import collections import copy import difflib import itertools import json import os import re import shlex import sys from pathlib import Path from typing import Any, Callable, Iterable, Iterator, TypeVar, cast
from click.core import ParameterSource
if sys.version_info >= (3, 11): import tomllib else: import tomli as tomllib
import click from click.utils import LazyFile from pip._internal.req import InstallRequirement from pip._internal.req.constructors import install_req_from_line from pip._internal.resolution.resolvelib.base import Requirement as PipRequirement from pip._internal.utils.misc import redact_auth_from_url from pip._internal.vcs import is_url from pip._vendor.packaging.markers import Marker from pip._vendor.packaging.requirements import Requirement from pip._vendor.packaging.specifiers import SpecifierSet from pip._vendor.packaging.utils import canonicalize_name from pip._vendor.packaging.version import Version from pip._vendor.pkg_resources import get_distribution
from piptools._compat import PIP_VERSION from piptools.locations import DEFAULT_CONFIG_FILE_NAMES from piptools.subprocess_utils import run_python_snippet
# Set of option that are only negative, i.e. --no-<option>
ONLY_NEGATIVE_OPTIONS = {"--no-index"}
def key_from_ireq(ireq: InstallRequirement) -> str: """Get a standardized key for an InstallRequirement.""" if ireq.req isNoneand ireq.link isnotNone: return str(ireq.link) else: return key_from_req(ireq.req)
def key_from_req(req: InstallRequirement | Requirement | PipRequirement) -> str: """
Get an all-lowercase version of the requirement's name.
**Note:** If the argument is an instance of
``pip._internal.resolution.resolvelib.base.Requirement`` (like
``pip._internal.resolution.resolvelib.requirements.SpecifierRequirement``),
then the name might include an extras specification.
Apply :py:func:`strip_extras` to the result of this function if you need
the package name only.
:param req: the requirement the key is computed for
:return: the canonical name of the requirement """ return str(canonicalize_name(req.name))
def is_url_requirement(ireq: InstallRequirement) -> bool: """ ReturnTrueif requirement was specified as a path or URL.
ireq.original_link will have been set by InstallRequirement.__init__ """ return bool(ireq.original_link)
def format_requirement(
ireq: InstallRequirement,
marker: Marker | None = None,
hashes: set[str] | None = None,
) -> str: """
Generic formatter for pretty printing InstallRequirements to the terminal in a less verbose way than using its `__str__` method. """ if ireq.editable:
line = f"-e {ireq.link.url}" elif is_url_requirement(ireq):
line = _build_direct_reference_best_efforts(ireq) else: # Canonicalize the requirement name # https://packaging.pypa.io/en/latest/utils.html#packaging.utils.canonicalize_name
req = copy.copy(ireq.req)
req.name = canonicalize_name(req.name)
line = str(req)
if marker:
line = f"{line} ; {marker}"
if hashes: for hash_ in sorted(hashes):
line += f" \\\n --hash={hash_}"
return line
def _build_direct_reference_best_efforts(ireq: InstallRequirement) -> str: """
Returns a string of a direct reference URI, whenever possible.
See https://www.python.org/dev/peps/pep-0508/ """ # If the requirement has no name then we cannot build a direct reference. ifnot ireq.name: return cast(str, ireq.link.url)
# Look for a relative file path, the direct reference currently does not work with it. if ireq.link.is_file andnot ireq.link.path.startswith("/"): return cast(str, ireq.link.url)
# If we get here then we have a requirement that supports direct reference. # We need to remove the egg if it exists and keep the rest of the fragments.
lowered_ireq_name = canonicalize_name(ireq.name)
extras = f"[{','.join(sorted(ireq.extras))}]"if ireq.extras else""
direct_reference = f"{lowered_ireq_name}{extras} @ {ireq.link.url_without_fragment}"
fragments = []
# Check if there is any fragment to add to the URI. if ireq.link.subdirectory_fragment:
fragments.append(f"subdirectory={ireq.link.subdirectory_fragment}")
if ireq.link.has_hash:
fragments.append(f"{ireq.link.hash_name}={ireq.link.hash}")
# Then add the fragments into the URI, if any. if fragments:
direct_reference += f"#{'&'.join(fragments)}"
return direct_reference
def format_specifier(ireq: InstallRequirement) -> str: """
Generic formatter for pretty printing the specifier part of
InstallRequirements to the terminal. """ # TODO: Ideally, this is carried over to the pip library itself
specs = ireq.specifier if ireq.req isnotNoneelse SpecifierSet() # FIXME: remove ignore type marker once the following issue get fixed # https://github.com/python/mypy/issues/9656
specs = sorted(specs, key=lambda x: x.version) return",".join(str(s) for s in specs) or""
def is_pinned_requirement(ireq: InstallRequirement) -> bool: """
Returns whether an InstallRequirement is a "pinned" requirement.
An InstallRequirement is considered pinned if:
- Isnot editable
- It has exactly one specifier
- That specifier is"=="
- The version does not contain a wildcard
Examples:
django==1.8 # pinned
django>1.8 # NOT pinned
django~=1.8 # NOT pinned
django==1.* # NOT pinned """ if ireq.editable: returnFalse
if ireq.req isNoneor len(ireq.specifier) != 1: returnFalse
spec = next(iter(ireq.specifier)) return spec.operator in {"==", "==="} andnot spec.version.endswith(".*")
def as_tuple(ireq: InstallRequirement) -> tuple[str, str, tuple[str, ...]]: """
Pulls out the (name: str, version:str, extras:(str)) tuple from
the pinned InstallRequirement. """ ifnot is_pinned_requirement(ireq): raise TypeError(f"Expected a pinned InstallRequirement, got {ireq}")
name = key_from_ireq(ireq)
version = next(iter(ireq.specifier)).version
extras = tuple(sorted(ireq.extras)) return name, version, extras
def flat_map(
fn: Callable[[_T], Iterable[_S]], collection: Iterable[_T]
) -> Iterator[_S]: """Map a function over a collection and flatten the result by one-level""" return itertools.chain.from_iterable(map(fn, collection))
def lookup_table_from_tuples(values: Iterable[tuple[_KT, _VT]]) -> dict[_KT, set[_VT]]: """
Builds a dict-based lookup table (index) elegantly. """
lut: dict[_KT, set[_VT]] = collections.defaultdict(set) for k, v in values:
lut[k].add(v) return dict(lut)
def lookup_table(
values: Iterable[_VT], key: Callable[[_VT], _KT]
) -> dict[_KT, set[_VT]]: """
Builds a dict-based lookup table (index) elegantly. """ return lookup_table_from_tuples((key(v), v) for v in values)
def dedup(iterable: Iterable[_T]) -> Iterable[_T]: """Deduplicate an iterable object like iter(set(iterable)) but
order-preserved. """ return iter(dict.fromkeys(iterable))
def _drop_extras(markers: list[_T]) -> list[_T]: # drop `extra` tokens
to_remove: list[int] = [] for i, token in enumerate(markers): # operator (and/or) if isinstance(token, str): continue # sub-expression (inside braces) if isinstance(token, list):
markers[i] = _drop_extras(token) # type: ignore if markers[i]: continue
to_remove.append(i) continue # test expression (like `extra == "dev"`) assert isinstance(token, tuple) if token[0].value == "extra":
to_remove.append(i) for i in reversed(to_remove):
markers.pop(i)
# drop duplicate bool operators (and/or)
to_remove = [] for i, (token1, token2) in enumerate(zip(markers, markers[1:])): ifnot isinstance(token1, str): continue ifnot isinstance(token2, str): continue if token1 == "and":
to_remove.append(i) else:
to_remove.append(i + 1) for i in reversed(to_remove):
markers.pop(i) if markers and isinstance(markers[0], str):
markers.pop(0) if markers and isinstance(markers[-1], str):
markers.pop(-1)
return markers
def get_hashes_from_ireq(ireq: InstallRequirement) -> set[str]: """
Given an InstallRequirement, return a set of string hashes in the format "{algorithm}:{hash}". Return an empty set if there are no hashes in the
requirement options. """
result = set() for algorithm, hexdigests in ireq.hash_options.items(): for hash_ in hexdigests:
result.add(f"{algorithm}:{hash_}") return result
def get_compile_command(click_ctx: click.Context) -> str: """
Returns a normalized compile command depending on cli context.
The command will be normalized by:
- expanding options short to long
- removing values that are already default
- sorting the arguments
- removing one-off arguments like '--upgrade'
- removing arguments that don't change build behaviour like '--verbose' """ from piptools.scripts.compile import cli
# Map of the compile cli options (option name -> click.Option)
compile_options = {option.name: option for option in cli.params}
left_args = []
right_args = []
for option_name, value in click_ctx.params.items():
option = compile_options[option_name]
# Collect variadic args separately, they will be added # at the end of the command later if option.nargs < 0: # These will necessarily be src_files # Re-add click-stripped '--' if any start with '-' if any(val.startswith("-") and val != "-"for val in value):
right_args.append("--")
right_args.extend([shlex.quote(val) for val in value]) continue
assert isinstance(option, click.Option)
# Get the latest option name (usually it'll be a long name)
option_long_name = option.opts[-1]
# Exclude one-off options (--upgrade/--upgrade-package/--rebuild/...) # or options that don't change compile behaviour (--verbose/--dry-run/...) if option_long_name in COMPILE_EXCLUDE_OPTIONS: continue
# Exclude config option if it's the default one if option_long_name == "--config":
parameter_source = click_ctx.get_parameter_source(option_name) if (
str(value) in DEFAULT_CONFIG_FILE_NAMES or parameter_source == ParameterSource.DEFAULT
): continue
# Skip options without a value if option.default isNoneandnot value: continue
# Skip options with a default value if option.default == value: continue
# Use a file name for file-like objects if isinstance(value, LazyFile):
value = value.name
# Convert value to the list ifnot isinstance(value, (tuple, list)):
value = [value]
for val in value: # Flags don't have a value, thus add to args true or false option long name if option.is_flag: # If there are false-options, choose an option name depending on a value if option.secondary_opts: # Get the latest false-option
secondary_option_long_name = option.secondary_opts[-1]
arg = option_long_name if val else secondary_option_long_name # There are no false-options, use true-option else:
arg = option_long_name
left_args.append(shlex.quote(arg)) # Append to args the option with a value else: if isinstance(val, str) and is_url(val):
val = redact_auth_from_url(val) if option.name == "pip_args_str": # shlex.quote() would produce functional but noisily quoted results, # e.g. --pip-args='--cache-dir='"'"'/tmp/with spaces'"'"'' # Instead, we try to get more legible quoting via repr:
left_args.append(f"{option_long_name}={repr(val)}") else:
left_args.append(f"{option_long_name}={shlex.quote(str(val))}")
def get_required_pip_specification() -> SpecifierSet: """
Returns pip version specifier requested by current pip-tools installation. """
project_dist = get_distribution("pip-tools")
requirement = next(
(r for r in project_dist.requires() if r.name == "pip"), None
) # pragma: no branch assert (
requirement isnotNone
), "'pip' is expected to be in the list of pip-tools requirements" return requirement.specifier
def get_pip_version_for_python_executable(python_executable: str) -> Version: """
Returns pip version for the given python executable. """
str_version = run_python_snippet(
python_executable, "import pip;print(pip.__version__)"
) return Version(str_version)
def get_sys_path_for_python_executable(python_executable: str) -> list[str]: """
Returns sys.path list for the given python executable. """
result = run_python_snippet(
python_executable, "import sys;import json;print(json.dumps(sys.path))"
)
paths = json.loads(result) assert isinstance(paths, list) assert all(isinstance(i, str) for i in paths) return [os.path.abspath(path) for path in paths]
def omit_list_value(lst: list[_T], value: _T) -> list[_T]: """Produce a new list with a given value skipped.""" return [item for item in lst if item != value]
_strip_extras_re = re.compile(r"\[.+?\]")
def strip_extras(name: str) -> str: """Strip extras from package name, e.g. pytest[testing] -> pytest.""" return re.sub(_strip_extras_re, "", name)
def copy_install_requirement(
template: InstallRequirement, **extra_kwargs: Any
) -> InstallRequirement: """Make a copy of a template ``InstallRequirement`` with extra kwargs.""" # Prepare install requirement kwargs.
kwargs = { "comes_from": template.comes_from, "editable": template.editable, "link": template.link, "markers": template.markers, "use_pep517": template.use_pep517, "isolated": template.isolated, "global_options": template.global_options, "hash_options": template.hash_options, "constraint": template.constraint, "extras": template.extras, "user_supplied": template.user_supplied,
}
kwargs.update(extra_kwargs)
if PIP_VERSION[:2] <= (23, 0):
kwargs["install_options"] = template.install_options
# Original link does not belong to install requirements constructor, # pop it now to update later.
original_link = kwargs.pop("original_link", None)
# Copy template.req if not specified in extra kwargs. if"req"notin kwargs:
kwargs["req"] = copy.deepcopy(template.req)
ireq = InstallRequirement(**kwargs)
# If the original_link was None, keep it so. Passing `link` as an # argument to `InstallRequirement` sets it as the original_link.
ireq.original_link = (
template.original_link if original_link isNoneelse original_link
)
return ireq
def override_defaults_from_config_file(
ctx: click.Context, param: click.Parameter, value: str | None
) -> Path | None: """
Overrides ``click.Command`` defaults based on specified or discovered config
file, returning the ``pathlib.Path`` of that config file if specified or
discovered.
``None`` is returned if no such file is found.
``pip-tools`` will use the first config file found, searching in this order:
an explicitly given config file, a ``.pip-tools.toml``, a ``pyproject.toml``
file. Those files are searched forin the same directory as the requirements
input file, or the current working directory if requirements come via stdin. """ if ctx.params.get("no_config"): returnNone
if value isNone:
config_file = select_config_file(ctx.params.get("src_files", ())) if config_file isNone: returnNone else:
config_file = Path(value)
:raises click.NoSuchOption: if config contains unknown keys.
:raises click.BadOptionUsage: if config contains invalid values. """ from piptools.scripts.compile import cli as compile_cli from piptools.scripts.sync import cli as sync_cli
compile_cli_params = {
param.name: param for param in compile_cli.params if param.name isnotNone
}
sync_cli_params = {
param.name: param for param in sync_cli.params if param.name isnotNone
}
for key, value in config.items(): # Validate unknown keys in both compile and sync if key notin all_keys:
possibilities = difflib.get_close_matches(key, all_keys) raise click.NoSuchOption(
option_name=key,
message=f"No such config key {key!r}.",
possibilities=possibilities,
ctx=click_context,
)
# Get all params associated with this key in both compile and sync
associated_params = (
cli_params[key] for cli_params in (compile_cli_params, sync_cli_params) if key in cli_params
)
# Validate value against types of all associated params for param in associated_params: try:
param.type_cast_value(value=value, ctx=click_context) except Exception as e: raise click.BadOptionUsage(
option_name=key,
message=(
f"Invalid value for config key {key!r}: {value!r}.{os.linesep}"
f"Details: {e}"
),
ctx=click_context,
) from e
def select_config_file(src_files: tuple[str, ...]) -> Path | None: """
Returns the config file to use for defaults given ``src_files`` provided. """ # NOTE: If no src_files were specified, consider the current directory the # NOTE: only config file lookup candidate. This usually happens when a # NOTE: pip-tools invocation gets its incoming requirements from standard # NOTE: input.
working_directory = Path.cwd()
src_files_as_paths = (
(working_directory / src_file).resolve() for src_file in src_files or (".",)
)
candidate_dirs = (src if src.is_dir() else src.parent for src in src_files_as_paths)
config_file_path = next(
(
candidate_dir / config_file for candidate_dir in candidate_dirs for config_file in DEFAULT_CONFIG_FILE_NAMES if (candidate_dir / config_file).is_file()
), None,
) if config_file_path isNone: returnNone
return (
config_file_path.relative_to(working_directory) if is_path_relative_to(config_file_path, working_directory) else config_file_path
)
def get_cli_options(ctx: click.Context) -> dict[str, click.Parameter]:
cli_opts = {
opt: option for option in ctx.command.params for opt in itertools.chain(option.opts, option.secondary_opts) if opt.startswith("--") and option.name isnotNone
} return cli_opts
# In a TOML file, we expect the config to be under `[tool.pip-tools]`, # `[tool.pip-tools.compile]` or `[tool.pip-tools.sync]`
piptools_config: dict[str, Any] = config.get("tool", {}).get("pip-tools", {})
assert click_context.command.name isnotNone # TODO: Replace with `str.removeprefix()` once dropped 3.8
config_section_name = click_context.command.name[len("pip-") :]
for key, value in config.items(): # Transform config key to its equivalent in the CLI
long_option = _convert_to_long_option(key)
new_key = cli_opts[long_option].name if long_option in cli_opts else key
negative_option_prefix = "no_" assert new_key isnotNone if (
new_key.startswith(negative_option_prefix) and long_option notin ONLY_NEGATIVE_OPTIONS
):
new_key = new_key[len(negative_option_prefix) :]
# Invert negative boolean according to the CLI
new_value = ( not value if long_option.startswith("--no-") and long_option notin ONLY_NEGATIVE_OPTIONS and isinstance(value, bool) else value
)
new_config[new_key] = new_value
return new_config
def _normalize_config_key(key: str) -> str: """Transform given ``some-key`` into ``some_key``.""" return key.lstrip("-").replace("-", "_").lower()
def _convert_to_long_option(key: str) -> str: """Transform given ``some-key`` into ``--some-key``.""" return"--" + key.lstrip("-").replace("_", "-").lower()
def is_path_relative_to(path1: Path, path2: Path) -> bool: """Return True if ``path1`` is relative to ``path2``.""" # TODO: remove this function in favor of Path.is_relative_to() # when we drop support for Python 3.8 try:
path1.relative_to(path2) except ValueError: returnFalse returnTrue
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