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use alsa;
use std::ffi::{CStr};
use super::error::*;
use std::ptr;
use super::{ctl_int, poll};
use libc::{c_short, c_uint, c_int, pollfd};
pub struct HCtl(*mut alsa::snd_hctl_t);
unsafe impl Send for HCtl {}
impl Drop for HCtl {
fn drop(&mut self) { unsafe { alsa::snd_hctl_close(self.0) }; }
}
impl HCtl {
pub fn open(c: &CStr, nonblock: bool) -> Result<HCtl> {
let mut r = ptr::null_mut();
let flags = if nonblock { 1 } else { 0 };
acheck!(snd_hctl_open(&mut r, c.as_ptr(), flags))
.map(|_| HCtl(r))
}
pub fn load(&self) -> Result<()> { acheck!(snd_hctl_load(self.0)).map(|_| ()) }
pub fn elem_iter<'a>(&'a self) -> ElemIter<'a> { ElemIter(self, ptr::null_mut()) }
pub fn find_elem<'a>(&'a self, id: &ctl_int::ElemId) -> Option<Elem<'a>> {
let p = unsafe { alsa::snd_hctl_find_elem(self.0, ctl_int::elem_id_ptr(&id)) };
if p == ptr::null_mut() { None } else { Some(Elem(&self, p)) }
}
pub fn wait(&self, timeout_ms: Option<u32>) -> Result<bool> {
acheck!(snd_hctl_wait(self.0, timeout_ms.map(|x| x as c_int).unwrap_or(-1))).map(|i| i == 1) }
}
impl poll::PollDescriptors for HCtl {
fn count(&self) -> usize {
unsafe { alsa::snd_hctl_poll_descriptors_count(self.0) as usize }
}
fn fill(&self, p: &mut [pollfd]) -> Result<usize> {
let z = unsafe { alsa::snd_hctl_poll_descriptors(self.0, p.as_mut_ptr(), p.len() as c_uint) };
from_code("snd_hctl_poll_descriptors", z).map(|_| z as usize)
}
fn revents(&self, p: &[pollfd]) -> Result<poll::PollFlags> {
let mut r = 0;
let z = unsafe { alsa::snd_hctl_poll_descriptors_revents(self.0, p.as_ptr() as *mut pollfd, p.len() as c_uint, &mut r) };
from_code("snd_hctl_poll_descriptors_revents", z).map(|_| poll::PollFlags::from_bits_truncate(r as c_short))
}
}
pub struct ElemIter<'a>(&'a HCtl, *mut alsa::snd_hctl_elem_t);
impl<'a> Iterator for ElemIter<'a> {
type Item = Elem<'a>;
fn next(&mut self) -> Option<Elem<'a>> {
self.1 = if self.1 == ptr::null_mut() { unsafe { alsa::snd_hctl_first_elem((self.0).0) }}
else { unsafe { alsa::snd_hctl_elem_next(self.1) }};
if self.1 == ptr::null_mut() { None }
else { Some(Elem(self.0, self.1)) }
}
}
pub struct Elem<'a>(&'a HCtl, *mut alsa::snd_hctl_elem_t);
impl<'a> Elem<'a> {
pub fn get_id(&self) -> Result<ctl_int::ElemId> {
let v = try!(ctl_int::elem_id_new());
unsafe { alsa::snd_hctl_elem_get_id(self.1, ctl_int::elem_id_ptr(&v)) };
Ok(v)
}
pub fn info(&self) -> Result<ctl_int::ElemInfo> {
let v = try!(ctl_int::elem_info_new());
acheck!(snd_hctl_elem_info(self.1, ctl_int::elem_info_ptr(&v))).map(|_| v)
}
pub fn read(&self) -> Result<ctl_int::ElemValue> {
let i = try!(self.info());
let v = try!(ctl_int::elem_value_new(i.get_type(), i.get_count()));
acheck!(snd_hctl_elem_read(self.1, ctl_int::elem_value_ptr(&v))).map(|_| v)
}
pub fn write(&self, v: &ctl_int::ElemValue) -> Result<bool> {
acheck!(snd_hctl_elem_write(self.1, ctl_int::elem_value_ptr(&v))).map(|e| e > 0)
}
}
#[test]
fn print_hctls() {
for a in super::card::Iter::new().map(|x| x.unwrap()) {
use std::ffi::CString;
let h = HCtl::open(&CString::new(format!("hw:{}", a.get_index())).unwrap(), false).unwrap();
h.load().unwrap();
println!("Card {}:", a.get_name().unwrap());
for b in h.elem_iter() {
println!(" {:?} - {:?}", b.get_id().unwrap(), b.read().unwrap());
}
}
}
#[test]
fn print_jacks() {
for a in super::card::Iter::new().map(|x| x.unwrap()) {
use std::ffi::CString;
let h = HCtl::open(&CString::new(format!("hw:{}", a.get_index())).unwrap(), false).unwrap();
h.load().unwrap();
for b in h.elem_iter() {
let id = b.get_id().unwrap();
if id.get_interface() != super::ctl_int::ElemIface::Card { continue; }
let name = id.get_name().unwrap();
if !name.ends_with(" Jack") { continue; }
if name.ends_with(" Phantom Jack") {
println!("{} is always present", &name[..name.len()-13])
}
else { println!("{} is {}", &name[..name.len()-5],
if b.read().unwrap().get_boolean(0).unwrap() { "plugged in" } else { "unplugged" })
}
}
}
}