pyenv/plugins/python-build/scripts/add_miniconda.py
2020-03-05 06:09:53 -05:00

265 lines
7.2 KiB
Python
Executable file

#!/usr/bin/env python3.7
"""Script to add non-"latest" miniconda releases.
- Ignores releases below 4.3.30.
- Ignores sub-patch releases if that major.minor.patch already exists
- But otherwise, takes the latest sub-patch release for given OS/arch
- Assumes all miniconda3 releases < 4.7 default to python 3.6, and anything else 3.7
Use -d for dry run.
"""
import textwrap
from argparse import ArgumentParser
from collections import defaultdict
from enum import Enum
from functools import total_ordering
from pathlib import Path
from typing import NamedTuple, List, Optional, DefaultDict, Dict
import requests_html
CONDA_REPO = "https://repo.anaconda.com"
MINICONDA_REPO = CONDA_REPO + "/miniconda"
# ANACONDA_REPO = CONDA_REPO + "/archive"
install_script_fmt = """
case "$(anaconda_architecture 2>/dev/null || true)" in
{install_lines}
* )
{{ echo
colorize 1 "ERROR"
echo ": The binary distribution of Miniconda is not available for $(anaconda_architecture 2>/dev/null || true)."
echo
}} >&2
exit 1
;;
esac
""".lstrip()
install_line_fmt = """
"{os}-{arch}" )
install_script "Miniconda{suffix}-{version_str}-{os}-{arch}" "{repo}/Miniconda{suffix}-{version_str}-{os}-{arch}.sh#{md5}" "miniconda" verify_{py_version}
;;
""".strip()
here = Path(__file__).resolve()
out_dir: Path = here.parent.parent / "share" / "python-build"
class StrEnum(str, Enum):
"""Enum subclass which members are also instances of str
and directly comparable to strings. str type is forced at declaration.
Adapted from https://github.com/kissgyorgy/enum34-custom/blob/dbc89596761c970398701d26c6a5bbcfcf70f548/enum_custom.py#L100
(MIT license)
"""
def __new__(cls, *args):
for arg in args:
if not isinstance(arg, str):
raise TypeError("Not text %s:" % arg)
return super(StrEnum, cls).__new__(cls, *args)
def __str__(self):
return str(self.value)
class SupportedOS(StrEnum):
LINUX = "Linux"
MACOSX = "MacOSX"
class SupportedArch(StrEnum):
PPC64LE = "ppc64le"
X86_64 = "x86_64"
X86 = "x86"
class Suffix(StrEnum):
TWO = "2"
THREE = "3"
class PyVersion(StrEnum):
PY27 = "py27"
PY36 = "py36"
PY37 = "py37"
PY38 = "py38"
PY39 = "py39"
def version(self):
first, *others = self.value[2:]
return f"{first}.{''.join(others)}"
def version_info(self):
return tuple(int(n) for n in self.version().split("."))
@total_ordering
class VersionStr(str):
def info(self):
return tuple(int(n) for n in self.split("."))
def __eq__(self, other):
return str(self) == str(other)
def __lt__(self, other):
if isinstance(other, VersionStr):
return self.info() < other.info()
raise ValueError("VersionStr can only be compared to other VersionStr")
@classmethod
def from_info(cls, version_info):
return VersionStr(".".join(str(n) for n in version_info))
def __hash__(self):
return hash(str(self))
class MinicondaVersion(NamedTuple):
suffix: Suffix
version_str: VersionStr
@classmethod
def from_str(cls, s):
miniconda_n, ver = s.split("-")
return MinicondaVersion(Suffix(miniconda_n[-1]), VersionStr(ver))
def to_filename(self):
return f"miniconda{self.suffix}-{self.version_str}"
def default_py_version(self):
if self.suffix == Suffix.TWO:
return PyVersion.PY27
elif self.version_str.info() < (4, 7):
# https://docs.conda.io/projects/conda/en/latest/user-guide/tasks/manage-python.html
return PyVersion.PY36
else:
return PyVersion.PY37
def with_version_triple(self):
return MinicondaVersion(
self.suffix, VersionStr.from_info(self.version_str.info()[:3])
)
class MinicondaSpec(NamedTuple):
version: MinicondaVersion
os: SupportedOS
arch: SupportedArch
md5: str
py_version: Optional[PyVersion] = None
@classmethod
def from_filestem(cls, stem, md5, py_version=None):
miniconda_n, ver, os, arch = stem.split("-")
spec = MinicondaSpec(
MinicondaVersion(Suffix(miniconda_n[-1]), VersionStr(ver)),
SupportedOS(os),
SupportedArch(arch),
md5,
)
if py_version is None:
spec = spec.with_py_version(spec.version.default_py_version())
return spec
def to_install_lines(self):
return install_line_fmt.format(
repo=MINICONDA_REPO,
suffix=self.version.suffix,
version_str=self.version.version_str,
os=self.os,
arch=self.arch,
md5=self.md5,
py_version=self.py_version,
)
def with_py_version(self, py_version: PyVersion):
return MinicondaSpec(*self[:-1], py_version=py_version)
def with_version_triple(self):
version, *others = self
return MinicondaSpec(version.with_version_triple(), *others)
def make_script(specs: List[MinicondaSpec]):
install_lines = [s.to_install_lines() for s in specs]
return install_script_fmt.format(install_lines="\n".join(install_lines))
def get_existing_minicondas():
for p in out_dir.iterdir():
name = p.name
if not p.is_file() or not name.startswith("miniconda"):
continue
try:
v = MinicondaVersion.from_str(name)
if v.version_str != "latest":
yield v
except ValueError:
pass
def get_available_minicondas():
session = requests_html.HTMLSession()
response = session.get(MINICONDA_REPO)
page: requests_html.HTML = response.html
table = page.find("table", first=True)
rows = table.find("tr")[1:]
for row in rows:
f, size, date, md5 = row.find("td")
fname = f.text
md5 = md5.text
if not fname.endswith(".sh"):
continue
stem = fname[:-3]
try:
s = MinicondaSpec.from_filestem(stem, md5)
if s.version.version_str != "latest":
yield s
except ValueError:
pass
def key_fn(spec: MinicondaSpec):
return (
spec.version.version_str.info(),
spec.version.suffix.value,
spec.os.value,
spec.arch.value,
)
if __name__ == "__main__":
parser = ArgumentParser()
parser.add_argument("-d", "--dry_run", action="store_true")
parsed = parser.parse_args()
existing_versions = set(get_existing_minicondas())
available_specs = set(get_available_minicondas())
# version triple to triple-ified spec to raw spec
to_add: DefaultDict[
MinicondaVersion, Dict[MinicondaSpec, MinicondaSpec]
] = defaultdict(dict)
for s in sorted(available_specs, key=key_fn):
key = s.version.with_version_triple()
if key in existing_versions or key.version_str.info() <= (4, 3, 30):
continue
to_add[key][s.with_version_triple()] = s
for ver, d in to_add.items():
specs = list(d.values())
fpath = out_dir / ver.to_filename()
script_str = make_script(specs)
if parsed.dry_run:
print(f"Would write spec to {fpath}:\n" + textwrap.indent(script_str, " "))
else:
with open(fpath, "w") as f:
f.write(script_str)