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# Licensed under the Apache License: http://www.apache.org/licenses/LICENSE-2.0 # For details: https://github.com/nedbat/coveragepy/blob/master/NOTICE.txt """Miscellaneous stuff for coverage.py.""" from __future__ import annotations import contextlib import datetime import errno import hashlib import importlib import importlib.util import inspect import locale import os import os.path import re import sys import types from types import ModuleType from typing import ( Any, Callable, Dict, IO, Iterable, Iterator, List, Mapping, Optional, Sequence, Tuple, TypeVar, Union, ) from coverage import env from coverage.exceptions import CoverageException from coverage.types import TArc # In 6.0, the exceptions moved from misc.py to exceptions.py. But a number of # other packages were importing the exceptions from misc, so import them here. # pylint: disable=unused-wildcard-import from coverage.exceptions import * # pylint: disable=wildcard-import ISOLATED_MODULES: Dict[ModuleType, ModuleType] = {} def isolate_module(mod: ModuleType) -> ModuleType: """Copy a module so that we are isolated from aggressive mocking. If a test suite mocks os.path.exists (for example), and then we need to use it during the test, everything will get tangled up if we use their mock. Making a copy of the module when we import it will isolate coverage.py from those complications. """ if mod not in ISOLATED_MODULES: new_mod = types.ModuleType(mod.__name__) ISOLATED_MODULES[mod] = new_mod for name in dir(mod): value = getattr(mod, name) if isinstance(value, types.ModuleType): value = isolate_module(value) setattr(new_mod, name, value) return ISOLATED_MODULES[mod] os = isolate_module(os) class SysModuleSaver: """Saves the contents of sys.modules, and removes new modules later.""" def __init__(self) -> None: self.old_modules = set(sys.modules) def restore(self) -> None: """Remove any modules imported since this object started.""" new_modules = set(sys.modules) - self.old_modules for m in new_modules: del sys.modules[m] @contextlib.contextmanager def sys_modules_saved() -> Iterator[None]: """A context manager to remove any modules imported during a block.""" saver = SysModuleSaver() try: yield finally: saver.restore() def import_third_party(modname: str) -> Tuple[ModuleType, bool]: """Import a third-party module we need, but might not be installed. This also cleans out the module after the import, so that coverage won't appear to have imported it. This lets the third party use coverage for their own tests. Arguments: modname (str): the name of the module to import. Returns: The imported module, and a boolean indicating if the module could be imported. If the boolean is False, the module returned is not the one you want: don't use it. """ with sys_modules_saved(): try: return importlib.import_module(modname), True except ImportError: return sys, False def nice_pair(pair: TArc) -> str: """Make a nice string representation of a pair of numbers. If the numbers are equal, just return the number, otherwise return the pair with a dash between them, indicating the range. """ start, end = pair if start == end: return "%d" % start else: return "%d-%d" % (start, end) TSelf = TypeVar("TSelf") TRetVal = TypeVar("TRetVal") def expensive(fn: Callable[[TSelf], TRetVal]) -> Callable[[TSelf], TRetVal]: """A decorator to indicate that a method shouldn't be called more than once. Normally, this does nothing. During testing, this raises an exception if called more than once. """ if env.TESTING: attr = "_once_" + fn.__name__ def _wrapper(self: TSelf) -> TRetVal: if hasattr(self, attr): raise AssertionError(f"Shouldn't have called {fn.__name__} more than once") setattr(self, attr, True) return fn(self) return _wrapper else: return fn # pragma: not testing def bool_or_none(b: Any) -> Optional[bool]: """Return bool(b), but preserve None.""" if b is None: return None else: return bool(b) def join_regex(regexes: Iterable[str]) -> str: """Combine a series of regex strings into one that matches any of them.""" regexes = list(regexes) if len(regexes) == 1: return regexes[0] else: return "|".join(f"(?:{r})" for r in regexes) def file_be_gone(path: str) -> None: """Remove a file, and don't get annoyed if it doesn't exist.""" try: os.remove(path) except OSError as e: if e.errno != errno.ENOENT: raise def ensure_dir(directory: str) -> None: """Make sure the directory exists. If `directory` is None or empty, do nothing. """ if directory: os.makedirs(directory, exist_ok=True) def ensure_dir_for_file(path: str) -> None: """Make sure the directory for the path exists.""" ensure_dir(os.path.dirname(path)) def output_encoding(outfile: Optional[IO[str]] = None) -> str: """Determine the encoding to use for output written to `outfile` or stdout.""" if outfile is None: outfile = sys.stdout encoding = ( getattr(outfile, "encoding", None) or getattr(sys.__stdout__, "encoding", None) or locale.getpreferredencoding() ) return encoding class Hasher: """Hashes Python data for fingerprinting.""" def __init__(self) -> None: self.hash = hashlib.new("sha3_256") def update(self, v: Any) -> None: """Add `v` to the hash, recursively if needed.""" self.hash.update(str(type(v)).encode("utf-8")) if isinstance(v, str): self.hash.update(v.encode("utf-8")) elif isinstance(v, bytes): self.hash.update(v) elif v is None: pass elif isinstance(v, (int, float)): self.hash.update(str(v).encode("utf-8")) elif isinstance(v, (tuple, list)): for e in v: self.update(e) elif isinstance(v, dict): keys = v.keys() for k in sorted(keys): self.update(k) self.update(v[k]) else: for k in dir(v): if k.startswith("__"): continue a = getattr(v, k) if inspect.isroutine(a): continue self.update(k) self.update(a) self.hash.update(b".") def hexdigest(self) -> str: """Retrieve the hex digest of the hash.""" return self.hash.hexdigest()[:32] def _needs_to_implement(that: Any, func_name: str) -> None: """Helper to raise NotImplementedError in interface stubs.""" if hasattr(that, "_coverage_plugin_name"): thing = "Plugin" name = that._coverage_plugin_name else: thing = "Class" klass = that.__class__ name = f"{klass.__module__}.{klass.__name__}" raise NotImplementedError( f"{thing} {name!r} needs to implement {func_name}()" ) class DefaultValue: """A sentinel object to use for unusual default-value needs. Construct with a string that will be used as the repr, for display in help and Sphinx output. """ def __init__(self, display_as: str) -> None: self.display_as = display_as def __repr__(self) -> str: return self.display_as def substitute_variables(text: str, variables: Mapping[str, str]) -> str: """Substitute ``${VAR}`` variables in `text` with their values. Variables in the text can take a number of shell-inspired forms:: $VAR ${VAR} ${VAR?} strict: an error if VAR isn't defined. ${VAR-missing} defaulted: "missing" if VAR isn't defined. $$ just a dollar sign. `variables` is a dictionary of variable values. Returns the resulting text with values substituted. """ dollar_pattern = r"""(?x) # Use extended regex syntax \$ # A dollar sign, (?: # then (?P<dollar>\$) | # a dollar sign, or (?P<word1>\w+) | # a plain word, or { # a {-wrapped (?P<word2>\w+) # word, (?: (?P<strict>\?) | # with a strict marker -(?P<defval>[^}]*) # or a default value )? # maybe. } ) """ dollar_groups = ("dollar", "word1", "word2") def dollar_replace(match: re.Match[str]) -> str: """Called for each $replacement.""" # Only one of the dollar_groups will have matched, just get its text. word = next(g for g in match.group(*dollar_groups) if g) # pragma: always breaks if word == "$": return "$" elif word in variables: return variables[word] elif match["strict"]: msg = f"Variable {word} is undefined: {text!r}" raise CoverageException(msg) else: return match["defval"] text = re.sub(dollar_pattern, dollar_replace, text) return text def format_local_datetime(dt: datetime.datetime) -> str: """Return a string with local timezone representing the date. """ return dt.astimezone().strftime("%Y-%m-%d %H:%M %z") def import_local_file(modname: str, modfile: Optional[str] = None) -> ModuleType: """Import a local file as a module. Opens a file in the current directory named `modname`.py, imports it as `modname`, and returns the module object. `modfile` is the file to import if it isn't in the current directory. """ if modfile is None: modfile = modname + ".py" spec = importlib.util.spec_from_file_location(modname, modfile) assert spec is not None mod = importlib.util.module_from_spec(spec) sys.modules[modname] = mod assert spec.loader is not None spec.loader.exec_module(mod) return mod def _human_key(s: str) -> List[Union[str, int]]: """Turn a string into a list of string and number chunks. "z23a" -> ["z", 23, "a"] """ def tryint(s: str) -> Union[str, int]: """If `s` is a number, return an int, else `s` unchanged.""" try: return int(s) except ValueError: return s return [tryint(c) for c in re.split(r"(\d+)", s)] def human_sorted(strings: Iterable[str]) -> List[str]: """Sort the given iterable of strings the way that humans expect. Numeric components in the strings are sorted as numbers. Returns the sorted list. """ return sorted(strings, key=_human_key) SortableItem = TypeVar("SortableItem", bound=Sequence[Any]) def human_sorted_items( items: Iterable[SortableItem], reverse: bool = False, ) -> List[SortableItem]: """Sort (string, ...) items the way humans expect. The elements of `items` can be any tuple/list. They'll be sorted by the first element (a string), with ties broken by the remaining elements. Returns the sorted list of items. """ return sorted(items, key=lambda item: (_human_key(item[0]), *item[1:]), reverse=reverse) def plural(n: int, thing: str = "", things: str = "") -> str: """Pluralize a word. If n is 1, return thing. Otherwise return things, or thing+s. """ if n == 1: return thing else: return things or (thing + "s") def stdout_link(text: str, url: str) -> str: """Format text+url as a clickable link for stdout. If attached to a terminal, use escape sequences. Otherwise, just return the text. """ if hasattr(sys.stdout, "isatty") and sys.stdout.isatty(): return f"\033]8;;{url}\a{text}\033]8;;\a" else: return text