#![feature(link_args)]

// Set the stack size at link time on Windows. See rustc_driver::in_rustc_thread
// for the rationale.
#[allow(unused_attributes)]
#[cfg_attr(all(windows, target_env = "msvc"), link_args = "/STACK:16777216")]
// We only build for msvc and gnu now, but we use a exhaustive condition here
// so we can expect either the stack size to be set or the build fails.
#[cfg_attr(all(windows, not(target_env = "msvc")), link_args = "-Wl,--stack,16777216")]
// Also, don't forget to set this for rustdoc.
extern {}

fn main() {
    // Pull in jemalloc when enabled.
    //
    // Note that we're pulling in a static copy of jemalloc which means that to
    // pull it in we need to actually reference its symbols for it to get
    // linked. The two crates we link to here, std and rustc_driver, are both
    // dynamic libraries. That means to pull in jemalloc we need to actually
    // reference allocation symbols one way or another (as this file is the only
    // object code in the rustc executable).
    #[cfg(feature = "jemalloc-sys")]
    {
        use std::os::raw::{c_void, c_int};

        #[used]
        static _F1: unsafe extern fn(usize, usize) -> *mut c_void =
            jemalloc_sys::calloc;
        #[used]
        static _F2: unsafe extern fn(*mut *mut c_void, usize, usize) -> c_int =
            jemalloc_sys::posix_memalign;
        #[used]
        static _F3: unsafe extern fn(usize, usize) -> *mut c_void =
            jemalloc_sys::aligned_alloc;
        #[used]
        static _F4: unsafe extern fn(usize) -> *mut c_void =
            jemalloc_sys::malloc;
        #[used]
        static _F5: unsafe extern fn(*mut c_void, usize) -> *mut c_void =
            jemalloc_sys::realloc;
        #[used]
        static _F6: unsafe extern fn(*mut c_void) =
            jemalloc_sys::free;
    }

    rustc_driver::set_sigpipe_handler();
    rustc_driver::main()
}