remove documentation (now in a separate project)

This commit is contained in:
Emmanuel Garette 2019-03-24 20:26:51 +01:00
parent 4709ac5f01
commit ac42fd509c
30 changed files with 0 additions and 2762 deletions

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# Makefile for Sphinx documentation
#
# You can set these variables from the command line.
SPHINXOPTS =
SPHINXBUILD = sphinx-build
PAPER =
BUILDDIR = _build
# 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 <target>' where <target> 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 " 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 " 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. The HTML pages are in $(BUILDDIR)/html."
dirhtml:
$(SPHINXBUILD) -b dirhtml $(ALLSPHINXOPTS) $(BUILDDIR)/dirhtml
@echo
@echo "Build finished. The HTML pages are in $(BUILDDIR)/dirhtml."
singlehtml:
$(SPHINXBUILD) -b singlehtml $(ALLSPHINXOPTS) $(BUILDDIR)/singlehtml
@echo
@echo "Build finished. The HTML page is in $(BUILDDIR)/singlehtml."
pickle:
$(SPHINXBUILD) -b pickle $(ALLSPHINXOPTS) $(BUILDDIR)/pickle
@echo
@echo "Build finished; now you can process the pickle files."
json:
$(SPHINXBUILD) -b json $(ALLSPHINXOPTS) $(BUILDDIR)/json
@echo
@echo "Build finished; now you can process the JSON files."
htmlhelp:
$(SPHINXBUILD) -b htmlhelp $(ALLSPHINXOPTS) $(BUILDDIR)/htmlhelp
@echo
@echo "Build finished; now you can run HTML Help Workshop with the" \
".hhp project file in $(BUILDDIR)/htmlhelp."
qthelp:
$(SPHINXBUILD) -b qthelp $(ALLSPHINXOPTS) $(BUILDDIR)/qthelp
@echo
@echo "Build finished; now you can run "qcollectiongenerator" with the" \
".qhcp project file in $(BUILDDIR)/qthelp, like this:"
@echo "# qcollectiongenerator $(BUILDDIR)/qthelp/tiramisu.qhcp"
@echo "To view the help file:"
@echo "# assistant -collectionFile $(BUILDDIR)/qthelp/tiramisu.qhc"
devhelp:
$(SPHINXBUILD) -b devhelp $(ALLSPHINXOPTS) $(BUILDDIR)/devhelp
@echo
@echo "Build finished."
@echo "To view the help file:"
@echo "# mkdir -p $$HOME/.local/share/devhelp/tiramisu"
@echo "# ln -s $(BUILDDIR)/devhelp $$HOME/.local/share/devhelp/tiramisu"
@echo "# devhelp"
epub:
$(SPHINXBUILD) -b epub $(ALLSPHINXOPTS) $(BUILDDIR)/epub
@echo
@echo "Build finished. The epub file is in $(BUILDDIR)/epub."
latex:
$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
@echo
@echo "Build finished; the LaTeX files are in $(BUILDDIR)/latex."
@echo "Run \`make' in that directory to run these through (pdf)latex" \
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latexpdf:
$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
@echo "Running LaTeX files through pdflatex..."
$(MAKE) -C $(BUILDDIR)/latex all-pdf
@echo "pdflatex finished; the PDF files are in $(BUILDDIR)/latex."
text:
$(SPHINXBUILD) -b text $(ALLSPHINXOPTS) $(BUILDDIR)/text
@echo
@echo "Build finished. The text files are in $(BUILDDIR)/text."
man:
$(SPHINXBUILD) -b man $(ALLSPHINXOPTS) $(BUILDDIR)/man
@echo
@echo "Build finished. The manual pages are in $(BUILDDIR)/man."
texinfo:
$(SPHINXBUILD) -b texinfo $(ALLSPHINXOPTS) $(BUILDDIR)/texinfo
@echo
@echo "Build finished. The Texinfo files are in $(BUILDDIR)/texinfo."
@echo "Run \`make' in that directory to run these through makeinfo" \
"(use \`make info' here to do that automatically)."
info:
$(SPHINXBUILD) -b texinfo $(ALLSPHINXOPTS) $(BUILDDIR)/texinfo
@echo "Running Texinfo files through makeinfo..."
make -C $(BUILDDIR)/texinfo info
@echo "makeinfo finished; the Info files are in $(BUILDDIR)/texinfo."
gettext:
$(SPHINXBUILD) -b gettext $(I18NSPHINXOPTS) $(BUILDDIR)/locale
@echo
@echo "Build finished. The message catalogs are in $(BUILDDIR)/locale."
changes:
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@echo
@echo "The overview file is in $(BUILDDIR)/changes."
linkcheck:
$(SPHINXBUILD) -b linkcheck $(ALLSPHINXOPTS) $(BUILDDIR)/linkcheck
@echo
@echo "Link check complete; look for any errors in the above output " \
"or in $(BUILDDIR)/linkcheck/output.txt."
doctest:
$(SPHINXBUILD) -b doctest $(ALLSPHINXOPTS) $(BUILDDIR)/doctest
@echo "Testing of doctests in the sources finished, look at the " \
"results in $(BUILDDIR)/doctest/output.txt."

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{{ fullname }}
{{ underline }}
.. automodule:: {{ fullname }}
:members:
:noindex:

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Auto generated library's API
================================
.. autosummary::
:toctree: api
:template: module.rst
tiramisu.option
tiramisu.setting
tiramisu.config
tiramisu.value
tiramisu.autolib
tiramisu.error
tiramisu.storage

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tiramisu.autolib
================
.. automodule:: tiramisu.autolib
:members:
:noindex:

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tiramisu.config
===============
.. automodule:: tiramisu.config
:members:
:noindex:

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tiramisu.error
==============
.. automodule:: tiramisu.error
:members:
:noindex:

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tiramisu.option
===============
.. automodule:: tiramisu.option
:members:
:noindex:

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tiramisu.setting
================
.. automodule:: tiramisu.setting
:members:

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tiramisu.storage
================
.. automodule:: tiramisu.storage
:members:
:noindex:

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tiramisu.value
==============
.. automodule:: tiramisu.value
:members:

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# -*- coding: utf-8 -*-
#
# tiramisu documentation build configuration file, created by
# sphinx-quickstart on Tue Nov 20 14:29:31 2012.
#
# 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 = ['sphinx.ext.autodoc', 'sphinx.ext.todo', 'sphinx.ext.coverage', 'sphinx.ext.viewcode', 'sphinx.ext.autosummary', 'sphinx.ext.extlinks']
# Add any paths that contain templates here, relative to this directory.
templates_path = ['_templates']
# The suffix of source filenames.
source_suffix = '.txt'
# The encoding of source files.
#source_encoding = 'utf-8-sig'
# The master toctree document.
master_doc = 'index'
# General information about the project.
project = u'tiramisu'
copyright = u'2013, tiramisu team'
# 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 short X.Y version.
version = '1'
# The full version, including alpha/beta/rc tags.
release = '1.0'
# 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 = []
# -- 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 = 'traditional'
# 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
# "<project> v<release> 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 <link> 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 = 'tiramisudoc'
# -- 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', 'tiramisu.tex', u'tiramisu Documentation',
u'gwen', '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', 'tiramisu', u'tiramisu Documentation',
[u'gwen'], 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', 'tiramisu', u'tiramisu Documentation',
u'gwen', 'tiramisu', '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'
# -- Options for Epub output ---------------------------------------------------
# Bibliographic Dublin Core info.
epub_title = u'tiramisu'
epub_author = u'gwen'
epub_publisher = u'gwen'
epub_copyright = u'2012, gwen'
# The language of the text. It defaults to the language option
# or en if the language is not set.
#epub_language = ''
# The scheme of the identifier. Typical schemes are ISBN or URL.
#epub_scheme = ''
# The unique identifier of the text. This can be a ISBN number
# or the project homepage.
#epub_identifier = ''
# A unique identification for the text.
#epub_uid = ''
# A tuple containing the cover image and cover page html template filenames.
#epub_cover = ()
# HTML files that should be inserted before the pages created by sphinx.
# The format is a list of tuples containing the path and title.
#epub_pre_files = []
# HTML files shat should be inserted after the pages created by sphinx.
# The format is a list of tuples containing the path and title.
#epub_post_files = []
# A list of files that should not be packed into the epub file.
#epub_exclude_files = []
# The depth of the table of contents in toc.ncx.
#epub_tocdepth = 3
# Allow duplicate toc entries.
#epub_tocdup = True
todo_include_todos = True
extlinks = {'api': ('./api/tiramisu.%s', ""),
'test': ('./api/test.%s', "")}
autosummary_generate = True

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.. default-role:: literal
===============================
Options handling basics
===============================
Tiramisu is made of almost three main objects :
- :class:`tiramisu.option.Option` stands for the option types
- :class:`tiramisu.option.OptionDescription` is the shema, the option's structure
- :class:`tiramisu.config.Config` which is the whole configuration entry point
Accessing the `Option`'s
-------------------------
The :class:`~tiramisu.config.Config` object attribute access notation stands for
the value of the configuration's :class:`~tiramisu.option.Option`.
:class:`~tiramisu.config.Config`'s object attribute is the name of the option,
and the value is the value accessed by the `__getattr__` attribute access
mechanism.
If the attribute of the `Config` called by `__getattr__` has not been set before
(by the classic `__setattr__` mechanism), the default value of the `Option`
object is returned, and if no `Option` has been declared in the
`OptionDescription` (that is the schema of the configuration), an
`AttributeError` is raised.
::
>>> from tiramisu.config import Config
>>> from tiramisu.option import BoolOption, OptionDescription
>>>
>>> gcdummy = BoolOption('dummy', 'dummy', default=False)
>>> gcdummy.impl_getdefault()
False
>>> cfg.dummy
False
>>> descr = OptionDescription('tiramisu', '', [gcdummy])
>>> cfg = Config(descr)
>>> cfg.dummy = True
>>> cfg.dummy
True
>>> cfg.idontexist
AttributeError: 'OptionDescription' object has no attribute 'idontexist'
The `Option` objects (in this case the :class:`~tiramisu.option.BoolOption`),
are organized into a tree into nested
:class:`~tiramisu.option.OptionDescription` objects.
.. image:: config.png
Every option has a name, as does every option group. The parts
of the full name of the option are separated by dots: e.g.
``cfg.optgroup.optname``.
Let's make the protocol of accessing a `Config`'s attribute explicit
(because explicit is better than implicit):
1. If the option has not been declared, an `AttributeError` is raised,
2. If an option is declared, but neither a value nor a default value has
been set, the returned value is `None`,
3. If an option is declared and a default value has been set, but no value
has been set, the returned value is the default value of the option,
4. If an option is declared, and a value has been set, the returned value is
the value of the option.
But there are special exceptions. We will see later on that an option can be a
:term:`mandatory option`. A mandatory option is an option that must have a value
defined.
Setting the value of an option
------------------------------
An important part of the setting's configuration consists of setting the
value's option. There are different ways of setting values,
the first one is of course the `__setattr__` method
::
cfg.name = value
And if you wanna come back to a default value, use the builtin `del()` function::
del(cfg.name)
.. module:: tiramisu.config
.. _`tree`:
The handling of options
~~~~~~~~~~~~~~~~~~~~~~~~~~
The handling of options is split into two parts: the description of
which options are available, what their possible values and defaults are
and how they are organized into a tree. A specific choice of options is
bundled into a configuration object which has a reference to its option
description (and therefore makes sure that the configuration values
adhere to the option description).
Common manipulations
------------------------
Let's perform some common manipulation on some options
>>> from tiramisu.config import Config
>>> from tiramisu.option import UnicodeOption, OptionDescription
>>> #
>>> var1 = UnicodeOption('var1', 'first variable')
>>> var2 = UnicodeOption('var2', '', u'value')
>>> #
>>> od1 = OptionDescription('od1', 'first OD', [var1, var2])
>>> rootod = OptionDescription('rootod', '', [od1])
let's set somme access rules on the main namespace
>>> c = Config(rootod)
>>> c.read_write()
let's travel the namespaces
>>> print c
[od1]
>>> print c.od1
var1 = None
var2 = value
>>> print c.od1.var1
None
>>> print c.od1.var2
value
let's modify a value (be careful to the value's type...)
>>> c.od1.var1 = 'value'
Traceback (most recent call last):
ValueError: invalid value value for option var1
>>> c.od1.var1 = u'value'
>>> print c.od1.var1
value
>>> c.od1.var2 = u'value2'
>>> print c.od1.var2
value2
let's come back to the default value
>>> del(c.od1.var2)
>>> print c.od1.var2
value
The value is saved in a :class:`~tiramisu.value.Value` object. It is on this
object that we have to trigger the `reset`, which take the option itself
(`var2`) as a parameter.
On the other side, in the `read_only` mode, it is not possible to modify the value
>>> c.read_only()
>>> c.od1.var2 = u'value2'
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: cannot change the value for option var2 this option is frozen
let's retrieve the option `var1` description
>>> var1.impl_get_information('doc')
'first variable'
And if the option has been lost, it is possible to retrieve it again:
>>> c.unwrap_from_path('od1.var1').impl_get_information('doc')
'first variable'
Searching for an option
~~~~~~~~~~~~~~~~~~~~~~~~~~
In an application, knowing the path of an option is not always feasible.
That's why a tree of options can easily be searched. First, let's build such a tree::
>>> var1 = UnicodeOption('var1', '')
>>> var2 = UnicodeOption('var2', '')
>>> var3 = UnicodeOption('var3', '')
>>> od1 = OptionDescription('od1', '', [var1, var2, var3])
>>> var4 = UnicodeOption('var4', '')
>>> var5 = UnicodeOption('var5', '')
>>> var6 = UnicodeOption('var6', '')
>>> var7 = UnicodeOption('var1', '', u'value')
>>> od2 = OptionDescription('od2', '', [var4, var5, var6, var7])
>>> rootod = OptionDescription('rootod', '', [od1, od2])
>>> c = Config(rootod)
>>> c.read_write()
Second, let's find an option by it's name::
>>> print c.find(byname='var1')
[<tiramisu.option.UnicodeOption object at 0x7ff1bf7d6ef0>,
<tiramisu.option.UnicodeOption object at 0x7ff1b90c7290>]
If the option name is unique, the search can be stopped once one matched option
has been found:
>>> print c.find_first(byname='var1')
<tiramisu.option.UnicodeOption object at 0x7ff1bf7d6ef0>
Instead of the option's object, the value or path can be retrieved:
>>> print c.find(byname='var1', type_='value')
[None, u'value']
>>> print c.find(byname='var1', type_='path')
['od1.var1', 'od2.var1']
Finaly, a search can be performed on the values, the type or even a combination
of all these criteria:
>>> print c.find(byvalue=u'value', type_='path')
['od2.var1']
>>> print c.find(bytype=UnicodeOption, type_='path')
['od1.var1', 'od1.var2', 'od1.var3', 'od2.var4', 'od2.var5', 'od2.var6', 'od2.var1']
>>> print c.find(byvalue=u'value', byname='var1', bytype=UnicodeOption, type_='path')
['od2.var1']
The search can be performed in a subtree:
>>> print c.od1.find(byname='var1', type_='path')
['od1.var1']
In a root tree or in a subtree, all option can be retrieved in a dict container:
>>> print c.make_dict()
{'od2.var4': None, 'od2.var5': None, 'od2.var6': None, 'od2.var1': u'value',
'od1.var1': None, 'od1.var3': None, 'od1.var2': None}
If the organisation in a tree is not important,
:meth:`~config.SubConfig.make_dict()` results can be flattened
>>> print c.make_dict(flatten=True)
{'var5': None, 'var4': None, 'var6': None, 'var1': u'value', 'var3': None,
'var2': None}
.. note:: be carefull with this `flatten` parameter, here we have just lost
two options named `var1`
One can export only interesting parts of a tree of options into a dict, for
example the options that are in the same group that a given `var1` option::
>>> print c.make_dict(withoption='var1')
{'od2.var4': None, 'od2.var5': None, 'od2.var6': None, 'od2.var1': u'value',
'od1.var1': None, 'od1.var3': None, 'od1.var2': None}
>>> print c.make_dict(withoption='var1', withvalue=u'value')
{'od2.var4': None, 'od2.var5': None, 'od2.var6': None, 'od2.var1': u'value'}
and of course, :meth:`~config.SubConfig.make_dict()` can be called in a subtree:
>>> print c.od1.make_dict(withoption='var1')
{'var1': None, 'var3': None, 'var2': None}
The owners
~~~~~~~~~~~
.. glossary::
owner
When a value is set on an option, an owner is set too, that's why one can know
at any time if a value is a default value or not. Let's create a tree::
>>> var1 = UnicodeOption('var1', '', u'oui')
>>> od1 = OptionDescription('od1', '', [var1])
>>> rootod = OptionDescription('rootod', '', [od1])
>>> c = Config(rootod)
>>> c.read_write()
Then let's retrieve the owner associated to an option::
>>> print c.getowner(var1)
default
>>> c.od1.var1 = u'no'
>>> print c.getowner(var1)
user
>>> del(c.var1)
>>> print c.getowner(var1)
default
You can create your own owner, for example to distinguish modification made by
one user to an other one's.
>>> from tiramisu.setting import owners
>>> owners.addowner('toto')
>>> c.cfgimpl_get_settings().setowner(owners.toto)
>>> print c.getowner(var1)
default
>>> c.od1.var1 = u'no'
>>> print c.getowner(var1)
toto
The properties
~~~~~~~~~~~~~~
A property is an information on an option's state.
Let's create options with properties::
>>> var1 = UnicodeOption('var1', '', u'value', properties=('hidden',))
>>> var2 = UnicodeOption('var2', '', properties=('mandatory',))
>>> var3 = UnicodeOption('var3', '', u'value', properties=('frozen', 'unknown'))
>>> var4 = UnicodeOption('var4', '', u'value')
>>> od1 = OptionDescription('od1', '', [var1, var2, var3])
>>> od2 = OptionDescription('od2', '', [var4], properties=('hidden',))
>>> rootod = OptionDescription('rootod', '', [od1, od2])
>>> c = Config(rootod)
>>> c.read_write()
A hidden value is a value that cannot be accessed in read/write mode. This
option cannot be modified any more. Let's try to access to an option's value
with a hidden option::
>>> print c.od1.var1
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named: var1
with properties ['hidden']
>>> c.read_only()
>>> print c.od1.var1
value
A mandatory option is an option with a value that shall not be `None`. The
value has to be defined. Accessing to such an option is easy in read/write
mode. But in read only mode, an error is raised if no value has been defined::
>>> c.read_write()
>>> print c.od1.var2
None
>>> c.read_only()
>>> print c.od1.var2
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named: var2
with properties ['mandatory']
>>> c.read_write()
>>> c.od1.var2 = u'value'
>>> c.read_only()
>>> print c.od1.var2
value
A frozen option, is an option that cannot be modified by a user.
Let's try to modify a frozen option::
>>> c.read_write()
>>> print c.od1.var3
value
>>> c.od1.var3 = u'value2'
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: cannot change the value for option var3 this option is frozen
>>> c.read_only()
>>> print c.od1.var3
value
Tiramisu allows us to use user defined properties. Let's define and use one in
read/write or read only mode::
>>> c.cfgimpl_get_settings().append('unknown')
>>> print c.od1.var3
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named:
var3 with properties ['unknown']
>>> c.cfgimpl_get_settings().remove('unknown')
>>> print c.od1.var3
value
Many properties can be defined at the same time on an option::
>>> c.cfgimpl_get_settings().extend(['unknown1', 'unknown2'])
Properties can also be defined on an option group (that is, on an
:term:`option description`) let's hide a group and try to access to it::
>>> c.read_write()
>>> print c.od2.var4
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named: od2
with properties ['hidden']
>>> c.read_only()
>>> print c.od2.var4
value
Furthermore, let's retrieve the properties, delete and add the `hidden` property::
>>> c.read_write()
>>> c.cfgimpl_get_settings()[rootod.od1.var1]
['hidden']
>>> print c.od1.var1
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named:
var1 with properties ['hidden']
>>> c.cfgimpl_get_settings()[rootod.od1.var1].remove('hidden')
>>> c.cfgimpl_get_settings()[rootod.od1.var1]
[]
>>> print c.od1.var1
value
>>> c.cfgimpl_get_settings()[rootod.od1.var1].append('hidden')
>>> c.cfgimpl_get_settings()[rootod.od1.var1]
['hidden']
>>> print c.od1.var1
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named:
var1 with properties ['hidden']
.. _multi-option:
The multi-options
~~~~~~~~~~~~~~~~~~~~~
.. glossary::
multi-option
Multi-options are normal options that have list of values (multiple values)
instead of values::
>>> var1 = UnicodeOption('var1', '', [u'val1', u'val2'], multi=True)
>>> od1 = OptionDescription('od1', '', [var1])
>>> rootod = OptionDescription('rootod', '', [od1])
>>> c = Config(rootod)
>>> c.read_write()
A multi-option's value can be manipulated like a list::
>>> print c.od1.var1
[u'val1', u'val2']
>>> c.od1.var1 = [u'var1']
>>> print c.od1.var1
[u'var1']
>>> c.od1.var1.append(u'val3')
>>> print c.od1.var1
[u'var1', u'val3']
>>> c.od1.var1.pop(1)
u'val3'
>>> print c.od1.var1
[u'var1']
But it is not possible to set a value to a multi-option which is not a list::
>>> c.od1.var1 = u'error'
Traceback (most recent call last):
ValueError: invalid value error for option var1 which must be a list
The master/slave groups
~~~~~~~~~~~~~~~~~~~~~~~~~
.. glossary::
master/slave
A master/slave group is an :class:`~tiramisu.option.OptionDescription` and the
options that lives inside.
Inside this group, a special option, named master option, has the same name as
the group. The group (the option description) is set to type `master`.
All options in a master group is a multi-option (see :ref:`multi-option`).
The slave options have a `default_multi` attribute set to `True`::
>>> from tiramisu.setting import groups
>>> from tiramisu.config import Config
>>> from tiramisu.option import UnicodeOption, OptionDescription
>>>
>>> var1 = UnicodeOption('master', '', multi=True)
>>> var2 = UnicodeOption('slave1', '', multi=True)
>>> var3 = UnicodeOption('slave2', '', multi=True, default_multi=u"default")
>>>
>>> od1 = OptionDescription('master', '', [var1, var2, var3])
>>> od1.impl_set_group_type(groups.master)
>>>
>>> rootod = OptionDescription('rootod', '', [od1])
>>> c = Config(rootod)
>>> c.read_write()
The length of the lists can be modified::
>>> print c.master
master = []
slave1 = []
slave2 = []
>>> c.master.master.append(u'oui')
>>> print c.master
master = [u'oui']
slave1 = [None]
slave2 = [u'default']
>>> c.master.master = [u'non']
>>> print c.master
master = [u'non']
slave1 = [None]
slave2 = [u'default']
>>>
>>> c.master.master = [u'oui', u'non']
>>> print c.master
master = [u'oui', u'non']
slave1 = [None, None]
slave2 = [u'default', u'default']
But it is forbidden to change the lenght of a slave::
>>> c.master.slave1[0] = u'super'
>>> print c.master
master = [u'oui', u'non']
slave1 = [u'super', None]
slave2 = [u'default', u'default']
>>> c.master.slave1 = [u'new1', u'new2']
>>> print c.master
master = [u'oui', u'non']
slave1 = [u'new1', u'new2']
slave2 = [u'default', u'default']
>>> c.master.slave1 = [u'new1']
Traceback (most recent call last):
tiramisu.error.SlaveError: invalid len for the slave: slave1 which has master.master as master
>>> c.master.slave1 = [u'new1', u'new2', u'new3']
tiramisu.error.SlaveError: invalid len for the slave: slave1 which has master.master as master
you have to call the `pop` function on the master::
>>> c.master.master = [u'oui']
Traceback (most recent call last):
tiramisu.error.SlaveError: invalid len for the master: master which has slave1 as slave with greater len
>>> c.master.master.pop(0)
u'oui'
>>> print c.master
master = [u'non']
slave1 = [u'new2']
slave2 = [u'default']
Configuration's interesting methods
------------------------------------------
A `Config` object is informed by an `option.OptionDescription`
instance. The attributes of the ``Config`` objects are the names of the
children of the ``OptionDescription``.
Here are the (useful) methods on ``Config`` (or `SubConfig`).
.. currentmodule:: tiramisu.config
.. class:: Config
.. autoclass:: SubConfig
:members: find, find_first, __iter__, iter_groups, iter_all, make_dict
.. automethod:: __init__
.. rubric:: Summary
.. autosummary::
find
find_first
__iter__
iter_groups
iter_all
make_dict
.. rubric:: Methods
A :class:`~config.CommonConfig` is a abstract base class. A
:class:`~config.SubConfig` is an just in time created objects that wraps an
::class:`~option.OptionDescription`. A SubConfig differs from a Config in the
fact that a config is a root object and has an environnement, a context which
defines the different properties, access rules, vs... There is generally only
one Config, and many SubConfigs.

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@ -1,306 +0,0 @@
.. default-role:: literal
.. currentmodule:: tiramisu
The global consistency
===========================
Identical option names
----------------------
If an :class:`~option.Option()` happens to be defined twice in the
:term:`schema` (e.g. the :class:`~option.OptionDescription()`),
that is the two options actually have the same name, an exception is raised.
The calculation is currently carried out in the samespace, for example
if `config.gc.name` is defined, another option in `gc` with the name
`name` is **not** allowed, whereas `config.whateverelse.name` is still
allowed.
Option's values type validation
--------------------------------
When a value is set to the option, the value is validated by the
option's :class:`option.Option()` validator's type.
Notice that if the option is `multi`, that is the `multi` attribute is set to
`True`, then the validation of the option value accepts a list of values
of the same type.
For example, an :class:`option.IntOption` validator waits for an `int` object of
course, an :class:`option.StrOption` validator waits for an `str`, vs...
Where are located the values
-------------------------------
The entry point of the acces to the values is the :class:`setting.Setting()` of
the root configuration object, but the values are actually located in the
:class:`value.Values()` object, in order to be delegated in some kind of a
`tiramisu.storage`, which can be a in-memory storage, or a persistent (for the
time being, a sqlite3) storage.
:class:`value.Values()` is also responsible of the owners and the calculation
of the options that have callbacks.
Requirements
------------
Configuration options can specify requirements as parameters at the init
time, the specification of some links between options or groups allows
to carry out a dependencies calculation. For example, an option can ben
hidden if another option has been set with some expected value. This is
just an example, the possibilities are hudge.
A requirement is a list of dictionaries that have fairly this form::
[{'option': a, 'expected': False, 'action': 'disabled', 'inverse': True,
'transitive':True, 'same_action': True}]
Actually a transformation is made to this dictionary during the validation of
this requires at the :class:`~option.Option()`'s init. The dictionary becomes
a tuple, wich is passed to the :meth:`~setting.Settings.apply_requires()`
method. Take a look at the code to fully understand the exact meaning of the
requirements:
.. automethod:: tiramisu.setting.Settings.apply_requires
The path of the option is required, the second element is the value wich is
expected to trigger the callback, it is required too, and the third one is the
callback's action name (`hide`, `show`...), wich is a
:class:`~setting.Property()`. Requirements are validated in
:class:`setting.Setting`.
Let's create an option wich has requirements::
>>> from tiramisu.option import *
>>> from tiramisu.config import *
>>> var2 = UnicodeOption('var2', '', u'oui')
>>> var1 = UnicodeOption('var1', '', u'value', requires=[{'option':var2, 'expected':u'non', 'action':'hidden'}])
>>> var3 = UnicodeOption('var3', '', u'value', requires=[{'option':var2, 'expected':u'non', 'action':'hidden'}, {'option':var2, 'expected':u'non', 'action':'disabled'}])
>>> var4 = UnicodeOption('var4', '', u'oui')
>>> od1 = OptionDescription('od1', '', [var1, var2, var3])
>>> od2 = OptionDescription('od2', '', [var4], requires=[{'option':od1.var2, 'expected':u'oui', 'action':'hidden', 'inverse':True}])
>>> rootod = OptionDescription('rootod', '', [od1, od2])
>>> c = Config(rootod)
>>> c.read_write()
The requirement here is the dict `{'option':var2, 'expected':u'non',
'action':'hidden'}` wich means that is the option `'od1.var2'` is set to
`'non'`, the option `'od1.var1'` is gonna be hidden. On the other hand, if the
option `'od1.var2'` is different from `'non'`, the option `'od1.var1'` is not
hidden any more::
>>> print c.cfgimpl_get_settings()[rootod.od1.var1]
[]
>>> print c.od1.var1
value
>>> print c.od1.var2
oui
>>> c.od1.var2 = u'non'
>>> print c.cfgimpl_get_settings()[rootod.od1.var1]
['hidden']
>>> print c.od1.var1
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named:
var1 with properties ['hidden']
>>> c.od1.var2 = u'oui'
>>> print c.cfgimpl_get_settings()[rootod.od1.var1]
[]
>>> print c.od1.var1
value
The requirement on `od2` is `{'option':od1.var2, 'expected':u'oui',
'action':'hidden', 'inverse':True}`, which means that if the option `od1.var2`
is set to `oui`, the option is not hidden (because of the `True` at the end of
the tuple wich means 'inverted', take a look at the :doc:`consistency`
document.)::
>>> print c.od2.var4
oui
>>> c.od1.var2 = u'non'
>>> print c.od2.var4
Traceback (most recent call last):
tiramisu.error.PropertiesOptionError: trying to access to an option named: od2 with properties ['hidden']
>>> c.od1.var2 = u'oui'
>>> print c.od2.var4
oui
Requirements can be accumulated
>>> print c.cfgimpl_get_settings()[rootod.od1.var3]
[]
>>> c.od1.var2 = u'non'
>>> print c.cfgimpl_get_settings()[rootod.od1.var3]
['disabled', 'hidden']
>>> c.od1.var2 = u'oui'
>>> print c.cfgimpl_get_settings()[rootod.od1.var3]
[]
Requirements can be accumulated for different or identical properties (inverted
or not)::
>>> a = UnicodeOption('var3', '', u'value', requires=[{'option':od1.var2,
... 'expected':'non', 'action':'hidden'}, {'option':od1.var1, 'expected':'oui',
... 'action':'hidden'}])
>>> a = UnicodeOption('var3', '', u'value', requires=[{'option':od1.var2,
... 'expected':'non', 'action':'hidden'}, {'option':od1.var1, 'excepted':'oui',
... 'action':'disabled', 'inverse':True}])
But it is not possible to have inverted requirements on the same property.
Here is an impossible situation::
>>> a = UnicodeOption('var3', '', u'value', requires=[{'option':od1.var2,
... 'expected':'non', 'action':'hidden'}, {'option':od1.var1, 'expected':'oui',
... 'hidden', True}])
Traceback (most recent call last):
ValueError: inconsistency in action types for option: var3 action: hidden
Validation upon a whole configuration object
----------------------------------------------
An option's integrity can be validated towards a whole configuration.
This type of validation is very open. Let's take a use case : an option
has a certain value, and the value of this option can change the owner
of another option or option group... Everything is possible.
.. currentmodule:: tiramisu.option
Other hooks are availables to validate upon a whole configuration at any time,
for example the consistency between two options (typically, an
:class:`IPOption` and a :class:`NetworkOption`).
Let's define validator (wich is a normal python function)::
>>> def valid_a(value, letter=''):
... return value.startswith(letter)
Here is an option wich uses this validator::
>>> var1 = UnicodeOption('var1', '', u'oui', validator=valid_a, validator_args={'letter': 'o'})
>>> od1 = OptionDescription('od1', '', [var1])
>>> rootod = OptionDescription('rootod', '', [od1])
>>> c = Config(rootod)
>>> c.read_write()
The validation is applied at the modification time::
>>> c.od1.var1 = u'non'
Traceback (most recent call last):
ValueError: invalid value non for option var1
>>> c.od1.var1 = u'oh non'
You can disabled this validation::
>>> c.cfgimpl_get_settings().remove('validator')
>>> c.od1.var1 = u'non'
Values that are calculated
--------------------------------
An option that have a callback is considered to have a value that is to be
calculated.
An option's property with a `force_store_value` attribute is considered to be
modified at the first calculation.
.. automodule:: tiramisu.autolib
:members:
This is the typically protocol for accessing a option's for a calculated value,
but some twisted ways are also possible, take a look at the `force_store_value`
attribute.
.. glossary::
force store value
A calculated value (that is, an option that has a callback) with the
attribute `force_store_value` enabled is considered to be modified at
the first calculation
Let's create four calculation functions::
def return_calc():
#return an unicode value
return u'calc'
def return_value(value):
return value
def return_value_param(param=u''):
return param
def return_no_value_if_non(value):
#if value is not u'non' return value
if value == u'non':
return None
else:
return value
Then we create four options using theses functions::
>>> var1 = UnicodeOption('var1', '', callback=return_calc)
>>> var2 = UnicodeOption('var2', '', callback=return_value, callback_params={'': (u'value',)})
>>> var3 = UnicodeOption('var3', '', callback=return_value_param, callback_params={'param': (u'value_param',)})
>>> var4 = UnicodeOption('var4', '', callback=return_no_value_if_non, callback_params={'': (('od1.var5', False),)})
>>> var5 = UnicodeOption('var5', '', u'oui')
>>> od1 = OptionDescription('od1', '', [var1, var2, var3, var4, var5])
>>> rootod = OptionDescription('rootod', '', [od1])
>>> c = Config(rootod)
>>> c.read_write()
The first option `var1` returns the result of the `return_calc` function, wich
is `u'calc'`::
>>> print c.od1.var1
calc
The second option `var2` returns the result of the `return_value` fucntion,
wich is `value`. The parameter `u'value'` is passed to this function::
>>> print c.od1.var2
value
The third option `var3` returns the result of the function `return_value_param`
with the named parameter `param` and the value `u'value_param'`::
>>> print c.od1.var3
value_param
The fourth option `var4` returns the reslut of the function `return_no_value_if_non`
that is the value of `od1.var5` exceptif the value is u`non`::
>>> print c.od1.var4
oui
>>> c.od1.var5 = u'new'
>>> print c.od1.var4
new
>>> c.od1.var5 = u'non'
>>> print c.od1.var4
None
The calculation replaces the default value.
If we modify the value, the calculation is not carried out any more::
>>> print c.od1.var1
calc
>>> c.od1.var1 = u'new_value'
>>> print c.od1.var1
new_value
To force the calculation to be carried out in some cases, one must add the
`frozen` and the `force_default_on_freeze` properties::
>>> c.cfgimpl_get_settings()[rootod.od1.var1].append('frozen')
>>> c.cfgimpl_get_settings()[rootod.od1.var1].append('force_default_on_freeze')
>>> print c.od1.var1
calc
>>> c.cfgimpl_get_settings()[rootod.od1.var1].remove('frozen')
>>> c.cfgimpl_get_settings()[rootod.od1.var1].remove('force_default_on_freeze')
>>> print c.od1.var1
new_value

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@ -1,92 +0,0 @@
Test framework
==================
Have a look at the :file:`test` subdirectory of the project.
We are using py.test_
.. _py.test: http://pytest.org/latest/
config APIs
-----------------
.. automodule:: test.test_config
:members:
option APIs
---------------
.. automodule:: test.test_option
:members:
others
----------
.. automodule:: test.test_mandatory
:members:
.. automodule:: test.test_config_big_example
:members:
.. automodule:: test.test_option_default
:members:
.. automodule:: test.test_option_consistency
:members:
.. automodule:: test.test_cache
:members:
.. automodule:: test.test_option_setting
:members:
.. automodule:: test.test_freeze
:members:
.. automodule:: test.test_config_ip
:members:
.. automodule:: test.test_slots
:members:
.. automodule:: test.test_reverse_from_path
:members:
.. automodule:: test.test_requires
:members:
.. automodule:: test.test_option_owner
:members:
.. automodule:: test.test_permissive
:members:
.. automodule:: test.test_option_type
:members:
.. automodule:: test.test_dereference
:members:
.. automodule:: test.test_storage
:members:
.. automodule:: test.test_option_calculation
:members:
.. automodule:: test.test_option_with_special_name
:members:
.. automodule:: test.test_config_domain
:members:
.. automodule:: test.test_symlink
:members:
.. automodule:: test.test_metaconfig
:members:
.. automodule:: test.test_parsing_group
:members:

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SRC=$(wildcard *.tex)
OBJ=$(subst .tex,.pdf,$(SRC))
pdf: $(OBJ)
%.pdf: %.tex
pdflatex $<
clean:
rm -f $(OBJ)
rm -f *.aux *.log *.toc *.snm *.out *.nav

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@ -1,69 +0,0 @@
\begin{frame}
\frametitle{Comparaison entre le noyau de Créole et Tiramisu}
\begin{itemize}
\item \emph{Tiramisu} a pour objectif de
\begin{itemize}
\item remplacer le noyau \emph{Creole} (\texttt{EoleDict}) de manière transparente ;
\item résoudre les problèmes inhérents à \texttt{CreoleServ} ;
\end{itemize}
\item au niveau du code, il y a enfin une vraie séparation du c\oe ur et du fonctionnel ;
\item valide le type \emph{et la structure}, l'ajout de types est aisé.
\item \emph{Creole} : \texttt{EoleDict, EoleVars} $ \Leftrightarrow $ \texttt{Config, Option}\\
cf \texttt{tiramisu/doc/build/pydoc/index.html}
\item intégré à \texttt{gen\_config}, \texttt{cheetah}, \texttt{DTD Creole}, syntaxe \texttt{Creole} \dots
\item \texttt{eole-report/D02CoherenceVariables.pdf}
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{Gestionnaire de configuration existants}
\begin{itemize}
\item Le gestionnaire de conf de Victor Stinner $\Rightarrow$ \emph{NuFw};
\item puppet, cfgengine... $\Rightarrow$ intéressant, de nombreux comportements peuvent être repris, mais tel quel difficilement compatible avec \emph{Creole};
\item \emph{Creole} $\Leftrightarrow$ \texttt{tiramisu/doc/build/glossary.html}
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{Un "vrai" serveur de config}
\begin{itemize}
\item un serveur de données de configuration ;
\item $1^{ere}$ méthode : exportation (snapshot) d'un état de la config $ \Rightarrow $ Créole ;
\item $2^{eme}$ méthode : JIT (just in time) calculation, une modification
de l'état de la configuration est possible \emph{pendant} la manipulation et l'utilisation de la conf $ \Rightarrow $ Tiramisu.
\item \texttt{doc/getting-started.html}
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{Qu'est-ce qu'un gestionnaire de conf moderne ?}
\begin{itemize}
\item c'est une organisation arborescente des données (les données sont imbriquées) ;
\item c'est un accès facile aux données (typiquement une interface de type \emph{dictionnaire}) ;
\item clefs-valeurs, mais quelles valeurs exactement ? $ \Rightarrow $ calcul JIT (just in time) ;
\item \texttt{eole-report/D01AccesVariables.pdf}
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{Définition d'un gestionnaire de configuration}
\begin{itemize}
\item les families, groups, master \dots~ ce sont des \emph{schémas} de données (\texttt{OptionDescription}) ;
\item c'est la configuration (\texttt{Config}) qui est responsable de l'accès aux valeurs ;
\item la configuration est aisément manipulable, et a un point d'entrée unique ;
\item l'accès aux valeurs des \texttt{Options} de configuration ne peut se faire \emph{que} depuis la conf racine.
\item \texttt{eole-report/D01AccesVariables.pdf}
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{Organisation en espace de nommage}
\begin{itemize}
\item dans \emph{tiramisu} l'accent est mis sur l'organisation arborescente des données ;
\item la validation des options de configuration se fait par l'appartenance aux groupes (families, master/slaves \dots) ;
\item l'organisation en groupes est unifiée par l'espace de nommage ;
\item \texttt{eole-report/D03ReglesEtats.pdf}
\item lisibilité d'une config : \texttt{tiramisu/report/build/index.html} rapport html d'une config
\end{itemize}
\end{frame}

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@ -1,61 +0,0 @@
\begin{frame}
\frametitle{Etats ("status") de la configuration}
\begin{itemize}
\item système d'états de la configuration par \emph{droits d'accès} ;
\item \texttt{read write}, \texttt{read only} ;
\item correspond à \texttt{freeze}, \texttt{hidden}, \texttt{disabled} \dots ;
\item \texttt{doc/status.html} ;
\item \texttt{eole-report/D03ReglesEtats.pdf} ;
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{hidden if in, hidden if not in}
\begin{itemize}
\item les hidden if in, disabled if, \dots sont généralisés
\item dans tiramisu, ce sont des pré-requis sur une (des) variables
\item \texttt{eole-report/D03ReglesEtats.pdf}
\item \texttt{doc/consistency.html}
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{un peu de mathématiques : prévenir les deadlocks}
\begin{itemize}
\item sûreté : prévention des deadlocks ;
\item dans tiramisu, le modèle est suffisamment abstrait pour que son exploitation mathématique soit
réalisable par les techniques de \emph{Model Checking} ;
\item soit on a besoin de ne connaître que l'ensemble des états, pas leurs liens $\Rightarrow$ espace d'états ;
\item soit on a besoin de connaître toutes les relations $\Rightarrow$ graphe d'accessibilité ;
\item la configuration est modélisable en une structure de \emph{Kripe} ;
\item déjà le parsing de la conf est facile, la preuve : \texttt{tiramisu/report/build/index.html}
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{un peu de mathématiques (suite) CreoleLint}
\begin{itemize}
\item exemple : $ P = 3 \wedge Q = 1 \triangleleft \langle P = 1 \hookleftarrow Q = 0 \rangle$
\item la propriété \og dans aucun état on a $P = 3$ et $Q = 1$ \fg~ est-elle vraie ?
Pour vérifier cette propriété, on a besoin de connaître l'espace d'états ;
\item la propriété \og chaque chemin débutant dans un état accessible $P=1$ passe par un état où $Q=3$ et $P=2$ \fg~
est-elle vraie ? Cela demande de connaître le graphe d'accessibilité ;
\item les structures de \emph{Kripe} sont des machines à états étiquetées par les valuations de toutes les variables propositionnelles ;
\item une compliation statique devient possible dans \emph{CreoleLint} \dots
\end{itemize}
\end{frame}
\begin{frame}
\frametitle{compatibilité Créole : ce qui reste à faire}
\begin{itemize}
\item les options spéciales sont implémentées (auto, fill, obligatoire, \dots) reste la librairie des fonctions pour les variables automatiques \texttt{eosfunc} ;
\item tous les états sont implémentés (hidden, disabled, mode (normal/expert), \dots), il faut fixer les comportement \texttt{read write} ;
\item les "valprec" (valeur précédentes) et une mémoire de \emph{tous} les états antérieurs ;
\item fixer les comportement des hides (sous-groupes récursifs, \dots) ;
\item validations master/slaves, validations globales au regard de la configuration entière puisque c'est possible maintenant.
\end{itemize}
\end{frame}

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@ -1,36 +0,0 @@
%%presentation
\documentclass{beamer}
\usepackage{beamerthemetree}
%%impression
%\documentclass[a4paper,9pt]{extarticle}
%\usepackage{beamerarticle}
%%
% class FR
\usepackage[T1]{fontenc}
\usepackage[utf8]{inputenc}
\usepackage[frenchb]{babel}
% image
%% \usepackage{graphicx}
\usepackage{alltt}
\usecolortheme{crane}
\beamertemplatetransparentcovered
%\logo{\includegraphics[height=1cm]{ban.png}}
\title{Tiramisu}
\subtitle{gestionnaire de configuration}
\author{Gwen}
\institute{\texttt{git clone git://git.labs.libre-entreprise.org/tiramisu.git} \\
\texttt{firefox tiramisu/doc/build/index.html}}
\date{\today}
\begin{document}
\frame{\titlepage}
\include{definition}
\include{statut}
\end{document}

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@ -1,19 +0,0 @@
Errors that may be encountered
==================================
Three builtins exceptions are used :
-----------------------------------------
- **ValueError** : Validation error, parameters error, a list instead
of a Multi, or if the value does not make sense
- **TypeError** : type error in a parameter
- **AttributeError** : wrong path or unknownd option or optiondescription
And five other exceptions :
------------------------------
.. automodule:: tiramisu.error
:members:

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@ -1,86 +0,0 @@
==================================
Getting started
==================================
What is options handling ?
=================================
Due to more and more available options required to set up an operating system,
compiler options or whatever, it became quite annoying to hand the necessary
options to where they are actually used and even more annoying to add new
options. To circumvent these problems the configuration control was
introduced...
What is Tiramisu ?
===================
Tiramisu is an options handler and an options controller, which aims at
producing flexible and fast options access. The main advantages are its access
rules and the fact that the whole consistency is preserved at any time, see
:doc:`consistency`. There is of course type and structure validations, but also
validations towards the whole options. Furthermore, options can be reached and
changed according to the access rules from nearly everywhere in your appliance.
Just the facts
==============
.. _gettingtiramisu:
`tiramisu`\ 's home page is here_
.. _here: https://forge.cadoles.com/Cadoles/tiramisu
Download
---------
To obtain a copy of the sources, check it out from the repository using `git`.
We suggest using `git` if one wants to access to the current developments.
::
git clone https://forge.cadoles.com/Cadoles/tiramisu.git
This will get you a fresh checkout of the code repository in a local directory
named ``tiramisu``.
Getting started
-------------------
Option objects can be created in different ways. Let's perform very basic
:class:`~tiramisu.option.Option` and :class:`~tiramisu.config.Config` object
manipulations:
::
>>> from tiramisu.config import Config
>>> from tiramisu.option import OptionDescription, BoolOption
>>> # let's create a group of options... with only one option inside
>>> descr = OptionDescription("optgroup", "", [
... BoolOption("bool", "", default=False)])
>>> # c is a namespace as well as a container for the options
>>> c = Config(descr)
>>> c.bool
False
>>> c.bool = True
>>> c.bool
True
So by now, we have:
- a namespace (which is `c` here)
- the access of an option's value by the
attribute access way (here `bool`, which is a boolean option
:class:`~tiramisu.option.BoolOption()`.
So, option objects are produced at the entry point `c` and then handed down to
where they are actually used when `c.bool` is triggered. This keeps options
local but available at any timer and consistent.
Once the namespace is created, we can set a
:meth:`~config.CommonConfig.read_write()` access to the options::
>>> c.read_write()
which enables us to set a bunch of access rules that we wil explain later in
:doc:`status`.

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.. default-role:: literal
Glossary
==========
.. glossary::
configuration
Global configuration object, wich contains the whole configuration
options *and* their descriptions (option types and group)
schema
option description
see :class:`tiramisu.option.OptionDescription`
The schema of a configuration :
- the option types
- how they are organised in groups or even subgroups, that's why we
call them **groups** too.
configuration option
An option object wich has a name and a value and can be accessed
from the configuration object
access rules
Global access rules are : :meth:`~config.CommonConfig.read_write()` or
:meth:`~config.Config.read_only()`, see :doc:`status`
default value
Default value of a configuration option. The default value can be
set at instanciation time, or even at any moment. Remember that if
you reset the default value, the owner reset to `default`
freeze
A whole configuration can be frozen (used in read only access). See
:ref:`frozen` for details.
A single option can be frozen too.
value owner
When an option is modified, including at the instanciation, we
always know who has modified it. It's the owner of the option, see
:doc:`status` for more details.
option with properties
an option wich has property like 'hidden' or 'disabled' is an option
wich has restricted acces rules
hidden option
a hidden option has a different behaviour on regards to the access
of the value in the configuration, see :doc:`status` for more details.
disabled option
a disabled option has a different behaviour on regards to the access
of the value in the configuration, see :doc:`status` for more details.
mandatory option
A mandatory option is a configuration option wich value has to be
set, that is the default value cannot be `None`.
consistency
Preserving the consistency in a whole configuration is a tricky thing,
tiramisu takes care of it for you, see :doc:`consistency` for details.
context
The context is a :class:`tiramisu.setting.Setting()` object in the
configuration that enables us to access to the global properties
for example the `read_write` or `read_only` :term:`access rules`

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@ -1,62 +0,0 @@
.. default-role:: literal
.. meta::
:description: configuration management
:keywords: config, configuration
.. title:: tiramisu
The tasting of `Tiramisu`
=========================
.. image:: logo.png
:height: 150px
`Tiramisu`
is a cool, refreshing Italian dessert,
it is also an `options controller tool`_.
.. _`options controller tool`: http://en.wikipedia.org/wiki/Configuration_management#Overview
It's a pretty small, local (that is, straight on the operating system) options
handler and controller.
controlling options explanations
--------------------------------------
.. toctree::
:maxdepth: 1
getting-started
config
option
storage
status
consistency
error
glossary
api
doctest
Indices and tables
==================
* :ref:`genindex`
* :ref:`modindex`
* :ref:`search`
.. note:: The tiramisu code is licensed under the `LGPL licence`_
and this documentation is licensed under the `Creative Commons
Attribution-ShareAlike 3.0 Unported License`_\ .
.. _`Creative Commons Attribution-ShareAlike 3.0 Unported License`: http://creativecommons.org/licenses/by-sa/3.0/deed.en_US
.. _`LGPL licence`: http://www.gnu.org/licenses/lgpl.html
.. todolist::

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.. default-role:: literal
.. module:: tiramisu.option
The options types
===================
Description of Options
----------------------
All the constructors take a ``name`` and a ``doc`` argument as first
arguments to give to the option or option description a name and a description document.
Most constructors take a ``default`` argument that specifies the default
value of the option. If this argument is not supplied the default value
is assumed to be ``None``.
The `Option` base class
-------------------------
It's the abstract base class for almost all options (except the symlink).
.. _optioninit:
.. autoclass:: Option
:special-members:
:members:
All option types
------------------
BoolOption
~~~~~~~~~~
.. autoclass:: BoolOption
:private-members:
IntOption
~~~~~~~~~
.. autoclass:: IntOption
:private-members:
FloatOption
~~~~~~~~~~~
.. autoclass:: FloatOption
:private-members:
StrOption
~~~~~~~~~
.. autoclass:: StrOption
:private-members:
UnicodeOption
~~~~~~~~~~~~~
.. autoclass:: UnicodeOption
:private-members:
SymLinkOption
~~~~~~~~~~~~~
.. autoclass:: SymLinkOption
:private-members:
``SymLinkOption`` redirects to another configuration option in the
configuration, that is :
- retrieves the value of the target,
- can set the value of the target too
IPOption
~~~~~~~~
.. autoclass:: IPOption
:private-members:
PortOption
~~~~~~~~~~
.. autoclass:: PortOption
:private-members:
NetmaskOption
~~~~~~~~~~~~~
.. autoclass:: NetmaskOption
:private-members:
NetworkOption
~~~~~~~~~~~~~
.. autoclass:: NetworkOption
:private-members:
DomainnameOption
~~~~~~~~~~~~~~~~
.. autoclass:: DomainnameOption
:private-members:
ChoiceOption
~~~~~~~~~~~~
.. autoclass:: ChoiceOption
:private-members:
.. _optdescr:
The `OptionDescription` class
-------------------------------
.. autoclass:: OptionDescription
:special-members:
:members:
If you need to access to an option object, you can do it with the
OptionDescription object. Not only the value of the option by attribute access,
but the option object itself that lives behind the scene. It can always be
accessed internally. The option objects are in the `_children`
`OptionDescription`'s attribute.

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@ -1,155 +0,0 @@
.. default-role:: literal
Local statuses and global settings
=====================================
Available configuration statuses
----------------------------------
.. currentmodule:: tiramisu
The configuration's status lives in an :class:`setting.Setting()` object.
This configuration status corresponds to specific attributes or bunch of
attributes that can be accessed together with some `setting.Setting`
method:
**read write status**
The configuration can be accessed by `__get__` and `__set__`
properties, except for the `hidden` configuration options but, yes, it is
possible to modify a disabled option.
To enable read-write status, call
:class:`~config.CommonConfig.read_write()` on the config.
**read only status**
The whole configuration is `frozen`, that is modifiying a value is
forbidden. We can access to a configuration option only with the
`__getattr__` property.
The configuration has not an access to the hidden options
but can read the disabled options.
To enable read only status, call :class:`~config.SubConfig.read_only()` on
the config.
.. csv-table:: **Configuration's statuses summary**
:header: " ", "Hidden", "Disabled", "Mandatory"
"read only status", `False`, `True`, `True`
"read-write status", `True`, `False`, `False`
.. _`frozen`:
Freezing a configuration
---------------------------
At the configuration level, :class:`~setting.Setting()` enables us to freeze the
whole configuration, wich means that the frozen :class:`~option.Option()`'s
values cannot be modified.
It is possible to *freeze* a single :class:`~option.Option()` object with
:meth:`~config.SubConfig.cfgimpl_get_settings()`. If you try to modify a frozen
option, it raises a `TypeError: trying to change a frozen option object`.
To find out if an option `myoption` is frozen, just make an assertion on the
settings like that::
'frozen' in cfg.cfgimpl_get_settings()[myoption]
Moreover, frozen option can return their default values if
:meth:`~option.Option.force_default()` is called on this option.
.. glossary::
force default on freeze
A single option is frozen and we want the option to return something
else than his value, typically it is his default value.
In the option's values, an attribute can be set
:attr:`force_default_on_freeze`, that forces this behavior.
Restricted access to an `Option()`
-----------------------------------
.. autoclass:: tiramisu.setting.Property
The `properties` attribute is in charge of the access rules' option's value.
Configuration options access statuses are defined at configuration level
that corresponds to the `option.Option()`'s `properties` attribute,
for example: hidden, disabled.
Use the pythonic way to know if a property is there::
'hidden' in c.cfgimpl_get_settings()
'frozen' in c.cfgimpl_get_settings()[opt]
To access to the global settings::
cfg.cfgimpl_get_settings()
cfg.cfgimpl_get_settings()[option1]
to add, or suppress a global property::
cfg.cfgimpl_get_settings()[option1].append('hidden')
cfg.cfgimpl_get_settings()[option1].remove('hidden')
to activate, deactivate properties::
cfg.cfgimpl_get_settings().append('hidden')
cfg.cfgimpl_get_settings().remove('hidden')
The global properties are living in e :class:`~setting.Setting` object. A
`Setting` object also takes care of the way to access option values and the
storage in the cache.
Value owners
-------------
Every configuration option has a **owner**. When the option is instanciated,
the owner is :obj:`setting.owners.default` because a default value has been set
(including `None`, wich means that no value has been set yet).
.. method:: config.CommonConfig.getowner()
This method can retrieve an Option's owner.
- At the instance of the `Config` object, the value owner is
:obj:`setting.owners.default` because
the default values are set at the instance of the configuration option
object,
- at the modification of an option, the owner is `owners.default`, (which is
:obj:`owners.user`)
Special behaviors for an option
---------------------------------
**mandatory**
A mandatory option shall return a value. If a value, or a default value
has not been set, a error is raised.
**has a callback**
This means that it is a calculated value and therefore automatically
protected it cannot be modified by attribute access.
**force_store_value**
if the configuration option has a default value, the default is
returned, otherwise the value is calculated.
Its inner state is represented by `option.Option.force_default()`
Configuration options have default values that are stored in the
`Option()` object itself. Default values, the `default`, can be set in
various ways.
If a default value is modified by overriding it, not only the value of
the option resets to the default that is proposed, but the owner is
modified too, it is reseted to `owners.default`.

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Storage
=======
.. automodule:: tiramisu.storage
.. automethod:: tiramisu.storage.set_storage
.. image:: storage.png
Dictionary
~~~~~~~~~~
.. automodule:: tiramisu.storage.dictionary
Dictionary settings:
.. automethod:: tiramisu.storage.dictionary.storage.Setting
Sqlite3
~~~~~~~
.. automodule:: tiramisu.storage.sqlite3
Sqlite3 settings:
.. automethod:: tiramisu.storage.sqlite3.storage.Setting
Example
~~~~~~~
>>> from tiramisu.option import StrOption, OptionDescription
>>> from tiramisu.config import Config
>>> from tiramisu.storage import set_storage
>>> set_storage('sqlite3', dir_database='/tmp/tiramisu')
>>> s = StrOption('str', '')
>>> o = OptionDescription('od', '', [s])
>>> c1 = Config(o, persistent=True, session_id='xxxx')
>>> c1.str
>>> c1.str = 'yes'
>>> c1.str
'yes'
>>> del(c1)
>>> c2 = Config(o, persistent=True, session_id='xxxx')
>>> c2.str
'yes'
>>> del(c2)
>>> list_sessions()
['xxxx']
>>> delete_session('xxxx')
>>> c3 = Config(o, persistent=True, session_id='xxxx')
>>> c3.str