crates/clang-sys/src/support.rs - platform/external/rust/android-crates-io - Git at Google

 // SPDX-License-Identifier: Apache-2.0

 //! Provides helper functionality.

 use std::path::{Path, PathBuf};
 use std::process::Command;
 use std::{env, io};

 use glob::{self, Pattern};

 use libc::c_int;

 use super::CXVersion;

 //================================================
 // Structs
 //================================================

 /// A `clang` executable.
 #[derive(Clone, Debug)]
 pub struct Clang {
     /// The path to this `clang` executable.
     pub path: PathBuf,
     /// The version of this `clang` executable if it could be parsed.
     pub version: Option<CXVersion>,
     /// The directories searched by this `clang` executable for C headers if
     /// they could be parsed.
     pub c_search_paths: Option<Vec<PathBuf>>,
     /// The directories searched by this `clang` executable for C++ headers if
     /// they could be parsed.
     pub cpp_search_paths: Option<Vec<PathBuf>>,
 }

 impl Clang {
     fn new(path: impl AsRef<Path>, args: &[String]) -> Self {
         Self {
             path: path.as_ref().into(),
             version: parse_version(path.as_ref()),
             c_search_paths: parse_search_paths(path.as_ref(), "c", args),
             cpp_search_paths: parse_search_paths(path.as_ref(), "c++", args),
         }
     }

     /// Returns a `clang` executable if one can be found.
     ///
     /// If the `CLANG_PATH` environment variable is set, that is the instance of
     /// `clang` used. Otherwise, a series of directories are searched. First, if
     /// a path is supplied, that is the first directory searched. Then, the
     /// directory returned by `llvm-config --bindir` is searched. On macOS
     /// systems, `xcodebuild -find clang` will next be queried. Last, the
     /// directories in the system's `PATH` are searched.
     ///
     /// ## Cross-compilation
     ///
     /// If target arguments are provided (e.g., `--target` followed by a target
     /// like `x86_64-unknown-linux-gnu`) then this method will prefer a
     /// target-prefixed instance of `clang` (e.g.,
     /// `x86_64-unknown-linux-gnu-clang` for the above example).
     pub fn find(path: Option<&Path>, args: &[String]) -> Option<Clang> {
         if let Ok(path) = env::var("CLANG_PATH") {
             let p = Path::new(&path);
             if p.is_file() && is_executable(p).unwrap_or(false) {
                 return Some(Clang::new(p, args));
             } else {
                 eprintln!("`CLANG_PATH` env var set but is not a full path to an executable");
             }
         }

         // Determine the cross-compilation target, if any.

         let mut target = None;
         for i in 0..args.len() {
             if (args[i] == "-target" || args[i] == "-target") && i + 1 < args.len() {
                 target = Some(&args[i + 1]);
             }
         }

         // Collect the paths to search for a `clang` executable in.

         let mut paths = vec![];

         if let Some(path) = path {
             paths.push(path.into());
         }

         if let Ok(path) = run_llvm_config(&["--bindir"]) {
             if let Some(line) = path.lines().next() {
                 paths.push(line.into());
             }
         }

         if cfg!(target_os = "macos") {
             if let Ok((path, _)) = run("xcodebuild", &["-find", "clang"]) {
                 if let Some(line) = path.lines().next() {
                     paths.push(line.into());
                 }
             }
         }

         if let Ok(path) = env::var("PATH") {
             paths.extend(env::split_paths(&path));
         }

         // First, look for a target-prefixed `clang` executable.

         if let Some(target) = target {
             let default = format!("{}-clang{}", target, env::consts::EXE_SUFFIX);
             let versioned = format!("{}-clang-[0-9]*{}", target, env::consts::EXE_SUFFIX);
             let patterns = &[&default[..], &versioned[..]];
             for path in &paths {
                 if let Some(path) = find(path, patterns) {
                     return Some(Clang::new(path, args));
                 }
             }
         }

         // Otherwise, look for any other `clang` executable.

         let default = format!("clang{}", env::consts::EXE_SUFFIX);
         let versioned = format!("clang-[0-9]*{}", env::consts::EXE_SUFFIX);
         let patterns = &[&default[..], &versioned[..]];
         for path in paths {
             if let Some(path) = find(&path, patterns) {
                 return Some(Clang::new(path, args));
             }
         }

         None
     }
 }

 //================================================
 // Functions
 //================================================

 /// Returns the first match to the supplied glob patterns in the supplied
 /// directory if there are any matches.
 fn find(directory: &Path, patterns: &[&str]) -> Option<PathBuf> {
     // Escape the directory in case it contains characters that have special
     // meaning in glob patterns (e.g., `[` or `]`).
     let directory = if let Some(directory) = directory.to_str() {
         Path::new(&Pattern::escape(directory)).to_owned()
     } else {
         return None;
     };

     for pattern in patterns {
         let pattern = directory.join(pattern).to_string_lossy().into_owned();
         if let Some(path) = glob::glob(&pattern).ok()?.filter_map(|p| p.ok()).next() {
             if path.is_file() && is_executable(&path).unwrap_or(false) {
                 return Some(path);
             }
         }
     }

     None
 }

 #[cfg(unix)]
 fn is_executable(path: &Path) -> io::Result<bool> {
     use std::ffi::CString;
     use std::os::unix::ffi::OsStrExt;

     let path = CString::new(path.as_os_str().as_bytes())?;
     unsafe { Ok(libc::access(path.as_ptr(), libc::X_OK) == 0) }
 }

 #[cfg(not(unix))]
 fn is_executable(_: &Path) -> io::Result<bool> {
     Ok(true)
 }

 /// Attempts to run an executable, returning the `stdout` and `stderr` output if
 /// successful.
 fn run(executable: &str, arguments: &[&str]) -> Result<(String, String), String> {
     Command::new(executable)
         .args(arguments)
         .output()
         .map(|o| {
             let stdout = String::from_utf8_lossy(&o.stdout).into_owned();
             let stderr = String::from_utf8_lossy(&o.stderr).into_owned();
             (stdout, stderr)
         })
         .map_err(|e| format!("could not run executable `{}`: {}", executable, e))
 }

 /// Runs `clang`, returning the `stdout` and `stderr` output.
 fn run_clang(path: &Path, arguments: &[&str]) -> (String, String) {
     run(&path.to_string_lossy(), arguments).unwrap()
 }

 /// Runs `llvm-config`, returning the `stdout` output if successful.
 fn run_llvm_config(arguments: &[&str]) -> Result<String, String> {
     let config = env::var("LLVM_CONFIG_PATH").unwrap_or_else(|_| "llvm-config".to_string());
     run(&config, arguments).map(|(o, _)| o)
 }

 /// Parses a version number if possible, ignoring trailing non-digit characters.
 fn parse_version_number(number: &str) -> Option<c_int> {
     number
         .chars()
         .take_while(|c| c.is_ascii_digit())
         .collect::<String>()
         .parse()
         .ok()
 }

 /// Parses the version from the output of a `clang` executable if possible.
 fn parse_version(path: &Path) -> Option<CXVersion> {
     let output = run_clang(path, &["--version"]).0;
     let start = output.find("version ")? + 8;
     let mut numbers = output[start..].split_whitespace().next()?.split('.');
     let major = numbers.next().and_then(parse_version_number)?;
     let minor = numbers.next().and_then(parse_version_number)?;
     let subminor = numbers.next().and_then(parse_version_number).unwrap_or(0);
     Some(CXVersion {
         Major: major,
         Minor: minor,
         Subminor: subminor,
     })
 }

 /// Parses the search paths from the output of a `clang` executable if possible.
 fn parse_search_paths(path: &Path, language: &str, args: &[String]) -> Option<Vec<PathBuf>> {
     let mut clang_args = vec!["-E", "-x", language, "-", "-v"];
     clang_args.extend(args.iter().map(|s| &**s));
     let output = run_clang(path, &clang_args).1;
     let start = output.find("#include <...> search starts here:")? + 34;
     let end = output.find("End of search list.")?;
     let paths = output[start..end].replace("(framework directory)", "");
     Some(
         paths
             .lines()
             .filter(|l| !l.is_empty())
             .map(|l| Path::new(l.trim()).into())
             .collect(),
     )
 }
	// SPDX-License-Identifier: Apache-2.0

	//! Provides helper functionality.

	use std::path::{Path, PathBuf};
	use std::process::Command;
	use std::{env, io};

	use glob::{self, Pattern};

	use libc::c_int;

	use super::CXVersion;

	//================================================
	// Structs
	//================================================

	/// A `clang` executable.
	#[derive(Clone, Debug)]
	pub struct Clang {
	/// The path to this `clang` executable.
	pub path: PathBuf,
	/// The version of this `clang` executable if it could be parsed.
	pub version: Option<CXVersion>,
	/// The directories searched by this `clang` executable for C headers if
	/// they could be parsed.
	pub c_search_paths: Option<Vec<PathBuf>>,
	/// The directories searched by this `clang` executable for C++ headers if
	/// they could be parsed.
	pub cpp_search_paths: Option<Vec<PathBuf>>,
	}

	impl Clang {
	fn new(path: impl AsRef<Path>, args: &[String]) -> Self {
	Self {
	path: path.as_ref().into(),
	version: parse_version(path.as_ref()),
	c_search_paths: parse_search_paths(path.as_ref(), "c", args),
	cpp_search_paths: parse_search_paths(path.as_ref(), "c++", args),
	}
	}

	/// Returns a `clang` executable if one can be found.
	///
	/// If the `CLANG_PATH` environment variable is set, that is the instance of
	/// `clang` used. Otherwise, a series of directories are searched. First, if
	/// a path is supplied, that is the first directory searched. Then, the
	/// directory returned by `llvm-config --bindir` is searched. On macOS
	/// systems, `xcodebuild -find clang` will next be queried. Last, the
	/// directories in the system's `PATH` are searched.
	///
	/// ## Cross-compilation
	///
	/// If target arguments are provided (e.g., `--target` followed by a target
	/// like `x86_64-unknown-linux-gnu`) then this method will prefer a
	/// target-prefixed instance of `clang` (e.g.,
	/// `x86_64-unknown-linux-gnu-clang` for the above example).
	pub fn find(path: Option<&Path>, args: &[String]) -> Option<Clang> {
	if let Ok(path) = env::var("CLANG_PATH") {
	let p = Path::new(&path);
	if p.is_file() && is_executable(p).unwrap_or(false) {
	return Some(Clang::new(p, args));
	} else {
	eprintln!("`CLANG_PATH` env var set but is not a full path to an executable");
	}
	}

	// Determine the cross-compilation target, if any.

	let mut target = None;
	for i in 0..args.len() {
	if (args[i] == "-target" \|\| args[i] == "-target") && i + 1 < args.len() {
	target = Some(&args[i + 1]);
	}
	}

	// Collect the paths to search for a `clang` executable in.

	let mut paths = vec![];

	if let Some(path) = path {
	paths.push(path.into());
	}

	if let Ok(path) = run_llvm_config(&["--bindir"]) {
	if let Some(line) = path.lines().next() {
	paths.push(line.into());
	}
	}

	if cfg!(target_os = "macos") {
	if let Ok((path, _)) = run("xcodebuild", &["-find", "clang"]) {
	if let Some(line) = path.lines().next() {
	paths.push(line.into());
	}
	}
	}

	if let Ok(path) = env::var("PATH") {
	paths.extend(env::split_paths(&path));
	}

	// First, look for a target-prefixed `clang` executable.

	if let Some(target) = target {
	let default = format!("{}-clang{}", target, env::consts::EXE_SUFFIX);
	let versioned = format!("{}-clang-[0-9]*{}", target, env::consts::EXE_SUFFIX);
	let patterns = &[&default[..], &versioned[..]];
	for path in &paths {
	if let Some(path) = find(path, patterns) {
	return Some(Clang::new(path, args));
	}
	}
	}

	// Otherwise, look for any other `clang` executable.

	let default = format!("clang{}", env::consts::EXE_SUFFIX);
	let versioned = format!("clang-[0-9]*{}", env::consts::EXE_SUFFIX);
	let patterns = &[&default[..], &versioned[..]];
	for path in paths {
	if let Some(path) = find(&path, patterns) {
	return Some(Clang::new(path, args));
	}
	}

	None
	}
	}

	//================================================
	// Functions
	//================================================

	/// Returns the first match to the supplied glob patterns in the supplied
	/// directory if there are any matches.
	fn find(directory: &Path, patterns: &[&str]) -> Option<PathBuf> {
	// Escape the directory in case it contains characters that have special
	// meaning in glob patterns (e.g., `[` or `]`).
	let directory = if let Some(directory) = directory.to_str() {
	Path::new(&Pattern::escape(directory)).to_owned()
	} else {
	return None;
	};

	for pattern in patterns {
	let pattern = directory.join(pattern).to_string_lossy().into_owned();
	if let Some(path) = glob::glob(&pattern).ok()?.filter_map(\|p\| p.ok()).next() {
	if path.is_file() && is_executable(&path).unwrap_or(false) {
	return Some(path);
	}
	}
	}

	None
	}

	#[cfg(unix)]
	fn is_executable(path: &Path) -> io::Result<bool> {
	use std::ffi::CString;
	use std::os::unix::ffi::OsStrExt;

	let path = CString::new(path.as_os_str().as_bytes())?;
	unsafe { Ok(libc::access(path.as_ptr(), libc::X_OK) == 0) }
	}

	#[cfg(not(unix))]
	fn is_executable(_: &Path) -> io::Result<bool> {
	Ok(true)
	}

	/// Attempts to run an executable, returning the `stdout` and `stderr` output if
	/// successful.
	fn run(executable: &str, arguments: &[&str]) -> Result<(String, String), String> {
	Command::new(executable)
	.args(arguments)
	.output()
	.map(\|o\| {
	let stdout = String::from_utf8_lossy(&o.stdout).into_owned();
	let stderr = String::from_utf8_lossy(&o.stderr).into_owned();
	(stdout, stderr)
	})
	.map_err(\|e\| format!("could not run executable `{}`: {}", executable, e))
	}

	/// Runs `clang`, returning the `stdout` and `stderr` output.
	fn run_clang(path: &Path, arguments: &[&str]) -> (String, String) {
	run(&path.to_string_lossy(), arguments).unwrap()
	}

	/// Runs `llvm-config`, returning the `stdout` output if successful.
	fn run_llvm_config(arguments: &[&str]) -> Result<String, String> {
	let config = env::var("LLVM_CONFIG_PATH").unwrap_or_else(\|_\| "llvm-config".to_string());
	run(&config, arguments).map(\|(o, _)\| o)
	}

	/// Parses a version number if possible, ignoring trailing non-digit characters.
	fn parse_version_number(number: &str) -> Option<c_int> {
	number
	.chars()
	.take_while(\|c\| c.is_ascii_digit())
	.collect::<String>()
	.parse()
	.ok()
	}

	/// Parses the version from the output of a `clang` executable if possible.
	fn parse_version(path: &Path) -> Option<CXVersion> {
	let output = run_clang(path, &["--version"]).0;
	let start = output.find("version ")? + 8;
	let mut numbers = output[start..].split_whitespace().next()?.split('.');
	let major = numbers.next().and_then(parse_version_number)?;
	let minor = numbers.next().and_then(parse_version_number)?;
	let subminor = numbers.next().and_then(parse_version_number).unwrap_or(0);
	Some(CXVersion {
	Major: major,
	Minor: minor,
	Subminor: subminor,
	})
	}

	/// Parses the search paths from the output of a `clang` executable if possible.
	fn parse_search_paths(path: &Path, language: &str, args: &[String]) -> Option<Vec<PathBuf>> {
	let mut clang_args = vec!["-E", "-x", language, "-", "-v"];
	clang_args.extend(args.iter().map(\|s\| &**s));
	let output = run_clang(path, &clang_args).1;
	let start = output.find("#include <...> search starts here:")? + 34;
	let end = output.find("End of search list.")?;
	let paths = output[start..end].replace("(framework directory)", "");
	Some(
	paths
	.lines()
	.filter(\|l\| !l.is_empty())
	.map(\|l\| Path::new(l.trim()).into())
	.collect(),
	)
	}