django.setup() parent = os.path.dirname(os.path.abspath(__file__)) sys.path.insert(0, parent) try: from django.test.runner import DiscoverRunner runner_class = DiscoverRunner test_args = ['model_utils.tests'] except ImportError: from django.test.simple import DjangoTestSuiteRunner runner_class = DjangoTestSuiteRunner test_args = ['tests'] failures = runner_class( verbosity=1, interactive=True, failfast=False).run_tests(test_args) sys.exit(failures) if __name__ == '__main__': runtests() django-model-utils-2.4/setup.cfg000066400000000000000000000001371262762665700167220ustar00rootroot00000000000000[build_sphinx] source-dir = docs/ build-dir = docs/_build all_files = 1 [wheel] universal = 1 django-model-utils-2.4/setup.py000066400000000000000000000031411262762665700166110ustar00rootroot00000000000000from os.path import join from setuptools import setup, find_packages long_description = (open('README.rst').read() + open('CHANGES.rst').read() + open('TODO.rst').read()) def get_version(): with open(join('model_utils', '__init__.py')) as f: for line in f: if line.startswith('__version__ ='): return line.split('=')[1].strip().strip('"\'') setup( name='django-model-utils', version=get_version(), description='Django model mixins and utilities', long_description=long_description, author='Carl Meyer', author_email='carl@oddbird.net', url='https://github.com/carljm/django-model-utils/', packages=find_packages(), install_requires=['Django>=1.4.2'], classifiers=[ 'Development Status :: 5 - Production/Stable', 'Environment :: Web Environment', 'Intended Audience :: Developers', 'License :: OSI Approved :: BSD License', 'Operating System :: OS Independent', 'Programming Language :: Python', 'Programming Language :: Python :: 2.6', 'Programming Language :: Python :: 2.7', 'Programming Language :: Python :: 3', 'Programming Language :: Python :: 3.2', 'Programming Language :: Python :: 3.3', 'Programming Language :: Python :: 3.4', 'Framework :: Django', ], zip_safe=False, tests_require=["Django>=1.4.2"], test_suite='runtests.runtests', package_data={ 'model_utils': [ 'locale/*/LC_MESSAGES/django.po','locale/*/LC_MESSAGES/django.mo' ], }, ) django-model-utils-2.4/tox.ini000066400000000000000000000012221262762665700164100ustar00rootroot00000000000000[tox] envlist = py26-django{14,15,16}, py27-django14, py27-django15_nosouth, py{27,32,33}-django{15,16,17,18,_trunk}, py27-django19, py34-django{17,18,19,_trunk}, [testenv] basepython = py26: python2.6 py27: python2.7 py32: python3.2 py33: python3.3 py34: python3.4 deps = coverage == 3.6 django14: Django==1.4.18 django15{,_nosouth}: Django==1.5.12 django16: Django==1.6.10 django17: Django==1.7.7 django18: Django==1.8.5 django19: Django==1.9 django_trunk: https://github.com/django/django/tarball/master django{14,15,16}: South==1.0.2 commands = coverage run -a setup.py test django-model-utils-2.4/translations.py000077500000000000000000000017731262762665700202060ustar00rootroot00000000000000#!/usr/bin/env python import os import sys from django.conf import settings import django DEFAULT_SETTINGS = dict( INSTALLED_APPS=( 'model_utils', 'model_utils.tests', ), DATABASES={ "default": { "ENGINE": "django.db.backends.sqlite3" } }, SILENCED_SYSTEM_CHECKS=["1_7.W001"], ) def run(command): if not settings.configured: settings.configure(**DEFAULT_SETTINGS) # Compatibility with Django 1.7's stricter initialization if hasattr(django, 'setup'): django.setup() parent = os.path.dirname(os.path.abspath(__file__)) appdir = os.path.join(parent, 'model_utils') os.chdir(appdir) from django.core.management import call_command call_command('%smessages' % command) if __name__ == '__main__': if (len(sys.argv)) < 2 or (sys.argv[1] not in {'make', 'compile'}): print("Run `translations.py make` or `translations.py compile`.") sys.exit(1) run(sys.argv[1]) django-model-utils-2.4/update_travis_envs.sh000077500000000000000000000005571262762665700213530ustar00rootroot00000000000000#!/bin/sh # Updates .travis.yml envs based on tox.ini configuration. # Removing old environment list cp ./.travis.yml ./.travis.yml.bak cat ./.travis.yml.bak | grep -v "^ - TOXENV=" > ./.travis.yml # Inserting envs based on list generated by tox for env_name in $(tox --listenvs | sort -r); do sed -i "/^env:$/a\ \ \ - TOXENV=${env_name}" ./.travis.yml; done