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#![cfg(any(target_os = "macos", target_os = "ios"))]
#![allow(non_snake_case, non_upper_case_globals, non_camel_case_types)]
extern crate core_foundation_sys;
use core_foundation_sys::string::*;
use core_foundation_sys::data::*;
use core_foundation_sys::dictionary::*;
use core_foundation_sys::propertylist::*;
use std::{ptr, mem};
include!("generated.rs");
#[inline]
pub unsafe fn MIDIPacketNext(pkt: *const MIDIPacket) -> *const MIDIPacket {
// Get pointer to potentially unaligned data without triggering undefined behavior
// addr_of does not require creating an intermediate reference to unaligned data.
let ptr = ptr::addr_of!((*pkt).data) as *const u8;
let offset = (*pkt).length as isize;
if cfg!(any(target_arch = "arm", target_arch = "aarch64")) {
// MIDIPacket must be 4-byte aligned on ARM
((ptr.offset(offset + 3) as usize) & !(3usize)) as *const MIDIPacket
} else {
ptr.offset(offset) as *const MIDIPacket
}
}
#[inline]
pub unsafe fn MIDIEventPacketNext(pkt: *const MIDIEventPacket) -> *const MIDIEventPacket {
// Get pointer to potentially unaligned data without triggering undefined behavior
// addr_of does not require creating an intermediate reference to unaligned data.
let ptr = ptr::addr_of!((*pkt).words) as *const u8;
let offset = (((*pkt).wordCount as usize) * mem::size_of::<u32>()) as isize;
if cfg!(any(target_arch = "arm", target_arch = "aarch64")) {
// MIDIEventPacket must be 4-byte aligned on ARM
((ptr.offset(offset + 3) as usize) & !(3usize)) as *const MIDIEventPacket
} else {
ptr.offset(offset) as *const MIDIEventPacket
}
}
#[allow(dead_code)]
mod static_test {
/// Statically assert the correct size of `MIDIPacket` and `MIDIPacketList`,
/// which require non-default alignment.
unsafe fn assert_sizes() {
use super::{MIDIPacket, MIDIPacketList};
use std::mem::{transmute, zeroed};
let p: MIDIPacket = zeroed();
transmute::<_, [u8; 268]>(p);
let p: MIDIPacketList = zeroed();
transmute::<_, [u8; 272]>(p);
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn midi_packet_next() {
const BUFFER_SIZE: usize = 65536;
let buffer: &mut [u8] = &mut [0; BUFFER_SIZE];
let pkt_list_ptr = buffer.as_mut_ptr() as *mut MIDIPacketList;
let packets = vec![
(1, vec![0x90, 0x40, 0x7f]), // tuple of (time, [midi bytes])
(2, vec![0x90, 0x41, 0x7f]),
];
unsafe {
let mut pkt_ptr = MIDIPacketListInit(pkt_list_ptr);
for pkt in &packets {
pkt_ptr = MIDIPacketListAdd(
pkt_list_ptr,
BUFFER_SIZE as ByteCount,
pkt_ptr,
pkt.0,
pkt.1.len() as ByteCount,
pkt.1.as_ptr(),
);
assert!(!pkt_ptr.is_null());
}
}
unsafe {
let first_packet = &(*pkt_list_ptr).packet as *const MIDIPacket; // get pointer to first midi packet in the list
let len = (*first_packet).length as usize;
assert_eq!(
&(*first_packet).data[0..len],
&[0x90, 0x40, 0x7f]
);
let second_packet = MIDIPacketNext(first_packet);
let len = (*second_packet).length as usize;
assert_eq!(
&(*second_packet).data[0..len],
&[0x90, 0x41, 0x7f]
);
}
}
#[test]
fn midi_event_packet_next() {
const BUFFER_SIZE: usize = 65536;
let buffer: &mut [u8] = &mut [0; BUFFER_SIZE];
let pkt_list_ptr = buffer.as_mut_ptr() as *mut MIDIEventList;
let packets = vec![
(1, vec![10u32, 20]), // tuple of (time, [midi words])
(2, vec![30u32, 40, 50]),
];
unsafe {
let mut pkt_ptr = MIDIEventListInit(pkt_list_ptr, kMIDIProtocol_2_0 as MIDIProtocolID);
for pkt in &packets {
pkt_ptr = MIDIEventListAdd(
pkt_list_ptr,
BUFFER_SIZE as ByteCount,
pkt_ptr,
pkt.0,
pkt.1.len() as ByteCount,
pkt.1.as_ptr(),
);
assert!(!pkt_ptr.is_null());
}
}
unsafe {
let first_packet = &(*pkt_list_ptr).packet as *const MIDIEventPacket; // get pointer to first midi packet in the list
let len = (*first_packet).wordCount as usize;
assert_eq!(
&(*first_packet).words[0..len],
&[10, 20]
);
let second_packet = MIDIEventPacketNext(first_packet);
let len = (*second_packet).wordCount as usize;
assert_eq!(
&(*second_packet).words[0..len],
&[30, 40, 50]
);
}
}
}