ansible-later/env_27/lib/python2.7/site-packages/coverage/plugin.py

483 lines
16 KiB
Python
Raw Normal View History

2019-04-11 13:56:20 +00:00
# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0
# For details: https://bitbucket.org/ned/coveragepy/src/default/NOTICE.txt
"""
.. versionadded:: 4.0
Plug-in interfaces for coverage.py.
Coverage.py supports a few different kinds of plug-ins that change its
behavior:
* File tracers implement tracing of non-Python file types.
* Configurers add custom configuration, using Python code to change the
configuration.
To write a coverage.py plug-in, create a module with a subclass of
:class:`~coverage.CoveragePlugin`. You will override methods in your class to
participate in various aspects of coverage.py's processing.
Different types of plug-ins have to override different methods.
Any plug-in can optionally implement :meth:`~coverage.CoveragePlugin.sys_info`
to provide debugging information about their operation.
Your module must also contain a ``coverage_init`` function that registers an
instance of your plug-in class::
import coverage
class MyPlugin(coverage.CoveragePlugin):
...
def coverage_init(reg, options):
reg.add_file_tracer(MyPlugin())
You use the `reg` parameter passed to your ``coverage_init`` function to
register your plug-in object. The registration method you call depends on
what kind of plug-in it is.
If your plug-in takes options, the `options` parameter is a dictionary of your
plug-in's options from the coverage.py configuration file. Use them however
you want to configure your object before registering it.
Coverage.py will store its own information on your plug-in object, using
attributes whose names start with ``_coverage_``. Don't be startled.
.. warning::
Plug-ins are imported by coverage.py before it begins measuring code.
If you write a plugin in your own project, it might import your product
code before coverage.py can start measuring. This can result in your
own code being reported as missing.
One solution is to put your plugins in your project tree, but not in
your importable Python package.
File Tracers
============
File tracers implement measurement support for non-Python files. File tracers
implement the :meth:`~coverage.CoveragePlugin.file_tracer` method to claim
files and the :meth:`~coverage.CoveragePlugin.file_reporter` method to report
on those files.
In your ``coverage_init`` function, use the ``add_file_tracer`` method to
register your file tracer.
Configurers
===========
.. versionadded:: 4.5
Configurers modify the configuration of coverage.py during start-up.
Configurers implement the :meth:`~coverage.CoveragePlugin.configure` method to
change the configuration.
In your ``coverage_init`` function, use the ``add_configurer`` method to
register your configurer.
"""
from coverage import files
from coverage.misc import contract, _needs_to_implement
class CoveragePlugin(object):
"""Base class for coverage.py plug-ins."""
def file_tracer(self, filename): # pylint: disable=unused-argument
"""Get a :class:`FileTracer` object for a file.
Plug-in type: file tracer.
Every Python source file is offered to your plug-in to give it a chance
to take responsibility for tracing the file. If your plug-in can
handle the file, then return a :class:`FileTracer` object. Otherwise
return None.
There is no way to register your plug-in for particular files.
Instead, this method is invoked for all files, and the plug-in decides
whether it can trace the file or not. Be prepared for `filename` to
refer to all kinds of files that have nothing to do with your plug-in.
The file name will be a Python file being executed. There are two
broad categories of behavior for a plug-in, depending on the kind of
files your plug-in supports:
* Static file names: each of your original source files has been
converted into a distinct Python file. Your plug-in is invoked with
the Python file name, and it maps it back to its original source
file.
* Dynamic file names: all of your source files are executed by the same
Python file. In this case, your plug-in implements
:meth:`FileTracer.dynamic_source_filename` to provide the actual
source file for each execution frame.
`filename` is a string, the path to the file being considered. This is
the absolute real path to the file. If you are comparing to other
paths, be sure to take this into account.
Returns a :class:`FileTracer` object to use to trace `filename`, or
None if this plug-in cannot trace this file.
"""
return None
def file_reporter(self, filename): # pylint: disable=unused-argument
"""Get the :class:`FileReporter` class to use for a file.
Plug-in type: file tracer.
This will only be invoked if `filename` returns non-None from
:meth:`file_tracer`. It's an error to return None from this method.
Returns a :class:`FileReporter` object to use to report on `filename`.
"""
_needs_to_implement(self, "file_reporter")
def find_executable_files(self, src_dir): # pylint: disable=unused-argument
"""Yield all of the executable files in `src_dir`, recursively.
Plug-in type: file tracer.
Executability is a plug-in-specific property, but generally means files
which would have been considered for coverage analysis, had they been
included automatically.
Returns or yields a sequence of strings, the paths to files that could
have been executed, including files that had been executed.
"""
return []
def configure(self, config):
"""Modify the configuration of coverage.py.
Plug-in type: configurer.
This method is called during coverage.py start-up, to give your plug-in
a chance to change the configuration. The `config` parameter is an
object with :meth:`~coverage.Coverage.get_option` and
:meth:`~coverage.Coverage.set_option` methods. Do not call any other
methods on the `config` object.
"""
pass
def sys_info(self):
"""Get a list of information useful for debugging.
Plug-in type: any.
This method will be invoked for ``--debug=sys``. Your
plug-in can return any information it wants to be displayed.
Returns a list of pairs: `[(name, value), ...]`.
"""
return []
class FileTracer(object):
"""Support needed for files during the execution phase.
File tracer plug-ins implement subclasses of FileTracer to return from
their :meth:`~CoveragePlugin.file_tracer` method.
You may construct this object from :meth:`CoveragePlugin.file_tracer` any
way you like. A natural choice would be to pass the file name given to
`file_tracer`.
`FileTracer` objects should only be created in the
:meth:`CoveragePlugin.file_tracer` method.
See :ref:`howitworks` for details of the different coverage.py phases.
"""
def source_filename(self):
"""The source file name for this file.
This may be any file name you like. A key responsibility of a plug-in
is to own the mapping from Python execution back to whatever source
file name was originally the source of the code.
See :meth:`CoveragePlugin.file_tracer` for details about static and
dynamic file names.
Returns the file name to credit with this execution.
"""
_needs_to_implement(self, "source_filename")
def has_dynamic_source_filename(self):
"""Does this FileTracer have dynamic source file names?
FileTracers can provide dynamically determined file names by
implementing :meth:`dynamic_source_filename`. Invoking that function
is expensive. To determine whether to invoke it, coverage.py uses the
result of this function to know if it needs to bother invoking
:meth:`dynamic_source_filename`.
See :meth:`CoveragePlugin.file_tracer` for details about static and
dynamic file names.
Returns True if :meth:`dynamic_source_filename` should be called to get
dynamic source file names.
"""
return False
def dynamic_source_filename(self, filename, frame): # pylint: disable=unused-argument
"""Get a dynamically computed source file name.
Some plug-ins need to compute the source file name dynamically for each
frame.
This function will not be invoked if
:meth:`has_dynamic_source_filename` returns False.
Returns the source file name for this frame, or None if this frame
shouldn't be measured.
"""
return None
def line_number_range(self, frame):
"""Get the range of source line numbers for a given a call frame.
The call frame is examined, and the source line number in the original
file is returned. The return value is a pair of numbers, the starting
line number and the ending line number, both inclusive. For example,
returning (5, 7) means that lines 5, 6, and 7 should be considered
executed.
This function might decide that the frame doesn't indicate any lines
from the source file were executed. Return (-1, -1) in this case to
tell coverage.py that no lines should be recorded for this frame.
"""
lineno = frame.f_lineno
return lineno, lineno
class FileReporter(object):
"""Support needed for files during the analysis and reporting phases.
File tracer plug-ins implement a subclass of `FileReporter`, and return
instances from their :meth:`CoveragePlugin.file_reporter` method.
There are many methods here, but only :meth:`lines` is required, to provide
the set of executable lines in the file.
See :ref:`howitworks` for details of the different coverage.py phases.
"""
def __init__(self, filename):
"""Simple initialization of a `FileReporter`.
The `filename` argument is the path to the file being reported. This
will be available as the `.filename` attribute on the object. Other
method implementations on this base class rely on this attribute.
"""
self.filename = filename
def __repr__(self):
return "<{0.__class__.__name__} filename={0.filename!r}>".format(self)
def relative_filename(self):
"""Get the relative file name for this file.
This file path will be displayed in reports. The default
implementation will supply the actual project-relative file path. You
only need to supply this method if you have an unusual syntax for file
paths.
"""
return files.relative_filename(self.filename)
@contract(returns='unicode')
def source(self):
"""Get the source for the file.
Returns a Unicode string.
The base implementation simply reads the `self.filename` file and
decodes it as UTF8. Override this method if your file isn't readable
as a text file, or if you need other encoding support.
"""
with open(self.filename, "rb") as f:
return f.read().decode("utf8")
def lines(self):
"""Get the executable lines in this file.
Your plug-in must determine which lines in the file were possibly
executable. This method returns a set of those line numbers.
Returns a set of line numbers.
"""
_needs_to_implement(self, "lines")
def excluded_lines(self):
"""Get the excluded executable lines in this file.
Your plug-in can use any method it likes to allow the user to exclude
executable lines from consideration.
Returns a set of line numbers.
The base implementation returns the empty set.
"""
return set()
def translate_lines(self, lines):
"""Translate recorded lines into reported lines.
Some file formats will want to report lines slightly differently than
they are recorded. For example, Python records the last line of a
multi-line statement, but reports are nicer if they mention the first
line.
Your plug-in can optionally define this method to perform these kinds
of adjustment.
`lines` is a sequence of integers, the recorded line numbers.
Returns a set of integers, the adjusted line numbers.
The base implementation returns the numbers unchanged.
"""
return set(lines)
def arcs(self):
"""Get the executable arcs in this file.
To support branch coverage, your plug-in needs to be able to indicate
possible execution paths, as a set of line number pairs. Each pair is
a `(prev, next)` pair indicating that execution can transition from the
`prev` line number to the `next` line number.
Returns a set of pairs of line numbers. The default implementation
returns an empty set.
"""
return set()
def no_branch_lines(self):
"""Get the lines excused from branch coverage in this file.
Your plug-in can use any method it likes to allow the user to exclude
lines from consideration of branch coverage.
Returns a set of line numbers.
The base implementation returns the empty set.
"""
return set()
def translate_arcs(self, arcs):
"""Translate recorded arcs into reported arcs.
Similar to :meth:`translate_lines`, but for arcs. `arcs` is a set of
line number pairs.
Returns a set of line number pairs.
The default implementation returns `arcs` unchanged.
"""
return arcs
def exit_counts(self):
"""Get a count of exits from that each line.
To determine which lines are branches, coverage.py looks for lines that
have more than one exit. This function creates a dict mapping each
executable line number to a count of how many exits it has.
To be honest, this feels wrong, and should be refactored. Let me know
if you attempt to implement this method in your plug-in...
"""
return {}
def missing_arc_description(self, start, end, executed_arcs=None): # pylint: disable=unused-argument
"""Provide an English sentence describing a missing arc.
The `start` and `end` arguments are the line numbers of the missing
arc. Negative numbers indicate entering or exiting code objects.
The `executed_arcs` argument is a set of line number pairs, the arcs
that were executed in this file.
By default, this simply returns the string "Line {start} didn't jump
to {end}".
"""
return "Line {start} didn't jump to line {end}".format(start=start, end=end)
def source_token_lines(self):
"""Generate a series of tokenized lines, one for each line in `source`.
These tokens are used for syntax-colored reports.
Each line is a list of pairs, each pair is a token::
[('key', 'def'), ('ws', ' '), ('nam', 'hello'), ('op', '('), ... ]
Each pair has a token class, and the token text. The token classes
are:
* ``'com'``: a comment
* ``'key'``: a keyword
* ``'nam'``: a name, or identifier
* ``'num'``: a number
* ``'op'``: an operator
* ``'str'``: a string literal
* ``'txt'``: some other kind of text
If you concatenate all the token texts, and then join them with
newlines, you should have your original source back.
The default implementation simply returns each line tagged as
``'txt'``.
"""
for line in self.source().splitlines():
yield [('txt', line)]
# Annoying comparison operators. Py3k wants __lt__ etc, and Py2k needs all
# of them defined.
def __eq__(self, other):
return isinstance(other, FileReporter) and self.filename == other.filename
def __ne__(self, other):
return not (self == other)
def __lt__(self, other):
return self.filename < other.filename
def __le__(self, other):
return self.filename <= other.filename
def __gt__(self, other):
return self.filename > other.filename
def __ge__(self, other):
return self.filename >= other.filename
__hash__ = None # This object doesn't need to be hashed.