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refactor dependencies and installation

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There are hard copies of the graphviz and pyyaml dependencies included
in the repo. Remove these.

Sort out installation and dependency handling by writing a functional
setup.py script. Rename top level documentation. Refactor wireviz.py
slightly to allow it to run as an installed script.

# Conflicts:
#	src/batch.py
#	src/wireviz/batch.py
#	src/wireviz/build_examples.py
This commit is contained in:
Andreas Nordin 2020-06-24 18:59:42 +02:00 committed by Daniel Rojas
parent dfb184c1a4
commit 5514fd4244
33 changed files with 117 additions and 7217 deletions
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9
.gitignore vendored
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@ -1,2 +1,9 @@
.DS_Store
temp/
.eggs
__pycache__
.*.swp
*.egg-info
*.pyc
build
data
dist

0
LICENSE.txt → LICENSE
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2
readme.md → README.md
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@ -94,7 +94,7 @@ mywire.html HTML page with wiring diagram and BOM embedded
## Status
This is very much a [work in progress](todo.md). Source code, API, syntax and functionality may change wildly at any time.
This is very much a [work in progress](TODO). Source code, API, syntax and functionality may change wildly at any time.
## Requirements

0
todo.md → TODO
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1
requirements.txt Normal file
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@ -0,0 +1 @@
.

45
setup.py Normal file
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@ -0,0 +1,45 @@
#!/usr/bin/python3
import os
from setuptools import setup, find_packages
project_name = 'wireviz'
# Utility function to read the README file.
# Used for the long_description. It's nice, because now 1) we have a top level
# README file and 2) it's easier to type in the README file than to put a raw
# string in below ...
def read(fname):
return open(os.path.join(os.path.dirname(__file__), fname)).read()
setup(
name=project_name,
version='0.1',
author='Daniel Rojas',
#author_email='',
description='Easily document cables and wiring harnesses',
long_description=read(os.path.join(os.path.dirname(__file__), 'README.md')),
long_description_content_type='text/markdown',
install_requires=[
'pyyaml',
'graphviz',
],
license='GPLv3',
keywords='cable connector hardware harness wiring wiring-diagram wiring-harness',
url='https://github.com/n42/WireViz',
package_dir={'': 'src'},
packages=find_packages('src'),
entry_points={
'console_scripts': ['wireviz=wireviz.wireviz:main'],
},
classifiers=[
'Development Status :: 4 - Beta',
'Environment :: Console',
'Programming Language :: Python :: 3',
'Programming Language :: Python :: 3.7',
'Programming Language :: Python :: 3.8',
'Topic :: Utilities',
'License :: OSI Approved :: GNU General Public License v3 (GPLv3)',
],
)

63
src/graphviz/__init__.py
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@ -1,63 +0,0 @@
# graphviz - create dot, save, render, view
"""Assemble DOT source code and render it with Graphviz.
>>> dot = Digraph(comment='The Round Table')
>>> dot.node('A', 'King Arthur')
>>> dot.node('B', 'Sir Bedevere the Wise')
>>> dot.node('L', 'Sir Lancelot the Brave')
>>> dot.edges(['AB', 'AL'])
>>> dot.edge('B', 'L', constraint='false')
>>> print(dot) #doctest: +NORMALIZE_WHITESPACE
// The Round Table
digraph {
A [label="King Arthur"]
B [label="Sir Bedevere the Wise"]
L [label="Sir Lancelot the Brave"]
A -> B
A -> L
B -> L [constraint=false]
}
"""
from .dot import Graph, Digraph
from .files import Source
from .lang import escape, nohtml
from .backend import (render, pipe, version, view,
ENGINES, FORMATS, RENDERERS, FORMATTERS,
ExecutableNotFound, RequiredArgumentError)
__all__ = [
'Graph', 'Digraph',
'Source',
'escape', 'nohtml',
'render', 'pipe', 'version', 'view',
'ENGINES', 'FORMATS', 'RENDERERS', 'FORMATTERS',
'ExecutableNotFound', 'RequiredArgumentError',
]
__title__ = 'graphviz'
__version__ = '0.14.1.dev0'
__author__ = 'Sebastian Bank <sebastian.bank@uni-leipzig.de>'
__license__ = 'MIT, see LICENSE.txt'
__copyright__ = 'Copyright (c) 2013-2020 Sebastian Bank'
#: Set of known layout commands used for rendering (``'dot'``, ``'neato'``, ...)
ENGINES = ENGINES
#: Set of known output formats for rendering (``'pdf'``, ``'png'``, ...)
FORMATS = FORMATS
#: Set of known output formatters for rendering (``'cairo'``, ``'gd'``, ...)
FORMATTERS = FORMATTERS
#: Set of known output renderers for rendering (``'cairo'``, ``'gd'``, ...)
RENDERERS = RENDERERS
ExecutableNotFound = ExecutableNotFound
RequiredArgumentError = RequiredArgumentError

69
src/graphviz/_compat.py
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@ -1,69 +0,0 @@
# _compat.py - Python 2/3 compatibility
import os
import sys
import operator
import subprocess
PY2 = (sys.version_info.major == 2)
if PY2:
string_classes = (str, unicode) # needed individually for sublassing
text_type = unicode
iteritems = operator.methodcaller('iteritems')
def makedirs(name, mode=0o777, exist_ok=False):
try:
os.makedirs(name, mode)
except OSError:
if not exist_ok or not os.path.isdir(name):
raise
def stderr_write_bytes(data, flush=False):
"""Write data str to sys.stderr (flush if requested)."""
sys.stderr.write(data)
if flush:
sys.stderr.flush()
def Popen_stderr_devnull(*args, **kwargs): # noqa: N802
with open(os.devnull, 'w') as f:
return subprocess.Popen(*args, stderr=f, **kwargs)
class CalledProcessError(subprocess.CalledProcessError):
def __init__(self, returncode, cmd, output=None, stderr=None):
super(CalledProcessError, self).__init__(returncode, cmd, output)
self.stderr = stderr
@property # pragma: no cover
def stdout(self):
return self.output
@stdout.setter # pragma: no cover
def stdout(self, value):
self.output = value
else:
string_classes = (str,)
text_type = str
def iteritems(d):
return iter(d.items())
def makedirs(name, mode=0o777, exist_ok=False): # allow os.makedirs mocking
return os.makedirs(name, mode, exist_ok=exist_ok)
def stderr_write_bytes(data, flush=False):
"""Encode data str and write to sys.stderr (flush if requested)."""
encoding = sys.stderr.encoding or sys.getdefaultencoding()
sys.stderr.write(data.decode(encoding))
if flush:
sys.stderr.flush()
def Popen_stderr_devnull(*args, **kwargs): # noqa: N802
return subprocess.Popen(*args, stderr=subprocess.DEVNULL, **kwargs)
CalledProcessError = subprocess.CalledProcessError

312
src/graphviz/backend.py
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@ -1,312 +0,0 @@
# backend.py - execute rendering, open files in viewer
import os
import re
import errno
import logging
import platform
import subprocess
from . import _compat
from . import tools
__all__ = [
'render', 'pipe', 'version', 'view',
'ENGINES', 'FORMATS', 'RENDERERS', 'FORMATTERS',
'ExecutableNotFound', 'RequiredArgumentError',
]
ENGINES = { # http://www.graphviz.org/pdf/dot.1.pdf
'dot', 'neato', 'twopi', 'circo', 'fdp', 'sfdp', 'patchwork', 'osage',
}
FORMATS = { # http://www.graphviz.org/doc/info/output.html
'bmp',
'canon', 'dot', 'gv', 'xdot', 'xdot1.2', 'xdot1.4',
'cgimage',
'cmap',
'eps',
'exr',
'fig',
'gd', 'gd2',
'gif',
'gtk',
'ico',
'imap', 'cmapx',
'imap_np', 'cmapx_np',
'ismap',
'jp2',
'jpg', 'jpeg', 'jpe',
'json', 'json0', 'dot_json', 'xdot_json', # Graphviz 2.40
'pct', 'pict',
'pdf',
'pic',
'plain', 'plain-ext',
'png',
'pov',
'ps',
'ps2',
'psd',
'sgi',
'svg', 'svgz',
'tga',
'tif', 'tiff',
'tk',
'vml', 'vmlz',
'vrml',
'wbmp',
'webp',
'xlib',
'x11',
}
RENDERERS = { # $ dot -T:
'cairo',
'dot',
'fig',
'gd',
'gdiplus',
'map',
'pic',
'pov',
'ps',
'svg',
'tk',
'vml',
'vrml',
'xdot',
}
FORMATTERS = {'cairo', 'core', 'gd', 'gdiplus', 'gdwbmp', 'xlib'}
PLATFORM = platform.system().lower()
log = logging.getLogger(__name__)
class ExecutableNotFound(RuntimeError):
"""Exception raised if the Graphviz executable is not found."""
_msg = ('failed to execute %r, '
'make sure the Graphviz executables are on your systems\' PATH')
def __init__(self, args):
super(ExecutableNotFound, self).__init__(self._msg % args)
class RequiredArgumentError(Exception):
"""Exception raised if a required argument is missing."""
class CalledProcessError(_compat.CalledProcessError):
def __str__(self):
s = super(CalledProcessError, self).__str__()
return '%s [stderr: %r]' % (s, self.stderr)
def command(engine, format_, filepath=None, renderer=None, formatter=None):
"""Return args list for ``subprocess.Popen`` and name of the rendered file."""
if formatter is not None and renderer is None:
raise RequiredArgumentError('formatter given without renderer')
if engine not in ENGINES:
raise ValueError('unknown engine: %r' % engine)
if format_ not in FORMATS:
raise ValueError('unknown format: %r' % format_)
if renderer is not None and renderer not in RENDERERS:
raise ValueError('unknown renderer: %r' % renderer)
if formatter is not None and formatter not in FORMATTERS:
raise ValueError('unknown formatter: %r' % formatter)
output_format = [f for f in (format_, renderer, formatter) if f is not None]
cmd = [engine, '-T%s' % ':'.join(output_format)]
if filepath is None:
rendered = None
else:
cmd.extend(['-O', filepath])
suffix = '.'.join(reversed(output_format))
rendered = '%s.%s' % (filepath, suffix)
return cmd, rendered
if PLATFORM == 'windows': # pragma: no cover
def get_startupinfo():
"""Return subprocess.STARTUPINFO instance hiding the console window."""
startupinfo = subprocess.STARTUPINFO()
startupinfo.dwFlags |= subprocess.STARTF_USESHOWWINDOW
startupinfo.wShowWindow = subprocess.SW_HIDE
return startupinfo
else:
def get_startupinfo():
"""Return None for startupinfo argument of ``subprocess.Popen``."""
return None
def run(cmd, input=None, capture_output=False, check=False, encoding=None,
quiet=False, **kwargs):
"""Run the command described by cmd and return its (stdout, stderr) tuple."""
log.debug('run %r', cmd)
if input is not None:
kwargs['stdin'] = subprocess.PIPE
if encoding is not None:
input = input.encode(encoding)
if capture_output:
kwargs['stdout'] = kwargs['stderr'] = subprocess.PIPE
try:
proc = subprocess.Popen(cmd, startupinfo=get_startupinfo(), **kwargs)
except OSError as e:
if e.errno == errno.ENOENT:
raise ExecutableNotFound(cmd)
else:
raise
out, err = proc.communicate(input)
if not quiet and err:
_compat.stderr_write_bytes(err, flush=True)
if encoding is not None:
if out is not None:
out = out.decode(encoding)
if err is not None:
err = err.decode(encoding)
if check and proc.returncode:
raise CalledProcessError(proc.returncode, cmd,
output=out, stderr=err)
return out, err
def render(engine, format, filepath, renderer=None, formatter=None, quiet=False):
"""Render file with Graphviz ``engine`` into ``format``, return result filename.
Args:
engine: The layout commmand used for rendering (``'dot'``, ``'neato'``, ...).
format: The output format used for rendering (``'pdf'``, ``'png'``, ...).
filepath: Path to the DOT source file to render.
renderer: The output renderer used for rendering (``'cairo'``, ``'gd'``, ...).
formatter: The output formatter used for rendering (``'cairo'``, ``'gd'``, ...).
quiet (bool): Suppress ``stderr`` output from the layout subprocess.
Returns:
The (possibly relative) path of the rendered file.
Raises:
ValueError: If ``engine``, ``format``, ``renderer``, or ``formatter`` are not known.
graphviz.RequiredArgumentError: If ``formatter`` is given but ``renderer`` is None.
graphviz.ExecutableNotFound: If the Graphviz executable is not found.
subprocess.CalledProcessError: If the exit status is non-zero.
The layout command is started from the directory of ``filepath``, so that
references to external files (e.g. ``[image=...]``) can be given as paths
relative to the DOT source file.
"""
dirname, filename = os.path.split(filepath)
del filepath
cmd, rendered = command(engine, format, filename, renderer, formatter)
if dirname:
cwd = dirname
rendered = os.path.join(dirname, rendered)
else:
cwd = None
run(cmd, capture_output=True, cwd=cwd, check=True, quiet=quiet)
return rendered
def pipe(engine, format, data, renderer=None, formatter=None, quiet=False):
"""Return ``data`` piped through Graphviz ``engine`` into ``format``.
Args:
engine: The layout commmand used for rendering (``'dot'``, ``'neato'``, ...).
format: The output format used for rendering (``'pdf'``, ``'png'``, ...).
data: The binary (encoded) DOT source string to render.
renderer: The output renderer used for rendering (``'cairo'``, ``'gd'``, ...).
formatter: The output formatter used for rendering (``'cairo'``, ``'gd'``, ...).
quiet (bool): Suppress ``stderr`` output from the layout subprocess.
Returns:
Binary (encoded) stdout of the layout command.
Raises:
ValueError: If ``engine``, ``format``, ``renderer``, or ``formatter`` are not known.
graphviz.RequiredArgumentError: If ``formatter`` is given but ``renderer`` is None.
graphviz.ExecutableNotFound: If the Graphviz executable is not found.
subprocess.CalledProcessError: If the exit status is non-zero.
"""
cmd, _ = command(engine, format, None, renderer, formatter)
out, _ = run(cmd, input=data, capture_output=True, check=True, quiet=quiet)
return out
def version():
"""Return the version number tuple from the ``stderr`` output of ``dot -V``.
Returns:
Two, three, or four ``int`` version ``tuple``.
Raises:
graphviz.ExecutableNotFound: If the Graphviz executable is not found.
subprocess.CalledProcessError: If the exit status is non-zero.
RuntimmeError: If the output cannot be parsed into a version number.
"""
cmd = ['dot', '-V']
out, _ = run(cmd, check=True, encoding='ascii',
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT)
ma = re.search(r'graphviz version (\d+\.\d+(?:\.\d+){,2}) ', out)
if ma is None:
raise RuntimeError('cannot parse %r output: %r' % (cmd, out))
return tuple(int(d) for d in ma.group(1).split('.'))
def view(filepath, quiet=False):
"""Open filepath with its default viewing application (platform-specific).
Args:
filepath: Path to the file to open in viewer.
quiet (bool): Suppress ``stderr`` output from the viewer process
(ineffective on Windows).
Raises:
RuntimeError: If the current platform is not supported.
"""
try:
view_func = getattr(view, PLATFORM)
except AttributeError:
raise RuntimeError('platform %r not supported' % PLATFORM)
view_func(filepath, quiet)
@tools.attach(view, 'darwin')
def view_darwin(filepath, quiet):
"""Open filepath with its default application (mac)."""
cmd = ['open', filepath]
log.debug('view: %r', cmd)
popen_func = _compat.Popen_stderr_devnull if quiet else subprocess.Popen
popen_func(cmd)
@tools.attach(view, 'linux')
@tools.attach(view, 'freebsd')
def view_unixoid(filepath, quiet):
"""Open filepath in the user's preferred application (linux, freebsd)."""
cmd = ['xdg-open', filepath]
log.debug('view: %r', cmd)
popen_func = _compat.Popen_stderr_devnull if quiet else subprocess.Popen
popen_func(cmd)
@tools.attach(view, 'windows')
def view_windows(filepath, quiet):
"""Start filepath with its associated application (windows)."""
# TODO: implement quiet=True
filepath = os.path.normpath(filepath)
log.debug('view: %r', filepath)
os.startfile(filepath)

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src/graphviz/dot.py
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# dot.py - create dot code
r"""Assemble DOT source code objects.
>>> dot = Graph(comment=u'M\xf8nti Pyth\xf8n ik den H\xf8lie Grailen')
>>> dot.node(u'M\xf8\xf8se')
>>> dot.node('trained_by', u'trained by')
>>> dot.node('tutte', u'TUTTE HERMSGERVORDENBROTBORDA')
>>> dot.edge(u'M\xf8\xf8se', 'trained_by')
>>> dot.edge('trained_by', 'tutte')
>>> dot.node_attr['shape'] = 'rectangle'
>>> print(dot.source.replace(u'\xf8', '0')) #doctest: +NORMALIZE_WHITESPACE
// M0nti Pyth0n ik den H0lie Grailen
graph {
node [shape=rectangle]
"M00se"
trained_by [label="trained by"]
tutte [label="TUTTE HERMSGERVORDENBROTBORDA"]
"M00se" -- trained_by
trained_by -- tutte
}
>>> dot.view('test-output/m00se.gv') # doctest: +SKIP
'test-output/m00se.gv.pdf'
"""
from . import lang
from . import files
__all__ = ['Graph', 'Digraph']
class Dot(files.File):
"""Assemble, save, and render DOT source code, open result in viewer."""
_comment = '// %s'
_subgraph = 'subgraph %s{'
_subgraph_plain = '%s{'
_node = _attr = '\t%s%s'
_attr_plain = _attr % ('%s', '')
_tail = '}'
_quote = staticmethod(lang.quote)
_quote_edge = staticmethod(lang.quote_edge)
_a_list = staticmethod(lang.a_list)
_attr_list = staticmethod(lang.attr_list)
def __init__(self, name=None, comment=None,
filename=None, directory=None,
format=None, engine=None, encoding=files.ENCODING,
graph_attr=None, node_attr=None, edge_attr=None, body=None,
strict=False):
self.name = name
self.comment = comment
super(Dot, self).__init__(filename, directory, format, engine, encoding)
self.graph_attr = dict(graph_attr) if graph_attr is not None else {}
self.node_attr = dict(node_attr) if node_attr is not None else {}
self.edge_attr = dict(edge_attr) if edge_attr is not None else {}
self.body = list(body) if body is not None else []
self.strict = strict
def _kwargs(self):
result = super(Dot, self)._kwargs()
result.update(name=self.name,
comment=self.comment,
graph_attr=dict(self.graph_attr),
node_attr=dict(self.node_attr),
edge_attr=dict(self.edge_attr),
body=list(self.body),
strict=self.strict)
return result
def clear(self, keep_attrs=False):
"""Reset content to an empty body, clear graph/node/egde_attr mappings.
Args:
keep_attrs (bool): preserve graph/node/egde_attr mappings
"""
if not keep_attrs:
for a in (self.graph_attr, self.node_attr, self.edge_attr):
a.clear()
del self.body[:]
def __iter__(self, subgraph=False):
"""Yield the DOT source code line by line (as graph or subgraph)."""
if self.comment:
yield self._comment % self.comment
if subgraph:
if self.strict:
raise ValueError('subgraphs cannot be strict')
head = self._subgraph if self.name else self._subgraph_plain
else:
head = self._head_strict if self.strict else self._head
yield head % (self._quote(self.name) + ' ' if self.name else '')
for kw in ('graph', 'node', 'edge'):
attrs = getattr(self, '%s_attr' % kw)
if attrs:
yield self._attr % (kw, self._attr_list(None, attrs))
for line in self.body:
yield line
yield self._tail
def __str__(self):
"""The DOT source code as string."""
return '\n'.join(self)
source = property(__str__, doc=__str__.__doc__)
def node(self, name, label=None, _attributes=None, **attrs):
"""Create a node.
Args:
name: Unique identifier for the node inside the source.
label: Caption to be displayed (defaults to the node ``name``).
attrs: Any additional node attributes (must be strings).
"""
name = self._quote(name)
attr_list = self._attr_list(label, attrs, _attributes)
line = self._node % (name, attr_list)
self.body.append(line)
def edge(self, tail_name, head_name, label=None, _attributes=None, **attrs):
"""Create an edge between two nodes.
Args:
tail_name: Start node identifier.
head_name: End node identifier.
label: Caption to be displayed near the edge.
attrs: Any additional edge attributes (must be strings).
"""
tail_name = self._quote_edge(tail_name)
head_name = self._quote_edge(head_name)
attr_list = self._attr_list(label, attrs, _attributes)
line = self._edge % (tail_name, head_name, attr_list)
self.body.append(line)
def edges(self, tail_head_iter):
"""Create a bunch of edges.
Args:
tail_head_iter: Iterable of ``(tail_name, head_name)`` pairs.
"""
edge = self._edge_plain
quote = self._quote_edge
lines = (edge % (quote(t), quote(h)) for t, h in tail_head_iter)
self.body.extend(lines)
def attr(self, kw=None, _attributes=None, **attrs):
"""Add a general or graph/node/edge attribute statement.
Args:
kw: Attributes target (``None`` or ``'graph'``, ``'node'``, ``'edge'``).
attrs: Attributes to be set (must be strings, may be empty).
See the :ref:`usage examples in the User Guide <attributes>`.
"""
if kw is not None and kw.lower() not in ('graph', 'node', 'edge'):
raise ValueError('attr statement must target graph, node, or edge: '
'%r' % kw)
if attrs or _attributes:
if kw is None:
a_list = self._a_list(None, attrs, _attributes)
line = self._attr_plain % a_list
else:
attr_list = self._attr_list(None, attrs, _attributes)
line = self._attr % (kw, attr_list)
self.body.append(line)
def subgraph(self, graph=None, name=None, comment=None,
graph_attr=None, node_attr=None, edge_attr=None, body=None):
"""Add the current content of the given sole ``graph`` argument as subgraph \
or return a context manager returning a new graph instance created \
with the given (``name``, ``comment``, etc.) arguments whose content is \
added as subgraph when leaving the context manager's ``with``-block.
Args:
graph: An instance of the same kind (:class:`.Graph`, :class:`.Digraph`)
as the current graph (sole argument in non-with-block use).
name: Subgraph name (``with``-block use).
comment: Subgraph comment (``with``-block use).
graph_attr: Subgraph-level attribute-value mapping (``with``-block use).
node_attr: Node-level attribute-value mapping (``with``-block use).
edge_attr: Edge-level attribute-value mapping (``with``-block use).
body: Verbatim lines to add to the subgraph ``body`` (``with``-block use).
See the :ref:`usage examples in the User Guide <subgraphs>`.
.. note::
If the ``name`` of the subgraph begins with ``'cluster'`` (all lowercase)
the layout engine will treat it as a special cluster subgraph.
"""
if graph is None:
return SubgraphContext(self, {'name': name,
'comment': comment,
'graph_attr': graph_attr,
'node_attr': node_attr,
'edge_attr': edge_attr,
'body': body})
args = [name, comment, graph_attr, node_attr, edge_attr, body]
if not all(a is None for a in args):
raise ValueError('graph must be sole argument of subgraph()')
if graph.directed != self.directed:
raise ValueError('%r cannot add subgraph of different kind:'
' %r' % (self, graph))
lines = ['\t' + line for line in graph.__iter__(subgraph=True)]
self.body.extend(lines)
class SubgraphContext(object):
"""Return a blank instance of the parent and add as subgraph on exit."""
def __init__(self, parent, kwargs):
self.parent = parent
self.graph = parent.__class__(**kwargs)
def __enter__(self):
return self.graph
def __exit__(self, type_, value, traceback):
if type_ is None:
self.parent.subgraph(self.graph)
class Graph(Dot):
"""Graph source code in the DOT language.
Args:
name: Graph name used in the source code.
comment: Comment added to the first line of the source.
filename: Filename for saving the source (defaults to ``name`` + ``'.gv'``).
directory: (Sub)directory for source saving and rendering.
format: Rendering output format (``'pdf'``, ``'png'``, ...).
engine: Layout command used (``'dot'``, ``'neato'``, ...).
encoding: Encoding for saving the source.
graph_attr: Mapping of ``(attribute, value)`` pairs for the graph.
node_attr: Mapping of ``(attribute, value)`` pairs set for all nodes.
edge_attr: Mapping of ``(attribute, value)`` pairs set for all edges.
body: Iterable of verbatim lines to add to the graph ``body``.
strict (bool): Rendering should merge multi-edges.
Note:
All parameters are optional and can be changed under their
corresponding attribute name after instance creation.
"""
_head = 'graph %s{'
_head_strict = 'strict %s' % _head
_edge = '\t%s -- %s%s'
_edge_plain = _edge % ('%s', '%s', '')
@property
def directed(self):
"""``False``"""
return False
class Digraph(Dot):
"""Directed graph source code in the DOT language."""
if Graph.__doc__ is not None:
__doc__ += Graph.__doc__.partition('.')[2]
_head = 'digraph %s{'
_head_strict = 'strict %s' % _head
_edge = '\t%s -> %s%s'
_edge_plain = _edge % ('%s', '%s', '')
@property
def directed(self):
"""``True``"""
return True

311
src/graphviz/files.py
View File

@ -1,311 +0,0 @@
# files.py - save, render, view
"""Save DOT code objects, render with Graphviz dot, and open in viewer."""
import os
import io
import codecs
import locale
import logging
from ._compat import text_type
from . import backend
from . import tools
__all__ = ['File', 'Source']
ENCODING = 'utf-8'
log = logging.getLogger(__name__)
class Base(object):
_format = 'pdf'
_engine = 'dot'
_encoding = ENCODING
@property
def format(self):
"""The output format used for rendering (``'pdf'``, ``'png'``, ...)."""
return self._format
@format.setter
def format(self, format):
format = format.lower()
if format not in backend.FORMATS:
raise ValueError('unknown format: %r' % format)
self._format = format
@property
def engine(self):
"""The layout commmand used for rendering (``'dot'``, ``'neato'``, ...)."""
return self._engine
@engine.setter
def engine(self, engine):
engine = engine.lower()
if engine not in backend.ENGINES:
raise ValueError('unknown engine: %r' % engine)
self._engine = engine
@property
def encoding(self):
"""The encoding for the saved source file."""
return self._encoding
@encoding.setter
def encoding(self, encoding):
if encoding is None:
encoding = locale.getpreferredencoding()
codecs.lookup(encoding) # raise early
self._encoding = encoding
def copy(self):
"""Return a copied instance of the object.
Returns:
An independent copy of the current object.
"""
kwargs = self._kwargs()
return self.__class__(**kwargs)
def _kwargs(self):
ns = self.__dict__
return {a[1:]: ns[a] for a in ('_format', '_engine', '_encoding')
if a in ns}
class File(Base):
directory = ''
_default_extension = 'gv'
def __init__(self, filename=None, directory=None,
format=None, engine=None, encoding=ENCODING):
if filename is None:
name = getattr(self, 'name', None) or self.__class__.__name__
filename = '%s.%s' % (name, self._default_extension)
self.filename = filename
if directory is not None:
self.directory = directory
if format is not None:
self.format = format
if engine is not None:
self.engine = engine
self.encoding = encoding
def _kwargs(self):
result = super(File, self)._kwargs()
result['filename'] = self.filename
if 'directory' in self.__dict__:
result['directory'] = self.directory
return result
def _repr_svg_(self):
return self.pipe(format='svg').decode(self._encoding)
def pipe(self, format=None, renderer=None, formatter=None, quiet=False):
"""Return the source piped through the Graphviz layout command.
Args:
format: The output format used for rendering (``'pdf'``, ``'png'``, etc.).
renderer: The output renderer used for rendering (``'cairo'``, ``'gd'``, ...).
formatter: The output formatter used for rendering (``'cairo'``, ``'gd'``, ...).
quiet (bool): Suppress ``stderr`` output from the layout subprocess.
Returns:
Binary (encoded) stdout of the layout command.
Raises:
ValueError: If ``format``, ``renderer``, or ``formatter`` are not known.
graphviz.RequiredArgumentError: If ``formatter`` is given but ``renderer`` is None.
graphviz.ExecutableNotFound: If the Graphviz executable is not found.
subprocess.CalledProcessError: If the exit status is non-zero.
"""
if format is None:
format = self._format
data = text_type(self.source).encode(self._encoding)
out = backend.pipe(self._engine, format, data,
renderer=renderer, formatter=formatter,
quiet=quiet)
return out
@property
def filepath(self):
return os.path.join(self.directory, self.filename)
def save(self, filename=None, directory=None):
"""Save the DOT source to file. Ensure the file ends with a newline.
Args:
filename: Filename for saving the source (defaults to ``name`` + ``'.gv'``)
directory: (Sub)directory for source saving and rendering.
Returns:
The (possibly relative) path of the saved source file.
"""
if filename is not None:
self.filename = filename
if directory is not None:
self.directory = directory
filepath = self.filepath
tools.mkdirs(filepath)
data = text_type(self.source)
log.debug('write %d bytes to %r', len(data), filepath)
with io.open(filepath, 'w', encoding=self.encoding) as fd:
fd.write(data)
if not data.endswith(u'\n'):
fd.write(u'\n')
return filepath
def render(self, filename=None, directory=None, view=False, cleanup=False,
format=None, renderer=None, formatter=None,
quiet=False, quiet_view=False):
"""Save the source to file and render with the Graphviz engine.
Args:
filename: Filename for saving the source (defaults to ``name`` + ``'.gv'``)
directory: (Sub)directory for source saving and rendering.
view (bool): Open the rendered result with the default application.
cleanup (bool): Delete the source file after rendering.
format: The output format used for rendering (``'pdf'``, ``'png'``, etc.).
renderer: The output renderer used for rendering (``'cairo'``, ``'gd'``, ...).
formatter: The output formatter used for rendering (``'cairo'``, ``'gd'``, ...).
quiet (bool): Suppress ``stderr`` output from the layout subprocess.
quiet_view (bool): Suppress ``stderr`` output from the viewer process
(implies ``view=True``, ineffective on Windows).
Returns:
The (possibly relative) path of the rendered file.
Raises:
ValueError: If ``format``, ``renderer``, or ``formatter`` are not known.
graphviz.RequiredArgumentError: If ``formatter`` is given but ``renderer`` is None.
graphviz.ExecutableNotFound: If the Graphviz executable is not found.
subprocess.CalledProcessError: If the exit status is non-zero.
RuntimeError: If viewer opening is requested but not supported.
The layout command is started from the directory of ``filepath``, so that
references to external files (e.g. ``[image=...]``) can be given as paths
relative to the DOT source file.
"""
filepath = self.save(filename, directory)
if format is None:
format = self._format
rendered = backend.render(self._engine, format, filepath,
renderer=renderer, formatter=formatter,
quiet=quiet)
if cleanup:
log.debug('delete %r', filepath)
os.remove(filepath)
if quiet_view or view:
self._view(rendered, self._format, quiet_view)
return rendered
def view(self, filename=None, directory=None, cleanup=False,
quiet=False, quiet_view=False):
"""Save the source to file, open the rendered result in a viewer.
Args:
filename: Filename for saving the source (defaults to ``name`` + ``'.gv'``)
directory: (Sub)directory for source saving and rendering.
cleanup (bool): Delete the source file after rendering.
quiet (bool): Suppress ``stderr`` output from the layout subprocess.
quiet_view (bool): Suppress ``stderr`` output from the viewer process
(ineffective on Windows).
Returns:
The (possibly relative) path of the rendered file.
Raises:
graphviz.ExecutableNotFound: If the Graphviz executable is not found.
subprocess.CalledProcessError: If the exit status is non-zero.
RuntimeError: If opening the viewer is not supported.
Short-cut method for calling :meth:`.render` with ``view=True``.
"""
return self.render(filename=filename, directory=directory,
view=True, cleanup=cleanup,
quiet=quiet, quiet_view=quiet_view)
def _view(self, filepath, format, quiet):
"""Start the right viewer based on file format and platform."""
methodnames = [
'_view_%s_%s' % (format, backend.PLATFORM),
'_view_%s' % backend.PLATFORM,
]
for name in methodnames:
view_method = getattr(self, name, None)
if view_method is not None:
break
else:
raise RuntimeError('%r has no built-in viewer support for %r'
' on %r platform' % (self.__class__, format,
backend.PLATFORM))
view_method(filepath, quiet)
_view_darwin = staticmethod(backend.view.darwin)
_view_freebsd = staticmethod(backend.view.freebsd)
_view_linux = staticmethod(backend.view.linux)
_view_windows = staticmethod(backend.view.windows)
class Source(File):
"""Verbatim DOT source code string to be rendered by Graphviz.
Args:
source: The verbatim DOT source code string.
filename: Filename for saving the source (defaults to ``'Source.gv'``).
directory: (Sub)directory for source saving and rendering.
format: Rendering output format (``'pdf'``, ``'png'``, ...).
engine: Layout command used (``'dot'``, ``'neato'``, ...).
encoding: Encoding for saving the source.
Note:
All parameters except ``source`` are optional. All of them can be changed
under their corresponding attribute name after instance creation.
"""
@classmethod
def from_file(cls, filename, directory=None,
format=None, engine=None, encoding=ENCODING):
"""Return an instance with the source string read from the given file.
Args:
filename: Filename for loading/saving the source.
directory: (Sub)directory for source loading/saving and rendering.
format: Rendering output format (``'pdf'``, ``'png'``, ...).
engine: Layout command used (``'dot'``, ``'neato'``, ...).
encoding: Encoding for loading/saving the source.
"""
filepath = os.path.join(directory or '', filename)
if encoding is None:
encoding = locale.getpreferredencoding()
log.debug('read %r with encoding %r', filepath, encoding)
with io.open(filepath, encoding=encoding) as fd:
source = fd.read()
return cls(source, filename, directory, format, engine, encoding)
def __init__(self, source, filename=None, directory=None,
format=None, engine=None, encoding=ENCODING):
super(Source, self).__init__(filename, directory,
format, engine, encoding)
self.source = source #: The verbatim DOT source code string.
def _kwargs(self):
result = super(Source, self)._kwargs()
result['source'] = self.source
return result

195
src/graphviz/lang.py
View File

@ -1,195 +0,0 @@
# lang.py - dot language creation helpers
"""Quote strings to be valid DOT identifiers, assemble attribute lists."""
import re
import collections
import functools
from . import _compat
from . import tools
__all__ = ['quote', 'quote_edge', 'a_list', 'attr_list', 'escape', 'nohtml']
# https://www.graphviz.org/doc/info/lang.html
# https://www.graphviz.org/doc/info/attrs.html#k:escString
HTML_STRING = re.compile(r'<.*>$', re.DOTALL)
ID = re.compile(r'([a-zA-Z_][a-zA-Z0-9_]*|-?(\.[0-9]+|[0-9]+(\.[0-9]*)?))$')
KEYWORDS = {'node', 'edge', 'graph', 'digraph', 'subgraph', 'strict'}
COMPASS = {'n', 'ne', 'e', 'se', 's', 'sw', 'w', 'nw', 'c', '_'} # TODO
QUOTE_OPTIONAL_BACKSLASHES = re.compile(r'(?P<bs>(?:\\\\)*)'
r'\\?(?P<quote>")')
ESCAPE_UNESCAPED_QUOTES = functools.partial(QUOTE_OPTIONAL_BACKSLASHES.sub,
r'\g<bs>\\\g<quote>')
def quote(identifier,
is_html_string=HTML_STRING.match,
is_valid_id=ID.match, dot_keywords=KEYWORDS,
escape_unescaped_quotes=ESCAPE_UNESCAPED_QUOTES):
r"""Return DOT identifier from string, quote if needed.
>>> quote('')
'""'
>>> quote('spam')
'spam'
>>> quote('spam spam')
'"spam spam"'
>>> quote('-4.2')
'-4.2'
>>> quote('.42')
'.42'
>>> quote('<<b>spam</b>>')
'<<b>spam</b>>'
>>> quote(nohtml('<>'))
'"<>"'
>>> print(quote('"'))
"\""
>>> print(quote('\\"'))
"\""
>>> print(quote('\\\\"'))
"\\\""
>>> print(quote('\\\\\\"'))
"\\\""
"""
if is_html_string(identifier) and not isinstance(identifier, NoHtml):
pass
elif not is_valid_id(identifier) or identifier.lower() in dot_keywords:
return '"%s"' % escape_unescaped_quotes(identifier)
return identifier
def quote_edge(identifier):
"""Return DOT edge statement node_id from string, quote if needed.
>>> quote_edge('spam')
'spam'
>>> quote_edge('spam spam:eggs eggs')
'"spam spam":"eggs eggs"'
>>> quote_edge('spam:eggs:s')
'spam:eggs:s'
"""
node, _, rest = identifier.partition(':')
parts = [quote(node)]
if rest:
port, _, compass = rest.partition(':')
parts.append(quote(port))
if compass:
parts.append(compass)
return ':'.join(parts)
def a_list(label=None, kwargs=None, attributes=None):
"""Return assembled DOT a_list string.
>>> a_list('spam', {'spam': None, 'ham': 'ham ham', 'eggs': ''})
'label=spam eggs="" ham="ham ham"'
"""
result = ['label=%s' % quote(label)] if label is not None else []
if kwargs:
items = ['%s=%s' % (quote(k), quote(v))
for k, v in tools.mapping_items(kwargs) if v is not None]
result.extend(items)
if attributes:
if hasattr(attributes, 'items'):
attributes = tools.mapping_items(attributes)
items = ['%s=%s' % (quote(k), quote(v))
for k, v in attributes if v is not None]
result.extend(items)
return ' '.join(result)
def attr_list(label=None, kwargs=None, attributes=None):
"""Return assembled DOT attribute list string.
Sorts ``kwargs`` and ``attributes`` if they are plain dicts (to avoid
unpredictable order from hash randomization in Python 3 versions).
>>> attr_list()
''
>>> attr_list('spam spam', kwargs={'eggs': 'eggs', 'ham': 'ham ham'})
' [label="spam spam" eggs=eggs ham="ham ham"]'
>>> attr_list(kwargs={'spam': None, 'eggs': ''})
' [eggs=""]'
"""
content = a_list(label, kwargs, attributes)
if not content:
return ''
return ' [%s]' % content
def escape(s):
r"""Return ``s`` as literal disabling special meaning of backslashes and ``'<...>'``.
see also https://www.graphviz.org/doc/info/attrs.html#k:escString
Args:
s: String in which backslashes and ``'<...>'`` should be treated as literal.
Raises:
TypeError: If ``s`` is not a ``str`` on Python 3, or a ``str``/``unicode`` on Python 2.
>>> print(escape(r'\l'))
\\l
"""
return nohtml(s.replace('\\', '\\\\'))
class NoHtml(object):
"""Mixin for string subclasses disabling fall-through of ``'<...>'``."""
__slots__ = ()
_doc = "%s subclass that does not treat ``'<...>'`` as DOT HTML string."
@classmethod
def _subcls(cls, other):
name = '%s_%s' % (cls.__name__, other.__name__)
bases = (other, cls)
ns = {'__doc__': cls._doc % other.__name__}
return type(name, bases, ns)
NOHTML = collections.OrderedDict((c, NoHtml._subcls(c)) for c in _compat.string_classes)
def nohtml(s):
"""Return copy of ``s`` that will not treat ``'<...>'`` as DOT HTML string in quoting.
Args:
s: String in which leading ``'<'`` and trailing ``'>'`` should be treated as literal.
Raises:
TypeError: If ``s`` is not a ``str`` on Python 3, or a ``str``/``unicode`` on Python 2.
>>> quote('<>-*-<>')
'<>-*-<>'
>>> quote(nohtml('<>-*-<>'))
'"<>-*-<>"'
"""
try:
subcls = NOHTML[type(s)]
except KeyError:
raise TypeError('%r does not have one of the required types:'
' %r' % (s, list(NOHTML)))
return subcls(s)

47
src/graphviz/tools.py
View File

@ -1,47 +0,0 @@
# tools.py - generic helpers
import os
from . import _compat
__all__ = ['attach', 'mkdirs', 'mapping_items']
def attach(object, name):
"""Return a decorator doing ``setattr(object, name)`` with its argument.
>>> spam = type('Spam', (object,), {})()
>>> @attach(spam, 'eggs')
... def func():
... pass
>>> spam.eggs # doctest: +ELLIPSIS
<function func at 0x...>
"""
def decorator(func):
setattr(object, name, func)
return func
return decorator
def mkdirs(filename, mode=0o777):
"""Recursively create directories up to the path of ``filename`` as needed."""
dirname = os.path.dirname(filename)
if not dirname:
return
_compat.makedirs(dirname, mode=mode, exist_ok=True)
def mapping_items(mapping):
"""Return an iterator over the ``mapping`` items, sort if it's a plain dict.
>>> list(mapping_items({'spam': 0, 'ham': 1, 'eggs': 2}))
[('eggs', 2), ('ham', 1), ('spam', 0)]
>>> from collections import OrderedDict
>>> list(mapping_items(OrderedDict(enumerate(['spam', 'ham', 'eggs']))))
[(0, 'spam'), (1, 'ham'), (2, 'eggs')]
"""
result = _compat.iteritems(mapping)
if type(mapping) is dict:
result = iter(sorted(result))
return result

0
src/wireviz/__init__.py Normal file
View File

54
src/wireviz/build_examples.py Normal file
View File

@ -0,0 +1,54 @@
import wireviz
import os
demos = 2 # 2
<<<<<<< HEAD:src/wireviz/batch.py
examples = 9 # 9
=======
examples = 6 # 6
>>>>>>> 2d428e8... refactor dependencies and installation:src/wireviz/build_examples.py
tutorials = 7 # 7
if demos:
for i in range(1,demos+1):
fn = '../examples/demo{:02d}.yml'.format(i)
print(fn)
wireviz.parse(fn, gen_bom=True)
if examples:
with open(os.path.abspath('../examples/readme.md'), 'w') as file:
file.write('# Example gallery\n')
for i in range(1,examples+1):
fn = '../examples/ex{:02d}.yml'.format(i)
print(fn)
wireviz.parse(fn, gen_bom=True)
file.write('## Example {:02d}\n'.format(i))
file.write('![](ex{:02d}.png)\n\n'.format(i))
file.write('[Source](ex{:02d}.yml) - [Bill of Materials](ex{:02d}.bom.tsv)\n\n\n'.format(i,i))
if tutorials:
with open(os.path.abspath('../tutorial/readme.md'), 'w') as file:
file.write('# WireViz Tutorial\n')
for i in range(1,tutorials+1):
fn = '../tutorial/tutorial{:02d}.yml'.format(i)
print(fn)
wireviz.parse(fn, gen_bom=True)
with open(os.path.abspath('../tutorial/tutorial{:02d}.md'.format(i)), 'r') as info:
for line in info:
file.write(line.replace('## ', '## {} - '.format(i)))
file.write('\n[Source](tutorial{:02d}.yml):\n\n'.format(i))
with open(os.path.abspath('../tutorial/tutorial{:02d}.yml'.format(i)), 'r') as src:
file.write('```yaml\n')
for line in src:
file.write(line)
file.write('```\n')
file.write('\n')
file.write('\nOutput:\n\n'.format(i))
file.write('![](tutorial{:02d}.png)\n\n'.format(i))
file.write('[Bill of Materials](tutorial{:02d}.bom.tsv)\n\n\n'.format(i))

12
src/wireviz/wireviz.py
View File

@ -1,4 +1,6 @@
#!/usr/bin/env python3
import argparse
import os
from dataclasses import dataclass, field
from typing import Any, List
@ -6,8 +8,8 @@ from collections import Counter
import yaml
from graphviz import Graph
import wv_colors
from wv_helper import nested, int2tuple, awg_equiv, flatten2d, tuplelist2tsv
from wireviz import wv_colors
from wireviz.wv_helper import nested, int2tuple, awg_equiv, flatten2d, tuplelist2tsv
class Harness:
@ -620,8 +622,7 @@ def parse(file_in, file_out=None, gen_bom=False):
h.output(filename=file_out, format=('png','svg'), gen_bom=gen_bom, view=False)
if __name__ == '__main__':
import argparse
def main():
ap = argparse.ArgumentParser()
ap.add_argument('file_input', nargs='?', default='_test/test.yml')
ap.add_argument('file_output', nargs='?', default=None)
@ -629,3 +630,6 @@ if __name__ == '__main__':
args = ap.parse_args()
parse(args.file_input, file_out=args.file_output, gen_bom=args.bom)
if __name__ == '__main__':
main()

427
src/yaml/__init__.py
View File

@ -1,427 +0,0 @@
from .error import *
from .tokens import *
from .events import *
from .nodes import *
from .loader import *
from .dumper import *
__version__ = '5.3.1'
try:
from .cyaml import *
__with_libyaml__ = True
except ImportError:
__with_libyaml__ = False
import io
#------------------------------------------------------------------------------
# Warnings control
#------------------------------------------------------------------------------
# 'Global' warnings state:
_warnings_enabled = {
'YAMLLoadWarning': True,
}
# Get or set global warnings' state
def warnings(settings=None):
if settings is None:
return _warnings_enabled
if type(settings) is dict:
for key in settings:
if key in _warnings_enabled:
_warnings_enabled[key] = settings[key]
# Warn when load() is called without Loader=...
class YAMLLoadWarning(RuntimeWarning):
pass
def load_warning(method):
if _warnings_enabled['YAMLLoadWarning'] is False:
return
import warnings
message = (
"calling yaml.%s() without Loader=... is deprecated, as the "
"default Loader is unsafe. Please read "
"https://msg.pyyaml.org/load for full details."
) % method
warnings.warn(message, YAMLLoadWarning, stacklevel=3)
#------------------------------------------------------------------------------
def scan(stream, Loader=Loader):
"""
Scan a YAML stream and produce scanning tokens.
"""
loader = Loader(stream)
try:
while loader.check_token():
yield loader.get_token()
finally:
loader.dispose()
def parse(stream, Loader=Loader):
"""
Parse a YAML stream and produce parsing events.
"""
loader = Loader(stream)
try:
while loader.check_event():
yield loader.get_event()
finally:
loader.dispose()
def compose(stream, Loader=Loader):
"""
Parse the first YAML document in a stream
and produce the corresponding representation tree.
"""
loader = Loader(stream)
try:
return loader.get_single_node()
finally:
loader.dispose()
def compose_all(stream, Loader=Loader):
"""
Parse all YAML documents in a stream
and produce corresponding representation trees.
"""
loader = Loader(stream)
try:
while loader.check_node():
yield loader.get_node()
finally:
loader.dispose()
def load(stream, Loader=None):
"""
Parse the first YAML document in a stream
and produce the corresponding Python object.
"""
if Loader is None:
load_warning('load')
Loader = FullLoader
loader = Loader(stream)
try:
return loader.get_single_data()
finally:
loader.dispose()
def load_all(stream, Loader=None):
"""
Parse all YAML documents in a stream
and produce corresponding Python objects.
"""
if Loader is None:
load_warning('load_all')
Loader = FullLoader
loader = Loader(stream)
try:
while loader.check_data():
yield loader.get_data()
finally:
loader.dispose()
def full_load(stream):
"""
Parse the first YAML document in a stream
and produce the corresponding Python object.
Resolve all tags except those known to be
unsafe on untrusted input.
"""
return load(stream, FullLoader)
def full_load_all(stream):
"""
Parse all YAML documents in a stream
and produce corresponding Python objects.
Resolve all tags except those known to be
unsafe on untrusted input.
"""
return load_all(stream, FullLoader)
def safe_load(stream):
"""
Parse the first YAML document in a stream
and produce the corresponding Python object.
Resolve only basic YAML tags. This is known
to be safe for untrusted input.
"""
return load(stream, SafeLoader)
def safe_load_all(stream):
"""
Parse all YAML documents in a stream
and produce corresponding Python objects.
Resolve only basic YAML tags. This is known
to be safe for untrusted input.
"""
return load_all(stream, SafeLoader)
def unsafe_load(stream):
"""
Parse the first YAML document in a stream
and produce the corresponding Python object.
Resolve all tags, even those known to be
unsafe on untrusted input.
"""
return load(stream, UnsafeLoader)
def unsafe_load_all(stream):
"""
Parse all YAML documents in a stream
and produce corresponding Python objects.
Resolve all tags, even those known to be
unsafe on untrusted input.
"""
return load_all(stream, UnsafeLoader)
def emit(events, stream=None, Dumper=Dumper,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None):
"""
Emit YAML parsing events into a stream.
If stream is None, return the produced string instead.
"""
getvalue = None
if stream is None:
stream = io.StringIO()
getvalue = stream.getvalue
dumper = Dumper(stream, canonical=canonical, indent=indent, width=width,
allow_unicode=allow_unicode, line_break=line_break)
try:
for event in events:
dumper.emit(event)
finally:
dumper.dispose()
if getvalue:
return getvalue()
def serialize_all(nodes, stream=None, Dumper=Dumper,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None):
"""
Serialize a sequence of representation trees into a YAML stream.
If stream is None, return the produced string instead.
"""
getvalue = None
if stream is None:
if encoding is None:
stream = io.StringIO()
else:
stream = io.BytesIO()
getvalue = stream.getvalue
dumper = Dumper(stream, canonical=canonical, indent=indent, width=width,
allow_unicode=allow_unicode, line_break=line_break,
encoding=encoding, version=version, tags=tags,
explicit_start=explicit_start, explicit_end=explicit_end)
try:
dumper.open()
for node in nodes:
dumper.serialize(node)
dumper.close()
finally:
dumper.dispose()
if getvalue:
return getvalue()
def serialize(node, stream=None, Dumper=Dumper, **kwds):
"""
Serialize a representation tree into a YAML stream.
If stream is None, return the produced string instead.
"""
return serialize_all([node], stream, Dumper=Dumper, **kwds)
def dump_all(documents, stream=None, Dumper=Dumper,
default_style=None, default_flow_style=False,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None, sort_keys=True):
"""
Serialize a sequence of Python objects into a YAML stream.
If stream is None, return the produced string instead.
"""
getvalue = None
if stream is None:
if encoding is None:
stream = io.StringIO()
else:
stream = io.BytesIO()
getvalue = stream.getvalue
dumper = Dumper(stream, default_style=default_style,
default_flow_style=default_flow_style,
canonical=canonical, indent=indent, width=width,
allow_unicode=allow_unicode, line_break=line_break,
encoding=encoding, version=version, tags=tags,
explicit_start=explicit_start, explicit_end=explicit_end, sort_keys=sort_keys)
try:
dumper.open()
for data in documents:
dumper.represent(data)
dumper.close()
finally:
dumper.dispose()
if getvalue:
return getvalue()
def dump(data, stream=None, Dumper=Dumper, **kwds):
"""
Serialize a Python object into a YAML stream.
If stream is None, return the produced string instead.
"""
return dump_all([data], stream, Dumper=Dumper, **kwds)
def safe_dump_all(documents, stream=None, **kwds):
"""
Serialize a sequence of Python objects into a YAML stream.
Produce only basic YAML tags.
If stream is None, return the produced string instead.
"""
return dump_all(documents, stream, Dumper=SafeDumper, **kwds)
def safe_dump(data, stream=None, **kwds):
"""
Serialize a Python object into a YAML stream.
Produce only basic YAML tags.
If stream is None, return the produced string instead.
"""
return dump_all([data], stream, Dumper=SafeDumper, **kwds)
def add_implicit_resolver(tag, regexp, first=None,
Loader=None, Dumper=Dumper):
"""
Add an implicit scalar detector.
If an implicit scalar value matches the given regexp,
the corresponding tag is assigned to the scalar.
first is a sequence of possible initial characters or None.
"""
if Loader is None:
loader.Loader.add_implicit_resolver(tag, regexp, first)
loader.FullLoader.add_implicit_resolver(tag, regexp, first)
loader.UnsafeLoader.add_implicit_resolver(tag, regexp, first)
else:
Loader.add_implicit_resolver(tag, regexp, first)
Dumper.add_implicit_resolver(tag, regexp, first)
def add_path_resolver(tag, path, kind=None, Loader=None, Dumper=Dumper):
"""
Add a path based resolver for the given tag.
A path is a list of keys that forms a path
to a node in the representation tree.
Keys can be string values, integers, or None.
"""
if Loader is None:
loader.Loader.add_path_resolver(tag, path, kind)
loader.FullLoader.add_path_resolver(tag, path, kind)
loader.UnsafeLoader.add_path_resolver(tag, path, kind)
else:
Loader.add_path_resolver(tag, path, kind)
Dumper.add_path_resolver(tag, path, kind)
def add_constructor(tag, constructor, Loader=None):
"""
Add a constructor for the given tag.
Constructor is a function that accepts a Loader instance
and a node object and produces the corresponding Python object.
"""
if Loader is None:
loader.Loader.add_constructor(tag, constructor)
loader.FullLoader.add_constructor(tag, constructor)
loader.UnsafeLoader.add_constructor(tag, constructor)
else:
Loader.add_constructor(tag, constructor)
def add_multi_constructor(tag_prefix, multi_constructor, Loader=None):
"""
Add a multi-constructor for the given tag prefix.
Multi-constructor is called for a node if its tag starts with tag_prefix.
Multi-constructor accepts a Loader instance, a tag suffix,
and a node object and produces the corresponding Python object.
"""
if Loader is None:
loader.Loader.add_multi_constructor(tag_prefix, multi_constructor)
loader.FullLoader.add_multi_constructor(tag_prefix, multi_constructor)
loader.UnsafeLoader.add_multi_constructor(tag_prefix, multi_constructor)
else:
Loader.add_multi_constructor(tag_prefix, multi_constructor)
def add_representer(data_type, representer, Dumper=Dumper):
"""
Add a representer for the given type.
Representer is a function accepting a Dumper instance
and an instance of the given data type
and producing the corresponding representation node.
"""
Dumper.add_representer(data_type, representer)
def add_multi_representer(data_type, multi_representer, Dumper=Dumper):
"""
Add a representer for the given type.
Multi-representer is a function accepting a Dumper instance
and an instance of the given data type or subtype
and producing the corresponding representation node.
"""
Dumper.add_multi_representer(data_type, multi_representer)
class YAMLObjectMetaclass(type):
"""
The metaclass for YAMLObject.
"""
def __init__(cls, name, bases, kwds):
super(YAMLObjectMetaclass, cls).__init__(name, bases, kwds)
if 'yaml_tag' in kwds and kwds['yaml_tag'] is not None:
if isinstance(cls.yaml_loader, list):
for loader in cls.yaml_loader:
loader.add_constructor(cls.yaml_tag, cls.from_yaml)
else:
cls.yaml_loader.add_constructor(cls.yaml_tag, cls.from_yaml)
cls.yaml_dumper.add_representer(cls, cls.to_yaml)
class YAMLObject(metaclass=YAMLObjectMetaclass):
"""
An object that can dump itself to a YAML stream
and load itself from a YAML stream.
"""
__slots__ = () # no direct instantiation, so allow immutable subclasses
yaml_loader = [Loader, FullLoader, UnsafeLoader]
yaml_dumper = Dumper
yaml_tag = None
yaml_flow_style = None
@classmethod
def from_yaml(cls, loader, node):
"""
Convert a representation node to a Python object.
"""
return loader.construct_yaml_object(node, cls)
@classmethod
def to_yaml(cls, dumper, data):
"""
Convert a Python object to a representation node.
"""
return dumper.represent_yaml_object(cls.yaml_tag, data, cls,
flow_style=cls.yaml_flow_style)

139
src/yaml/composer.py
View File

@ -1,139 +0,0 @@
__all__ = ['Composer', 'ComposerError']
from .error import MarkedYAMLError
from .events import *
from .nodes import *
class ComposerError(MarkedYAMLError):
pass
class Composer:
def __init__(self):
self.anchors = {}
def check_node(self):
# Drop the STREAM-START event.
if self.check_event(StreamStartEvent):
self.get_event()
# If there are more documents available?
return not self.check_event(StreamEndEvent)
def get_node(self):
# Get the root node of the next document.
if not self.check_event(StreamEndEvent):
return self.compose_document()
def get_single_node(self):
# Drop the STREAM-START event.
self.get_event()
# Compose a document if the stream is not empty.
document = None
if not self.check_event(StreamEndEvent):
document = self.compose_document()
# Ensure that the stream contains no more documents.
if not self.check_event(StreamEndEvent):
event = self.get_event()
raise ComposerError("expected a single document in the stream",
document.start_mark, "but found another document",
event.start_mark)
# Drop the STREAM-END event.
self.get_event()
return document
def compose_document(self):
# Drop the DOCUMENT-START event.
self.get_event()
# Compose the root node.
node = self.compose_node(None, None)
# Drop the DOCUMENT-END event.
self.get_event()
self.anchors = {}
return node
def compose_node(self, parent, index):
if self.check_event(AliasEvent):
event = self.get_event()
anchor = event.anchor
if anchor not in self.anchors:
raise ComposerError(None, None, "found undefined alias %r"
% anchor, event.start_mark)
return self.anchors[anchor]
event = self.peek_event()
anchor = event.anchor
if anchor is not None:
if anchor in self.anchors:
raise ComposerError("found duplicate anchor %r; first occurrence"
% anchor, self.anchors[anchor].start_mark,
"second occurrence", event.start_mark)
self.descend_resolver(parent, index)
if self.check_event(ScalarEvent):
node = self.compose_scalar_node(anchor)
elif self.check_event(SequenceStartEvent):
node = self.compose_sequence_node(anchor)
elif self.check_event(MappingStartEvent):
node = self.compose_mapping_node(anchor)
self.ascend_resolver()
return node
def compose_scalar_node(self, anchor):
event = self.get_event()
tag = event.tag
if tag is None or tag == '!':
tag = self.resolve(ScalarNode, event.value, event.implicit)
node = ScalarNode(tag, event.value,
event.start_mark, event.end_mark, style=event.style)
if anchor is not None:
self.anchors[anchor] = node
return node
def compose_sequence_node(self, anchor):
start_event = self.get_event()
tag = start_event.tag
if tag is None or tag == '!':
tag = self.resolve(SequenceNode, None, start_event.implicit)
node = SequenceNode(tag, [],
start_event.start_mark, None,
flow_style=start_event.flow_style)
if anchor is not None:
self.anchors[anchor] = node
index = 0
while not self.check_event(SequenceEndEvent):
node.value.append(self.compose_node(node, index))
index += 1
end_event = self.get_event()
node.end_mark = end_event.end_mark
return node
def compose_mapping_node(self, anchor):
start_event = self.get_event()
tag = start_event.tag
if tag is None or tag == '!':
tag = self.resolve(MappingNode, None, start_event.implicit)
node = MappingNode(tag, [],
start_event.start_mark, None,
flow_style=start_event.flow_style)
if anchor is not None:
self.anchors[anchor] = node
while not self.check_event(MappingEndEvent):
#key_event = self.peek_event()
item_key = self.compose_node(node, None)
#if item_key in node.value:
# raise ComposerError("while composing a mapping", start_event.start_mark,
# "found duplicate key", key_event.start_mark)
item_value = self.compose_node(node, item_key)
#node.value[item_key] = item_value
node.value.append((item_key, item_value))
end_event = self.get_event()
node.end_mark = end_event.end_mark
return node

748
src/yaml/constructor.py
View File

@ -1,748 +0,0 @@
__all__ = [
'BaseConstructor',
'SafeConstructor',
'FullConstructor',
'UnsafeConstructor',
'Constructor',
'ConstructorError'
]
from .error import *
from .nodes import *
import collections.abc, datetime, base64, binascii, re, sys, types
class ConstructorError(MarkedYAMLError):
pass
class BaseConstructor:
yaml_constructors = {}
yaml_multi_constructors = {}
def __init__(self):
self.constructed_objects = {}
self.recursive_objects = {}
self.state_generators = []
self.deep_construct = False
def check_data(self):
# If there are more documents available?
return self.check_node()
def check_state_key(self, key):
"""Block special attributes/methods from being set in a newly created
object, to prevent user-controlled methods from being called during
deserialization"""
if self.get_state_keys_blacklist_regexp().match(key):
raise ConstructorError(None, None,
"blacklisted key '%s' in instance state found" % (key,), None)
def get_data(self):
# Construct and return the next document.
if self.check_node():
return self.construct_document(self.get_node())
def get_single_data(self):
# Ensure that the stream contains a single document and construct it.
node = self.get_single_node()
if node is not None:
return self.construct_document(node)
return None
def construct_document(self, node):
data = self.construct_object(node)
while self.state_generators:
state_generators = self.state_generators
self.state_generators = []
for generator in state_generators:
for dummy in generator:
pass
self.constructed_objects = {}
self.recursive_objects = {}
self.deep_construct = False
return data
def construct_object(self, node, deep=False):
if node in self.constructed_objects:
return self.constructed_objects[node]
if deep:
old_deep = self.deep_construct
self.deep_construct = True
if node in self.recursive_objects:
raise ConstructorError(None, None,
"found unconstructable recursive node", node.start_mark)
self.recursive_objects[node] = None
constructor = None
tag_suffix = None
if node.tag in self.yaml_constructors:
constructor = self.yaml_constructors[node.tag]
else:
for tag_prefix in self.yaml_multi_constructors:
if tag_prefix is not None and node.tag.startswith(tag_prefix):
tag_suffix = node.tag[len(tag_prefix):]
constructor = self.yaml_multi_constructors[tag_prefix]
break
else:
if None in self.yaml_multi_constructors:
tag_suffix = node.tag
constructor = self.yaml_multi_constructors[None]
elif None in self.yaml_constructors:
constructor = self.yaml_constructors[None]
elif isinstance(node, ScalarNode):
constructor = self.__class__.construct_scalar
elif isinstance(node, SequenceNode):
constructor = self.__class__.construct_sequence
elif isinstance(node, MappingNode):
constructor = self.__class__.construct_mapping
if tag_suffix is None:
data = constructor(self, node)
else:
data = constructor(self, tag_suffix, node)
if isinstance(data, types.GeneratorType):
generator = data
data = next(generator)
if self.deep_construct:
for dummy in generator:
pass
else:
self.state_generators.append(generator)
self.constructed_objects[node] = data
del self.recursive_objects[node]
if deep:
self.deep_construct = old_deep
return data
def construct_scalar(self, node):
if not isinstance(node, ScalarNode):
raise ConstructorError(None, None,
"expected a scalar node, but found %s" % node.id,
node.start_mark)
return node.value
def construct_sequence(self, node, deep=False):
if not isinstance(node, SequenceNode):
raise ConstructorError(None, None,
"expected a sequence node, but found %s" % node.id,
node.start_mark)
return [self.construct_object(child, deep=deep)
for child in node.value]
def construct_mapping(self, node, deep=False):
if not isinstance(node, MappingNode):
raise ConstructorError(None, None,
"expected a mapping node, but found %s" % node.id,
node.start_mark)
mapping = {}
for key_node, value_node in node.value:
key = self.construct_object(key_node, deep=deep)
if not isinstance(key, collections.abc.Hashable):
raise ConstructorError("while constructing a mapping", node.start_mark,
"found unhashable key", key_node.start_mark)
value = self.construct_object(value_node, deep=deep)
mapping[key] = value
return mapping
def construct_pairs(self, node, deep=False):
if not isinstance(node, MappingNode):
raise ConstructorError(None, None,
"expected a mapping node, but found %s" % node.id,
node.start_mark)
pairs = []
for key_node, value_node in node.value:
key = self.construct_object(key_node, deep=deep)
value = self.construct_object(value_node, deep=deep)
pairs.append((key, value))
return pairs
@classmethod
def add_constructor(cls, tag, constructor):
if not 'yaml_constructors' in cls.__dict__:
cls.yaml_constructors = cls.yaml_constructors.copy()
cls.yaml_constructors[tag] = constructor
@classmethod
def add_multi_constructor(cls, tag_prefix, multi_constructor):
if not 'yaml_multi_constructors' in cls.__dict__:
cls.yaml_multi_constructors = cls.yaml_multi_constructors.copy()
cls.yaml_multi_constructors[tag_prefix] = multi_constructor
class SafeConstructor(BaseConstructor):
def construct_scalar(self, node):
if isinstance(node, MappingNode):
for key_node, value_node in node.value:
if key_node.tag == 'tag:yaml.org,2002:value':
return self.construct_scalar(value_node)
return super().construct_scalar(node)
def flatten_mapping(self, node):
merge = []
index = 0
while index < len(node.value):
key_node, value_node = node.value[index]
if key_node.tag == 'tag:yaml.org,2002:merge':
del node.value[index]
if isinstance(value_node, MappingNode):
self.flatten_mapping(value_node)
merge.extend(value_node.value)
elif isinstance(value_node, SequenceNode):
submerge = []
for subnode in value_node.value:
if not isinstance(subnode, MappingNode):
raise ConstructorError("while constructing a mapping",
node.start_mark,
"expected a mapping for merging, but found %s"
% subnode.id, subnode.start_mark)
self.flatten_mapping(subnode)
submerge.append(subnode.value)
submerge.reverse()
for value in submerge:
merge.extend(value)
else:
raise ConstructorError("while constructing a mapping", node.start_mark,
"expected a mapping or list of mappings for merging, but found %s"
% value_node.id, value_node.start_mark)
elif key_node.tag == 'tag:yaml.org,2002:value':
key_node.tag = 'tag:yaml.org,2002:str'
index += 1
else:
index += 1
if merge:
node.value = merge + node.value
def construct_mapping(self, node, deep=False):
if isinstance(node, MappingNode):
self.flatten_mapping(node)
return super().construct_mapping(node, deep=deep)
def construct_yaml_null(self, node):
self.construct_scalar(node)
return None
bool_values = {
'yes': True,
'no': False,
'true': True,
'false': False,
'on': True,
'off': False,
}
def construct_yaml_bool(self, node):
value = self.construct_scalar(node)
return self.bool_values[value.lower()]
def construct_yaml_int(self, node):
value = self.construct_scalar(node)
value = value.replace('_', '')
sign = +1
if value[0] == '-':
sign = -1
if value[0] in '+-':
value = value[1:]
if value == '0':
return 0
elif value.startswith('0b'):
return sign*int(value[2:], 2)
elif value.startswith('0x'):
return sign*int(value[2:], 16)
elif value[0] == '0':
return sign*int(value, 8)
elif ':' in value:
digits = [int(part) for part in value.split(':')]
digits.reverse()
base = 1
value = 0
for digit in digits:
value += digit*base
base *= 60
return sign*value
else:
return sign*int(value)
inf_value = 1e300
while inf_value != inf_value*inf_value:
inf_value *= inf_value
nan_value = -inf_value/inf_value # Trying to make a quiet NaN (like C99).
def construct_yaml_float(self, node):
value = self.construct_scalar(node)
value = value.replace('_', '').lower()
sign = +1
if value[0] == '-':
sign = -1
if value[0] in '+-':
value = value[1:]
if value == '.inf':
return sign*self.inf_value
elif value == '.nan':
return self.nan_value
elif ':' in value:
digits = [float(part) for part in value.split(':')]
digits.reverse()
base = 1
value = 0.0
for digit in digits:
value += digit*base
base *= 60
return sign*value
else:
return sign*float(value)
def construct_yaml_binary(self, node):
try:
value = self.construct_scalar(node).encode('ascii')
except UnicodeEncodeError as exc:
raise ConstructorError(None, None,
"failed to convert base64 data into ascii: %s" % exc,
node.start_mark)
try:
if hasattr(base64, 'decodebytes'):
return base64.decodebytes(value)
else:
return base64.decodestring(value)
except binascii.Error as exc:
raise ConstructorError(None, None,
"failed to decode base64 data: %s" % exc, node.start_mark)
timestamp_regexp = re.compile(
r'''^(?P<year>[0-9][0-9][0-9][0-9])
-(?P<month>[0-9][0-9]?)
-(?P<day>[0-9][0-9]?)
(?:(?:[Tt]|[ \t]+)
(?P<hour>[0-9][0-9]?)
:(?P<minute>[0-9][0-9])
:(?P<second>[0-9][0-9])
(?:\.(?P<fraction>[0-9]*))?
(?:[ \t]*(?P<tz>Z|(?P<tz_sign>[-+])(?P<tz_hour>[0-9][0-9]?)
(?::(?P<tz_minute>[0-9][0-9]))?))?)?$''', re.X)
def construct_yaml_timestamp(self, node):
value = self.construct_scalar(node)
match = self.timestamp_regexp.match(node.value)
values = match.groupdict()
year = int(values['year'])
month = int(values['month'])
day = int(values['day'])
if not values['hour']:
return datetime.date(year, month, day)
hour = int(values['hour'])
minute = int(values['minute'])
second = int(values['second'])
fraction = 0
tzinfo = None
if values['fraction']:
fraction = values['fraction'][:6]
while len(fraction) < 6:
fraction += '0'
fraction = int(fraction)
if values['tz_sign']:
tz_hour = int(values['tz_hour'])
tz_minute = int(values['tz_minute'] or 0)
delta = datetime.timedelta(hours=tz_hour, minutes=tz_minute)
if values['tz_sign'] == '-':
delta = -delta
tzinfo = datetime.timezone(delta)
elif values['tz']:
tzinfo = datetime.timezone.utc
return datetime.datetime(year, month, day, hour, minute, second, fraction,
tzinfo=tzinfo)
def construct_yaml_omap(self, node):
# Note: we do not check for duplicate keys, because it's too
# CPU-expensive.
omap = []
yield omap
if not isinstance(node, SequenceNode):
raise ConstructorError("while constructing an ordered map", node.start_mark,
"expected a sequence, but found %s" % node.id, node.start_mark)
for subnode in node.value:
if not isinstance(subnode, MappingNode):
raise ConstructorError("while constructing an ordered map", node.start_mark,
"expected a mapping of length 1, but found %s" % subnode.id,
subnode.start_mark)
if len(subnode.value) != 1:
raise ConstructorError("while constructing an ordered map", node.start_mark,
"expected a single mapping item, but found %d items" % len(subnode.value),
subnode.start_mark)
key_node, value_node = subnode.value[0]
key = self.construct_object(key_node)
value = self.construct_object(value_node)
omap.append((key, value))
def construct_yaml_pairs(self, node):
# Note: the same code as `construct_yaml_omap`.
pairs = []
yield pairs
if not isinstance(node, SequenceNode):
raise ConstructorError("while constructing pairs", node.start_mark,
"expected a sequence, but found %s" % node.id, node.start_mark)
for subnode in node.value:
if not isinstance(subnode, MappingNode):
raise ConstructorError("while constructing pairs", node.start_mark,
"expected a mapping of length 1, but found %s" % subnode.id,
subnode.start_mark)
if len(subnode.value) != 1:
raise ConstructorError("while constructing pairs", node.start_mark,
"expected a single mapping item, but found %d items" % len(subnode.value),
subnode.start_mark)
key_node, value_node = subnode.value[0]
key = self.construct_object(key_node)
value = self.construct_object(value_node)
pairs.append((key, value))
def construct_yaml_set(self, node):
data = set()
yield data
value = self.construct_mapping(node)
data.update(value)
def construct_yaml_str(self, node):
return self.construct_scalar(node)
def construct_yaml_seq(self, node):
data = []
yield data
data.extend(self.construct_sequence(node))
def construct_yaml_map(self, node):
data = {}
yield data
value = self.construct_mapping(node)
data.update(value)
def construct_yaml_object(self, node, cls):
data = cls.__new__(cls)
yield data
if hasattr(data, '__setstate__'):
state = self.construct_mapping(node, deep=True)
data.__setstate__(state)
else:
state = self.construct_mapping(node)
data.__dict__.update(state)
def construct_undefined(self, node):
raise ConstructorError(None, None,
"could not determine a constructor for the tag %r" % node.tag,
node.start_mark)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:null',
SafeConstructor.construct_yaml_null)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:bool',
SafeConstructor.construct_yaml_bool)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:int',
SafeConstructor.construct_yaml_int)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:float',
SafeConstructor.construct_yaml_float)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:binary',
SafeConstructor.construct_yaml_binary)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:timestamp',
SafeConstructor.construct_yaml_timestamp)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:omap',
SafeConstructor.construct_yaml_omap)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:pairs',
SafeConstructor.construct_yaml_pairs)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:set',
SafeConstructor.construct_yaml_set)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:str',
SafeConstructor.construct_yaml_str)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:seq',
SafeConstructor.construct_yaml_seq)
SafeConstructor.add_constructor(
'tag:yaml.org,2002:map',
SafeConstructor.construct_yaml_map)
SafeConstructor.add_constructor(None,
SafeConstructor.construct_undefined)
class FullConstructor(SafeConstructor):
# 'extend' is blacklisted because it is used by
# construct_python_object_apply to add `listitems` to a newly generate
# python instance
def get_state_keys_blacklist(self):
return ['^extend$', '^__.*__$']
def get_state_keys_blacklist_regexp(self):
if not hasattr(self, 'state_keys_blacklist_regexp'):
self.state_keys_blacklist_regexp = re.compile('(' + '|'.join(self.get_state_keys_blacklist()) + ')')
return self.state_keys_blacklist_regexp
def construct_python_str(self, node):
return self.construct_scalar(node)
def construct_python_unicode(self, node):
return self.construct_scalar(node)
def construct_python_bytes(self, node):
try:
value = self.construct_scalar(node).encode('ascii')
except UnicodeEncodeError as exc:
raise ConstructorError(None, None,
"failed to convert base64 data into ascii: %s" % exc,
node.start_mark)
try:
if hasattr(base64, 'decodebytes'):
return base64.decodebytes(value)
else:
return base64.decodestring(value)
except binascii.Error as exc:
raise ConstructorError(None, None,
"failed to decode base64 data: %s" % exc, node.start_mark)
def construct_python_long(self, node):
return self.construct_yaml_int(node)
def construct_python_complex(self, node):
return complex(self.construct_scalar(node))
def construct_python_tuple(self, node):
return tuple(self.construct_sequence(node))
def find_python_module(self, name, mark, unsafe=False):
if not name:
raise ConstructorError("while constructing a Python module", mark,
"expected non-empty name appended to the tag", mark)
if unsafe:
try:
__import__(name)
except ImportError as exc:
raise ConstructorError("while constructing a Python module", mark,
"cannot find module %r (%s)" % (name, exc), mark)
if name not in sys.modules:
raise ConstructorError("while constructing a Python module", mark,
"module %r is not imported" % name, mark)
return sys.modules[name]
def find_python_name(self, name, mark, unsafe=False):
if not name:
raise ConstructorError("while constructing a Python object", mark,
"expected non-empty name appended to the tag", mark)
if '.' in name:
module_name, object_name = name.rsplit('.', 1)
else:
module_name = 'builtins'
object_name = name
if unsafe:
try:
__import__(module_name)
except ImportError as exc:
raise ConstructorError("while constructing a Python object", mark,
"cannot find module %r (%s)" % (module_name, exc), mark)
if module_name not in sys.modules:
raise ConstructorError("while constructing a Python object", mark,
"module %r is not imported" % module_name, mark)
module = sys.modules[module_name]
if not hasattr(module, object_name):
raise ConstructorError("while constructing a Python object", mark,
"cannot find %r in the module %r"
% (object_name, module.__name__), mark)
return getattr(module, object_name)
def construct_python_name(self, suffix, node):
value = self.construct_scalar(node)
if value:
raise ConstructorError("while constructing a Python name", node.start_mark,
"expected the empty value, but found %r" % value, node.start_mark)
return self.find_python_name(suffix, node.start_mark)
def construct_python_module(self, suffix, node):
value = self.construct_scalar(node)
if value:
raise ConstructorError("while constructing a Python module", node.start_mark,
"expected the empty value, but found %r" % value, node.start_mark)
return self.find_python_module(suffix, node.start_mark)
def make_python_instance(self, suffix, node,
args=None, kwds=None, newobj=False, unsafe=False):
if not args:
args = []
if not kwds:
kwds = {}
cls = self.find_python_name(suffix, node.start_mark)
if not (unsafe or isinstance(cls, type)):
raise ConstructorError("while constructing a Python instance", node.start_mark,
"expected a class, but found %r" % type(cls),
node.start_mark)
if newobj and isinstance(cls, type):
return cls.__new__(cls, *args, **kwds)
else:
return cls(*args, **kwds)
def set_python_instance_state(self, instance, state, unsafe=False):
if hasattr(instance, '__setstate__'):
instance.__setstate__(state)
else:
slotstate = {}
if isinstance(state, tuple) and len(state) == 2:
state, slotstate = state
if hasattr(instance, '__dict__'):
if not unsafe and state:
for key in state.keys():
self.check_state_key(key)
instance.__dict__.update(state)
elif state:
slotstate.update(state)
for key, value in slotstate.items():
if not unsafe:
self.check_state_key(key)
setattr(instance, key, value)
def construct_python_object(self, suffix, node):
# Format:
# !!python/object:module.name { ... state ... }
instance = self.make_python_instance(suffix, node, newobj=True)
yield instance
deep = hasattr(instance, '__setstate__')
state = self.construct_mapping(node, deep=deep)
self.set_python_instance_state(instance, state)
def construct_python_object_apply(self, suffix, node, newobj=False):
# Format:
# !!python/object/apply # (or !!python/object/new)
# args: [ ... arguments ... ]
# kwds: { ... keywords ... }
# state: ... state ...
# listitems: [ ... listitems ... ]
# dictitems: { ... dictitems ... }
# or short format:
# !!python/object/apply [ ... arguments ... ]
# The difference between !!python/object/apply and !!python/object/new
# is how an object is created, check make_python_instance for details.
if isinstance(node, SequenceNode):
args = self.construct_sequence(node, deep=True)
kwds = {}
state = {}
listitems = []
dictitems = {}
else:
value = self.construct_mapping(node, deep=True)
args = value.get('args', [])
kwds = value.get('kwds', {})
state = value.get('state', {})
listitems = value.get('listitems', [])
dictitems = value.get('dictitems', {})
instance = self.make_python_instance(suffix, node, args, kwds, newobj)
if state:
self.set_python_instance_state(instance, state)
if listitems:
instance.extend(listitems)
if dictitems:
for key in dictitems:
instance[key] = dictitems[key]
return instance
def construct_python_object_new(self, suffix, node):
return self.construct_python_object_apply(suffix, node, newobj=True)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/none',
FullConstructor.construct_yaml_null)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/bool',
FullConstructor.construct_yaml_bool)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/str',
FullConstructor.construct_python_str)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/unicode',
FullConstructor.construct_python_unicode)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/bytes',
FullConstructor.construct_python_bytes)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/int',
FullConstructor.construct_yaml_int)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/long',
FullConstructor.construct_python_long)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/float',
FullConstructor.construct_yaml_float)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/complex',
FullConstructor.construct_python_complex)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/list',
FullConstructor.construct_yaml_seq)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/tuple',
FullConstructor.construct_python_tuple)
FullConstructor.add_constructor(
'tag:yaml.org,2002:python/dict',
FullConstructor.construct_yaml_map)
FullConstructor.add_multi_constructor(
'tag:yaml.org,2002:python/name:',
FullConstructor.construct_python_name)
FullConstructor.add_multi_constructor(
'tag:yaml.org,2002:python/module:',
FullConstructor.construct_python_module)
FullConstructor.add_multi_constructor(
'tag:yaml.org,2002:python/object:',
FullConstructor.construct_python_object)
FullConstructor.add_multi_constructor(
'tag:yaml.org,2002:python/object/new:',
FullConstructor.construct_python_object_new)
class UnsafeConstructor(FullConstructor):
def find_python_module(self, name, mark):
return super(UnsafeConstructor, self).find_python_module(name, mark, unsafe=True)
def find_python_name(self, name, mark):
return super(UnsafeConstructor, self).find_python_name(name, mark, unsafe=True)
def make_python_instance(self, suffix, node, args=None, kwds=None, newobj=False):
return super(UnsafeConstructor, self).make_python_instance(
suffix, node, args, kwds, newobj, unsafe=True)
def set_python_instance_state(self, instance, state):
return super(UnsafeConstructor, self).set_python_instance_state(
instance, state, unsafe=True)
UnsafeConstructor.add_multi_constructor(
'tag:yaml.org,2002:python/object/apply:',
UnsafeConstructor.construct_python_object_apply)
# Constructor is same as UnsafeConstructor. Need to leave this in place in case
# people have extended it directly.
class Constructor(UnsafeConstructor):
pass

101
src/yaml/cyaml.py
View File

@ -1,101 +0,0 @@
__all__ = [
'CBaseLoader', 'CSafeLoader', 'CFullLoader', 'CUnsafeLoader', 'CLoader',
'CBaseDumper', 'CSafeDumper', 'CDumper'
]
from _yaml import CParser, CEmitter
from .constructor import *
from .serializer import *
from .representer import *
from .resolver import *
class CBaseLoader(CParser, BaseConstructor, BaseResolver):
def __init__(self, stream):
CParser.__init__(self, stream)
BaseConstructor.__init__(self)
BaseResolver.__init__(self)
class CSafeLoader(CParser, SafeConstructor, Resolver):
def __init__(self, stream):
CParser.__init__(self, stream)
SafeConstructor.__init__(self)
Resolver.__init__(self)
class CFullLoader(CParser, FullConstructor, Resolver):
def __init__(self, stream):
CParser.__init__(self, stream)
FullConstructor.__init__(self)
Resolver.__init__(self)
class CUnsafeLoader(CParser, UnsafeConstructor, Resolver):
def __init__(self, stream):
CParser.__init__(self, stream)
UnsafeConstructor.__init__(self)
Resolver.__init__(self)
class CLoader(CParser, Constructor, Resolver):
def __init__(self, stream):
CParser.__init__(self, stream)
Constructor.__init__(self)
Resolver.__init__(self)
class CBaseDumper(CEmitter, BaseRepresenter, BaseResolver):
def __init__(self, stream,
default_style=None, default_flow_style=False,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None, sort_keys=True):
CEmitter.__init__(self, stream, canonical=canonical,
indent=indent, width=width, encoding=encoding,
allow_unicode=allow_unicode, line_break=line_break,
explicit_start=explicit_start, explicit_end=explicit_end,
version=version, tags=tags)
Representer.__init__(self, default_style=default_style,
default_flow_style=default_flow_style, sort_keys=sort_keys)
Resolver.__init__(self)
class CSafeDumper(CEmitter, SafeRepresenter, Resolver):
def __init__(self, stream,
default_style=None, default_flow_style=False,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None, sort_keys=True):
CEmitter.__init__(self, stream, canonical=canonical,
indent=indent, width=width, encoding=encoding,
allow_unicode=allow_unicode, line_break=line_break,
explicit_start=explicit_start, explicit_end=explicit_end,
version=version, tags=tags)
SafeRepresenter.__init__(self, default_style=default_style,
default_flow_style=default_flow_style, sort_keys=sort_keys)
Resolver.__init__(self)
class CDumper(CEmitter, Serializer, Representer, Resolver):
def __init__(self, stream,
default_style=None, default_flow_style=False,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None, sort_keys=True):
CEmitter.__init__(self, stream, canonical=canonical,
indent=indent, width=width, encoding=encoding,
allow_unicode=allow_unicode, line_break=line_break,
explicit_start=explicit_start, explicit_end=explicit_end,
version=version, tags=tags)
Representer.__init__(self, default_style=default_style,
default_flow_style=default_flow_style, sort_keys=sort_keys)
Resolver.__init__(self)

62
src/yaml/dumper.py
View File

@ -1,62 +0,0 @@
__all__ = ['BaseDumper', 'SafeDumper', 'Dumper']
from .emitter import *
from .serializer import *
from .representer import *
from .resolver import *
class BaseDumper(Emitter, Serializer, BaseRepresenter, BaseResolver):
def __init__(self, stream,
default_style=None, default_flow_style=False,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None, sort_keys=True):
Emitter.__init__(self, stream, canonical=canonical,
indent=indent, width=width,
allow_unicode=allow_unicode, line_break=line_break)
Serializer.__init__(self, encoding=encoding,
explicit_start=explicit_start, explicit_end=explicit_end,
version=version, tags=tags)
Representer.__init__(self, default_style=default_style,
default_flow_style=default_flow_style, sort_keys=sort_keys)
Resolver.__init__(self)
class SafeDumper(Emitter, Serializer, SafeRepresenter, Resolver):
def __init__(self, stream,
default_style=None, default_flow_style=False,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None, sort_keys=True):
Emitter.__init__(self, stream, canonical=canonical,
indent=indent, width=width,
allow_unicode=allow_unicode, line_break=line_break)
Serializer.__init__(self, encoding=encoding,
explicit_start=explicit_start, explicit_end=explicit_end,
version=version, tags=tags)
SafeRepresenter.__init__(self, default_style=default_style,
default_flow_style=default_flow_style, sort_keys=sort_keys)
Resolver.__init__(self)
class Dumper(Emitter, Serializer, Representer, Resolver):
def __init__(self, stream,
default_style=None, default_flow_style=False,
canonical=None, indent=None, width=None,
allow_unicode=None, line_break=None,
encoding=None, explicit_start=None, explicit_end=None,
version=None, tags=None, sort_keys=True):
Emitter.__init__(self, stream, canonical=canonical,
indent=indent, width=width,
allow_unicode=allow_unicode, line_break=line_break)
Serializer.__init__(self, encoding=encoding,
explicit_start=explicit_start, explicit_end=explicit_end,
version=version, tags=tags)
Representer.__init__(self, default_style=default_style,
default_flow_style=default_flow_style, sort_keys=sort_keys)
Resolver.__init__(self)

1137
src/yaml/emitter.py
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File diff suppressed because it is too large Load Diff

75
src/yaml/error.py
View File

@ -1,75 +0,0 @@
__all__ = ['Mark', 'YAMLError', 'MarkedYAMLError']
class Mark:
def __init__(self, name, index, line, column, buffer, pointer):
self.name = name
self.index = index
self.line = line
self.column = column
self.buffer = buffer
self.pointer = pointer
def get_snippet(self, indent=4, max_length=75):
if self.buffer is None:
return None
head = ''
start = self.pointer
while start > 0 and self.buffer[start-1] not in '\0\r\n\x85\u2028\u2029':
start -= 1
if self.pointer-start > max_length/2-1:
head = ' ... '
start += 5
break
tail = ''
end = self.pointer
while end < len(self.buffer) and self.buffer[end] not in '\0\r\n\x85\u2028\u2029':
end += 1
if end-self.pointer > max_length/2-1:
tail = ' ... '
end -= 5
break
snippet = self.buffer[start:end]
return ' '*indent + head + snippet + tail + '\n' \
+ ' '*(indent+self.pointer-start+len(head)) + '^'
def __str__(self):
snippet = self.get_snippet()
where = " in \"%s\", line %d, column %d" \
% (self.name, self.line+1, self.column+1)
if snippet is not None:
where += ":\n"+snippet
return where
class YAMLError(Exception):
pass
class MarkedYAMLError(YAMLError):
def __init__(self, context=None, context_mark=None,
problem=None, problem_mark=None, note=None):
self.context = context
self.context_mark = context_mark
self.problem = problem
self.problem_mark = problem_mark
self.note = note
def __str__(self):
lines = []
if self.context is not None:
lines.append(self.context)
if self.context_mark is not None \
and (self.problem is None or self.problem_mark is None
or self.context_mark.name != self.problem_mark.name
or self.context_mark.line != self.problem_mark.line
or self.context_mark.column != self.problem_mark.column):
lines.append(str(self.context_mark))
if self.problem is not None:
lines.append(self.problem)
if self.problem_mark is not None:
lines.append(str(self.problem_mark))
if self.note is not None:
lines.append(self.note)
return '\n'.join(lines)

86
src/yaml/events.py
View File

@ -1,86 +0,0 @@
# Abstract classes.
class Event(object):
def __init__(self, start_mark=None, end_mark=None):
self.start_mark = start_mark
self.end_mark = end_mark
def __repr__(self):
attributes = [key for key in ['anchor', 'tag', 'implicit', 'value']
if hasattr(self, key)]
arguments = ', '.join(['%s=%r' % (key, getattr(self, key))
for key in attributes])
return '%s(%s)' % (self.__class__.__name__, arguments)
class NodeEvent(Event):
def __init__(self, anchor, start_mark=None, end_mark=None):
self.anchor = anchor
self.start_mark = start_mark
self.end_mark = end_mark
class CollectionStartEvent(NodeEvent):
def __init__(self, anchor, tag, implicit, start_mark=None, end_mark=None,
flow_style=None):
self.anchor = anchor
self.tag = tag
self.implicit = implicit
self.start_mark = start_mark
self.end_mark = end_mark
self.flow_style = flow_style
class CollectionEndEvent(Event):
pass
# Implementations.
class StreamStartEvent(Event):
def __init__(self, start_mark=None, end_mark=None, encoding=None):
self.start_mark = start_mark
self.end_mark = end_mark
self.encoding = encoding
class StreamEndEvent(Event):
pass
class DocumentStartEvent(Event):
def __init__(self, start_mark=None, end_mark=None,
explicit=None, version=None, tags=None):
self.start_mark = start_mark
self.end_mark = end_mark
self.explicit = explicit
self.version = version
self.tags = tags
class DocumentEndEvent(Event):
def __init__(self, start_mark=None, end_mark=None,
explicit=None):
self.start_mark = start_mark
self.end_mark = end_mark
self.explicit = explicit
class AliasEvent(NodeEvent):
pass
class ScalarEvent(NodeEvent):
def __init__(self, anchor, tag, implicit, value,
start_mark=None, end_mark=None, style=None):
self.anchor = anchor
self.tag = tag
self.implicit = implicit
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
self.style = style
class SequenceStartEvent(CollectionStartEvent):
pass
class SequenceEndEvent(CollectionEndEvent):
pass
class MappingStartEvent(CollectionStartEvent):
pass
class MappingEndEvent(CollectionEndEvent):
pass

63
src/yaml/loader.py
View File

@ -1,63 +0,0 @@
__all__ = ['BaseLoader', 'FullLoader', 'SafeLoader', 'Loader', 'UnsafeLoader']
from .reader import *
from .scanner import *
from .parser import *
from .composer import *
from .constructor import *
from .resolver import *
class BaseLoader(Reader, Scanner, Parser, Composer, BaseConstructor, BaseResolver):
def __init__(self, stream):
Reader.__init__(self, stream)
Scanner.__init__(self)
Parser.__init__(self)
Composer.__init__(self)
BaseConstructor.__init__(self)
BaseResolver.__init__(self)
class FullLoader(Reader, Scanner, Parser, Composer, FullConstructor, Resolver):
def __init__(self, stream):
Reader.__init__(self, stream)
Scanner.__init__(self)
Parser.__init__(self)
Composer.__init__(self)
FullConstructor.__init__(self)
Resolver.__init__(self)
class SafeLoader(Reader, Scanner, Parser, Composer, SafeConstructor, Resolver):
def __init__(self, stream):
Reader.__init__(self, stream)
Scanner.__init__(self)
Parser.__init__(self)
Composer.__init__(self)
SafeConstructor.__init__(self)
Resolver.__init__(self)
class Loader(Reader, Scanner, Parser, Composer, Constructor, Resolver):
def __init__(self, stream):
Reader.__init__(self, stream)
Scanner.__init__(self)
Parser.__init__(self)
Composer.__init__(self)
Constructor.__init__(self)
Resolver.__init__(self)
# UnsafeLoader is the same as Loader (which is and was always unsafe on
# untrusted input). Use of either Loader or UnsafeLoader should be rare, since
# FullLoad should be able to load almost all YAML safely. Loader is left intact
# to ensure backwards compatibility.
class UnsafeLoader(Reader, Scanner, Parser, Composer, Constructor, Resolver):
def __init__(self, stream):
Reader.__init__(self, stream)
Scanner.__init__(self)
Parser.__init__(self)
Composer.__init__(self)
Constructor.__init__(self)
Resolver.__init__(self)

49
src/yaml/nodes.py
View File

@ -1,49 +0,0 @@
class Node(object):
def __init__(self, tag, value, start_mark, end_mark):
self.tag = tag
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
def __repr__(self):
value = self.value
#if isinstance(value, list):
# if len(value) == 0:
# value = '<empty>'
# elif len(value) == 1:
# value = '<1 item>'
# else:
# value = '<%d items>' % len(value)
#else:
# if len(value) > 75:
# value = repr(value[:70]+u' ... ')
# else:
# value = repr(value)
value = repr(value)
return '%s(tag=%r, value=%s)' % (self.__class__.__name__, self.tag, value)
class ScalarNode(Node):
id = 'scalar'
def __init__(self, tag, value,
start_mark=None, end_mark=None, style=None):
self.tag = tag
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
self.style = style
class CollectionNode(Node):
def __init__(self, tag, value,
start_mark=None, end_mark=None, flow_style=None):
self.tag = tag
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
self.flow_style = flow_style
class SequenceNode(CollectionNode):
id = 'sequence'
class MappingNode(CollectionNode):
id = 'mapping'

589
src/yaml/parser.py
View File

@ -1,589 +0,0 @@
# The following YAML grammar is LL(1) and is parsed by a recursive descent
# parser.
#
# stream ::= STREAM-START implicit_document? explicit_document* STREAM-END
# implicit_document ::= block_node DOCUMENT-END*
# explicit_document ::= DIRECTIVE* DOCUMENT-START block_node? DOCUMENT-END*
# block_node_or_indentless_sequence ::=
# ALIAS
# | properties (block_content | indentless_block_sequence)?
# | block_content
# | indentless_block_sequence
# block_node ::= ALIAS
# | properties block_content?
# | block_content
# flow_node ::= ALIAS
# | properties flow_content?
# | flow_content
# properties ::= TAG ANCHOR? | ANCHOR TAG?
# block_content ::= block_collection | flow_collection | SCALAR
# flow_content ::= flow_collection | SCALAR
# block_collection ::= block_sequence | block_mapping
# flow_collection ::= flow_sequence | flow_mapping
# block_sequence ::= BLOCK-SEQUENCE-START (BLOCK-ENTRY block_node?)* BLOCK-END
# indentless_sequence ::= (BLOCK-ENTRY block_node?)+
# block_mapping ::= BLOCK-MAPPING_START
# ((KEY block_node_or_indentless_sequence?)?
# (VALUE block_node_or_indentless_sequence?)?)*
# BLOCK-END
# flow_sequence ::= FLOW-SEQUENCE-START
# (flow_sequence_entry FLOW-ENTRY)*
# flow_sequence_entry?
# FLOW-SEQUENCE-END
# flow_sequence_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
# flow_mapping ::= FLOW-MAPPING-START
# (flow_mapping_entry FLOW-ENTRY)*
# flow_mapping_entry?
# FLOW-MAPPING-END
# flow_mapping_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
#
# FIRST sets:
#
# stream: { STREAM-START }
# explicit_document: { DIRECTIVE DOCUMENT-START }
# implicit_document: FIRST(block_node)
# block_node: { ALIAS TAG ANCHOR SCALAR BLOCK-SEQUENCE-START BLOCK-MAPPING-START FLOW-SEQUENCE-START FLOW-MAPPING-START }
# flow_node: { ALIAS ANCHOR TAG SCALAR FLOW-SEQUENCE-START FLOW-MAPPING-START }
# block_content: { BLOCK-SEQUENCE-START BLOCK-MAPPING-START FLOW-SEQUENCE-START FLOW-MAPPING-START SCALAR }
# flow_content: { FLOW-SEQUENCE-START FLOW-MAPPING-START SCALAR }
# block_collection: { BLOCK-SEQUENCE-START BLOCK-MAPPING-START }
# flow_collection: { FLOW-SEQUENCE-START FLOW-MAPPING-START }
# block_sequence: { BLOCK-SEQUENCE-START }
# block_mapping: { BLOCK-MAPPING-START }
# block_node_or_indentless_sequence: { ALIAS ANCHOR TAG SCALAR BLOCK-SEQUENCE-START BLOCK-MAPPING-START FLOW-SEQUENCE-START FLOW-MAPPING-START BLOCK-ENTRY }
# indentless_sequence: { ENTRY }
# flow_collection: { FLOW-SEQUENCE-START FLOW-MAPPING-START }
# flow_sequence: { FLOW-SEQUENCE-START }
# flow_mapping: { FLOW-MAPPING-START }
# flow_sequence_entry: { ALIAS ANCHOR TAG SCALAR FLOW-SEQUENCE-START FLOW-MAPPING-START KEY }
# flow_mapping_entry: { ALIAS ANCHOR TAG SCALAR FLOW-SEQUENCE-START FLOW-MAPPING-START KEY }
__all__ = ['Parser', 'ParserError']
from .error import MarkedYAMLError
from .tokens import *
from .events import *
from .scanner import *
class ParserError(MarkedYAMLError):
pass
class Parser:
# Since writing a recursive-descendant parser is a straightforward task, we
# do not give many comments here.
DEFAULT_TAGS = {
'!': '!',
'!!': 'tag:yaml.org,2002:',
}
def __init__(self):
self.current_event = None
self.yaml_version = None
self.tag_handles = {}
self.states = []
self.marks = []
self.state = self.parse_stream_start
def dispose(self):
# Reset the state attributes (to clear self-references)
self.states = []
self.state = None
def check_event(self, *choices):
# Check the type of the next event.
if self.current_event is None:
if self.state:
self.current_event = self.state()
if self.current_event is not None:
if not choices:
return True
for choice in choices:
if isinstance(self.current_event, choice):
return True
return False
def peek_event(self):
# Get the next event.
if self.current_event is None:
if self.state:
self.current_event = self.state()
return self.current_event
def get_event(self):
# Get the next event and proceed further.
if self.current_event is None:
if self.state:
self.current_event = self.state()
value = self.current_event
self.current_event = None
return value
# stream ::= STREAM-START implicit_document? explicit_document* STREAM-END
# implicit_document ::= block_node DOCUMENT-END*
# explicit_document ::= DIRECTIVE* DOCUMENT-START block_node? DOCUMENT-END*
def parse_stream_start(self):
# Parse the stream start.
token = self.get_token()
event = StreamStartEvent(token.start_mark, token.end_mark,
encoding=token.encoding)
# Prepare the next state.
self.state = self.parse_implicit_document_start
return event
def parse_implicit_document_start(self):
# Parse an implicit document.
if not self.check_token(DirectiveToken, DocumentStartToken,
StreamEndToken):
self.tag_handles = self.DEFAULT_TAGS
token = self.peek_token()
start_mark = end_mark = token.start_mark
event = DocumentStartEvent(start_mark, end_mark,
explicit=False)
# Prepare the next state.
self.states.append(self.parse_document_end)
self.state = self.parse_block_node
return event
else:
return self.parse_document_start()
def parse_document_start(self):
# Parse any extra document end indicators.
while self.check_token(DocumentEndToken):
self.get_token()
# Parse an explicit document.
if not self.check_token(StreamEndToken):
token = self.peek_token()
start_mark = token.start_mark
version, tags = self.process_directives()
if not self.check_token(DocumentStartToken):
raise ParserError(None, None,
"expected '<document start>', but found %r"
% self.peek_token().id,
self.peek_token().start_mark)
token = self.get_token()
end_mark = token.end_mark
event = DocumentStartEvent(start_mark, end_mark,
explicit=True, version=version, tags=tags)
self.states.append(self.parse_document_end)
self.state = self.parse_document_content
else:
# Parse the end of the stream.
token = self.get_token()
event = StreamEndEvent(token.start_mark, token.end_mark)
assert not self.states
assert not self.marks
self.state = None
return event
def parse_document_end(self):
# Parse the document end.
token = self.peek_token()
start_mark = end_mark = token.start_mark
explicit = False
if self.check_token(DocumentEndToken):
token = self.get_token()
end_mark = token.end_mark
explicit = True
event = DocumentEndEvent(start_mark, end_mark,
explicit=explicit)
# Prepare the next state.
self.state = self.parse_document_start
return event
def parse_document_content(self):
if self.check_token(DirectiveToken,
DocumentStartToken, DocumentEndToken, StreamEndToken):
event = self.process_empty_scalar(self.peek_token().start_mark)
self.state = self.states.pop()
return event
else:
return self.parse_block_node()
def process_directives(self):
self.yaml_version = None
self.tag_handles = {}
while self.check_token(DirectiveToken):
token = self.get_token()
if token.name == 'YAML':
if self.yaml_version is not None:
raise ParserError(None, None,
"found duplicate YAML directive", token.start_mark)
major, minor = token.value
if major != 1:
raise ParserError(None, None,
"found incompatible YAML document (version 1.* is required)",
token.start_mark)
self.yaml_version = token.value
elif token.name == 'TAG':
handle, prefix = token.value
if handle in self.tag_handles:
raise ParserError(None, None,
"duplicate tag handle %r" % handle,
token.start_mark)
self.tag_handles[handle] = prefix
if self.tag_handles:
value = self.yaml_version, self.tag_handles.copy()
else:
value = self.yaml_version, None
for key in self.DEFAULT_TAGS:
if key not in self.tag_handles:
self.tag_handles[key] = self.DEFAULT_TAGS[key]
return value
# block_node_or_indentless_sequence ::= ALIAS
# | properties (block_content | indentless_block_sequence)?
# | block_content
# | indentless_block_sequence
# block_node ::= ALIAS
# | properties block_content?
# | block_content
# flow_node ::= ALIAS
# | properties flow_content?
# | flow_content
# properties ::= TAG ANCHOR? | ANCHOR TAG?
# block_content ::= block_collection | flow_collection | SCALAR
# flow_content ::= flow_collection | SCALAR
# block_collection ::= block_sequence | block_mapping
# flow_collection ::= flow_sequence | flow_mapping
def parse_block_node(self):
return self.parse_node(block=True)
def parse_flow_node(self):
return self.parse_node()
def parse_block_node_or_indentless_sequence(self):
return self.parse_node(block=True, indentless_sequence=True)
def parse_node(self, block=False, indentless_sequence=False):
if self.check_token(AliasToken):
token = self.get_token()
event = AliasEvent(token.value, token.start_mark, token.end_mark)
self.state = self.states.pop()
else:
anchor = None
tag = None
start_mark = end_mark = tag_mark = None
if self.check_token(AnchorToken):
token = self.get_token()
start_mark = token.start_mark
end_mark = token.end_mark
anchor = token.value
if self.check_token(TagToken):
token = self.get_token()
tag_mark = token.start_mark
end_mark = token.end_mark
tag = token.value
elif self.check_token(TagToken):
token = self.get_token()
start_mark = tag_mark = token.start_mark
end_mark = token.end_mark
tag = token.value
if self.check_token(AnchorToken):
token = self.get_token()
end_mark = token.end_mark
anchor = token.value
if tag is not None:
handle, suffix = tag
if handle is not None:
if handle not in self.tag_handles:
raise ParserError("while parsing a node", start_mark,
"found undefined tag handle %r" % handle,
tag_mark)
tag = self.tag_handles[handle]+suffix
else:
tag = suffix
#if tag == '!':
# raise ParserError("while parsing a node", start_mark,
# "found non-specific tag '!'", tag_mark,
# "Please check 'http://pyyaml.org/wiki/YAMLNonSpecificTag' and share your opinion.")
if start_mark is None:
start_mark = end_mark = self.peek_token().start_mark
event = None
implicit = (tag is None or tag == '!')
if indentless_sequence and self.check_token(BlockEntryToken):
end_mark = self.peek_token().end_mark
event = SequenceStartEvent(anchor, tag, implicit,
start_mark, end_mark)
self.state = self.parse_indentless_sequence_entry
else:
if self.check_token(ScalarToken):
token = self.get_token()
end_mark = token.end_mark
if (token.plain and tag is None) or tag == '!':
implicit = (True, False)
elif tag is None:
implicit = (False, True)
else:
implicit = (False, False)
event = ScalarEvent(anchor, tag, implicit, token.value,
start_mark, end_mark, style=token.style)
self.state = self.states.pop()
elif self.check_token(FlowSequenceStartToken):
end_mark = self.peek_token().end_mark
event = SequenceStartEvent(anchor, tag, implicit,
start_mark, end_mark, flow_style=True)
self.state = self.parse_flow_sequence_first_entry
elif self.check_token(FlowMappingStartToken):
end_mark = self.peek_token().end_mark
event = MappingStartEvent(anchor, tag, implicit,
start_mark, end_mark, flow_style=True)
self.state = self.parse_flow_mapping_first_key
elif block and self.check_token(BlockSequenceStartToken):
end_mark = self.peek_token().start_mark
event = SequenceStartEvent(anchor, tag, implicit,
start_mark, end_mark, flow_style=False)
self.state = self.parse_block_sequence_first_entry
elif block and self.check_token(BlockMappingStartToken):
end_mark = self.peek_token().start_mark
event = MappingStartEvent(anchor, tag, implicit,
start_mark, end_mark, flow_style=False)
self.state = self.parse_block_mapping_first_key
elif anchor is not None or tag is not None:
# Empty scalars are allowed even if a tag or an anchor is
# specified.
event = ScalarEvent(anchor, tag, (implicit, False), '',
start_mark, end_mark)
self.state = self.states.pop()
else:
if block:
node = 'block'
else:
node = 'flow'
token = self.peek_token()
raise ParserError("while parsing a %s node" % node, start_mark,
"expected the node content, but found %r" % token.id,
token.start_mark)
return event
# block_sequence ::= BLOCK-SEQUENCE-START (BLOCK-ENTRY block_node?)* BLOCK-END
def parse_block_sequence_first_entry(self):
token = self.get_token()
self.marks.append(token.start_mark)
return self.parse_block_sequence_entry()
def parse_block_sequence_entry(self):
if self.check_token(BlockEntryToken):
token = self.get_token()
if not self.check_token(BlockEntryToken, BlockEndToken):
self.states.append(self.parse_block_sequence_entry)
return self.parse_block_node()
else:
self.state = self.parse_block_sequence_entry
return self.process_empty_scalar(token.end_mark)
if not self.check_token(BlockEndToken):
token = self.peek_token()
raise ParserError("while parsing a block collection", self.marks[-1],
"expected <block end>, but found %r" % token.id, token.start_mark)
token = self.get_token()
event = SequenceEndEvent(token.start_mark, token.end_mark)
self.state = self.states.pop()
self.marks.pop()
return event
# indentless_sequence ::= (BLOCK-ENTRY block_node?)+
def parse_indentless_sequence_entry(self):
if self.check_token(BlockEntryToken):
token = self.get_token()
if not self.check_token(BlockEntryToken,
KeyToken, ValueToken, BlockEndToken):
self.states.append(self.parse_indentless_sequence_entry)
return self.parse_block_node()
else:
self.state = self.parse_indentless_sequence_entry
return self.process_empty_scalar(token.end_mark)
token = self.peek_token()
event = SequenceEndEvent(token.start_mark, token.start_mark)
self.state = self.states.pop()
return event
# block_mapping ::= BLOCK-MAPPING_START
# ((KEY block_node_or_indentless_sequence?)?
# (VALUE block_node_or_indentless_sequence?)?)*
# BLOCK-END
def parse_block_mapping_first_key(self):
token = self.get_token()
self.marks.append(token.start_mark)
return self.parse_block_mapping_key()
def parse_block_mapping_key(self):
if self.check_token(KeyToken):
token = self.get_token()
if not self.check_token(KeyToken, ValueToken, BlockEndToken):
self.states.append(self.parse_block_mapping_value)
return self.parse_block_node_or_indentless_sequence()
else:
self.state = self.parse_block_mapping_value
return self.process_empty_scalar(token.end_mark)
if not self.check_token(BlockEndToken):
token = self.peek_token()
raise ParserError("while parsing a block mapping", self.marks[-1],
"expected <block end>, but found %r" % token.id, token.start_mark)
token = self.get_token()
event = MappingEndEvent(token.start_mark, token.end_mark)
self.state = self.states.pop()
self.marks.pop()
return event
def parse_block_mapping_value(self):
if self.check_token(ValueToken):
token = self.get_token()
if not self.check_token(KeyToken, ValueToken, BlockEndToken):
self.states.append(self.parse_block_mapping_key)
return self.parse_block_node_or_indentless_sequence()
else:
self.state = self.parse_block_mapping_key
return self.process_empty_scalar(token.end_mark)
else:
self.state = self.parse_block_mapping_key
token = self.peek_token()
return self.process_empty_scalar(token.start_mark)
# flow_sequence ::= FLOW-SEQUENCE-START
# (flow_sequence_entry FLOW-ENTRY)*
# flow_sequence_entry?
# FLOW-SEQUENCE-END
# flow_sequence_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
#
# Note that while production rules for both flow_sequence_entry and
# flow_mapping_entry are equal, their interpretations are different.
# For `flow_sequence_entry`, the part `KEY flow_node? (VALUE flow_node?)?`
# generate an inline mapping (set syntax).
def parse_flow_sequence_first_entry(self):
token = self.get_token()
self.marks.append(token.start_mark)
return self.parse_flow_sequence_entry(first=True)
def parse_flow_sequence_entry(self, first=False):
if not self.check_token(FlowSequenceEndToken):
if not first:
if self.check_token(FlowEntryToken):
self.get_token()
else:
token = self.peek_token()
raise ParserError("while parsing a flow sequence", self.marks[-1],
"expected ',' or ']', but got %r" % token.id, token.start_mark)
if self.check_token(KeyToken):
token = self.peek_token()
event = MappingStartEvent(None, None, True,
token.start_mark, token.end_mark,
flow_style=True)
self.state = self.parse_flow_sequence_entry_mapping_key
return event
elif not self.check_token(FlowSequenceEndToken):
self.states.append(self.parse_flow_sequence_entry)
return self.parse_flow_node()
token = self.get_token()
event = SequenceEndEvent(token.start_mark, token.end_mark)
self.state = self.states.pop()
self.marks.pop()
return event
def parse_flow_sequence_entry_mapping_key(self):
token = self.get_token()
if not self.check_token(ValueToken,
FlowEntryToken, FlowSequenceEndToken):
self.states.append(self.parse_flow_sequence_entry_mapping_value)
return self.parse_flow_node()
else:
self.state = self.parse_flow_sequence_entry_mapping_value
return self.process_empty_scalar(token.end_mark)
def parse_flow_sequence_entry_mapping_value(self):
if self.check_token(ValueToken):
token = self.get_token()
if not self.check_token(FlowEntryToken, FlowSequenceEndToken):
self.states.append(self.parse_flow_sequence_entry_mapping_end)
return self.parse_flow_node()
else:
self.state = self.parse_flow_sequence_entry_mapping_end
return self.process_empty_scalar(token.end_mark)
else:
self.state = self.parse_flow_sequence_entry_mapping_end
token = self.peek_token()
return self.process_empty_scalar(token.start_mark)
def parse_flow_sequence_entry_mapping_end(self):
self.state = self.parse_flow_sequence_entry
token = self.peek_token()
return MappingEndEvent(token.start_mark, token.start_mark)
# flow_mapping ::= FLOW-MAPPING-START
# (flow_mapping_entry FLOW-ENTRY)*
# flow_mapping_entry?
# FLOW-MAPPING-END
# flow_mapping_entry ::= flow_node | KEY flow_node? (VALUE flow_node?)?
def parse_flow_mapping_first_key(self):
token = self.get_token()
self.marks.append(token.start_mark)
return self.parse_flow_mapping_key(first=True)
def parse_flow_mapping_key(self, first=False):
if not self.check_token(FlowMappingEndToken):
if not first:
if self.check_token(FlowEntryToken):
self.get_token()
else:
token = self.peek_token()
raise ParserError("while parsing a flow mapping", self.marks[-1],
"expected ',' or '}', but got %r" % token.id, token.start_mark)
if self.check_token(KeyToken):
token = self.get_token()
if not self.check_token(ValueToken,
FlowEntryToken, FlowMappingEndToken):
self.states.append(self.parse_flow_mapping_value)
return self.parse_flow_node()
else:
self.state = self.parse_flow_mapping_value
return self.process_empty_scalar(token.end_mark)
elif not self.check_token(FlowMappingEndToken):
self.states.append(self.parse_flow_mapping_empty_value)
return self.parse_flow_node()
token = self.get_token()
event = MappingEndEvent(token.start_mark, token.end_mark)
self.state = self.states.pop()
self.marks.pop()
return event
def parse_flow_mapping_value(self):
if self.check_token(ValueToken):
token = self.get_token()
if not self.check_token(FlowEntryToken, FlowMappingEndToken):
self.states.append(self.parse_flow_mapping_key)
return self.parse_flow_node()
else:
self.state = self.parse_flow_mapping_key
return self.process_empty_scalar(token.end_mark)
else:
self.state = self.parse_flow_mapping_key
token = self.peek_token()
return self.process_empty_scalar(token.start_mark)
def parse_flow_mapping_empty_value(self):
self.state = self.parse_flow_mapping_key
return self.process_empty_scalar(self.peek_token().start_mark)
def process_empty_scalar(self, mark):
return ScalarEvent(None, None, (True, False), '', mark, mark)

185
src/yaml/reader.py
View File

@ -1,185 +0,0 @@
# This module contains abstractions for the input stream. You don't have to
# looks further, there are no pretty code.
#
# We define two classes here.
#
# Mark(source, line, column)
# It's just a record and its only use is producing nice error messages.
# Parser does not use it for any other purposes.
#
# Reader(source, data)
# Reader determines the encoding of `data` and converts it to unicode.
# Reader provides the following methods and attributes:
# reader.peek(length=1) - return the next `length` characters
# reader.forward(length=1) - move the current position to `length` characters.
# reader.index - the number of the current character.
# reader.line, stream.column - the line and the column of the current character.
__all__ = ['Reader', 'ReaderError']
from .error import YAMLError, Mark
import codecs, re
class ReaderError(YAMLError):
def __init__(self, name, position, character, encoding, reason):
self.name = name
self.character = character
self.position = position
self.encoding = encoding
self.reason = reason
def __str__(self):
if isinstance(self.character, bytes):
return "'%s' codec can't decode byte #x%02x: %s\n" \
" in \"%s\", position %d" \
% (self.encoding, ord(self.character), self.reason,
self.name, self.position)
else:
return "unacceptable character #x%04x: %s\n" \
" in \"%s\", position %d" \
% (self.character, self.reason,
self.name, self.position)
class Reader(object):
# Reader:
# - determines the data encoding and converts it to a unicode string,
# - checks if characters are in allowed range,
# - adds '\0' to the end.
# Reader accepts
# - a `bytes` object,
# - a `str` object,
# - a file-like object with its `read` method returning `str`,
# - a file-like object with its `read` method returning `unicode`.
# Yeah, it's ugly and slow.
def __init__(self, stream):
self.name = None
self.stream = None
self.stream_pointer = 0
self.eof = True
self.buffer = ''
self.pointer = 0
self.raw_buffer = None
self.raw_decode = None
self.encoding = None
self.index = 0
self.line = 0
self.column = 0
if isinstance(stream, str):
self.name = "<unicode string>"
self.check_printable(stream)
self.buffer = stream+'\0'
elif isinstance(stream, bytes):
self.name = "<byte string>"
self.raw_buffer = stream
self.determine_encoding()
else:
self.stream = stream
self.name = getattr(stream, 'name', "<file>")
self.eof = False
self.raw_buffer = None
self.determine_encoding()
def peek(self, index=0):
try:
return self.buffer[self.pointer+index]
except IndexError:
self.update(index+1)
return self.buffer[self.pointer+index]
def prefix(self, length=1):
if self.pointer+length >= len(self.buffer):
self.update(length)
return self.buffer[self.pointer:self.pointer+length]
def forward(self, length=1):
if self.pointer+length+1 >= len(self.buffer):
self.update(length+1)
while length:
ch = self.buffer[self.pointer]
self.pointer += 1
self.index += 1
if ch in '\n\x85\u2028\u2029' \
or (ch == '\r' and self.buffer[self.pointer] != '\n'):
self.line += 1
self.column = 0
elif ch != '\uFEFF':
self.column += 1
length -= 1
def get_mark(self):
if self.stream is None:
return Mark(self.name, self.index, self.line, self.column,
self.buffer, self.pointer)
else:
return Mark(self.name, self.index, self.line, self.column,
None, None)
def determine_encoding(self):
while not self.eof and (self.raw_buffer is None or len(self.raw_buffer) < 2):
self.update_raw()
if isinstance(self.raw_buffer, bytes):
if self.raw_buffer.startswith(codecs.BOM_UTF16_LE):
self.raw_decode = codecs.utf_16_le_decode
self.encoding = 'utf-16-le'
elif self.raw_buffer.startswith(codecs.BOM_UTF16_BE):
self.raw_decode = codecs.utf_16_be_decode
self.encoding = 'utf-16-be'
else:
self.raw_decode = codecs.utf_8_decode
self.encoding = 'utf-8'
self.update(1)
NON_PRINTABLE = re.compile('[^\x09\x0A\x0D\x20-\x7E\x85\xA0-\uD7FF\uE000-\uFFFD\U00010000-\U0010ffff]')
def check_printable(self, data):
match = self.NON_PRINTABLE.search(data)
if match:
character = match.group()
position = self.index+(len(self.buffer)-self.pointer)+match.start()
raise ReaderError(self.name, position, ord(character),
'unicode', "special characters are not allowed")
def update(self, length):
if self.raw_buffer is None:
return
self.buffer = self.buffer[self.pointer:]
self.pointer = 0
while len(self.buffer) < length:
if not self.eof:
self.update_raw()
if self.raw_decode is not None:
try:
data, converted = self.raw_decode(self.raw_buffer,
'strict', self.eof)
except UnicodeDecodeError as exc:
character = self.raw_buffer[exc.start]
if self.stream is not None:
position = self.stream_pointer-len(self.raw_buffer)+exc.start
else:
position = exc.start
raise ReaderError(self.name, position, character,
exc.encoding, exc.reason)
else:
data = self.raw_buffer
converted = len(data)
self.check_printable(data)
self.buffer += data
self.raw_buffer = self.raw_buffer[converted:]
if self.eof:
self.buffer += '\0'
self.raw_buffer = None
break
def update_raw(self, size=4096):
data = self.stream.read(size)
if self.raw_buffer is None:
self.raw_buffer = data
else:
self.raw_buffer += data
self.stream_pointer += len(data)
if not data:
self.eof = True

389
src/yaml/representer.py
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@ -1,389 +0,0 @@
__all__ = ['BaseRepresenter', 'SafeRepresenter', 'Representer',
'RepresenterError']
from .error import *
from .nodes import *
import datetime, copyreg, types, base64, collections
class RepresenterError(YAMLError):
pass
class BaseRepresenter:
yaml_representers = {}
yaml_multi_representers = {}
def __init__(self, default_style=None, default_flow_style=False, sort_keys=True):
self.default_style = default_style
self.sort_keys = sort_keys
self.default_flow_style = default_flow_style
self.represented_objects = {}
self.object_keeper = []
self.alias_key = None
def represent(self, data):
node = self.represent_data(data)
self.serialize(node)
self.represented_objects = {}
self.object_keeper = []
self.alias_key = None
def represent_data(self, data):
if self.ignore_aliases(data):
self.alias_key = None
else:
self.alias_key = id(data)
if self.alias_key is not None:
if self.alias_key in self.represented_objects:
node = self.represented_objects[self.alias_key]
#if node is None:
# raise RepresenterError("recursive objects are not allowed: %r" % data)
return node
#self.represented_objects[alias_key] = None
self.object_keeper.append(data)
data_types = type(data).__mro__
if data_types[0] in self.yaml_representers:
node = self.yaml_representers[data_types[0]](self, data)
else:
for data_type in data_types:
if data_type in self.yaml_multi_representers:
node = self.yaml_multi_representers[data_type](self, data)
break
else:
if None in self.yaml_multi_representers:
node = self.yaml_multi_representers[None](self, data)
elif None in self.yaml_representers:
node = self.yaml_representers[None](self, data)
else:
node = ScalarNode(None, str(data))
#if alias_key is not None:
# self.represented_objects[alias_key] = node
return node
@classmethod
def add_representer(cls, data_type, representer):
if not 'yaml_representers' in cls.__dict__:
cls.yaml_representers = cls.yaml_representers.copy()
cls.yaml_representers[data_type] = representer
@classmethod
def add_multi_representer(cls, data_type, representer):
if not 'yaml_multi_representers' in cls.__dict__:
cls.yaml_multi_representers = cls.yaml_multi_representers.copy()
cls.yaml_multi_representers[data_type] = representer
def represent_scalar(self, tag, value, style=None):
if style is None:
style = self.default_style
node = ScalarNode(tag, value, style=style)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
return node
def represent_sequence(self, tag, sequence, flow_style=None):
value = []
node = SequenceNode(tag, value, flow_style=flow_style)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
for item in sequence:
node_item = self.represent_data(item)
if not (isinstance(node_item, ScalarNode) and not node_item.style):
best_style = False
value.append(node_item)
if flow_style is None:
if self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
return node
def represent_mapping(self, tag, mapping, flow_style=None):
value = []
node = MappingNode(tag, value, flow_style=flow_style)
if self.alias_key is not None:
self.represented_objects[self.alias_key] = node
best_style = True
if hasattr(mapping, 'items'):
mapping = list(mapping.items())
if self.sort_keys:
try:
mapping = sorted(mapping)
except TypeError:
pass
for item_key, item_value in mapping:
node_key = self.represent_data(item_key)
node_value = self.represent_data(item_value)
if not (isinstance(node_key, ScalarNode) and not node_key.style):
best_style = False
if not (isinstance(node_value, ScalarNode) and not node_value.style):
best_style = False
value.append((node_key, node_value))
if flow_style is None:
if self.default_flow_style is not None:
node.flow_style = self.default_flow_style
else:
node.flow_style = best_style
return node
def ignore_aliases(self, data):
return False
class SafeRepresenter(BaseRepresenter):
def ignore_aliases(self, data):
if data is None:
return True
if isinstance(data, tuple) and data == ():
return True
if isinstance(data, (str, bytes, bool, int, float)):
return True
def represent_none(self, data):
return self.represent_scalar('tag:yaml.org,2002:null', 'null')
def represent_str(self, data):
return self.represent_scalar('tag:yaml.org,2002:str', data)
def represent_binary(self, data):
if hasattr(base64, 'encodebytes'):
data = base64.encodebytes(data).decode('ascii')
else:
data = base64.encodestring(data).decode('ascii')
return self.represent_scalar('tag:yaml.org,2002:binary', data, style='|')
def represent_bool(self, data):
if data:
value = 'true'
else:
value = 'false'
return self.represent_scalar('tag:yaml.org,2002:bool', value)
def represent_int(self, data):
return self.represent_scalar('tag:yaml.org,2002:int', str(data))
inf_value = 1e300
while repr(inf_value) != repr(inf_value*inf_value):
inf_value *= inf_value
def represent_float(self, data):
if data != data or (data == 0.0 and data == 1.0):
value = '.nan'
elif data == self.inf_value:
value = '.inf'
elif data == -self.inf_value:
value = '-.inf'
else:
value = repr(data).lower()
# Note that in some cases `repr(data)` represents a float number
# without the decimal parts. For instance:
# >>> repr(1e17)
# '1e17'
# Unfortunately, this is not a valid float representation according
# to the definition of the `!!float` tag. We fix this by adding
# '.0' before the 'e' symbol.
if '.' not in value and 'e' in value:
value = value.replace('e', '.0e', 1)
return self.represent_scalar('tag:yaml.org,2002:float', value)
def represent_list(self, data):
#pairs = (len(data) > 0 and isinstance(data, list))
#if pairs:
# for item in data:
# if not isinstance(item, tuple) or len(item) != 2:
# pairs = False
# break
#if not pairs:
return self.represent_sequence('tag:yaml.org,2002:seq', data)
#value = []
#for item_key, item_value in data:
# value.append(self.represent_mapping(u'tag:yaml.org,2002:map',
# [(item_key, item_value)]))
#return SequenceNode(u'tag:yaml.org,2002:pairs', value)
def represent_dict(self, data):
return self.represent_mapping('tag:yaml.org,2002:map', data)
def represent_set(self, data):
value = {}
for key in data:
value[key] = None
return self.represent_mapping('tag:yaml.org,2002:set', value)
def represent_date(self, data):
value = data.isoformat()
return self.represent_scalar('tag:yaml.org,2002:timestamp', value)
def represent_datetime(self, data):
value = data.isoformat(' ')
return self.represent_scalar('tag:yaml.org,2002:timestamp', value)
def represent_yaml_object(self, tag, data, cls, flow_style=None):
if hasattr(data, '__getstate__'):
state = data.__getstate__()
else:
state = data.__dict__.copy()
return self.represent_mapping(tag, state, flow_style=flow_style)
def represent_undefined(self, data):
raise RepresenterError("cannot represent an object", data)
SafeRepresenter.add_representer(type(None),
SafeRepresenter.represent_none)
SafeRepresenter.add_representer(str,
SafeRepresenter.represent_str)
SafeRepresenter.add_representer(bytes,
SafeRepresenter.represent_binary)
SafeRepresenter.add_representer(bool,
SafeRepresenter.represent_bool)
SafeRepresenter.add_representer(int,
SafeRepresenter.represent_int)
SafeRepresenter.add_representer(float,
SafeRepresenter.represent_float)
SafeRepresenter.add_representer(list,
SafeRepresenter.represent_list)
SafeRepresenter.add_representer(tuple,
SafeRepresenter.represent_list)
SafeRepresenter.add_representer(dict,
SafeRepresenter.represent_dict)
SafeRepresenter.add_representer(set,
SafeRepresenter.represent_set)
SafeRepresenter.add_representer(datetime.date,
SafeRepresenter.represent_date)
SafeRepresenter.add_representer(datetime.datetime,
SafeRepresenter.represent_datetime)
SafeRepresenter.add_representer(None,
SafeRepresenter.represent_undefined)
class Representer(SafeRepresenter):
def represent_complex(self, data):
if data.imag == 0.0:
data = '%r' % data.real
elif data.real == 0.0:
data = '%rj' % data.imag
elif data.imag > 0:
data = '%r+%rj' % (data.real, data.imag)
else:
data = '%r%rj' % (data.real, data.imag)
return self.represent_scalar('tag:yaml.org,2002:python/complex', data)
def represent_tuple(self, data):
return self.represent_sequence('tag:yaml.org,2002:python/tuple', data)
def represent_name(self, data):
name = '%s.%s' % (data.__module__, data.__name__)
return self.represent_scalar('tag:yaml.org,2002:python/name:'+name, '')
def represent_module(self, data):
return self.represent_scalar(
'tag:yaml.org,2002:python/module:'+data.__name__, '')
def represent_object(self, data):
# We use __reduce__ API to save the data. data.__reduce__ returns
# a tuple of length 2-5:
# (function, args, state, listitems, dictitems)
# For reconstructing, we calls function(*args), then set its state,
# listitems, and dictitems if they are not None.
# A special case is when function.__name__ == '__newobj__'. In this
# case we create the object with args[0].__new__(*args).
# Another special case is when __reduce__ returns a string - we don't
# support it.
# We produce a !!python/object, !!python/object/new or
# !!python/object/apply node.
cls = type(data)
if cls in copyreg.dispatch_table:
reduce = copyreg.dispatch_table[cls](data)
elif hasattr(data, '__reduce_ex__'):
reduce = data.__reduce_ex__(2)
elif hasattr(data, '__reduce__'):
reduce = data.__reduce__()
else:
raise RepresenterError("cannot represent an object", data)
reduce = (list(reduce)+[None]*5)[:5]
function, args, state, listitems, dictitems = reduce
args = list(args)
if state is None:
state = {}
if listitems is not None:
listitems = list(listitems)
if dictitems is not None:
dictitems = dict(dictitems)
if function.__name__ == '__newobj__':
function = args[0]
args = args[1:]
tag = 'tag:yaml.org,2002:python/object/new:'
newobj = True
else:
tag = 'tag:yaml.org,2002:python/object/apply:'
newobj = False
function_name = '%s.%s' % (function.__module__, function.__name__)
if not args and not listitems and not dictitems \
and isinstance(state, dict) and newobj:
return self.represent_mapping(
'tag:yaml.org,2002:python/object:'+function_name, state)
if not listitems and not dictitems \
and isinstance(state, dict) and not state:
return self.represent_sequence(tag+function_name, args)
value = {}
if args:
value['args'] = args
if state or not isinstance(state, dict):
value['state'] = state
if listitems:
value['listitems'] = listitems
if dictitems:
value['dictitems'] = dictitems
return self.represent_mapping(tag+function_name, value)
def represent_ordered_dict(self, data):
# Provide uniform representation across different Python versions.
data_type = type(data)
tag = 'tag:yaml.org,2002:python/object/apply:%s.%s' \
% (data_type.__module__, data_type.__name__)
items = [[key, value] for key, value in data.items()]
return self.represent_sequence(tag, [items])
Representer.add_representer(complex,
Representer.represent_complex)
Representer.add_representer(tuple,
Representer.represent_tuple)
Representer.add_representer(type,
Representer.represent_name)
Representer.add_representer(collections.OrderedDict,
Representer.represent_ordered_dict)
Representer.add_representer(types.FunctionType,
Representer.represent_name)
Representer.add_representer(types.BuiltinFunctionType,
Representer.represent_name)
Representer.add_representer(types.ModuleType,
Representer.represent_module)
Representer.add_multi_representer(object,
Representer.represent_object)

227
src/yaml/resolver.py
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__all__ = ['BaseResolver', 'Resolver']
from .error import *
from .nodes import *
import re
class ResolverError(YAMLError):
pass
class BaseResolver:
DEFAULT_SCALAR_TAG = 'tag:yaml.org,2002:str'
DEFAULT_SEQUENCE_TAG = 'tag:yaml.org,2002:seq'
DEFAULT_MAPPING_TAG = 'tag:yaml.org,2002:map'
yaml_implicit_resolvers = {}
yaml_path_resolvers = {}
def __init__(self):
self.resolver_exact_paths = []
self.resolver_prefix_paths = []
@classmethod
def add_implicit_resolver(cls, tag, regexp, first):
if not 'yaml_implicit_resolvers' in cls.__dict__:
implicit_resolvers = {}
for key in cls.yaml_implicit_resolvers:
implicit_resolvers[key] = cls.yaml_implicit_resolvers[key][:]
cls.yaml_implicit_resolvers = implicit_resolvers
if first is None:
first = [None]
for ch in first:
cls.yaml_implicit_resolvers.setdefault(ch, []).append((tag, regexp))
@classmethod
def add_path_resolver(cls, tag, path, kind=None):
# Note: `add_path_resolver` is experimental. The API could be changed.
# `new_path` is a pattern that is matched against the path from the
# root to the node that is being considered. `node_path` elements are
# tuples `(node_check, index_check)`. `node_check` is a node class:
# `ScalarNode`, `SequenceNode`, `MappingNode` or `None`. `None`
# matches any kind of a node. `index_check` could be `None`, a boolean
# value, a string value, or a number. `None` and `False` match against
# any _value_ of sequence and mapping nodes. `True` matches against
# any _key_ of a mapping node. A string `index_check` matches against
# a mapping value that corresponds to a scalar key which content is
# equal to the `index_check` value. An integer `index_check` matches
# against a sequence value with the index equal to `index_check`.
if not 'yaml_path_resolvers' in cls.__dict__:
cls.yaml_path_resolvers = cls.yaml_path_resolvers.copy()
new_path = []
for element in path:
if isinstance(element, (list, tuple)):
if len(element) == 2:
node_check, index_check = element
elif len(element) == 1:
node_check = element[0]
index_check = True
else:
raise ResolverError("Invalid path element: %s" % element)
else:
node_check = None
index_check = element
if node_check is str:
node_check = ScalarNode
elif node_check is list:
node_check = SequenceNode
elif node_check is dict:
node_check = MappingNode
elif node_check not in [ScalarNode, SequenceNode, MappingNode] \
and not isinstance(node_check, str) \
and node_check is not None:
raise ResolverError("Invalid node checker: %s" % node_check)
if not isinstance(index_check, (str, int)) \
and index_check is not None:
raise ResolverError("Invalid index checker: %s" % index_check)
new_path.append((node_check, index_check))
if kind is str:
kind = ScalarNode
elif kind is list:
kind = SequenceNode
elif kind is dict:
kind = MappingNode
elif kind not in [ScalarNode, SequenceNode, MappingNode] \
and kind is not None:
raise ResolverError("Invalid node kind: %s" % kind)
cls.yaml_path_resolvers[tuple(new_path), kind] = tag
def descend_resolver(self, current_node, current_index):
if not self.yaml_path_resolvers:
return
exact_paths = {}
prefix_paths = []
if current_node:
depth = len(self.resolver_prefix_paths)
for path, kind in self.resolver_prefix_paths[-1]:
if self.check_resolver_prefix(depth, path, kind,
current_node, current_index):
if len(path) > depth:
prefix_paths.append((path, kind))
else:
exact_paths[kind] = self.yaml_path_resolvers[path, kind]
else:
for path, kind in self.yaml_path_resolvers:
if not path:
exact_paths[kind] = self.yaml_path_resolvers[path, kind]
else:
prefix_paths.append((path, kind))
self.resolver_exact_paths.append(exact_paths)
self.resolver_prefix_paths.append(prefix_paths)
def ascend_resolver(self):
if not self.yaml_path_resolvers:
return
self.resolver_exact_paths.pop()
self.resolver_prefix_paths.pop()
def check_resolver_prefix(self, depth, path, kind,
current_node, current_index):
node_check, index_check = path[depth-1]
if isinstance(node_check, str):
if current_node.tag != node_check:
return
elif node_check is not None:
if not isinstance(current_node, node_check):
return
if index_check is True and current_index is not None:
return
if (index_check is False or index_check is None) \
and current_index is None:
return
if isinstance(index_check, str):
if not (isinstance(current_index, ScalarNode)
and index_check == current_index.value):
return
elif isinstance(index_check, int) and not isinstance(index_check, bool):
if index_check != current_index:
return
return True
def resolve(self, kind, value, implicit):
if kind is ScalarNode and implicit[0]:
if value == '':
resolvers = self.yaml_implicit_resolvers.get('', [])
else:
resolvers = self.yaml_implicit_resolvers.get(value[0], [])
resolvers += self.yaml_implicit_resolvers.get(None, [])
for tag, regexp in resolvers:
if regexp.match(value):
return tag
implicit = implicit[1]
if self.yaml_path_resolvers:
exact_paths = self.resolver_exact_paths[-1]
if kind in exact_paths:
return exact_paths[kind]
if None in exact_paths:
return exact_paths[None]
if kind is ScalarNode:
return self.DEFAULT_SCALAR_TAG
elif kind is SequenceNode:
return self.DEFAULT_SEQUENCE_TAG
elif kind is MappingNode:
return self.DEFAULT_MAPPING_TAG
class Resolver(BaseResolver):
pass
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:bool',
re.compile(r'''^(?:yes|Yes|YES|no|No|NO
|true|True|TRUE|false|False|FALSE
|on|On|ON|off|Off|OFF)$''', re.X),
list('yYnNtTfFoO'))
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:float',
re.compile(r'''^(?:[-+]?(?:[0-9][0-9_]*)\.[0-9_]*(?:[eE][-+][0-9]+)?
|\.[0-9_]+(?:[eE][-+][0-9]+)?
|[-+]?[0-9][0-9_]*(?::[0-5]?[0-9])+\.[0-9_]*
|[-+]?\.(?:inf|Inf|INF)
|\.(?:nan|NaN|NAN))$''', re.X),
list('-+0123456789.'))
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:int',
re.compile(r'''^(?:[-+]?0b[0-1_]+
|[-+]?0[0-7_]+
|[-+]?(?:0|[1-9][0-9_]*)
|[-+]?0x[0-9a-fA-F_]+
|[-+]?[1-9][0-9_]*(?::[0-5]?[0-9])+)$''', re.X),
list('-+0123456789'))
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:merge',
re.compile(r'^(?:<<)$'),
['<'])
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:null',
re.compile(r'''^(?: ~
|null|Null|NULL
| )$''', re.X),
['~', 'n', 'N', ''])
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:timestamp',
re.compile(r'''^(?:[0-9][0-9][0-9][0-9]-[0-9][0-9]-[0-9][0-9]
|[0-9][0-9][0-9][0-9] -[0-9][0-9]? -[0-9][0-9]?
(?:[Tt]|[ \t]+)[0-9][0-9]?
:[0-9][0-9] :[0-9][0-9] (?:\.[0-9]*)?
(?:[ \t]*(?:Z|[-+][0-9][0-9]?(?::[0-9][0-9])?))?)$''', re.X),
list('0123456789'))
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:value',
re.compile(r'^(?:=)$'),
['='])
# The following resolver is only for documentation purposes. It cannot work
# because plain scalars cannot start with '!', '&', or '*'.
Resolver.add_implicit_resolver(
'tag:yaml.org,2002:yaml',
re.compile(r'^(?:!|&|\*)$'),
list('!&*'))

1435
src/yaml/scanner.py
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111
src/yaml/serializer.py
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__all__ = ['Serializer', 'SerializerError']
from .error import YAMLError
from .events import *
from .nodes import *
class SerializerError(YAMLError):
pass
class Serializer:
ANCHOR_TEMPLATE = 'id%03d'
def __init__(self, encoding=None,
explicit_start=None, explicit_end=None, version=None, tags=None):
self.use_encoding = encoding
self.use_explicit_start = explicit_start
self.use_explicit_end = explicit_end
self.use_version = version
self.use_tags = tags
self.serialized_nodes = {}
self.anchors = {}
self.last_anchor_id = 0
self.closed = None
def open(self):
if self.closed is None:
self.emit(StreamStartEvent(encoding=self.use_encoding))
self.closed = False
elif self.closed:
raise SerializerError("serializer is closed")
else:
raise SerializerError("serializer is already opened")
def close(self):
if self.closed is None:
raise SerializerError("serializer is not opened")
elif not self.closed:
self.emit(StreamEndEvent())
self.closed = True
#def __del__(self):
# self.close()
def serialize(self, node):
if self.closed is None:
raise SerializerError("serializer is not opened")
elif self.closed:
raise SerializerError("serializer is closed")
self.emit(DocumentStartEvent(explicit=self.use_explicit_start,
version=self.use_version, tags=self.use_tags))
self.anchor_node(node)
self.serialize_node(node, None, None)
self.emit(DocumentEndEvent(explicit=self.use_explicit_end))
self.serialized_nodes = {}
self.anchors = {}
self.last_anchor_id = 0
def anchor_node(self, node):
if node in self.anchors:
if self.anchors[node] is None:
self.anchors[node] = self.generate_anchor(node)
else:
self.anchors[node] = None
if isinstance(node, SequenceNode):
for item in node.value:
self.anchor_node(item)
elif isinstance(node, MappingNode):
for key, value in node.value:
self.anchor_node(key)
self.anchor_node(value)
def generate_anchor(self, node):
self.last_anchor_id += 1
return self.ANCHOR_TEMPLATE % self.last_anchor_id
def serialize_node(self, node, parent, index):
alias = self.anchors[node]
if node in self.serialized_nodes:
self.emit(AliasEvent(alias))
else:
self.serialized_nodes[node] = True
self.descend_resolver(parent, index)
if isinstance(node, ScalarNode):
detected_tag = self.resolve(ScalarNode, node.value, (True, False))
default_tag = self.resolve(ScalarNode, node.value, (False, True))
implicit = (node.tag == detected_tag), (node.tag == default_tag)
self.emit(ScalarEvent(alias, node.tag, implicit, node.value,
style=node.style))
elif isinstance(node, SequenceNode):
implicit = (node.tag
== self.resolve(SequenceNode, node.value, True))
self.emit(SequenceStartEvent(alias, node.tag, implicit,
flow_style=node.flow_style))
index = 0
for item in node.value:
self.serialize_node(item, node, index)
index += 1
self.emit(SequenceEndEvent())
elif isinstance(node, MappingNode):
implicit = (node.tag
== self.resolve(MappingNode, node.value, True))
self.emit(MappingStartEvent(alias, node.tag, implicit,
flow_style=node.flow_style))
for key, value in node.value:
self.serialize_node(key, node, None)
self.serialize_node(value, node, key)
self.emit(MappingEndEvent())
self.ascend_resolver()

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src/yaml/tokens.py
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class Token(object):
def __init__(self, start_mark, end_mark):
self.start_mark = start_mark
self.end_mark = end_mark
def __repr__(self):
attributes = [key for key in self.__dict__
if not key.endswith('_mark')]
attributes.sort()
arguments = ', '.join(['%s=%r' % (key, getattr(self, key))
for key in attributes])
return '%s(%s)' % (self.__class__.__name__, arguments)
#class BOMToken(Token):
# id = '<byte order mark>'
class DirectiveToken(Token):
id = '<directive>'
def __init__(self, name, value, start_mark, end_mark):
self.name = name
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
class DocumentStartToken(Token):
id = '<document start>'
class DocumentEndToken(Token):
id = '<document end>'
class StreamStartToken(Token):
id = '<stream start>'
def __init__(self, start_mark=None, end_mark=None,
encoding=None):
self.start_mark = start_mark
self.end_mark = end_mark
self.encoding = encoding
class StreamEndToken(Token):
id = '<stream end>'
class BlockSequenceStartToken(Token):
id = '<block sequence start>'
class BlockMappingStartToken(Token):
id = '<block mapping start>'
class BlockEndToken(Token):
id = '<block end>'
class FlowSequenceStartToken(Token):
id = '['
class FlowMappingStartToken(Token):
id = '{'
class FlowSequenceEndToken(Token):
id = ']'
class FlowMappingEndToken(Token):
id = '}'
class KeyToken(Token):
id = '?'
class ValueToken(Token):
id = ':'
class BlockEntryToken(Token):
id = '-'
class FlowEntryToken(Token):
id = ','
class AliasToken(Token):
id = '<alias>'
def __init__(self, value, start_mark, end_mark):
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
class AnchorToken(Token):
id = '<anchor>'
def __init__(self, value, start_mark, end_mark):
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
class TagToken(Token):
id = '<tag>'
def __init__(self, value, start_mark, end_mark):
self.value = value
self.start_mark = start_mark
self.end_mark = end_mark
class ScalarToken(Token):
id = '<scalar>'
def __init__(self, value, plain, start_mark, end_mark, style=None):
self.value = value
self.plain = plain
self.start_mark = start_mark
self.end_mark = end_mark
self.style = style