// Take a look at the license at the top of the repository in the LICENSE file. use std::{fmt, marker::PhantomData, mem, ptr, str}; use glib::translate::*; use gst::prelude::*; #[doc(alias = "GST_VIDEO_MAX_PLANES")] pub const VIDEO_MAX_PLANES: usize = ffi::GST_VIDEO_MAX_PLANES as usize; #[derive(Debug, Eq, PartialEq, Ord, PartialOrd, Hash, Clone, Copy)] #[non_exhaustive] #[doc(alias = "GstVideoColorRange")] pub enum VideoColorRange { #[doc(alias = "GST_VIDEO_COLOR_RANGE_UNKNOWN")] Unknown, #[doc(alias = "GST_VIDEO_COLOR_RANGE_0_255")] Range0_255, #[doc(alias = "GST_VIDEO_COLOR_RANGE_16_235")] Range16_235, #[doc(hidden)] __Unknown(i32), } #[doc(hidden)] impl IntoGlib for VideoColorRange { type GlibType = ffi::GstVideoColorRange; #[inline] fn into_glib(self) -> ffi::GstVideoColorRange { match self { Self::Unknown => ffi::GST_VIDEO_COLOR_RANGE_UNKNOWN, Self::Range0_255 => ffi::GST_VIDEO_COLOR_RANGE_0_255, Self::Range16_235 => ffi::GST_VIDEO_COLOR_RANGE_16_235, Self::__Unknown(value) => value, } } } #[doc(hidden)] impl FromGlib for VideoColorRange { #[inline] unsafe fn from_glib(value: ffi::GstVideoColorRange) -> Self { skip_assert_initialized!(); match value { 0 => Self::Unknown, 1 => Self::Range0_255, 2 => Self::Range16_235, value => Self::__Unknown(value), } } } impl StaticType for VideoColorRange { #[inline] fn static_type() -> glib::Type { unsafe { from_glib(ffi::gst_video_color_range_get_type()) } } } impl glib::value::ValueType for VideoColorRange { type Type = Self; } unsafe impl<'a> glib::value::FromValue<'a> for VideoColorRange { type Checker = glib::value::GenericValueTypeChecker; unsafe fn from_value(value: &'a glib::Value) -> Self { skip_assert_initialized!(); from_glib(glib::gobject_ffi::g_value_get_enum(value.to_glib_none().0)) } } impl ToValue for VideoColorRange { fn to_value(&self) -> glib::Value { let mut value = glib::Value::for_value_type::(); unsafe { glib::gobject_ffi::g_value_set_enum(value.to_glib_none_mut().0, self.into_glib()) } value } fn value_type(&self) -> glib::Type { Self::static_type() } } impl From for glib::Value { fn from(v: VideoColorRange) -> glib::Value { skip_assert_initialized!(); glib::value::ToValue::to_value(&v) } } #[doc(alias = "GstVideoColorimetry")] #[derive(Copy, Clone)] #[repr(transparent)] pub struct VideoColorimetry(ffi::GstVideoColorimetry); impl VideoColorimetry { pub fn new( range: crate::VideoColorRange, matrix: crate::VideoColorMatrix, transfer: crate::VideoTransferFunction, primaries: crate::VideoColorPrimaries, ) -> Self { skip_assert_initialized!(); let colorimetry = ffi::GstVideoColorimetry { range: range.into_glib(), matrix: matrix.into_glib(), transfer: transfer.into_glib(), primaries: primaries.into_glib(), }; Self(colorimetry) } #[inline] pub fn range(&self) -> crate::VideoColorRange { unsafe { from_glib(self.0.range) } } #[inline] pub fn matrix(&self) -> crate::VideoColorMatrix { unsafe { from_glib(self.0.matrix) } } #[inline] pub fn transfer(&self) -> crate::VideoTransferFunction { unsafe { from_glib(self.0.transfer) } } #[inline] pub fn primaries(&self) -> crate::VideoColorPrimaries { unsafe { from_glib(self.0.primaries) } } #[cfg(any(feature = "v1_22", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_22")))] #[doc(alias = "gst_video_colorimetry_is_equivalent")] pub fn is_equivalent(&self, bitdepth: u32, other: &Self, other_bitdepth: u32) -> bool { unsafe { from_glib(ffi::gst_video_colorimetry_is_equivalent( &self.0, bitdepth, &other.0, other_bitdepth, )) } } } impl PartialEq for VideoColorimetry { #[doc(alias = "gst_video_colorimetry_is_equal")] fn eq(&self, other: &Self) -> bool { unsafe { from_glib(ffi::gst_video_colorimetry_is_equal(&self.0, &other.0)) } } } impl Eq for VideoColorimetry {} impl str::FromStr for crate::VideoColorimetry { type Err = glib::error::BoolError; #[doc(alias = "gst_video_colorimetry_from_string")] fn from_str(s: &str) -> Result { assert_initialized_main_thread!(); unsafe { let mut colorimetry = mem::MaybeUninit::uninit(); let valid: bool = from_glib(ffi::gst_video_colorimetry_from_string( colorimetry.as_mut_ptr(), s.to_glib_none().0, )); if valid { Ok(Self(colorimetry.assume_init())) } else { Err(glib::bool_error!("Invalid colorimetry info")) } } } } impl fmt::Debug for crate::VideoColorimetry { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("VideoColorimetry") .field("range", &self.0.range) .field("matrix", &self.0.matrix) .field("transfer", &self.0.transfer) .field("primaries", &self.0.primaries) .finish() } } impl fmt::Display for crate::VideoColorimetry { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let s = unsafe { glib::GString::from_glib_full(ffi::gst_video_colorimetry_to_string(&self.0)) }; f.write_str(&s) } } impl crate::VideoChromaSite { #[doc(alias = "gst_video_chroma_site_to_string")] #[doc(alias = "gst_video_chroma_to_string")] pub fn to_str(self) -> glib::GString { assert_initialized_main_thread!(); unsafe { cfg_if::cfg_if! { if #[cfg(feature = "v1_20")] { from_glib_full(ffi::gst_video_chroma_site_to_string(self.into_glib())) } else { from_glib_none(ffi::gst_video_chroma_to_string(self.into_glib())) } } } } } impl str::FromStr for crate::VideoChromaSite { type Err = glib::error::BoolError; #[doc(alias = "gst_video_chroma_from_string")] fn from_str(s: &str) -> Result { skip_assert_initialized!(); cfg_if::cfg_if! { if #[cfg(feature = "v1_20")] { let chroma_site = Self::from_string(s); } else { assert_initialized_main_thread!(); let chroma_site: Self = unsafe { from_glib(ffi::gst_video_chroma_from_string(s.to_glib_none().0)) }; } }; if chroma_site.is_empty() { Err(glib::bool_error!("Invalid chroma site")) } else { Ok(chroma_site) } } } impl From for crate::VideoMultiviewMode { #[inline] fn from(v: crate::VideoMultiviewFramePacking) -> Self { skip_assert_initialized!(); unsafe { from_glib(v.into_glib()) } } } impl TryFrom for crate::VideoMultiviewFramePacking { type Error = glib::BoolError; fn try_from(v: crate::VideoMultiviewMode) -> Result { skip_assert_initialized!(); let v2 = unsafe { from_glib(v.into_glib()) }; if let Self::__Unknown(_) = v2 { Err(glib::bool_error!("Invalid frame packing mode")) } else { Ok(v2) } } } #[doc(alias = "GstVideoInfo")] #[derive(Clone)] #[repr(transparent)] pub struct VideoInfo(pub(crate) ffi::GstVideoInfo); impl fmt::Debug for VideoInfo { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.debug_struct("VideoInfo") .field("format", &self.format()) .field("format-info", &self.format_info()) .field("width", &self.width()) .field("height", &self.height()) .field("interlace_mode", &self.interlace_mode()) .field("flags", &self.flags()) .field("size", &self.size()) .field("views", &self.views()) .field("chroma_site", &self.chroma_site()) .field("colorimetry", &self.colorimetry()) .field("par", &self.par()) .field("fps", &self.fps()) .field("offset", &self.offset()) .field("stride", &self.stride()) .field("multiview_mode", &self.multiview_mode()) .field("multiview_flags", &self.multiview_flags()) .field("field_order", &self.field_order()) .finish() } } #[derive(Debug)] #[must_use = "The builder must be built to be used"] pub struct VideoInfoBuilder<'a> { format: crate::VideoFormat, width: u32, height: u32, interlace_mode: Option, flags: Option, size: Option, views: Option, chroma_site: Option, colorimetry: Option<&'a crate::VideoColorimetry>, par: Option, fps: Option, offset: Option<&'a [usize]>, stride: Option<&'a [i32]>, multiview_mode: Option, multiview_flags: Option, field_order: Option, } impl<'a> VideoInfoBuilder<'a> { pub fn build(self) -> Result { unsafe { let mut info = mem::MaybeUninit::uninit(); cfg_if::cfg_if! { if #[cfg(feature = "v1_16")] { let res: bool = { from_glib(if let Some(interlace_mode) = self.interlace_mode { ffi::gst_video_info_set_interlaced_format( info.as_mut_ptr(), self.format.into_glib(), interlace_mode.into_glib(), self.width, self.height, ) } else { ffi::gst_video_info_set_format( info.as_mut_ptr(), self.format.into_glib(), self.width, self.height, ) }) }; } else { let res: bool = { let res = from_glib(ffi::gst_video_info_set_format( info.as_mut_ptr(), self.format.into_glib(), self.width, self.height, )); if res { if let Some(interlace_mode) = self.interlace_mode { let info = info.as_mut_ptr(); (*info).interlace_mode = interlace_mode.into_glib(); } } res }; } } if !res { return Err(glib::bool_error!("Failed to build VideoInfo")); } let mut info = info.assume_init(); if info.finfo.is_null() || info.width <= 0 || info.height <= 0 { return Err(glib::bool_error!("Failed to build VideoInfo")); } if let Some(flags) = self.flags { info.flags = flags.into_glib(); } if let Some(size) = self.size { info.size = size; } if let Some(views) = self.views { info.views = views as i32; } if let Some(chroma_site) = self.chroma_site { info.chroma_site = chroma_site.into_glib(); } if let Some(colorimetry) = self.colorimetry { ptr::write(&mut info.colorimetry, ptr::read(&colorimetry.0)); } if let Some(par) = self.par { info.par_n = par.numer(); info.par_d = par.denom(); } if let Some(fps) = self.fps { info.fps_n = fps.numer(); info.fps_d = fps.denom(); } if let Some(offset) = self.offset { if offset.len() != ((*info.finfo).n_planes as usize) { return Err(glib::bool_error!("Failed to build VideoInfo")); } let n_planes = (*info.finfo).n_planes as usize; info.offset[..n_planes].copy_from_slice(&offset[..n_planes]); } if let Some(stride) = self.stride { if stride.len() != ((*info.finfo).n_planes as usize) { return Err(glib::bool_error!("Failed to build VideoInfo")); } let n_planes = (*info.finfo).n_planes as usize; info.stride[..n_planes].copy_from_slice(&stride[..n_planes]); } if let Some(multiview_mode) = self.multiview_mode { let ptr = &mut info.ABI._gst_reserved as *mut _ as *mut i32; ptr::write(ptr.offset(0), multiview_mode.into_glib()); } if let Some(multiview_flags) = self.multiview_flags { let ptr = &mut info.ABI._gst_reserved as *mut _ as *mut u32; ptr::write(ptr.offset(1), multiview_flags.into_glib()); } if let Some(field_order) = self.field_order { let ptr = &mut info.ABI._gst_reserved as *mut _ as *mut i32; ptr::write(ptr.offset(2), field_order.into_glib()); } Ok(VideoInfo(info)) } } pub fn interlace_mode(self, interlace_mode: crate::VideoInterlaceMode) -> VideoInfoBuilder<'a> { Self { interlace_mode: Some(interlace_mode), ..self } } pub fn flags(self, flags: crate::VideoFlags) -> Self { Self { flags: Some(flags), ..self } } pub fn size(self, size: usize) -> Self { Self { size: Some(size), ..self } } pub fn views(self, views: u32) -> Self { Self { views: Some(views), ..self } } pub fn chroma_site(self, chroma_site: crate::VideoChromaSite) -> Self { Self { chroma_site: Some(chroma_site), ..self } } pub fn colorimetry(self, colorimetry: &'a crate::VideoColorimetry) -> VideoInfoBuilder<'a> { Self { colorimetry: Some(colorimetry), ..self } } pub fn par>(self, par: T) -> Self { Self { par: Some(par.into()), ..self } } pub fn fps>(self, fps: T) -> Self { Self { fps: Some(fps.into()), ..self } } pub fn offset(self, offset: &'a [usize]) -> VideoInfoBuilder<'a> { Self { offset: Some(offset), ..self } } pub fn stride(self, stride: &'a [i32]) -> VideoInfoBuilder<'a> { Self { stride: Some(stride), ..self } } pub fn multiview_mode(self, multiview_mode: crate::VideoMultiviewMode) -> Self { Self { multiview_mode: Some(multiview_mode), ..self } } pub fn multiview_flags(self, multiview_flags: crate::VideoMultiviewFlags) -> Self { Self { multiview_flags: Some(multiview_flags), ..self } } pub fn field_order(self, field_order: crate::VideoFieldOrder) -> Self { Self { field_order: Some(field_order), ..self } } } impl VideoInfo { pub fn builder<'a>( format: crate::VideoFormat, width: u32, height: u32, ) -> VideoInfoBuilder<'a> { assert_initialized_main_thread!(); VideoInfoBuilder { format, width, height, interlace_mode: None, flags: None, size: None, views: None, chroma_site: None, colorimetry: None, par: None, fps: None, offset: None, stride: None, multiview_mode: None, multiview_flags: None, field_order: None, } } #[inline] pub fn is_valid(&self) -> bool { !self.0.finfo.is_null() && self.0.width > 0 && self.0.height > 0 && self.0.size > 0 } #[doc(alias = "gst_video_info_from_caps")] pub fn from_caps(caps: &gst::CapsRef) -> Result { skip_assert_initialized!(); unsafe { let mut info = mem::MaybeUninit::uninit(); if from_glib(ffi::gst_video_info_from_caps( info.as_mut_ptr(), caps.as_ptr(), )) { Ok(Self(info.assume_init())) } else { Err(glib::bool_error!("Failed to create VideoInfo from caps")) } } } #[doc(alias = "gst_video_info_to_caps")] pub fn to_caps(&self) -> Result { unsafe { let result = from_glib_full(ffi::gst_video_info_to_caps(&self.0 as *const _ as *mut _)); match result { Some(c) => Ok(c), None => Err(glib::bool_error!("Failed to create caps from VideoInfo")), } } } #[inline] pub fn format(&self) -> crate::VideoFormat { if self.0.finfo.is_null() { return crate::VideoFormat::Unknown; } self.format_info().format() } #[inline] pub fn format_info(&self) -> crate::VideoFormatInfo { unsafe { crate::VideoFormatInfo::from_ptr(self.0.finfo) } } #[inline] pub fn name<'a>(&self) -> &'a str { self.format_info().name() } #[inline] pub fn width(&self) -> u32 { self.0.width as u32 } #[inline] pub fn height(&self) -> u32 { self.0.height as u32 } #[cfg(any(feature = "v1_16", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_16")))] #[inline] pub fn field_height(&self) -> u32 { if self.0.interlace_mode == ffi::GST_VIDEO_INTERLACE_MODE_ALTERNATE { (self.0.height as u32 + 1) / 2 } else { self.0.height as u32 } } #[inline] pub fn interlace_mode(&self) -> crate::VideoInterlaceMode { unsafe { from_glib(self.0.interlace_mode) } } #[inline] pub fn flags(&self) -> crate::VideoFlags { unsafe { from_glib(self.0.flags) } } #[inline] pub fn size(&self) -> usize { self.0.size } #[inline] pub fn views(&self) -> u32 { self.0.views as u32 } #[inline] pub fn chroma_site(&self) -> crate::VideoChromaSite { unsafe { from_glib(self.0.chroma_site) } } #[inline] pub fn colorimetry(&self) -> VideoColorimetry { unsafe { VideoColorimetry(ptr::read(&self.0.colorimetry)) } } #[inline] pub fn comp_depth(&self, component: u8) -> u32 { self.format_info().depth()[component as usize] } #[inline] pub fn comp_height(&self, component: u8) -> u32 { self.format_info().scale_height(component, self.height()) } #[inline] pub fn comp_width(&self, component: u8) -> u32 { self.format_info().scale_width(component, self.width()) } #[inline] pub fn comp_offset(&self, component: u8) -> usize { self.offset()[self.format_info().plane()[component as usize] as usize] + self.format_info().poffset()[component as usize] as usize } #[inline] pub fn comp_plane(&self, component: u8) -> u32 { self.format_info().plane()[component as usize] } #[inline] pub fn comp_poffset(&self, component: u8) -> u32 { self.format_info().poffset()[component as usize] } #[inline] pub fn comp_pstride(&self, component: u8) -> i32 { self.format_info().pixel_stride()[component as usize] } #[inline] pub fn comp_stride(&self, component: u8) -> i32 { self.stride()[self.format_info().plane()[component as usize] as usize] } #[inline] pub fn par(&self) -> gst::Fraction { gst::Fraction::new(self.0.par_n, self.0.par_d) } #[inline] pub fn fps(&self) -> gst::Fraction { gst::Fraction::new(self.0.fps_n, self.0.fps_d) } #[cfg(any(feature = "v1_16", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_16")))] #[inline] pub fn field_rate(&self) -> gst::Fraction { if self.interlace_mode() == crate::VideoInterlaceMode::Alternate { 2 * self.fps() } else { self.fps() } } #[inline] pub fn offset(&self) -> &[usize] { &self.0.offset[0..(self.format_info().n_planes() as usize)] } #[inline] pub fn stride(&self) -> &[i32] { &self.0.stride[0..(self.format_info().n_planes() as usize)] } #[inline] pub fn multiview_mode(&self) -> crate::VideoMultiviewMode { unsafe { let ptr = &self.0.ABI._gst_reserved as *const _ as *const i32; from_glib(ptr::read(ptr.offset(0))) } } #[inline] pub fn multiview_flags(&self) -> crate::VideoMultiviewFlags { unsafe { let ptr = &self.0.ABI._gst_reserved as *const _ as *const u32; from_glib(ptr::read(ptr.offset(1))) } } #[inline] pub fn field_order(&self) -> crate::VideoFieldOrder { unsafe { let ptr = &self.0.ABI._gst_reserved as *const _ as *const i32; from_glib(ptr::read(ptr.offset(2))) } } #[inline] pub fn has_alpha(&self) -> bool { self.format_info().has_alpha() } #[inline] pub fn is_gray(&self) -> bool { self.format_info().is_gray() } #[inline] pub fn is_rgb(&self) -> bool { self.format_info().is_rgb() } #[inline] pub fn is_yuv(&self) -> bool { self.format_info().is_yuv() } #[inline] pub fn is_interlaced(&self) -> bool { self.interlace_mode() != crate::VideoInterlaceMode::Progressive } #[inline] pub fn n_planes(&self) -> u32 { self.format_info().n_planes() } #[inline] pub fn n_components(&self) -> u32 { self.format_info().n_components() } #[doc(alias = "gst_video_info_convert")] pub fn convert( &self, src_val: impl gst::format::FormattedValue, ) -> Option { skip_assert_initialized!(); unsafe { let mut dest_val = mem::MaybeUninit::uninit(); if from_glib(ffi::gst_video_info_convert( &self.0 as *const _ as *mut _, src_val.format().into_glib(), src_val.into_raw_value(), U::default_format().into_glib(), dest_val.as_mut_ptr(), )) { Some(U::from_raw(U::default_format(), dest_val.assume_init())) } else { None } } } pub fn convert_generic( &self, src_val: impl gst::format::FormattedValue, dest_fmt: gst::Format, ) -> Option { skip_assert_initialized!(); unsafe { let mut dest_val = mem::MaybeUninit::uninit(); if from_glib(ffi::gst_video_info_convert( &self.0 as *const _ as *mut _, src_val.format().into_glib(), src_val.into_raw_value(), dest_fmt.into_glib(), dest_val.as_mut_ptr(), )) { Some(gst::GenericFormattedValue::new( dest_fmt, dest_val.assume_init(), )) } else { None } } } #[doc(alias = "gst_video_info_align")] pub fn align(&mut self, align: &mut crate::VideoAlignment) -> Result<(), glib::BoolError> { unsafe { glib::result_from_gboolean!( ffi::gst_video_info_align(&mut self.0, &mut align.0,), "Failed to align VideoInfo" ) } } #[cfg(any(feature = "v1_18", feature = "dox"))] #[cfg_attr(feature = "dox", doc(cfg(feature = "v1_18")))] #[doc(alias = "gst_video_info_align_full")] pub fn align_full( &mut self, align: &mut crate::VideoAlignment, ) -> Result<[usize; crate::VIDEO_MAX_PLANES], glib::BoolError> { let mut plane_size = [0; crate::VIDEO_MAX_PLANES]; unsafe { glib::result_from_gboolean!( ffi::gst_video_info_align_full(&mut self.0, &mut align.0, plane_size.as_mut_ptr()), "Failed to align VideoInfo" )?; } Ok(plane_size) } #[doc(alias = "gst_video_color_range_offsets")] #[inline] pub fn range_offsets(&self, range: crate::VideoColorRange) -> ([i32; 4], [i32; 4]) { self.format_info().range_offsets(range) } } impl PartialEq for VideoInfo { #[doc(alias = "gst_video_info_is_equal")] fn eq(&self, other: &Self) -> bool { unsafe { from_glib(ffi::gst_video_info_is_equal(&self.0, &other.0)) } } } impl Eq for VideoInfo {} unsafe impl Send for VideoInfo {} unsafe impl Sync for VideoInfo {} impl glib::types::StaticType for VideoInfo { #[inline] fn static_type() -> glib::types::Type { unsafe { glib::translate::from_glib(ffi::gst_video_info_get_type()) } } } impl glib::value::ValueType for VideoInfo { type Type = Self; } #[doc(hidden)] unsafe impl<'a> glib::value::FromValue<'a> for VideoInfo { type Checker = glib::value::GenericValueTypeOrNoneChecker; unsafe fn from_value(value: &'a glib::Value) -> Self { skip_assert_initialized!(); from_glib_none( glib::gobject_ffi::g_value_get_boxed(value.to_glib_none().0) as *mut ffi::GstVideoInfo ) } } #[doc(hidden)] impl glib::value::ToValue for VideoInfo { fn to_value(&self) -> glib::Value { let mut value = glib::Value::for_value_type::(); unsafe { glib::gobject_ffi::g_value_set_boxed( value.to_glib_none_mut().0, self.to_glib_none().0 as *mut _, ) } value } fn value_type(&self) -> glib::Type { Self::static_type() } } #[doc(hidden)] impl glib::value::ToValueOptional for VideoInfo { fn to_value_optional(s: Option<&Self>) -> glib::Value { skip_assert_initialized!(); let mut value = glib::Value::for_value_type::(); unsafe { glib::gobject_ffi::g_value_set_boxed( value.to_glib_none_mut().0, s.to_glib_none().0 as *mut _, ) } value } } #[doc(hidden)] impl From for glib::Value { fn from(v: VideoInfo) -> glib::Value { skip_assert_initialized!(); glib::value::ToValue::to_value(&v) } } #[doc(hidden)] impl glib::translate::Uninitialized for VideoInfo { #[inline] unsafe fn uninitialized() -> Self { mem::zeroed() } } #[doc(hidden)] impl glib::translate::GlibPtrDefault for VideoInfo { type GlibType = *mut ffi::GstVideoInfo; } #[doc(hidden)] impl<'a> glib::translate::ToGlibPtr<'a, *const ffi::GstVideoInfo> for VideoInfo { type Storage = PhantomData<&'a Self>; #[inline] fn to_glib_none(&'a self) -> glib::translate::Stash<'a, *const ffi::GstVideoInfo, Self> { glib::translate::Stash(&self.0, PhantomData) } fn to_glib_full(&self) -> *const ffi::GstVideoInfo { unimplemented!() } } #[doc(hidden)] impl glib::translate::FromGlibPtrNone<*const ffi::GstVideoInfo> for VideoInfo { #[inline] unsafe fn from_glib_none(ptr: *const ffi::GstVideoInfo) -> Self { Self(ptr::read(ptr)) } } #[doc(hidden)] impl glib::translate::FromGlibPtrNone<*mut ffi::GstVideoInfo> for VideoInfo { #[inline] unsafe fn from_glib_none(ptr: *mut ffi::GstVideoInfo) -> Self { Self(ptr::read(ptr)) } } #[doc(hidden)] impl glib::translate::FromGlibPtrFull<*mut ffi::GstVideoInfo> for VideoInfo { #[inline] unsafe fn from_glib_full(ptr: *mut ffi::GstVideoInfo) -> Self { let info = from_glib_none(ptr); glib::ffi::g_free(ptr as *mut _); info } } impl crate::VideoFieldOrder { #[doc(alias = "gst_video_field_order_to_string")] pub fn to_str<'a>(self) -> &'a str { use std::ffi::CStr; if self == Self::Unknown { return "UNKNOWN"; } unsafe { CStr::from_ptr( ffi::gst_video_field_order_to_string(self.into_glib()) .as_ref() .expect("gst_video_field_order_to_string returned NULL"), ) .to_str() .expect("gst_video_field_order_to_string returned an invalid string") } } } impl str::FromStr for crate::VideoFieldOrder { type Err = glib::error::BoolError; fn from_str(s: &str) -> Result { skip_assert_initialized!(); let fmt = Self::from_string(s); if fmt == Self::Unknown { Err(glib::bool_error!( "Failed to parse video field order from string" )) } else { Ok(fmt) } } } impl str::FromStr for crate::VideoInterlaceMode { type Err = glib::error::BoolError; fn from_str(s: &str) -> Result { skip_assert_initialized!(); let fmt = Self::from_string(s); Ok(fmt) } } #[cfg(test)] mod tests { use super::*; #[test] fn test_new() { gst::init().unwrap(); let info = VideoInfo::builder(crate::VideoFormat::I420, 320, 240) .build() .unwrap(); assert_eq!(info.format(), crate::VideoFormat::I420); assert_eq!(info.width(), 320); assert_eq!(info.height(), 240); assert_eq!(info.size(), 320 * 240 + 2 * 160 * 120); assert_eq!(info.multiview_mode(), crate::VideoMultiviewMode::None); assert_eq!(&info.offset(), &[0, 320 * 240, 320 * 240 + 160 * 120]); assert_eq!(&info.stride(), &[320, 160, 160]); let offsets = [0, 640 * 240 + 16, 640 * 240 + 16 + 320 * 120 + 16]; let strides = [640, 320, 320]; let info = VideoInfo::builder(crate::VideoFormat::I420, 320, 240) .offset(&offsets) .stride(&strides) .size(640 * 240 + 16 + 320 * 120 + 16 + 320 * 120 + 16) .multiview_mode(crate::VideoMultiviewMode::SideBySide) .build() .unwrap(); assert_eq!(info.format(), crate::VideoFormat::I420); assert_eq!(info.width(), 320); assert_eq!(info.height(), 240); assert_eq!( info.size(), 640 * 240 + 16 + 320 * 120 + 16 + 320 * 120 + 16 ); assert_eq!(info.multiview_mode(), crate::VideoMultiviewMode::SideBySide); assert_eq!( &info.offset(), &[0, 640 * 240 + 16, 640 * 240 + 16 + 320 * 120 + 16] ); assert_eq!(&info.stride(), &[640, 320, 320]); } #[test] fn test_from_to_caps() { gst::init().unwrap(); let caps = crate::VideoCapsBuilder::new() .format(crate::VideoFormat::I420) .width(320) .height(240) .framerate((30, 1).into()) .pixel_aspect_ratio((1, 1).into()) .field("interlace-mode", "progressive") .field("chroma-site", "mpeg2") .field("colorimetry", "bt709") .build(); let info = VideoInfo::from_caps(&caps).unwrap(); assert_eq!(info.format(), crate::VideoFormat::I420); assert_eq!(info.width(), 320); assert_eq!(info.height(), 240); assert_eq!(info.fps(), gst::Fraction::new(30, 1)); assert_eq!( info.interlace_mode(), crate::VideoInterlaceMode::Progressive ); assert_eq!(info.chroma_site(), crate::VideoChromaSite::MPEG2); assert_eq!(info.colorimetry(), "bt709".parse().unwrap()); let caps2 = info.to_caps().unwrap(); assert_eq!(caps, caps2); let info2 = VideoInfo::from_caps(&caps2).unwrap(); assert!(info == info2); } #[test] fn test_video_align() { gst::init().unwrap(); let mut info = crate::VideoInfo::builder(crate::VideoFormat::Nv16, 1920, 1080) .build() .expect("Failed to create VideoInfo"); assert_eq!(info.stride(), [1920, 1920]); assert_eq!(info.offset(), [0, 2_073_600]); let mut align = crate::VideoAlignment::new(0, 0, 0, 8, &[0; VIDEO_MAX_PLANES]); info.align(&mut align).unwrap(); assert_eq!(info.stride(), [1928, 1928]); assert_eq!(info.offset(), [0, 2_082_240]); #[cfg(feature = "v1_18")] { let mut info = crate::VideoInfo::builder(crate::VideoFormat::Nv16, 1920, 1080) .build() .expect("Failed to create VideoInfo"); let mut align = crate::VideoAlignment::new(0, 0, 0, 8, &[0; VIDEO_MAX_PLANES]); let plane_size = info.align_full(&mut align).unwrap(); assert_eq!(plane_size, [2082240, 2082240, 0, 0]); } } #[test] fn test_display() { gst::init().unwrap(); format!("{}", "sRGB".parse::().unwrap()); format!("{}", crate::VideoFieldOrder::TopFieldFirst); format!("{}", crate::VideoInterlaceMode::Progressive); } }