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|
import str::sbuf;
export program;
export run_program;
export start_program;
export program_output;
export spawn_process;
export waitpid;
native "rust" mod rustrt {
fn rust_run_program(argv: *sbuf, in_fd: int, out_fd: int, err_fd: int) ->
int;
}
fn arg_vec(prog: &str, args: &[@str]) -> [sbuf] {
let argptrs = str::as_buf(prog, {|buf| [buf] });
for arg in args { argptrs += str::as_buf(*arg, {|buf| [buf] }); }
argptrs += [unsafe::reinterpret_cast(0)];
ret argptrs;
}
fn spawn_process(prog: &str, args: &[str], in_fd: int, out_fd: int,
err_fd: int) -> int {
// Note: we have to hold on to these vector references while we hold a
// pointer to their buffers
let prog = prog;
let args = vec::map({|&arg| @arg }, args);
let argv = arg_vec(prog, args);
let pid =
rustrt::rust_run_program(vec::unsafe::to_ptr(argv), in_fd, out_fd,
err_fd);
ret pid;
}
fn run_program(prog: &str, args: &[str]) -> int {
ret waitpid(spawn_process(prog, args, 0, 0, 0));
}
type program =
obj {
fn get_id() -> int;
fn input() -> io::writer;
fn output() -> io::reader;
fn err() -> io::reader;
fn close_input();
fn finish() -> int;
fn destroy();
};
resource program_res(p: program) { p.destroy(); }
fn start_program(prog: &str, args: &[str]) -> @program_res {
let pipe_input = os::pipe();
let pipe_output = os::pipe();
let pipe_err = os::pipe();
let pid =
spawn_process(prog, args, pipe_input.in, pipe_output.out,
pipe_err.out);
if pid == -1 { fail; }
os::libc::close(pipe_input.in);
os::libc::close(pipe_output.out);
os::libc::close(pipe_err.out);
obj new_program(pid: int,
mutable in_fd: int,
out_file: os::libc::FILE,
err_file: os::libc::FILE,
mutable finished: bool) {
fn get_id() -> int { ret pid; }
fn input() -> io::writer {
ret io::new_writer(io::fd_buf_writer(in_fd, option::none));
}
fn output() -> io::reader {
ret io::new_reader(io::FILE_buf_reader(out_file, option::none));
}
fn err() -> io::reader {
ret io::new_reader(io::FILE_buf_reader(err_file, option::none));
}
fn close_input() {
let invalid_fd = -1;
if in_fd != invalid_fd {
os::libc::close(in_fd);
in_fd = invalid_fd;
}
}
fn finish() -> int {
if finished { ret 0; }
finished = true;
self.close_input();
ret waitpid(pid);
}
fn destroy() {
self.finish();
os::libc::fclose(out_file);
os::libc::fclose(err_file);
}
}
ret @program_res(new_program(pid, pipe_input.out,
os::fd_FILE(pipe_output.in),
os::fd_FILE(pipe_err.in), false));
}
fn read_all(rd: &io::reader) -> str {
let buf = "";
while !rd.eof() {
let bytes = rd.read_bytes(4096u);
buf += str::unsafe_from_bytes(bytes);
}
ret buf;
}
fn program_output(prog: &str, args: &[str]) ->
{status: int, out: str, err: str} {
let pr = start_program(prog, args);
pr.close_input();
ret {status: pr.finish(),
out: read_all(pr.output()),
err: read_all(pr.err())};
}
/* Returns an exit status */
#[cfg(target_os = "win32")]
fn waitpid(pid: int) -> int {
os::waitpid(pid)
}
#[cfg(target_os = "linux")]
#[cfg(target_os = "macos")]
fn waitpid(pid: int) -> int {
#[cfg(target_os = "linux")]
fn WIFEXITED(status: int) -> bool {
(status & 0xff) == 0
}
#[cfg(target_os = "macos")]
fn WIFEXITED(status: int) -> bool {
(status & 0x7f) == 0
}
#[cfg(target_os = "linux")]
fn WEXITSTATUS(status: int) -> int {
(status >> 8) & 0xff
}
#[cfg(target_os = "macos")]
fn WEXITSTATUS(status: int) -> int {
status >> 8
}
let status = os::waitpid(pid);
ret if WIFEXITED(status) {
WEXITSTATUS(status)
} else {
1
};
}
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// compile-command: "make -k -C $RBUILD 2>&1 | sed -e 's/\\/x\\//x:\\//g'";
// End:
|
