// Take a look at the license at the top of the repository in the LICENSE file. use glib::translate::ToGlibPtr; use std::ops; use std::ptr; #[derive(Debug)] #[doc(alias = "GstVideoConverter")] pub struct VideoConverter(ptr::NonNull); impl Drop for VideoConverter { fn drop(&mut self) { unsafe { ffi::gst_video_converter_free(self.0.as_ptr()); } } } unsafe impl Send for VideoConverter {} unsafe impl Sync for VideoConverter {} impl VideoConverter { #[doc(alias = "gst_video_converter_new")] pub fn new( in_info: &crate::VideoInfo, out_info: &crate::VideoInfo, config: Option, ) -> Result { assert_initialized_main_thread!(); if in_info.fps() != out_info.fps() { return Err(glib::bool_error!("Can't do framerate conversion")); } if in_info.interlace_mode() != out_info.interlace_mode() { return Err(glib::bool_error!("Can't do interlacing conversion")); } unsafe { let ptr = ffi::gst_video_converter_new( in_info.to_glib_none().0 as *mut _, out_info.to_glib_none().0 as *mut _, config.map(|s| s.0.into_ptr()).unwrap_or(ptr::null_mut()), ); if ptr.is_null() { Err(glib::bool_error!("Failed to create video converter")) } else { Ok(Self(ptr::NonNull::new_unchecked(ptr))) } } } #[doc(alias = "get_config")] #[doc(alias = "gst_video_converter_get_config")] pub fn config(&self) -> VideoConverterConfig { unsafe { VideoConverterConfig( gst::StructureRef::from_glib_borrow(ffi::gst_video_converter_get_config( self.0.as_ptr(), )) .to_owned(), ) } } #[doc(alias = "gst_video_converter_set_config")] pub fn set_config(&mut self, config: VideoConverterConfig) { unsafe { ffi::gst_video_converter_set_config(self.0.as_ptr(), config.0.into_ptr()); } } #[doc(alias = "gst_video_converter_frame")] pub fn frame( &self, src: &crate::VideoFrame, dest: &mut crate::VideoFrame, ) { unsafe { ffi::gst_video_converter_frame(self.0.as_ptr(), src.as_ptr(), dest.as_mut_ptr()); } } pub fn frame_ref( &self, src: &crate::VideoFrameRef, dest: &mut crate::VideoFrameRef<&mut gst::BufferRef>, ) { unsafe { ffi::gst_video_converter_frame(self.0.as_ptr(), src.as_ptr(), dest.as_mut_ptr()); } } } #[derive(Debug, Clone, PartialEq, Eq)] pub struct VideoConverterConfig(gst::Structure); impl ops::Deref for VideoConverterConfig { type Target = gst::StructureRef; fn deref(&self) -> &gst::StructureRef { self.0.deref() } } impl ops::DerefMut for VideoConverterConfig { fn deref_mut(&mut self) -> &mut gst::StructureRef { self.0.deref_mut() } } impl AsRef for VideoConverterConfig { fn as_ref(&self) -> &gst::StructureRef { self.0.as_ref() } } impl AsMut for VideoConverterConfig { fn as_mut(&mut self) -> &mut gst::StructureRef { self.0.as_mut() } } impl Default for VideoConverterConfig { fn default() -> Self { Self::new() } } impl TryFrom for VideoConverterConfig { type Error = glib::BoolError; fn try_from(v: gst::Structure) -> Result { skip_assert_initialized!(); if v.name() == "GstVideoConverter" { Ok(Self(v)) } else { Err(glib::bool_error!("Structure is no VideoConverterConfig")) } } } impl<'a> TryFrom<&'a gst::StructureRef> for VideoConverterConfig { type Error = glib::BoolError; fn try_from(v: &'a gst::StructureRef) -> Result { skip_assert_initialized!(); Self::try_from(v.to_owned()) } } impl From for gst::Structure { fn from(v: VideoConverterConfig) -> Self { skip_assert_initialized!(); v.0 } } impl VideoConverterConfig { pub fn new() -> Self { Self(gst::Structure::new_empty("GstVideoConverter")) } pub fn set_resampler_method(&mut self, v: crate::VideoResamplerMethod) { self.0.set("GstVideoConverter.resampler-method", &v); } #[doc(alias = "get_resampler_method")] pub fn resampler_method(&self) -> crate::VideoResamplerMethod { self.0 .get_optional("GstVideoConverter.resampler-method") .expect("Wrong type") .unwrap_or(crate::VideoResamplerMethod::Cubic) } pub fn set_chroma_resampler_method(&mut self, v: crate::VideoResamplerMethod) { self.0.set("GstVideoConverter.chroma-resampler-method", &v); } #[doc(alias = "get_chroma_resampler_method")] pub fn chroma_resampler_method(&self) -> crate::VideoResamplerMethod { self.0 .get_optional("GstVideoConverter.chroma-resampler-method") .expect("Wrong type") .unwrap_or(crate::VideoResamplerMethod::Linear) } pub fn set_resampler_taps(&mut self, v: u32) { self.0.set("GstVideoConverter.resampler-taps", &v); } #[doc(alias = "get_resampler_taps")] pub fn resampler_taps(&self) -> u32 { self.0 .get_optional("GstVideoConverter.resampler-taps") .expect("Wrong type") .unwrap_or(0) } pub fn set_dither_method(&mut self, v: crate::VideoDitherMethod) { self.0.set("GstVideoConverter.dither-method", &v); } #[doc(alias = "get_dither_method")] pub fn dither_method(&self) -> crate::VideoDitherMethod { self.0 .get_optional("GstVideoConverter.dither-method") .expect("Wrong type") .unwrap_or(crate::VideoDitherMethod::Bayer) } pub fn set_dither_quantization(&mut self, v: u32) { self.0.set("GstVideoConverter.dither-quantization", &v); } #[doc(alias = "get_dither_quantization")] pub fn dither_quantization(&self) -> u32 { self.0 .get_optional("GstVideoConverter.dither-quantization") .expect("Wrong type") .unwrap_or(1) } pub fn set_src_x(&mut self, v: i32) { self.0.set("GstVideoConverter.src-x", &v); } #[doc(alias = "get_src_x")] pub fn src_x(&self) -> i32 { self.0 .get_optional("GstVideoConverter.src-x") .expect("Wrong type") .unwrap_or(0) } pub fn set_src_y(&mut self, v: i32) { self.0.set("GstVideoConverter.src-y", &v); } #[doc(alias = "get_src_y")] pub fn src_y(&self) -> i32 { self.0 .get_optional("GstVideoConverter.src-y") .expect("Wrong type") .unwrap_or(0) } pub fn set_src_width(&mut self, v: Option) { if let Some(v) = v { self.0.set("GstVideoConverter.src-width", &v); } else { self.0.remove_field("GstVideoConverter.src-width"); } } #[doc(alias = "get_src_width")] pub fn src_width(&self) -> Option { self.0 .get_optional("GstVideoConverter.src-width") .expect("Wrong type") } pub fn set_src_height(&mut self, v: Option) { if let Some(v) = v { self.0.set("GstVideoConverter.src-height", &v); } else { self.0.remove_field("GstVideoConverter.src-height"); } } #[doc(alias = "get_src_height")] pub fn src_height(&self) -> Option { self.0 .get_optional("GstVideoConverter.src-height") .expect("Wrong type") } pub fn set_dest_x(&mut self, v: i32) { self.0.set("GstVideoConverter.dest-x", &v); } #[doc(alias = "get_dest_x")] pub fn dest_x(&self) -> i32 { self.0 .get_optional("GstVideoConverter.dest-x") .expect("Wrong type") .unwrap_or(0) } pub fn set_dest_y(&mut self, v: i32) { self.0.set("GstVideoConverter.dest-y", &v); } #[doc(alias = "get_dest_y")] pub fn dest_y(&self) -> i32 { self.0 .get_optional("GstVideoConverter.dest-y") .expect("Wrong type") .unwrap_or(0) } pub fn set_dest_width(&mut self, v: Option) { if let Some(v) = v { self.0.set("GstVideoConverter.dest-width", &v); } else { self.0.remove_field("GstVideoConverter.dest-width"); } } #[doc(alias = "get_dest_width")] pub fn dest_width(&self) -> Option { self.0 .get_optional("GstVideoConverter.dest-width") .expect("Wrong type") } pub fn set_dest_height(&mut self, v: Option) { if let Some(v) = v { self.0.set("GstVideoConverter.dest-height", &v); } else { self.0.remove_field("GstVideoConverter.dest-height"); } } #[doc(alias = "get_dest_height")] pub fn dest_height(&self) -> Option { self.0 .get_optional("GstVideoConverter.dest-height") .expect("Wrong type") } pub fn set_fill_border(&mut self, v: bool) { self.0.set("GstVideoConverter.fill-border", &v); } #[doc(alias = "get_fill_border")] pub fn fills_border(&self) -> bool { self.0 .get_optional("GstVideoConverter.fill-border") .expect("Wrong type") .unwrap_or(true) } pub fn set_alpha_value(&mut self, v: f64) { self.0.set("GstVideoConverter.alpha-value", &v); } #[doc(alias = "get_alpha_value")] pub fn alpha_value(&self) -> f64 { self.0 .get_optional("GstVideoConverter.alpha-value") .expect("Wrong type") .unwrap_or(1.0) } pub fn set_alpha_mode(&mut self, v: crate::VideoAlphaMode) { self.0.set("GstVideoConverter.alpha-mode", &v); } #[doc(alias = "get_alpha_mode")] pub fn alpha_mode(&self) -> crate::VideoAlphaMode { self.0 .get_optional("GstVideoConverter.alpha-mode") .expect("Wrong type") .unwrap_or(crate::VideoAlphaMode::Copy) } pub fn set_border_argb(&mut self, v: u32) { self.0.set("GstVideoConverter.border-argb", &v); } #[doc(alias = "get_border_argb")] pub fn border_argb(&self) -> u32 { self.0 .get_optional("GstVideoConverter.border-argb") .expect("Wrong type") .unwrap_or(0xff_00_00_00) } pub fn set_chroma_mode(&mut self, v: crate::VideoChromaMode) { self.0.set("GstVideoConverter.chroma-mode", &v); } #[doc(alias = "get_chroma_mode")] pub fn chroma_mode(&self) -> crate::VideoChromaMode { self.0 .get_optional("GstVideoConverter.chroma-mode") .expect("Wrong type") .unwrap_or(crate::VideoChromaMode::Full) } pub fn set_matrix_mode(&mut self, v: crate::VideoMatrixMode) { self.0.set("GstVideoConverter.matrix-mode", &v); } #[doc(alias = "get_matrix_mode")] pub fn matrix_mode(&self) -> crate::VideoMatrixMode { self.0 .get_optional("GstVideoConverter.matrix-mode") .expect("Wrong type") .unwrap_or(crate::VideoMatrixMode::Full) } pub fn set_gamma_mode(&mut self, v: crate::VideoGammaMode) { self.0.set("GstVideoConverter.gamma-mode", &v); } #[doc(alias = "get_gamma_mode")] pub fn gamma_mode(&self) -> crate::VideoGammaMode { self.0 .get_optional("GstVideoConverter.gamma-mode") .expect("Wrong type") .unwrap_or(crate::VideoGammaMode::None) } pub fn set_primaries_mode(&mut self, v: crate::VideoPrimariesMode) { self.0.set("GstVideoConverter.primaries-mode", &v); } #[doc(alias = "get_primaries_mode")] pub fn primaries_mode(&self) -> crate::VideoPrimariesMode { self.0 .get_optional("GstVideoConverter.primaries-mode") .expect("Wrong type") .unwrap_or(crate::VideoPrimariesMode::None) } pub fn set_threads(&mut self, v: u32) { self.0.set("GstVideoConverter.threads", &v); } #[doc(alias = "get_threads")] pub fn threads(&self) -> u32 { self.0 .get_optional("GstVideoConverter.threads") .expect("Wrong type") .unwrap_or(1) } }