pyo3/python27-sys/build.rs
James Salter b1eca56ec3 Python 3 build support
* Add python3-sys to rust-cpython as an optional feature, and
  make python27-sys also optional, but still the default
* Parametrise python27-sys/build.rs so that it is python
  version independent, and clone it into python3-sys/build.rs.
  Hopefully this can continue to be maintained as an identical
  file.
* python27-sys and python3-sys gain features for explicitly
  selecting a python version to link to. for python27-sys,
  there's currently only python27; for python3-sys there's
  python 3.4 and 3.5.
* explicitly tell travis to use nightlies (seems to have
  started trying to use 1.0.0)
2015-05-23 15:23:08 +01:00

302 lines
11 KiB
Rust

extern crate pkg_config;
extern crate regex;
use std::process::Command;
use std::collections::HashMap;
use std::env;
use regex::Regex;
use std::fs;
struct PythonVersion {
major: u8,
minor: u8
}
const CFG_KEY: &'static str = "py_sys_config";
// 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} name in C.
//
// see Misc/SpecialBuilds.txt in the python source for what these mean.
//
// (hrm, this is sort of re-implementing what distutils does, except
// by passing command line args instead of referring to a python.h)
static SYSCONFIG_FLAGS: [&'static str; 7] = [
"Py_USING_UNICODE",
"Py_UNICODE_WIDE",
"WITH_THREAD",
"Py_DEBUG",
"Py_REF_DEBUG",
"Py_TRACE_REFS",
"COUNT_ALLOCS",
];
static SYSCONFIG_VALUES: [&'static str; 1] = [
// cfg doesn't support flags with values, just bools - so flags
// below are translated into bools as {varname}_{val}
//
// for example, Py_UNICODE_SIZE_2 or Py_UNICODE_SIZE_4
"Py_UNICODE_SIZE" // note - not present on python 3.3+, which is always wide
];
/// Examine python's compile flags to pass to cfg by launching
/// the interpreter and printing variables of interest from
/// sysconfig.get_config_vars.
fn get_config_vars(python_path: &String) -> Result<HashMap<String, String>, String> {
let mut script = "import sysconfig; \
config = sysconfig.get_config_vars();".to_owned();
for k in SYSCONFIG_FLAGS.iter().chain(SYSCONFIG_VALUES.iter()) {
script.push_str(&format!("print(config.get('{}', {}))", k,
if is_value(k) { "None" } else { "0" } ));
script.push_str(";");
}
let mut cmd = Command::new(python_path);
cmd.arg("-c").arg(script);
let out = try!(cmd.output().map_err(|e| {
format!("failed to run python interpreter `{:?}`: {}", cmd, e)
}));
if !out.status.success() {
let stderr = String::from_utf8(out.stderr).unwrap();
let mut msg = format!("python script failed with stderr:\n\n");
msg.push_str(&stderr);
return Err(msg);
}
let stdout = String::from_utf8(out.stdout).unwrap();
let split_stdout: Vec<&str> = stdout.trim_right().split('\n').collect();
if split_stdout.len() != SYSCONFIG_VALUES.len() + SYSCONFIG_FLAGS.len() {
return Err(
format!("python stdout len didn't return expected number of lines:
{}", split_stdout.len()).to_string());
}
let all_vars = SYSCONFIG_FLAGS.iter().chain(SYSCONFIG_VALUES.iter());
// let var_map: HashMap<String, String> = HashMap::new();
Ok(all_vars.zip(split_stdout.iter())
.fold(HashMap::new(), |mut memo: HashMap<String, String>, (&k, &v)| {
if !(v.to_owned() == "None" && is_value(k)) {
memo.insert(k.to_owned(), v.to_owned());
}
memo
}))
}
fn is_value(key: &str) -> bool {
SYSCONFIG_VALUES.iter().find(|x| **x == key).is_some()
}
fn cfg_line_for_var(key: &str, val: &str) -> Option<String> {
if is_value(key) {
// is a value; suffix the key name with the value
Some(format!("cargo:rustc-cfg={}=\"{}_{}\"\n", CFG_KEY, key, val))
} else if val != "0" {
// is a flag that isn't zero
Some(format!("cargo:rustc-cfg={}=\"{}\"", CFG_KEY, key))
} else {
// is a flag that is zero
None
}
}
/// Run a python script using the 'python' located by PATH.
fn run_python_script(script: &str) -> Result<String, String> {
let mut cmd = Command::new("python");
cmd.arg("-c").arg(script);
let out = try!(cmd.output().map_err(|e| {
format!("failed to run python interpreter `{:?}`: {}", cmd, e)
}));
if !out.status.success() {
let stderr = String::from_utf8(out.stderr).unwrap();
let mut msg = format!("python script failed with stderr:\n\n");
msg.push_str(&stderr);
return Err(msg);
}
let out = String::from_utf8(out.stdout).unwrap();
return Ok(out);
}
#[cfg(not(target_os="macos"))]
fn get_rustc_link_lib(version: &PythonVersion, enable_shared: bool) -> Result<String, String> {
if enable_shared {
Ok(format!("cargo:rustc-link-lib=python{}.{}", version.major,
version.minor))
} else {
Ok(format!("cargo:rustc-link-lib=static=python{}.{}", version.major,
version.minor))
}
}
#[cfg(target_os="macos")]
fn get_macos_linkmodel() -> Result<String, String> {
let script = "import MacOS; print MacOS.linkmodel;";
let out = run_python_script(script).unwrap();
Ok(out.trim_right().to_owned())
}
#[cfg(target_os="macos")]
fn get_rustc_link_lib(version: &PythonVersion, _: bool) -> Result<String, String> {
// os x can be linked to a framework or static or dynamic, and
// Py_ENABLE_SHARED is wrong; framework means shared library
let dotted_version = format!("{}.{}", version.major, version.minor);
match get_macos_linkmodel().unwrap().as_ref() {
"static" => Ok(format!("cargo:rustc-link-lib=static=python{}",
dotted_version)),
"dynamic" => Ok(format!("cargo:rustc-link-lib=python{}",
dotted_version)),
"framework" => Ok(format!("cargo:rustc-link-lib=python{}",
dotted_version)),
other => Err(format!("unknown linkmodel {}", other))
}
}
/// Deduce configuration from the 'python' in the current PATH and print
/// cargo vars to stdout.
///
/// Note that if that python isn't version 2.7, this will error.
fn configure_from_path(expected_version: &PythonVersion) -> Result<String, String> {
let script = "import sys; import sysconfig; print(sys.version_info[0:2]); \
print(sysconfig.get_config_var('LIBDIR')); \
print(sysconfig.get_config_var('Py_ENABLE_SHARED')); \
print(sys.exec_prefix);";
let out = run_python_script(script).unwrap();
let lines: Vec<&str> = out.split("\n").collect();
let version: &str = lines[0];
let libpath: &str = lines[1];
let enable_shared: &str = lines[2];
let exec_prefix: &str = lines[3];
if version != format!("({}, {})",
expected_version.major,
expected_version.minor)
{
return Err(format!("'python' is not version {}.{} (is {})",
expected_version.major, expected_version.minor, version));
}
println!("{}", get_rustc_link_lib(expected_version,
enable_shared == "1").unwrap());
println!("cargo:rustc-link-search=native={}", libpath);
return Ok(format!("{}/bin/python", exec_prefix));
}
/// Deduce configuration from the python-X.X in pkg-config and print
/// cargo vars to stdout.
fn configure_from_pkgconfig(version: &PythonVersion, pkg_name: &str)
-> Result<String, String> {
// this emits relevant build info to stdout, which is picked up by the
// build chain (funny name for something with side-effects!)
try!(pkg_config::find_library(pkg_name));
// This seems to be a convention - unfortunately pkg-config doesn't
// tell you the executable name, but I've noticed at least on
// OS X homebrew the python bin dir for 3.4 doesn't actually contain
// a 'python'.
let exec_prefix = pkg_config::Config::get_variable(pkg_name,
"exec_prefix").unwrap();
// try to find the python interpreter in the exec_prefix somewhere.
// the .pc doesn't tell us :(
let attempts = [
format!("/bin/python{}_{}", version.major, version.minor),
format!("/bin/python{}", version.major),
"/bin/python".to_owned()
];
for attempt in attempts.iter() {
let possible_exec_name = format!("{}{}", exec_prefix,
attempt);
match fs::metadata(&possible_exec_name) {
Ok(_) => return Ok(possible_exec_name),
Err(_) => ()
};
}
return Err("Unable to locate python interpreter".to_owned());
}
/// Determine the python version we're supposed to be building
/// from the features passed via the environment.
fn version_from_env() -> Result<PythonVersion, String> {
let re = Regex::new(r"CARGO_FEATURE_PYTHON_(\d+)_(\d+)").unwrap();
for (key, _) in env::vars() {
match re.captures(&key) {
Some(cap) => return Ok(PythonVersion {
major: cap.at(1).unwrap().parse().unwrap(),
minor: cap.at(2).unwrap().parse().unwrap()
}),
None => ()
}
}
Err("Python version feature was not found. At least one python version \
feature must be enabled.".to_owned())
}
fn main() {
// 1. Setup cfg variables so we can do conditional compilation in this
// library based on the python interpeter's compilation flags. This is
// necessary for e.g. matching the right unicode and threading interfaces.
//
// By default, try to use pkgconfig - this seems to be a rust norm.
//
// If you want to use a different python, setting the appropriate
// PYTHON_X.X_NO_PKG_CONFIG environment variable will cause the script
// to pick up the python in your PATH; e.g. for python27 X.X is 2.7.
//
// This will work smoothly with an activated virtualenv.
//
// If you have troubles with your shell accepting '.' in a var name,
// try using 'env' (sorry but this isn't our fault - it just has to
// match the pkg-config package name, which is going to have a . in it).
let version = version_from_env().unwrap();
let pkg_name = format!("python-{}.{}", version.major, version.minor);
let python_interpreter_path = match configure_from_pkgconfig(&version, &pkg_name) {
Ok(p) => p,
// no pkgconfig - either it failed or user set the environment
// variable "PYTHON_2.7_NO_PKG_CONFIG".
Err(_) => configure_from_path(&version).unwrap()
};
let config_map = get_config_vars(&python_interpreter_path).unwrap();
for (key, val) in &config_map {
match cfg_line_for_var(key, val) {
Some(line) => println!("{}", line),
None => ()
}
}
// 2. Export python interpreter compilation flags as cargo variables that
// will be visible to dependents. All flags will be available to dependent
// build scripts in the environment variable DEP_PYTHON27_PYTHON_FLAGS as
// comma separated list; each item in the list looks like
//
// {VAL,FLAG}_{flag_name}=val;
//
// FLAG indicates the variable is always 0 or 1
// VAL indicates it can take on any value
//
// rust-cypthon/build.rs contains an example of how to unpack this data
// into cfg flags that replicate the ones present in this library, so
// you can use the same cfg syntax.
let flags: String = config_map.iter().fold("".to_owned(), |memo, (key, val)| {
if is_value(key) {
memo + format!("VAL_{}={},", key, val).as_ref()
} else if val != "0" {
memo + format!("FLAG_{}={},", key, val).as_ref()
} else {
memo
}
});
println!("cargo:python_flags={}", &flags[..flags.len()-1]);
}