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Centralize virtualenv path construction (#2102)

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## Summary

Right now, we have virtualenv construction encoded in a few different
places. Namely, it happens in both `gourgeist` and
`virtualenv_layout.rs` -- _and_ `interpreter.rs` also encodes some
knowledge about how they work, by way of reconstructing the
`SysconfigPaths`.

Instead, `gourgeist` now returns the complete layout, enumerating all
the directories it created. So, rather than returning a root directory,
and re-creating all those paths in `uv-interpreter`, we pass the data
directly back to it.
This commit is contained in:
Charlie Marsh 2024-03-01 10:52:48 -05:00 committed by GitHub
parent c579e6f6bf
commit c9ffe976f9
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GPG key ID: B5690EEEBB952194
8 changed files with 159 additions and 207 deletions
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108
crates/gourgeist/src/bare.rs
View file

@ -11,7 +11,7 @@ use fs_err::File;
use tracing::info; use tracing::info;
use uv_fs::Simplified; use uv_fs::Simplified;
use uv_interpreter::Interpreter; use uv_interpreter::{Interpreter, SysconfigPaths, Virtualenv};
use crate::{Error, Prompt}; use crate::{Error, Prompt};
@ -40,27 +40,6 @@ fn write_cfg(f: &mut impl Write, data: &[(String, String)]) -> io::Result<()> {
Ok(()) Ok(())
} }
/// Absolute paths of the virtualenv
#[derive(Debug)]
pub struct VenvPaths {
/// The location of the virtualenv, e.g. `.venv`
#[allow(unused)]
pub root: Utf8PathBuf,
/// The python interpreter.rs inside the virtualenv, on unix `.venv/bin/python`
#[allow(unused)]
pub interpreter: Utf8PathBuf,
/// The directory with the scripts, on unix `.venv/bin`
#[allow(unused)]
pub bin: Utf8PathBuf,
/// The site-packages directory where all the packages are installed to, on unix
/// and python 3.11 `.venv/lib/python3.11/site-packages`
#[allow(unused)]
pub site_packages: Utf8PathBuf,
}
/// Write all the files that belong to a venv without any packages installed. /// Write all the files that belong to a venv without any packages installed.
pub fn create_bare_venv( pub fn create_bare_venv(
location: &Utf8Path, location: &Utf8Path,
@ -68,7 +47,7 @@ pub fn create_bare_venv(
prompt: Prompt, prompt: Prompt,
system_site_packages: bool, system_site_packages: bool,
extra_cfg: Vec<(String, String)>, extra_cfg: Vec<(String, String)>,
) -> Result<VenvPaths, Error> { ) -> Result<Virtualenv, Error> {
// We have to canonicalize the interpreter path, otherwise the home is set to the venv dir instead of the real root. // We have to canonicalize the interpreter path, otherwise the home is set to the venv dir instead of the real root.
// This would make python-build-standalone fail with the encodings module not being found because its home is wrong. // This would make python-build-standalone fail with the encodings module not being found because its home is wrong.
let base_python: Utf8PathBuf = fs_err::canonicalize(interpreter.sys_executable())? let base_python: Utf8PathBuf = fs_err::canonicalize(interpreter.sys_executable())?
@ -107,8 +86,8 @@ pub fn create_bare_venv(
Err(err) => return Err(Error::IO(err)), Err(err) => return Err(Error::IO(err)),
} }
// TODO(konstin): I bet on windows we'll have to strip the prefix again
let location = location.canonicalize_utf8()?; let location = location.canonicalize_utf8()?;
let bin_name = if cfg!(unix) { let bin_name = if cfg!(unix) {
"bin" "bin"
} else if cfg!(windows) { } else if cfg!(windows) {
@ -116,7 +95,7 @@ pub fn create_bare_venv(
} else { } else {
unimplemented!("Only Windows and Unix are supported") unimplemented!("Only Windows and Unix are supported")
}; };
let bin_dir = location.join(bin_name); let scripts = location.join(bin_name);
let prompt = match prompt { let prompt = match prompt {
Prompt::CurrentDirectoryName => env::current_dir()? Prompt::CurrentDirectoryName => env::current_dir()?
.file_name() .file_name()
@ -132,27 +111,29 @@ pub fn create_bare_venv(
fs::write(location.join(".gitignore"), "*")?; fs::write(location.join(".gitignore"), "*")?;
// Different names for the python interpreter // Different names for the python interpreter
fs::create_dir(&bin_dir)?; fs::create_dir(&scripts)?;
let venv_python = bin_dir.join(format!("python{EXE_SUFFIX}")); let executable = scripts.join(format!("python{EXE_SUFFIX}"));
// No symlinking on Windows, at least not on a regular non-dev non-admin Windows install. // No symlinking on Windows, at least not on a regular non-dev non-admin Windows install.
#[cfg(unix)] #[cfg(unix)]
{ {
use fs_err::os::unix::fs::symlink; use fs_err::os::unix::fs::symlink;
symlink(&base_python, &venv_python)?; symlink(&base_python, &executable)?;
symlink( symlink(
"python", "python",
bin_dir.join(format!("python{}", interpreter.python_major())), scripts.join(format!("python{}", interpreter.python_major())),
)?; )?;
symlink( symlink(
"python", "python",
bin_dir.join(format!( scripts.join(format!(
"python{}.{}", "python{}.{}",
interpreter.python_major(), interpreter.python_major(),
interpreter.python_minor(), interpreter.python_minor(),
)), )),
)?; )?;
} }
#[cfg(windows)] #[cfg(windows)]
{ {
// https://github.com/python/cpython/blob/d457345bbc6414db0443819290b04a9a4333313d/Lib/venv/__init__.py#L261-L267 // https://github.com/python/cpython/blob/d457345bbc6414db0443819290b04a9a4333313d/Lib/venv/__init__.py#L261-L267
@ -166,7 +147,7 @@ pub fn create_bare_venv(
.join("scripts") .join("scripts")
.join("nt") .join("nt")
.join(python_exe); .join(python_exe);
fs_err::copy(shim, bin_dir.join(python_exe))?; fs_err::copy(shim, scripts.join(python_exe))?;
} }
} }
#[cfg(not(any(unix, windows)))] #[cfg(not(any(unix, windows)))]
@ -175,9 +156,19 @@ pub fn create_bare_venv(
} }
// Add all the activate scripts for different shells // Add all the activate scripts for different shells
// TODO(konstin): RELATIVE_SITE_PACKAGES is currently only the unix path. We should ensure that all launchers work
// cross-platform.
for (name, template) in ACTIVATE_TEMPLATES { for (name, template) in ACTIVATE_TEMPLATES {
let relative_site_packages = if cfg!(unix) {
format!(
"../lib/{}{}.{}/site-packages",
interpreter.site_packages_python(),
interpreter.python_major(),
interpreter.python_minor(),
)
} else if cfg!(windows) {
"../Lib/site-packages".to_string()
} else {
unimplemented!("Only Windows and Unix are supported")
};
let activator = template let activator = template
.replace( .replace(
"{{ VIRTUAL_ENV_DIR }}", "{{ VIRTUAL_ENV_DIR }}",
@ -191,14 +182,9 @@ pub fn create_bare_venv(
) )
.replace( .replace(
"{{ RELATIVE_SITE_PACKAGES }}", "{{ RELATIVE_SITE_PACKAGES }}",
&format!( relative_site_packages.as_str(),
"../lib/{}{}.{}/site-packages",
interpreter.site_packages_python(),
interpreter.python_major(),
interpreter.python_minor(),
),
); );
fs::write(bin_dir.join(name), activator)?; fs::write(scripts.join(name), activator)?;
} }
// pyvenv.cfg // pyvenv.cfg
@ -280,6 +266,7 @@ pub fn create_bare_venv(
write_cfg(&mut pyvenv_cfg, &pyvenv_cfg_data)?; write_cfg(&mut pyvenv_cfg, &pyvenv_cfg_data)?;
drop(pyvenv_cfg); drop(pyvenv_cfg);
// Construct the path to the `site-packages` directory.
let site_packages = if cfg!(unix) { let site_packages = if cfg!(unix) {
location location
.join("lib") .join("lib")
@ -295,17 +282,42 @@ pub fn create_bare_venv(
} else { } else {
unimplemented!("Only Windows and Unix are supported") unimplemented!("Only Windows and Unix are supported")
}; };
// Construct the path to the `platstdlib` directory.
let platstdlib = if cfg!(windows) {
location.join("Lib")
} else {
location
.join("lib")
.join(format!(
"{}{}.{}",
interpreter.site_packages_python(),
interpreter.python_major(),
interpreter.python_minor()
))
.join("site-packages")
};
// Populate `site-packages` with a `_virtualenv.py` file.
fs::create_dir_all(&site_packages)?; fs::create_dir_all(&site_packages)?;
// Install _virtualenv.py patch.
// Frankly no idea what that does, i just copied it from virtualenv knowing that
// distutils/setuptools will have their cursed reasons
fs::write(site_packages.join("_virtualenv.py"), VIRTUALENV_PATCH)?; fs::write(site_packages.join("_virtualenv.py"), VIRTUALENV_PATCH)?;
fs::write(site_packages.join("_virtualenv.pth"), "import _virtualenv")?; fs::write(site_packages.join("_virtualenv.pth"), "import _virtualenv")?;
Ok(VenvPaths { Ok(Virtualenv {
root: location.to_path_buf(), root: location.clone().into_std_path_buf(),
interpreter: venv_python, executable: executable.into_std_path_buf(),
bin: bin_dir, sysconfig_paths: SysconfigPaths {
site_packages, // Paths that were already constructed above.
scripts: scripts.into_std_path_buf(),
platstdlib: platstdlib.into_std_path_buf(),
// Set `purelib` and `platlib` to the same value.
purelib: site_packages.clone().into_std_path_buf(),
platlib: site_packages.into_std_path_buf(),
// Inherited from the interpreter.
stdlib: interpreter.stdlib().to_path_buf(),
include: interpreter.include().to_path_buf(),
platinclude: interpreter.platinclude().to_path_buf(),
data: location.into_std_path_buf(),
},
}) })
} }

12
crates/gourgeist/src/lib.rs
View file

@ -54,18 +54,20 @@ pub fn create_venv(
system_site_packages: bool, system_site_packages: bool,
extra_cfg: Vec<(String, String)>, extra_cfg: Vec<(String, String)>,
) -> Result<PythonEnvironment, Error> { ) -> Result<PythonEnvironment, Error> {
// Create the virtualenv at the given location.
let location: &Utf8Path = location let location: &Utf8Path = location
.try_into() .try_into()
.map_err(|err: FromPathError| err.into_io_error())?; .map_err(|err: FromPathError| err.into_io_error())?;
let paths = create_bare_venv( let virtualenv = create_bare_venv(
location, location,
&interpreter, &interpreter,
prompt, prompt,
system_site_packages, system_site_packages,
extra_cfg, extra_cfg,
)?; )?;
Ok(PythonEnvironment::from_interpreter(
interpreter, // Create the corresponding `PythonEnvironment`.
paths.root.as_std_path(), let interpreter = interpreter.with_virtualenv(virtualenv);
)) let root = interpreter.prefix().to_path_buf();
Ok(PythonEnvironment::from_interpreter(interpreter, root))
} }

69
crates/uv-interpreter/src/interpreter.rs
View file

@ -18,10 +18,10 @@ use platform_tags::{Tags, TagsError};
use uv_cache::{Cache, CacheBucket, CachedByTimestamp, Freshness, Timestamp}; use uv_cache::{Cache, CacheBucket, CachedByTimestamp, Freshness, Timestamp};
use uv_fs::write_atomic_sync; use uv_fs::write_atomic_sync;
use crate::python_environment::detect_virtual_env; use crate::python_environment::{detect_python_executable, detect_virtual_env};
use crate::python_query::try_find_default_python; use crate::python_query::try_find_default_python;
use crate::virtualenv_layout::VirtualenvLayout; use crate::sysconfig::SysconfigPaths;
use crate::{find_requested_python, Error, PythonVersion}; use crate::{find_requested_python, Error, PythonVersion, Virtualenv};
/// A Python executable and its associated platform markers. /// A Python executable and its associated platform markers.
#[derive(Debug, Clone)] #[derive(Debug, Clone)]
@ -84,36 +84,11 @@ impl Interpreter {
/// Return a new [`Interpreter`] with the given virtual environment root. /// Return a new [`Interpreter`] with the given virtual environment root.
#[must_use] #[must_use]
pub(crate) fn with_venv_root(self, venv_root: PathBuf) -> Self { pub fn with_virtualenv(self, virtualenv: Virtualenv) -> Self {
let layout = VirtualenvLayout::from_platform(&self.platform);
Self { Self {
// Given that we know `venv_root` is a virtualenv, and not an arbitrary Python sysconfig_paths: virtualenv.sysconfig_paths,
// interpreter, we can safely assume that the platform is the same as the host sys_executable: virtualenv.executable,
// platform. Further, we can safely assume that the paths follow a predictable prefix: virtualenv.root,
// structure, which allows us to avoid querying the interpreter for the `sysconfig`
// paths.
sysconfig_paths: SysconfigPaths {
purelib: layout.site_packages(
&venv_root,
self.site_packages_python(),
self.python_tuple(),
),
platlib: layout.site_packages(
&venv_root,
self.site_packages_python(),
self.python_tuple(),
),
platstdlib: layout.platstdlib(
&venv_root,
self.site_packages_python(),
self.python_tuple(),
),
scripts: layout.scripts(&venv_root),
data: layout.data(&venv_root),
..self.sysconfig_paths
},
sys_executable: layout.python_executable(&venv_root),
prefix: venv_root,
..self ..self
} }
} }
@ -199,9 +174,8 @@ impl Interpreter {
}; };
// Check if the venv Python matches. // Check if the venv Python matches.
let python_platform = VirtualenvLayout::from_platform(platform); if let Some(venv) = detect_virtual_env()? {
if let Some(venv) = detect_virtual_env(&python_platform)? { let executable = detect_python_executable(venv);
let executable = python_platform.python_executable(venv);
let interpreter = Self::query(&executable, platform.clone(), cache)?; let interpreter = Self::query(&executable, platform.clone(), cache)?;
if version_matches(&interpreter) { if version_matches(&interpreter) {
@ -376,6 +350,11 @@ impl Interpreter {
&self.base_prefix &self.base_prefix
} }
/// Return the `sys.prefix` path for this Python interpreter.
pub fn prefix(&self) -> &Path {
&self.prefix
}
/// Return the `sys.executable` path for this Python interpreter. /// Return the `sys.executable` path for this Python interpreter.
pub fn sys_executable(&self) -> &Path { pub fn sys_executable(&self) -> &Path {
&self.sys_executable &self.sys_executable
@ -406,6 +385,11 @@ impl Interpreter {
&self.sysconfig_paths.include &self.sysconfig_paths.include
} }
/// Return the `platinclude` path for this Python interpreter, as returned by `sysconfig.get_paths()`.
pub fn platinclude(&self) -> &Path {
&self.sysconfig_paths.platinclude
}
/// Return the `stdlib` path for this Python interpreter, as returned by `sysconfig.get_paths()`. /// Return the `stdlib` path for this Python interpreter, as returned by `sysconfig.get_paths()`.
pub fn stdlib(&self) -> &Path { pub fn stdlib(&self) -> &Path {
&self.sysconfig_paths.stdlib &self.sysconfig_paths.stdlib
@ -464,21 +448,6 @@ impl ExternallyManaged {
} }
} }
/// The installation paths returned by `sysconfig.get_paths()`.
///
/// See: <https://docs.python.org/3.12/library/sysconfig.html#installation-paths>
#[derive(Debug, Deserialize, Serialize, Clone)]
struct SysconfigPaths {
stdlib: PathBuf,
platstdlib: PathBuf,
purelib: PathBuf,
platlib: PathBuf,
include: PathBuf,
platinclude: PathBuf,
scripts: PathBuf,
data: PathBuf,
}
#[derive(Debug, Deserialize, Serialize, Clone)] #[derive(Debug, Deserialize, Serialize, Clone)]
struct InterpreterInfo { struct InterpreterInfo {
markers: MarkerEnvironment, markers: MarkerEnvironment,

9
crates/uv-interpreter/src/lib.rs
View file

@ -9,20 +9,21 @@ pub use crate::interpreter::Interpreter;
pub use crate::python_environment::PythonEnvironment; pub use crate::python_environment::PythonEnvironment;
pub use crate::python_query::{find_default_python, find_requested_python}; pub use crate::python_query::{find_default_python, find_requested_python};
pub use crate::python_version::PythonVersion; pub use crate::python_version::PythonVersion;
pub use crate::sysconfig::SysconfigPaths;
pub use crate::virtualenv::Virtualenv;
mod cfg; mod cfg;
mod interpreter; mod interpreter;
mod python_environment; mod python_environment;
mod python_query; mod python_query;
mod python_version; mod python_version;
mod virtualenv_layout; mod sysconfig;
mod virtualenv;
#[derive(Debug, Error)] #[derive(Debug, Error)]
pub enum Error { pub enum Error {
#[error("Expected `{0}` to be a virtualenv, but pyvenv.cfg is missing")] #[error("Expected `{0}` to be a virtualenv, but `pyvenv.cfg` is missing")]
MissingPyVenvCfg(PathBuf), MissingPyVenvCfg(PathBuf),
#[error("Broken virtualenv `{0}`, it contains a pyvenv.cfg but no Python binary at `{1}`")]
BrokenVenv(PathBuf, PathBuf),
#[error("Both VIRTUAL_ENV and CONDA_PREFIX are set. Please unset one of them.")] #[error("Both VIRTUAL_ENV and CONDA_PREFIX are set. Please unset one of them.")]
Conflict, Conflict,
#[error("No versions of Python could be found. Is Python installed?")] #[error("No versions of Python could be found. Is Python installed?")]

50
crates/uv-interpreter/src/python_environment.rs
View file

@ -8,7 +8,6 @@ use uv_cache::Cache;
use uv_fs::{LockedFile, Simplified}; use uv_fs::{LockedFile, Simplified};
use crate::cfg::PyVenvConfiguration; use crate::cfg::PyVenvConfiguration;
use crate::virtualenv_layout::VirtualenvLayout;
use crate::{find_default_python, find_requested_python, Error, Interpreter}; use crate::{find_default_python, find_requested_python, Error, Interpreter};
/// A Python environment, consisting of a Python [`Interpreter`] and a root directory. /// A Python environment, consisting of a Python [`Interpreter`] and a root directory.
@ -21,12 +20,11 @@ pub struct PythonEnvironment {
impl PythonEnvironment { impl PythonEnvironment {
/// Create a [`PythonEnvironment`] for an existing virtual environment. /// Create a [`PythonEnvironment`] for an existing virtual environment.
pub fn from_virtualenv(platform: Platform, cache: &Cache) -> Result<Self, Error> { pub fn from_virtualenv(platform: Platform, cache: &Cache) -> Result<Self, Error> {
let layout = VirtualenvLayout::from_platform(&platform); let Some(venv) = detect_virtual_env()? else {
let Some(venv) = detect_virtual_env(&layout)? else {
return Err(Error::VenvNotFound); return Err(Error::VenvNotFound);
}; };
let venv = fs_err::canonicalize(venv)?; let venv = fs_err::canonicalize(venv)?;
let executable = layout.python_executable(&venv); let executable = detect_python_executable(&venv);
let interpreter = Interpreter::query(&executable, platform, cache)?; let interpreter = Interpreter::query(&executable, platform, cache)?;
debug_assert!( debug_assert!(
@ -42,14 +40,6 @@ impl PythonEnvironment {
}) })
} }
/// Create a [`PythonEnvironment`] for a new virtual environment, created with the given interpreter.
pub fn from_interpreter(interpreter: Interpreter, venv: &Path) -> Self {
Self {
interpreter: interpreter.with_venv_root(venv.to_path_buf()),
root: venv.to_path_buf(),
}
}
/// Create a [`PythonEnvironment`] for a Python interpreter specifier (e.g., a path or a binary name). /// Create a [`PythonEnvironment`] for a Python interpreter specifier (e.g., a path or a binary name).
pub fn from_requested_python( pub fn from_requested_python(
python: &str, python: &str,
@ -74,6 +64,11 @@ impl PythonEnvironment {
}) })
} }
/// Create a [`PythonEnvironment`] from an existing [`Interpreter`] and root directory.
pub fn from_interpreter(interpreter: Interpreter, root: PathBuf) -> Self {
Self { root, interpreter }
}
/// Returns the location of the Python interpreter. /// Returns the location of the Python interpreter.
pub fn root(&self) -> &Path { pub fn root(&self) -> &Path {
&self.root &self.root
@ -121,7 +116,7 @@ impl PythonEnvironment {
} }
/// Locate the current virtual environment. /// Locate the current virtual environment.
pub(crate) fn detect_virtual_env(layout: &VirtualenvLayout) -> Result<Option<PathBuf>, Error> { pub(crate) fn detect_virtual_env() -> Result<Option<PathBuf>, Error> {
match ( match (
env::var_os("VIRTUAL_ENV").filter(|value| !value.is_empty()), env::var_os("VIRTUAL_ENV").filter(|value| !value.is_empty()),
env::var_os("CONDA_PREFIX").filter(|value| !value.is_empty()), env::var_os("CONDA_PREFIX").filter(|value| !value.is_empty()),
@ -157,10 +152,6 @@ pub(crate) fn detect_virtual_env(layout: &VirtualenvLayout) -> Result<Option<Pat
if !dot_venv.join("pyvenv.cfg").is_file() { if !dot_venv.join("pyvenv.cfg").is_file() {
return Err(Error::MissingPyVenvCfg(dot_venv)); return Err(Error::MissingPyVenvCfg(dot_venv));
} }
let python = layout.python_executable(&dot_venv);
if !python.is_file() {
return Err(Error::BrokenVenv(dot_venv, python));
}
debug!("Found a virtualenv named .venv at: {}", dot_venv.display()); debug!("Found a virtualenv named .venv at: {}", dot_venv.display());
return Ok(Some(dot_venv)); return Ok(Some(dot_venv));
} }
@ -168,3 +159,28 @@ pub(crate) fn detect_virtual_env(layout: &VirtualenvLayout) -> Result<Option<Pat
Ok(None) Ok(None)
} }
/// Returns the path to the `python` executable inside a virtual environment.
pub(crate) fn detect_python_executable(venv: impl AsRef<Path>) -> PathBuf {
let venv = venv.as_ref();
if cfg!(windows) {
// Search for `python.exe` in the `Scripts` directory.
let executable = venv.join("Scripts").join("python.exe");
if executable.exists() {
return executable;
}
// Apparently, Python installed via msys2 on Windows _might_ produce a POSIX-like layout.
// See: https://github.com/PyO3/maturin/issues/1108
let executable = venv.join("bin").join("python.exe");
if executable.exists() {
return executable;
}
// Fallback for Conda environments.
venv.to_path_buf()
} else {
// Search for `python` in the `bin` directory.
venv.join("bin").join("python")
}
}

18
crates/uv-interpreter/src/sysconfig.rs Normal file
View file

@ -0,0 +1,18 @@
use std::path::PathBuf;
use serde::{Deserialize, Serialize};
/// The installation paths returned by `sysconfig.get_paths()`.
///
/// See: <https://docs.python.org/3.12/library/sysconfig.html#installation-paths>
#[derive(Debug, Deserialize, Serialize, Clone)]
pub struct SysconfigPaths {
pub stdlib: PathBuf,
pub platstdlib: PathBuf,
pub purelib: PathBuf,
pub platlib: PathBuf,
pub include: PathBuf,
pub platinclude: PathBuf,
pub scripts: PathBuf,
pub data: PathBuf,
}

17
crates/uv-interpreter/src/virtualenv.rs Normal file
View file

@ -0,0 +1,17 @@
use std::path::PathBuf;
use crate::sysconfig::SysconfigPaths;
/// The layout of a virtual environment.
#[derive(Debug)]
pub struct Virtualenv {
/// The absolute path to the root of the virtualenv, e.g., `/path/to/.venv`.
pub root: PathBuf,
/// The path to the Python interpreter inside the virtualenv, e.g., `.venv/bin/python`
/// (Unix, Python 3.11).
pub executable: PathBuf,
/// The `sysconfig` paths for the virtualenv, as returned by `sysconfig.get_paths()`.
pub sysconfig_paths: SysconfigPaths,
}

83
crates/uv-interpreter/src/virtualenv_layout.rs
View file

@ -1,83 +0,0 @@
use std::env::consts::EXE_SUFFIX;
use std::path::Path;
use std::path::PathBuf;
use platform_host::{Os, Platform};
/// Construct paths to various locations inside a virtual environment based on the platform.
#[derive(Debug, Clone, Eq, PartialEq)]
pub(crate) struct VirtualenvLayout<'a>(&'a Platform);
impl<'a> VirtualenvLayout<'a> {
/// Create a new [`VirtualenvLayout`] for the given platform.
pub(crate) fn from_platform(platform: &'a Platform) -> Self {
Self(platform)
}
/// Returns the path to the `python` executable inside a virtual environment.
pub(crate) fn python_executable(&self, venv_root: impl AsRef<Path>) -> PathBuf {
self.scripts(venv_root).join(format!("python{EXE_SUFFIX}"))
}
/// Returns the directory in which the binaries are stored inside a virtual environment.
pub(crate) fn scripts(&self, venv_root: impl AsRef<Path>) -> PathBuf {
let venv = venv_root.as_ref();
if matches!(self.0.os(), Os::Windows) {
let bin_dir = venv.join("Scripts");
if bin_dir.join("python.exe").exists() {
return bin_dir;
}
// Python installed via msys2 on Windows might produce a POSIX-like venv
// See https://github.com/PyO3/maturin/issues/1108
let bin_dir = venv.join("bin");
if bin_dir.join("python.exe").exists() {
return bin_dir;
}
// for conda environment
venv.to_path_buf()
} else {
venv.join("bin")
}
}
/// Returns the path to the `site-packages` directory inside a virtual environment.
pub(crate) fn site_packages(
&self,
venv_root: impl AsRef<Path>,
site_packages_python: &str,
version: (u8, u8),
) -> PathBuf {
let venv = venv_root.as_ref();
if matches!(self.0.os(), Os::Windows) {
venv.join("Lib").join("site-packages")
} else {
venv.join("lib")
.join(format!("{site_packages_python}{}.{}", version.0, version.1))
.join("site-packages")
}
}
/// Returns the path to the `data` directory inside a virtual environment.
#[allow(clippy::unused_self)]
pub(crate) fn data(&self, venv_root: impl AsRef<Path>) -> PathBuf {
venv_root.as_ref().to_path_buf()
}
/// Returns the path to the `platstdlib` directory inside a virtual environment.
#[allow(clippy::unused_self)]
pub(crate) fn platstdlib(
&self,
venv_root: impl AsRef<Path>,
site_packages_python: &str,
version: (u8, u8),
) -> PathBuf {
let venv = venv_root.as_ref();
if matches!(self.0.os(), Os::Windows) {
venv.join("Lib")
} else {
venv.join("lib")
.join(format!("{site_packages_python}{}.{}", version.0, version.1))
.join("site-packages")
}
}
}