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matekasse/venv/lib/python3.11/site-packages/werkzeug/debug/repr.py
2023-07-28 23:30:45 +02:00

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9.1 KiB
Python

"""Object representations for debugging purposes. Unlike the default
repr, these expose more information and produce HTML instead of ASCII.
Together with the CSS and JavaScript of the debugger this gives a
colorful and more compact output.
"""
from __future__ import annotations
import codecs
import re
import sys
import typing as t
from collections import deque
from traceback import format_exception_only
from markupsafe import escape
missing = object()
_paragraph_re = re.compile(r"(?:\r\n|\r|\n){2,}")
RegexType = type(_paragraph_re)
HELP_HTML = """\
<div class=box>
<h3>%(title)s</h3>
<pre class=help>%(text)s</pre>
</div>\
"""
OBJECT_DUMP_HTML = """\
<div class=box>
<h3>%(title)s</h3>
%(repr)s
<table>%(items)s</table>
</div>\
"""
def debug_repr(obj: object) -> str:
"""Creates a debug repr of an object as HTML string."""
return DebugReprGenerator().repr(obj)
def dump(obj: object = missing) -> None:
"""Print the object details to stdout._write (for the interactive
console of the web debugger.
"""
gen = DebugReprGenerator()
if obj is missing:
rv = gen.dump_locals(sys._getframe(1).f_locals)
else:
rv = gen.dump_object(obj)
sys.stdout._write(rv) # type: ignore
class _Helper:
"""Displays an HTML version of the normal help, for the interactive
debugger only because it requires a patched sys.stdout.
"""
def __repr__(self) -> str:
return "Type help(object) for help about object."
def __call__(self, topic: t.Any | None = None) -> None:
if topic is None:
sys.stdout._write(f"<span class=help>{self!r}</span>") # type: ignore
return
import pydoc
pydoc.help(topic)
rv = sys.stdout.reset() # type: ignore
paragraphs = _paragraph_re.split(rv)
if len(paragraphs) > 1:
title = paragraphs[0]
text = "\n\n".join(paragraphs[1:])
else:
title = "Help"
text = paragraphs[0]
sys.stdout._write(HELP_HTML % {"title": title, "text": text}) # type: ignore
helper = _Helper()
def _add_subclass_info(
inner: str, obj: object, base: t.Type | tuple[t.Type, ...]
) -> str:
if isinstance(base, tuple):
for cls in base:
if type(obj) is cls:
return inner
elif type(obj) is base:
return inner
module = ""
if obj.__class__.__module__ not in ("__builtin__", "exceptions"):
module = f'<span class="module">{obj.__class__.__module__}.</span>'
return f"{module}{type(obj).__name__}({inner})"
def _sequence_repr_maker(
left: str, right: str, base: t.Type, limit: int = 8
) -> t.Callable[[DebugReprGenerator, t.Iterable, bool], str]:
def proxy(self: DebugReprGenerator, obj: t.Iterable, recursive: bool) -> str:
if recursive:
return _add_subclass_info(f"{left}...{right}", obj, base)
buf = [left]
have_extended_section = False
for idx, item in enumerate(obj):
if idx:
buf.append(", ")
if idx == limit:
buf.append('<span class="extended">')
have_extended_section = True
buf.append(self.repr(item))
if have_extended_section:
buf.append("</span>")
buf.append(right)
return _add_subclass_info("".join(buf), obj, base)
return proxy
class DebugReprGenerator:
def __init__(self) -> None:
self._stack: list[t.Any] = []
list_repr = _sequence_repr_maker("[", "]", list)
tuple_repr = _sequence_repr_maker("(", ")", tuple)
set_repr = _sequence_repr_maker("set([", "])", set)
frozenset_repr = _sequence_repr_maker("frozenset([", "])", frozenset)
deque_repr = _sequence_repr_maker(
'<span class="module">collections.</span>deque([', "])", deque
)
def regex_repr(self, obj: t.Pattern) -> str:
pattern = repr(obj.pattern)
pattern = codecs.decode(pattern, "unicode-escape", "ignore")
pattern = f"r{pattern}"
return f're.compile(<span class="string regex">{pattern}</span>)'
def string_repr(self, obj: str | bytes, limit: int = 70) -> str:
buf = ['<span class="string">']
r = repr(obj)
# shorten the repr when the hidden part would be at least 3 chars
if len(r) - limit > 2:
buf.extend(
(
escape(r[:limit]),
'<span class="extended">',
escape(r[limit:]),
"</span>",
)
)
else:
buf.append(escape(r))
buf.append("</span>")
out = "".join(buf)
# if the repr looks like a standard string, add subclass info if needed
if r[0] in "'\"" or (r[0] == "b" and r[1] in "'\""):
return _add_subclass_info(out, obj, (bytes, str))
# otherwise, assume the repr distinguishes the subclass already
return out
def dict_repr(
self,
d: dict[int, None] | dict[str, int] | dict[str | int, int],
recursive: bool,
limit: int = 5,
) -> str:
if recursive:
return _add_subclass_info("{...}", d, dict)
buf = ["{"]
have_extended_section = False
for idx, (key, value) in enumerate(d.items()):
if idx:
buf.append(", ")
if idx == limit - 1:
buf.append('<span class="extended">')
have_extended_section = True
buf.append(
f'<span class="pair"><span class="key">{self.repr(key)}</span>:'
f' <span class="value">{self.repr(value)}</span></span>'
)
if have_extended_section:
buf.append("</span>")
buf.append("}")
return _add_subclass_info("".join(buf), d, dict)
def object_repr(self, obj: type[dict] | t.Callable | type[list] | None) -> str:
r = repr(obj)
return f'<span class="object">{escape(r)}</span>'
def dispatch_repr(self, obj: t.Any, recursive: bool) -> str:
if obj is helper:
return f'<span class="help">{helper!r}</span>'
if isinstance(obj, (int, float, complex)):
return f'<span class="number">{obj!r}</span>'
if isinstance(obj, str) or isinstance(obj, bytes):
return self.string_repr(obj)
if isinstance(obj, RegexType):
return self.regex_repr(obj)
if isinstance(obj, list):
return self.list_repr(obj, recursive)
if isinstance(obj, tuple):
return self.tuple_repr(obj, recursive)
if isinstance(obj, set):
return self.set_repr(obj, recursive)
if isinstance(obj, frozenset):
return self.frozenset_repr(obj, recursive)
if isinstance(obj, dict):
return self.dict_repr(obj, recursive)
if isinstance(obj, deque):
return self.deque_repr(obj, recursive)
return self.object_repr(obj)
def fallback_repr(self) -> str:
try:
info = "".join(format_exception_only(*sys.exc_info()[:2]))
except Exception:
info = "?"
return (
'<span class="brokenrepr">'
f"&lt;broken repr ({escape(info.strip())})&gt;</span>"
)
def repr(self, obj: object) -> str:
recursive = False
for item in self._stack:
if item is obj:
recursive = True
break
self._stack.append(obj)
try:
try:
return self.dispatch_repr(obj, recursive)
except Exception:
return self.fallback_repr()
finally:
self._stack.pop()
def dump_object(self, obj: object) -> str:
repr = None
items: list[tuple[str, str]] | None = None
if isinstance(obj, dict):
title = "Contents of"
items = []
for key, value in obj.items():
if not isinstance(key, str):
items = None
break
items.append((key, self.repr(value)))
if items is None:
items = []
repr = self.repr(obj)
for key in dir(obj):
try:
items.append((key, self.repr(getattr(obj, key))))
except Exception:
pass
title = "Details for"
title += f" {object.__repr__(obj)[1:-1]}"
return self.render_object_dump(items, title, repr)
def dump_locals(self, d: dict[str, t.Any]) -> str:
items = [(key, self.repr(value)) for key, value in d.items()]
return self.render_object_dump(items, "Local variables in frame")
def render_object_dump(
self, items: list[tuple[str, str]], title: str, repr: str | None = None
) -> str:
html_items = []
for key, value in items:
html_items.append(f"<tr><th>{escape(key)}<td><pre class=repr>{value}</pre>")
if not html_items:
html_items.append("<tr><td><em>Nothing</em>")
return OBJECT_DUMP_HTML % {
"title": escape(title),
"repr": f"<pre class=repr>{repr if repr else ''}</pre>",
"items": "\n".join(html_items),
}