// Take a look at the license at the top of the repository in the LICENSE file. use glib::translate::{from_glib_full, ToGlibPtr}; use glib::ToSendValue; use std::i32; pub fn audio_buffer_clip( buffer: gst::Buffer, segment: &gst::Segment, rate: u32, bpf: u32, ) -> Option { skip_assert_initialized!(); unsafe { from_glib_full(ffi::gst_audio_buffer_clip( buffer.into_ptr(), segment.to_glib_none().0, rate as i32, bpf as i32, )) } } #[cfg(any(feature = "v1_16", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_16")))] pub fn audio_buffer_truncate( buffer: gst::Buffer, bpf: u32, trim: usize, samples: Option, ) -> gst::Buffer { skip_assert_initialized!(); unsafe { from_glib_full(ffi::gst_audio_buffer_truncate( buffer.into_ptr(), bpf as i32, trim, samples.unwrap_or(std::usize::MAX), )) } } pub fn audio_make_raw_caps( formats: &[crate::AudioFormat], layout: crate::AudioLayout, ) -> gst::caps::Builder { assert_initialized_main_thread!(); let formats: Vec = formats .iter() .map(|f| match f { crate::AudioFormat::Encoded => panic!("Invalid encoded format"), crate::AudioFormat::Unknown => panic!("Invalid unknown format"), _ => f.to_string().to_send_value(), }) .collect(); let builder = gst::caps::Caps::builder("audio/x-raw") .field("format", &gst::List::from_owned(formats)) .field("rate", &gst::IntRange::::new(1, i32::MAX)) .field("channels", &gst::IntRange::::new(1, i32::MAX)); match layout { crate::AudioLayout::Interleaved => builder.field("layout", &"interleaved"), crate::AudioLayout::NonInterleaved => builder.field("layout", &"non-interleaved"), crate::AudioLayout::__Unknown(_) => builder, } } #[cfg(test)] mod tests { use super::*; #[test] fn audio_caps() { gst::init().unwrap(); let caps = audio_make_raw_caps( &[crate::AudioFormat::S16be, crate::AudioFormat::S16le], crate::AudioLayout::Interleaved, ) .build(); assert_eq!(caps.to_string(), "audio/x-raw, format=(string){ S16BE, S16LE }, rate=(int)[ 1, 2147483647 ], channels=(int)[ 1, 2147483647 ], layout=(string)interleaved"); #[cfg(feature = "v1_18")] { use glib::translate::{from_glib_full, ToGlib}; /* audio_make_raw_caps() is a re-implementation so ensure it returns the same caps as the C API */ let c_caps = unsafe { let formats: Vec = [crate::AudioFormat::S16be, crate::AudioFormat::S16le] .iter() .map(|f| f.to_glib()) .collect(); let caps = ffi::gst_audio_make_raw_caps( formats.as_ptr(), formats.len() as u32, ffi::GST_AUDIO_LAYOUT_INTERLEAVED, ); from_glib_full(caps) }; assert_eq!(caps, c_caps); } let caps = audio_make_raw_caps( &[crate::AudioFormat::S16be, crate::AudioFormat::S16le], crate::AudioLayout::NonInterleaved, ) .field("rate", &16000) .field("channels", &2) .build(); assert_eq!( caps.to_string(), "audio/x-raw, format=(string){ S16BE, S16LE }, rate=(int)16000, channels=(int)2, layout=(string)non-interleaved" ); } #[test] #[should_panic(expected = "Invalid encoded format")] fn audio_caps_encoded() { gst::init().unwrap(); audio_make_raw_caps( &[crate::AudioFormat::Encoded], crate::AudioLayout::Interleaved, ); } #[test] #[should_panic(expected = "Invalid unknown format")] fn audio_caps_unknown() { gst::init().unwrap(); audio_make_raw_caps( &[crate::AudioFormat::Unknown], crate::AudioLayout::Interleaved, ); } }