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impl_.rs
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impl_.rs
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use std::{
collections::{HashMap, HashSet},
convert::AsRef,
env,
ffi::OsString,
fmt::Display,
fs::{self, DirEntry, File},
io::Write,
path::{Path, PathBuf},
process::{Command, Stdio},
str::FromStr,
};
/// Minimum Python version PyO3 supports.
const MINIMUM_SUPPORTED_VERSION: PythonVersion = PythonVersion { major: 3, minor: 6 };
/// Maximum Python version that can be used as minimum required Python version with abi3.
const ABI3_MAX_MINOR: u8 = 9;
type Result<T> = std::result::Result<T, Box<dyn std::error::Error>>;
// A simple macro for returning an error. Resembles anyhow::bail.
macro_rules! bail {
($msg: expr) => { return Err($msg.into()); };
($fmt: literal $($args: tt)+) => { return Err(format!($fmt $($args)+).into()); };
}
// A simple macro for checking a condition. Resembles anyhow::ensure.
macro_rules! ensure {
($condition:expr, $($args: tt)+) => { if !($condition) { bail!($($args)+) } };
}
// Show warning. If needed, please extend this macro to support arguments.
macro_rules! warn {
($msg: literal) => {
println!(concat!("cargo:warning=", $msg));
};
}
/// Gets an environment variable owned by cargo.
///
/// Environment variables set by cargo are expected to be valid UTF8.
fn cargo_env_var(var: &str) -> Option<String> {
env::var_os(var).map(|os_string| os_string.to_str().unwrap().into())
}
/// Gets an external environment variable, and registers the build script to rerun if
/// the variable changes.
fn env_var(var: &str) -> Option<OsString> {
println!("cargo:rerun-if-env-changed={}", var);
env::var_os(var)
}
/// Configuration needed by PyO3 to build for the correct Python implementation.
///
/// Usually this is queried directly from the Python interpreter. When the `PYO3_NO_PYTHON` variable
/// is set, or during cross compile situations, then alternative strategies are used to populate
/// this type.
#[derive(Debug)]
pub struct InterpreterConfig {
pub version: PythonVersion,
pub libdir: Option<String>,
pub shared: bool,
pub abi3: bool,
pub ld_version: Option<String>,
pub base_prefix: Option<String>,
pub executable: Option<String>,
pub calcsize_pointer: Option<u32>,
pub implementation: PythonImplementation,
pub build_flags: BuildFlags,
}
impl InterpreterConfig {
pub fn emit_pyo3_cfgs(&self) {
// This should have been checked during pyo3-build-config build time.
assert!(self.version >= MINIMUM_SUPPORTED_VERSION);
for i in MINIMUM_SUPPORTED_VERSION.minor..=self.version.minor {
println!("cargo:rustc-cfg=Py_3_{}", i);
}
if self.abi3 {
println!("cargo:rustc-cfg=Py_LIMITED_API");
}
if self.is_pypy() {
println!("cargo:rustc-cfg=PyPy");
if self.abi3 {
warn!(
"PyPy does not yet support abi3 so the build artifacts will be version-specific. \
See https://foss.heptapod.net/pypy/pypy/-/issues/3397 for more information."
)
}
};
for flag in &self.build_flags.0 {
println!("cargo:rustc-cfg=py_sys_config=\"{}\"", flag)
}
}
pub fn is_pypy(&self) -> bool {
self.implementation == PythonImplementation::PyPy
}
}
#[derive(Debug, Copy, Clone, PartialEq, Eq, PartialOrd, Ord)]
pub struct PythonVersion {
pub major: u8,
pub minor: u8,
}
impl PythonVersion {
const PY37: Self = PythonVersion { major: 3, minor: 7 };
}
impl Display for PythonVersion {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "{}.{}", self.major, self.minor)
}
}
#[derive(Debug, Copy, Clone, PartialEq)]
pub enum PythonImplementation {
CPython,
PyPy,
}
impl FromStr for PythonImplementation {
type Err = Box<dyn std::error::Error>;
fn from_str(s: &str) -> Result<Self> {
match s {
"CPython" => Ok(PythonImplementation::CPython),
"PyPy" => Ok(PythonImplementation::PyPy),
_ => bail!("Invalid interpreter: {}", s),
}
}
}
fn is_abi3() -> bool {
cargo_env_var("CARGO_FEATURE_ABI3").is_some()
}
trait GetPrimitive {
fn get_bool(&self, key: &str) -> Result<bool>;
fn get_numeric<T: FromStr>(&self, key: &str) -> Result<T>;
}
impl GetPrimitive for HashMap<String, String> {
fn get_bool(&self, key: &str) -> Result<bool> {
match self
.get(key)
.map(|x| x.as_str())
.ok_or(format!("{} is not defined", key))?
{
"1" | "true" | "True" => Ok(true),
"0" | "false" | "False" => Ok(false),
_ => bail!("{} must be a bool (1/true/True or 0/false/False", key),
}
}
fn get_numeric<T: FromStr>(&self, key: &str) -> Result<T> {
self.get(key)
.ok_or(format!("{} is not defined", key))?
.parse::<T>()
.map_err(|_| format!("Could not parse value of {}", key).into())
}
}
struct CrossCompileConfig {
lib_dir: PathBuf,
version: Option<String>,
os: String,
arch: String,
}
fn cross_compiling() -> Result<Option<CrossCompileConfig>> {
let cross = env_var("PYO3_CROSS");
let cross_lib_dir = env_var("PYO3_CROSS_LIB_DIR");
let cross_python_version = env_var("PYO3_CROSS_PYTHON_VERSION");
let target_arch = cargo_env_var("CARGO_CFG_TARGET_ARCH");
let target_vendor = cargo_env_var("CARGO_CFG_TARGET_VENDOR");
let target_os = cargo_env_var("CARGO_CFG_TARGET_OS");
if cross.is_none() && cross_lib_dir.is_none() && cross_python_version.is_none() {
// No cross-compiling environment variables set; try to determine if this is a known case
// which is not cross-compilation.
let target = cargo_env_var("TARGET").unwrap();
let host = cargo_env_var("HOST").unwrap();
if target == host {
// Not cross-compiling
return Ok(None);
}
if target == "i686-pc-windows-msvc" && host == "x86_64-pc-windows-msvc" {
// Not cross-compiling to compile for 32-bit Python from windows 64-bit
return Ok(None);
}
if target == "x86_64-apple-darwin" && host == "aarch64-apple-darwin" {
// Not cross-compiling to compile for x86-64 Python from macOS arm64
return Ok(None);
}
if target == "aarch64-apple-darwin" && host == "x86_64-apple-darwin" {
// Not cross-compiling to compile for arm64 Python from macOS x86_64
return Ok(None);
}
if let (Some(arch), Some(vendor), Some(os)) = (&target_arch, &target_vendor, &target_os) {
if host.starts_with(&format!("{}-{}-{}", arch, vendor, os)) {
// Not cross-compiling if arch-vendor-os is all the same
// e.g. x86_64-unknown-linux-musl on x86_64-unknown-linux-gnu host
return Ok(None);
}
}
}
// At this point we assume that we are cross compiling.
Ok(Some(CrossCompileConfig {
lib_dir: cross_lib_dir
.ok_or("The PYO3_CROSS_LIB_DIR environment variable must be set when cross-compiling")?
.into(),
os: target_os.unwrap(),
arch: target_arch.unwrap(),
version: cross_python_version
.map(|os_string| {
os_string
.to_str()
.ok_or("PYO3_CROSS_PYTHON_VERSION is not valid utf-8.")
.map(str::to_owned)
})
.transpose()?,
}))
}
/// A list of python interpreter compile-time preprocessor defines that
/// we will pick up and pass to rustc via `--cfg=py_sys_config={varname}`;
/// this allows using them conditional cfg attributes in the .rs files, so
///
/// #[cfg(py_sys_config="{varname}"]
///
/// is the equivalent of `#ifdef {varname}` in C.
///
/// see Misc/SpecialBuilds.txt in the python source for what these mean.
#[derive(Debug)]
pub struct BuildFlags(pub HashSet<&'static str>);
impl BuildFlags {
const ALL: [&'static str; 5] = [
// TODO: Remove WITH_THREAD once Python 3.6 support dropped (as it's always on).
"WITH_THREAD",
"Py_DEBUG",
"Py_REF_DEBUG",
"Py_TRACE_REFS",
"COUNT_ALLOCS",
];
fn from_config_map(config_map: &HashMap<String, String>) -> Self {
Self(
BuildFlags::ALL
.iter()
.copied()
.filter(|flag| config_map.get(*flag).map_or(false, |value| value == "1"))
.collect(),
)
}
/// Examine python's compile flags to pass to cfg by launching
/// the interpreter and printing variables of interest from
/// sysconfig.get_config_vars.
fn from_interpreter(interpreter: &Path) -> Result<Self> {
if cargo_env_var("CARGO_CFG_TARGET_OS").unwrap() == "windows" {
return Ok(Self::windows_hardcoded());
}
let mut script = String::from("import sysconfig\n");
script.push_str("config = sysconfig.get_config_vars()\n");
for k in BuildFlags::ALL.iter() {
script.push_str(&format!("print(config.get('{}', '0'))\n", k));
}
let stdout = run_python_script(&interpreter, &script)?;
let split_stdout: Vec<&str> = stdout.trim_end().lines().collect();
ensure!(
split_stdout.len() == BuildFlags::ALL.len(),
"Python stdout len didn't return expected number of lines: {}",
split_stdout.len()
);
let flags = BuildFlags::ALL
.iter()
.zip(split_stdout)
.filter(|(_, flag_value)| *flag_value == "1")
.map(|(&flag, _)| flag)
.collect();
Ok(Self(flags))
}
fn windows_hardcoded() -> Self {
// sysconfig is missing all the flags on windows, so we can't actually
// query the interpreter directly for its build flags.
let mut flags = HashSet::new();
flags.insert("WITH_THREAD");
// Uncomment these manually if your python was built with these and you want
// the cfg flags to be set in rust.
//
// map.insert("Py_DEBUG", "1");
// map.insert("Py_REF_DEBUG", "1");
// map.insert("Py_TRACE_REFS", "1");
// map.insert("COUNT_ALLOCS", 1");
Self(flags)
}
fn abi3() -> Self {
let mut flags = HashSet::new();
flags.insert("WITH_THREAD");
Self(flags)
}
fn fixup(mut self, version: PythonVersion, implementation: PythonImplementation) -> Self {
if self.0.contains("Py_DEBUG") {
self.0.insert("Py_REF_DEBUG");
if version <= PythonVersion::PY37 {
// Py_DEBUG only implies Py_TRACE_REFS until Python 3.7
self.0.insert("Py_TRACE_REFS");
}
}
// WITH_THREAD is always on for Python 3.7, and for PyPy.
if implementation == PythonImplementation::PyPy || version >= PythonVersion::PY37 {
self.0.insert("WITH_THREAD");
}
self
}
}
fn parse_script_output(output: &str) -> HashMap<String, String> {
output
.lines()
.filter_map(|line| {
let mut i = line.splitn(2, ' ');
Some((i.next()?.into(), i.next()?.into()))
})
.collect()
}
/// Parse sysconfigdata file
///
/// The sysconfigdata is simply a dictionary containing all the build time variables used for the
/// python executable and library. Here it is read and added to a script to extract only what is
/// necessary. This necessitates a python interpreter for the host machine to work.
fn parse_sysconfigdata(config_path: impl AsRef<Path>) -> Result<HashMap<String, String>> {
let mut script = fs::read_to_string(config_path)?;
script += r#"
print("version_major", build_time_vars["VERSION"][0]) # 3
print("version_minor", build_time_vars["VERSION"][2]) # E.g., 8
print("SOABI", build_time_vars.get("SOABI", ""))
KEYS = [
"WITH_THREAD",
"Py_DEBUG",
"Py_REF_DEBUG",
"Py_TRACE_REFS",
"COUNT_ALLOCS",
"Py_ENABLE_SHARED",
"LDVERSION",
"SIZEOF_VOID_P"
]
for key in KEYS:
print(key, build_time_vars.get(key, 0))
"#;
let output = run_python_script(&find_interpreter()?, &script)?;
Ok(parse_script_output(&output))
}
fn starts_with(entry: &DirEntry, pat: &str) -> bool {
let name = entry.file_name();
name.to_string_lossy().starts_with(pat)
}
fn ends_with(entry: &DirEntry, pat: &str) -> bool {
let name = entry.file_name();
name.to_string_lossy().ends_with(pat)
}
/// Finds the `_sysconfigdata*.py` file in the library path.
///
/// From the python source for `_sysconfigdata*.py` is always going to be located at
/// `build/lib.{PLATFORM}-{PY_MINOR_VERSION}` when built from source. The [exact line][1] is defined as:
///
/// ```py
/// pybuilddir = 'build/lib.%s-%s' % (get_platform(), sys.version_info[:2])
/// ```
///
/// Where get_platform returns a kebab-case formated string containing the os, the architecture and
/// possibly the os' kernel version (not the case on linux). However, when installed using a package
/// manager, the `_sysconfigdata*.py` file is installed in the `${PREFIX}/lib/python3.Y/` directory.
/// The `_sysconfigdata*.py` is generally in a sub-directory of the location of `libpython3.Y.so`.
/// So we must find the file in the following possible locations:
///
/// ```sh
/// # distribution from package manager, lib_dir should include lib/
/// ${INSTALL_PREFIX}/lib/python3.Y/_sysconfigdata*.py
/// ${INSTALL_PREFIX}/lib/libpython3.Y.so
/// ${INSTALL_PREFIX}/lib/python3.Y/config-3.Y-${HOST_TRIPLE}/libpython3.Y.so
///
/// # Built from source from host
/// ${CROSS_COMPILED_LOCATION}/build/lib.linux-x86_64-Y/_sysconfigdata*.py
/// ${CROSS_COMPILED_LOCATION}/libpython3.Y.so
///
/// # if cross compiled, kernel release is only present on certain OS targets.
/// ${CROSS_COMPILED_LOCATION}/build/lib.{OS}(-{OS-KERNEL-RELEASE})?-{ARCH}-Y/_sysconfigdata*.py
/// ${CROSS_COMPILED_LOCATION}/libpython3.Y.so
/// ```
///
/// [1]: https://github.com/python/cpython/blob/3.5/Lib/sysconfig.py#L389
fn find_sysconfigdata(cross: &CrossCompileConfig) -> Result<PathBuf> {
let sysconfig_paths = search_lib_dir(&cross.lib_dir, &cross);
let sysconfig_name = env_var("_PYTHON_SYSCONFIGDATA_NAME");
let mut sysconfig_paths = sysconfig_paths
.iter()
.filter_map(|p| {
let canonical = fs::canonicalize(p).ok();
match &sysconfig_name {
Some(_) => canonical.filter(|p| p.file_stem() == sysconfig_name.as_deref()),
None => canonical,
}
})
.collect::<Vec<PathBuf>>();
sysconfig_paths.dedup();
if sysconfig_paths.is_empty() {
bail!(
"Could not find either libpython.so or _sysconfigdata*.py in {}",
cross.lib_dir.display()
);
} else if sysconfig_paths.len() > 1 {
let mut error_msg = String::from(
"Detected multiple possible Python versions. Please set either the \
PYO3_CROSS_PYTHON_VERSION variable to the wanted version or the \
_PYTHON_SYSCONFIGDATA_NAME variable to the wanted sysconfigdata file name.\n\n\
sysconfigdata files found:",
);
for path in sysconfig_paths {
error_msg += &format!("\n\t{}", path.display());
}
bail!("{}", error_msg);
}
Ok(sysconfig_paths.remove(0))
}
/// recursive search for _sysconfigdata, returns all possibilities of sysconfigdata paths
fn search_lib_dir(path: impl AsRef<Path>, cross: &CrossCompileConfig) -> Vec<PathBuf> {
let mut sysconfig_paths = vec![];
let version_pat = if let Some(v) = &cross.version {
format!("python{}", v)
} else {
"python3.".into()
};
for f in fs::read_dir(path).expect("Path does not exist") {
let sysc = match &f {
Ok(f) if starts_with(f, "_sysconfigdata") && ends_with(f, "py") => vec![f.path()],
Ok(f) if starts_with(f, "build") => search_lib_dir(f.path(), cross),
Ok(f) if starts_with(f, "lib.") => {
let name = f.file_name();
// check if right target os
if !name.to_string_lossy().contains(if cross.os == "android" {
"linux"
} else {
&cross.os
}) {
continue;
}
// Check if right arch
if !name.to_string_lossy().contains(&cross.arch) {
continue;
}
search_lib_dir(f.path(), cross)
}
Ok(f) if starts_with(f, &version_pat) => search_lib_dir(f.path(), cross),
_ => continue,
};
sysconfig_paths.extend(sysc);
}
// If we got more than one file, only take those that contain the arch name.
// For ubuntu 20.04 with host architecture x86_64 and a foreign architecture of armhf
// this reduces the number of candidates to 1:
//
// $ find /usr/lib/python3.8/ -name '_sysconfigdata*.py' -not -lname '*'
// /usr/lib/python3.8/_sysconfigdata__x86_64-linux-gnu.py
// /usr/lib/python3.8/_sysconfigdata__arm-linux-gnueabihf.py
if sysconfig_paths.len() > 1 {
let temp = sysconfig_paths
.iter()
.filter(|p| p.to_string_lossy().contains(&cross.arch))
.cloned()
.collect::<Vec<PathBuf>>();
if !temp.is_empty() {
sysconfig_paths = temp;
}
}
sysconfig_paths
}
/// Find cross compilation information from sysconfigdata file
///
/// first find sysconfigdata file which follows the pattern [`_sysconfigdata_{abi}_{platform}_{multiarch}`][1]
/// on python 3.6 or greater. On python 3.5 it is simply `_sysconfigdata.py`.
///
/// [1]: https://github.com/python/cpython/blob/3.8/Lib/sysconfig.py#L348
fn load_cross_compile_from_sysconfigdata(
cross_compile_config: CrossCompileConfig,
) -> Result<InterpreterConfig> {
let sysconfig_path = find_sysconfigdata(&cross_compile_config)?;
let sysconfig_data = parse_sysconfigdata(sysconfig_path)?;
let major = sysconfig_data.get_numeric("version_major")?;
let minor = sysconfig_data.get_numeric("version_minor")?;
let ld_version = match sysconfig_data.get("LDVERSION") {
Some(s) => s.clone(),
None => format!("{}.{}", major, minor),
};
let calcsize_pointer = sysconfig_data.get_numeric("SIZEOF_VOID_P").ok();
let soabi = match sysconfig_data.get("SOABI") {
Some(s) => s,
None => bail!("sysconfigdata did not define SOABI"),
};
let version = PythonVersion { major, minor };
let implementation = if soabi.starts_with("pypy") {
PythonImplementation::PyPy
} else if soabi.starts_with("cpython") {
PythonImplementation::CPython
} else {
bail!("unsupported Python interpreter");
};
Ok(InterpreterConfig {
version,
libdir: cross_compile_config.lib_dir.to_str().map(String::from),
shared: sysconfig_data.get_bool("Py_ENABLE_SHARED")?,
abi3: is_abi3(),
ld_version: Some(ld_version),
base_prefix: None,
executable: None,
calcsize_pointer,
implementation,
build_flags: BuildFlags::from_config_map(&sysconfig_data).fixup(version, implementation),
})
}
fn windows_hardcoded_cross_compile(
cross_compile_config: CrossCompileConfig,
) -> Result<InterpreterConfig> {
let (major, minor) = if let Some(version) = cross_compile_config.version {
let mut parts = version.split('.');
match (
parts.next().and_then(|major| major.parse().ok()),
parts.next().and_then(|minor| minor.parse().ok()),
parts.next(),
) {
(Some(major), Some(minor), None) => (major, minor),
_ => bail!(
"Expected major.minor version (e.g. 3.9) for PYO3_CROSS_PYTHON_VERSION, got `{}`",
version
),
}
} else if let Some(minor_version) = get_abi3_minor_version() {
(3, minor_version)
} else {
bail!("PYO3_CROSS_PYTHON_VERSION or an abi3-py3* feature must be specified when cross-compiling for Windows.")
};
Ok(InterpreterConfig {
version: PythonVersion { major, minor },
libdir: cross_compile_config.lib_dir.to_str().map(String::from),
shared: true,
abi3: is_abi3(),
ld_version: None,
base_prefix: None,
executable: None,
calcsize_pointer: None,
implementation: PythonImplementation::CPython,
build_flags: BuildFlags::windows_hardcoded(),
})
}
fn load_cross_compile_info(cross_compile_config: CrossCompileConfig) -> Result<InterpreterConfig> {
match cargo_env_var("CARGO_CFG_TARGET_FAMILY") {
// Configure for unix platforms using the sysconfigdata file
Some(os) if os == "unix" => load_cross_compile_from_sysconfigdata(cross_compile_config),
// Use hardcoded interpreter config when targeting Windows
Some(os) if os == "windows" => windows_hardcoded_cross_compile(cross_compile_config),
// sysconfigdata works fine on wasm/wasi
Some(os) if os == "wasm" => load_cross_compile_from_sysconfigdata(cross_compile_config),
// Waiting for users to tell us what they expect on their target platform
Some(os) => bail!(
"Unsupported target OS family for cross-compilation: {:?}",
os
),
// Unknown os family - try to do something useful
None => load_cross_compile_from_sysconfigdata(cross_compile_config),
}
}
/// Run a python script using the specified interpreter binary.
fn run_python_script(interpreter: &Path, script: &str) -> Result<String> {
let out = Command::new(interpreter)
.env("PYTHONIOENCODING", "utf-8")
.stdin(Stdio::piped())
.stdout(Stdio::piped())
.stderr(Stdio::inherit())
.spawn()
.and_then(|mut child| {
child
.stdin
.as_mut()
.expect("piped stdin")
.write_all(script.as_bytes())?;
child.wait_with_output()
});
match out {
Err(err) => bail!(
"failed to run the Python interpreter at {}: {}",
interpreter.display(),
err
),
Ok(ok) if !ok.status.success() => bail!("Python script failed"),
Ok(ok) => Ok(String::from_utf8(ok.stdout)?),
}
}
fn get_venv_path() -> Option<PathBuf> {
match (env_var("VIRTUAL_ENV"), env_var("CONDA_PREFIX")) {
(Some(dir), None) => Some(PathBuf::from(dir)),
(None, Some(dir)) => Some(PathBuf::from(dir)),
(Some(_), Some(_)) => {
warn!(
"Both VIRTUAL_ENV and CONDA_PREFIX are set. PyO3 will ignore both of these for \
locating the Python interpreter until you unset one of them."
);
None
}
(None, None) => None,
}
}
/// Attempts to locate a python interpreter. Locations are checked in the order listed:
/// 1. If `PYO3_PYTHON` is set, this intepreter is used.
/// 2. If in a virtualenv, that environment's interpreter is used.
/// 3. `python`, if this is functional a Python 3.x interpreter
/// 4. `python3`, as above
fn find_interpreter() -> Result<PathBuf> {
if let Some(exe) = env_var("PYO3_PYTHON") {
Ok(exe.into())
} else if let Some(venv_path) = get_venv_path() {
match cargo_env_var("CARGO_CFG_TARGET_OS").unwrap().as_str() {
"windows" => Ok(venv_path.join("Scripts\\python")),
_ => Ok(venv_path.join("bin/python")),
}
} else {
println!("cargo:rerun-if-env-changed=PATH");
["python", "python3"]
.iter()
.find(|bin| {
if let Ok(out) = Command::new(bin).arg("--version").output() {
// begin with `Python 3.X.X :: additional info`
out.stdout.starts_with(b"Python 3") || out.stderr.starts_with(b"Python 3")
} else {
false
}
})
.map(PathBuf::from)
.ok_or_else(|| "no Python 3.x interpreter found".into())
}
}
/// Extract compilation vars from the specified interpreter.
fn get_config_from_interpreter(interpreter: &Path) -> Result<InterpreterConfig> {
let script = r#"
# Allow the script to run on Python 2, so that nicer error can be printed later.
from __future__ import print_function
import os.path
import platform
import struct
import sys
from sysconfig import get_config_var
PYPY = platform.python_implementation() == "PyPy"
# sys.base_prefix is missing on Python versions older than 3.3; this allows the script to continue
# so that the version mismatch can be reported in a nicer way later.
base_prefix = getattr(sys, "base_prefix", None)
if base_prefix:
# Anaconda based python distributions have a static python executable, but include
# the shared library. Use the shared library for embedding to avoid rust trying to
# LTO the static library (and failing with newer gcc's, because it is old).
ANACONDA = os.path.exists(os.path.join(base_prefix, "conda-meta"))
else:
ANACONDA = False
def print_if_set(varname, value):
if value is not None:
print(varname, value)
libdir = get_config_var("LIBDIR")
print("version_major", sys.version_info[0])
print("version_minor", sys.version_info[1])
print("implementation", platform.python_implementation())
print_if_set("libdir", libdir)
print_if_set("ld_version", get_config_var("LDVERSION"))
print_if_set("base_prefix", base_prefix)
print("framework", bool(get_config_var("PYTHONFRAMEWORK")))
print("shared", PYPY or ANACONDA or bool(get_config_var("Py_ENABLE_SHARED")))
print("executable", sys.executable)
print("calcsize_pointer", struct.calcsize("P"))
"#;
let output = run_python_script(interpreter, script)?;
let map: HashMap<String, String> = parse_script_output(&output);
let shared = match (
cargo_env_var("CARGO_CFG_TARGET_OS").unwrap().as_str(),
map["framework"].as_str(),
map["shared"].as_str(),
) {
(_, _, "True") // Py_ENABLE_SHARED is set
| ("windows", _, _) // Windows always uses shared linking
| ("macos", "True", _) // MacOS framework package uses shared linking
=> true,
(_, _, "False") => false, // Any other platform, Py_ENABLE_SHARED not set
_ => bail!("Unrecognised link model combination")
};
let version = PythonVersion {
major: map["version_major"].parse()?,
minor: map["version_minor"].parse()?,
};
let implementation = map["implementation"].parse()?;
Ok(InterpreterConfig {
version,
implementation,
libdir: map.get("libdir").cloned(),
shared,
abi3: is_abi3(),
ld_version: map.get("ld_version").cloned(),
base_prefix: map.get("base_prefix").cloned(),
executable: map.get("executable").cloned(),
calcsize_pointer: Some(map["calcsize_pointer"].parse()?),
build_flags: BuildFlags::from_interpreter(interpreter)?.fixup(version, implementation),
})
}
fn get_abi3_minor_version() -> Option<u8> {
(MINIMUM_SUPPORTED_VERSION.minor..=ABI3_MAX_MINOR)
.find(|i| cargo_env_var(&format!("CARGO_FEATURE_ABI3_PY3{}", i)).is_some())
}
fn get_interpreter_config() -> Result<InterpreterConfig> {
let abi3_version = get_abi3_minor_version();
// If PYO3_NO_PYTHON is set with abi3, we can build PyO3 without calling Python.
if let Some(abi3_minor_version) = abi3_version {
if env_var("PYO3_NO_PYTHON").is_some() {
return Ok(InterpreterConfig {
version: PythonVersion {
major: 3,
minor: abi3_minor_version,
},
implementation: PythonImplementation::CPython,
abi3: true,
libdir: None,
build_flags: BuildFlags::abi3(),
base_prefix: None,
calcsize_pointer: None,
executable: None,
ld_version: None,
shared: true,
});
}
}
let mut interpreter_config = if let Some(paths) = cross_compiling()? {
load_cross_compile_info(paths)?
} else {
get_config_from_interpreter(&find_interpreter()?)?
};
// Fixup minor version if abi3-pyXX feature set
if let Some(abi3_minor_version) = abi3_version {
ensure!(
abi3_minor_version <= interpreter_config.version.minor,
"You cannot set a mininimum Python version 3.{} higher than the interpreter version 3.{}",
abi3_minor_version,
interpreter_config.version.minor
);
interpreter_config.version.minor = abi3_minor_version;
}
Ok(interpreter_config)
}
pub fn configure() -> Result<()> {
let interpreter_config = get_interpreter_config()?;
write_interpreter_config(&interpreter_config)
}
fn write_interpreter_config(interpreter_config: &InterpreterConfig) -> Result<()> {
let out_dir = env::var_os("OUT_DIR").unwrap();
let mut out = File::create(Path::new(&out_dir).join("pyo3-build-config.rs"))?;
writeln!(out, "{{")?;
writeln!(
out,
"let mut build_flags = std::collections::HashSet::new();"
)?;
for flag in &interpreter_config.build_flags.0 {
writeln!(out, "build_flags.insert({:?});", flag)?;
}
writeln!(
out,
r#"crate::impl_::InterpreterConfig {{
version: crate::impl_::PythonVersion {{
major: {major},
minor: {minor},
}},
implementation: crate::impl_::PythonImplementation::{implementation:?},
libdir: {libdir:?}.map(|str: &str| str.to_string()),
abi3: {abi3},
build_flags: crate::impl_::BuildFlags(build_flags),
base_prefix: {base_prefix:?}.map(|str: &str| str.to_string()),
calcsize_pointer: {calcsize_pointer:?},
executable: {executable:?}.map(|str: &str| str.to_string()),
ld_version: {ld_version:?}.map(|str: &str| str.to_string()),
shared: {shared:?}
}}"#,
major = interpreter_config.version.major,
minor = interpreter_config.version.minor,
implementation = interpreter_config.implementation,
base_prefix = interpreter_config.base_prefix,
calcsize_pointer = interpreter_config.calcsize_pointer,
executable = interpreter_config.executable,
ld_version = interpreter_config.ld_version,
libdir = interpreter_config.libdir,
shared = interpreter_config.shared,
abi3 = interpreter_config.abi3,
)?;
writeln!(out, "}}")?;
Ok(())
}