// Copyright (C) 2017 Sebastian Dröge // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use ffi; use AudioChannelPosition; use std::mem; use gst; use gst::MiniObject; use glib; use glib::translate::{from_glib, ToGlib}; use array_init; impl AudioChannelPosition { pub fn to_mask(&self) -> u64 { unsafe { let val = mem::transmute::(self.to_glib()); 1 << val } } pub fn positions_to_mask(positions: &[AudioChannelPosition], force_order: bool) -> Option { assert_initialized_main_thread!(); let len = positions.len(); if len > 64 { return None; } let positions_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { positions[i].to_glib() }); unsafe { let mut mask = mem::uninitialized(); let valid: bool = from_glib(ffi::gst_audio_channel_positions_to_mask( positions_raw.as_ptr() as *mut _, len as i32, force_order.to_glib(), &mut mask, )); if valid { Some(mask) } else { None } } } pub fn positions_from_mask( mask: u64, positions: &mut [AudioChannelPosition], ) -> Result<(), glib::BoolError> { assert_initialized_main_thread!(); if positions.len() > 64 { return Err(glib::BoolError("Invalid number of channels")); } let len = positions.len(); let mut positions_raw: [ffi::GstAudioChannelPosition; 64] = [ffi::GST_AUDIO_CHANNEL_POSITION_INVALID; 64]; let valid: bool = unsafe { from_glib(ffi::gst_audio_channel_positions_from_mask( len as i32, mask, positions_raw.as_mut_ptr(), )) }; if valid { for (d, s) in positions.iter_mut().zip(positions_raw.iter()) { *d = from_glib(*s); } Ok(()) } else { Err(glib::BoolError( "Couldn't convert channel positions to mask", )) } } pub fn positions_to_valid_order( positions: &mut [AudioChannelPosition], ) -> Result<(), glib::BoolError> { assert_initialized_main_thread!(); if positions.len() > 64 { return Err(glib::BoolError("Invalid number of channels")); } let len = positions.len(); let mut positions_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { positions[i].to_glib() }); let valid: bool = unsafe { from_glib(ffi::gst_audio_channel_positions_to_valid_order( positions_raw.as_mut_ptr(), len as i32, )) }; if valid { for (d, s) in positions.iter_mut().zip(positions_raw.iter()) { *d = from_glib(*s); } Ok(()) } else { Err(glib::BoolError( "Couldn't convert channel positions to mask", )) } } pub fn get_fallback_mask(channels: u32) -> u64 { assert_initialized_main_thread!(); unsafe { ffi::gst_audio_channel_get_fallback_mask(channels as i32) } } pub fn check_valid_channel_positions( positions: &[::AudioChannelPosition], force_order: bool, ) -> bool { assert_initialized_main_thread!(); if positions.len() > 64 { return false; } let len = positions.len(); let positions_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { positions[i].to_glib() }); unsafe { from_glib(ffi::gst_audio_check_valid_channel_positions( positions_raw.as_ptr() as *mut _, len as i32, force_order.to_glib(), )) } } } pub fn buffer_reorder_channels( buffer: &mut gst::BufferRef, format: ::AudioFormat, channels: u32, from: &[AudioChannelPosition], to: &[AudioChannelPosition], ) -> Result<(), glib::BoolError> { assert_initialized_main_thread!(); if from.len() != to.len() || from.len() > 64 { return Err(glib::BoolError("Invalid number of channels")); } let from_len = from.len(); let to_len = to.len(); let from_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= from_len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { from[i].to_glib() }); let to_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= to_len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { to[i].to_glib() }); let valid: bool = unsafe { from_glib(ffi::gst_audio_buffer_reorder_channels( buffer.as_mut_ptr(), format.to_glib(), channels as i32, from_raw.as_ptr() as *mut _, to_raw.as_ptr() as *mut _, )) }; if valid { Ok(()) } else { Err(glib::BoolError("Failed to reorder channels")) } } pub fn reorder_channels( data: &mut [u8], format: ::AudioFormat, channels: u32, from: &[AudioChannelPosition], to: &[AudioChannelPosition], ) -> Result<(), glib::BoolError> { assert_initialized_main_thread!(); if from.len() != to.len() || from.len() > 64 { return Err(glib::BoolError("Invalid number of channels")); } let from_len = from.len(); let to_len = to.len(); let from_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= from_len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { from[i].to_glib() }); let to_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= to_len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { to[i].to_glib() }); let valid: bool = unsafe { from_glib(ffi::gst_audio_reorder_channels( data.as_mut_ptr() as *mut _, data.len(), format.to_glib(), channels as i32, from_raw.as_ptr() as *mut _, to_raw.as_ptr() as *mut _, )) }; if valid { Ok(()) } else { Err(glib::BoolError("Failed to reorder channels")) } } pub fn get_channel_reorder_map( from: &[AudioChannelPosition], to: &[AudioChannelPosition], reorder_map: &mut [usize], ) -> Result<(), glib::BoolError> { assert_initialized_main_thread!(); if from.len() != to.len() || from.len() != reorder_map.len() || from.len() > 64 { return Err(glib::BoolError("Invalid number of channels")); } let from_len = from.len(); let to_len = to.len(); let from_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= from_len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { from[i].to_glib() }); let to_raw: [ffi::GstAudioChannelPosition; 64] = array_init::array_init_copy(|i| if i >= to_len as usize { ffi::GST_AUDIO_CHANNEL_POSITION_INVALID } else { to[i].to_glib() }); let mut reorder_map_raw = [0i32, 64]; let valid: bool = unsafe { from_glib(ffi::gst_audio_get_channel_reorder_map( from_len as i32, from_raw.as_ptr() as *mut _, to_raw.as_ptr() as *mut _, reorder_map_raw.as_mut_ptr(), )) }; if valid { for (d, s) in reorder_map.iter_mut().zip(reorder_map_raw.iter()) { *d = *s as usize; } Ok(()) } else { Err(glib::BoolError("Failed to reorder channels")) } }