use std::ops::{Bound::*, RangeBounds};
use glib::translate::*;
use gst::Caps;
use crate::VideoFormat;
pub struct VideoCapsBuilder<T> {
builder: gst::caps::Builder<T>,
}
impl VideoCapsBuilder<gst::caps::NoFeature> {
pub fn new() -> Self {
assert_initialized_main_thread!();
let builder = Caps::builder(glib::gstr!("video/x-raw"));
let builder = VideoCapsBuilder { builder };
builder
.format_list(VideoFormat::iter_raw())
.width_range(..)
.height_range(..)
.framerate_range(..)
}
pub fn for_encoding(encoding: impl IntoGStr) -> Self {
assert_initialized_main_thread!();
VideoCapsBuilder {
builder: Caps::builder(encoding),
}
}
pub fn any_features(self) -> VideoCapsBuilder<gst::caps::HasFeatures> {
VideoCapsBuilder {
builder: self.builder.any_features(),
}
}
pub fn features(
self,
features: impl IntoIterator<Item = impl IntoGStr>,
) -> VideoCapsBuilder<gst::caps::HasFeatures> {
VideoCapsBuilder {
builder: self.builder.features(features),
}
}
}
impl Default for VideoCapsBuilder<gst::caps::NoFeature> {
fn default() -> Self {
Self::new()
}
}
impl<T> VideoCapsBuilder<T> {
pub fn format(self, format: VideoFormat) -> Self {
Self {
builder: self.builder.field(glib::gstr!("format"), format.to_str()),
}
}
pub fn format_if(self, format: VideoFormat, predicate: bool) -> Self {
if predicate {
self.format(format)
} else {
self
}
}
pub fn format_if_some(self, format: Option<VideoFormat>) -> Self {
if let Some(format) = format {
self.format(format)
} else {
self
}
}
pub fn format_list(self, formats: impl IntoIterator<Item = VideoFormat>) -> Self {
Self {
builder: self.builder.field(
glib::gstr!("format"),
gst::List::new(formats.into_iter().map(|f| f.to_str())),
),
}
}
pub fn format_list_if(
self,
formats: impl IntoIterator<Item = VideoFormat>,
predicate: bool,
) -> Self {
if predicate {
self.format_list(formats)
} else {
self
}
}
pub fn format_list_if_some(
self,
formats: Option<impl IntoIterator<Item = VideoFormat>>,
) -> Self {
if let Some(formats) = formats {
self.format_list(formats)
} else {
self
}
}
pub fn format_list_if_not_empty(self, formats: impl IntoIterator<Item = VideoFormat>) -> Self {
let mut formats = formats.into_iter().peekable();
if formats.peek().is_some() {
self.format_list(formats)
} else {
self
}
}
pub fn width(self, width: i32) -> Self {
Self {
builder: self.builder.field(glib::gstr!("width"), width),
}
}
pub fn width_if(self, width: i32, predicate: bool) -> Self {
if predicate {
self.width(width)
} else {
self
}
}
pub fn width_if_some(self, width: Option<i32>) -> Self {
if let Some(width) = width {
self.width(width)
} else {
self
}
}
pub fn width_range(self, widths: impl RangeBounds<i32>) -> Self {
let (start, end) = range_bounds_i32_start_end(widths);
let gst_widths: gst::IntRange<i32> = gst::IntRange::new(start, end);
Self {
builder: self.builder.field(glib::gstr!("width"), gst_widths),
}
}
pub fn width_range_if_some(self, widths: Option<impl RangeBounds<i32>>) -> Self {
if let Some(widths) = widths {
self.width_range(widths)
} else {
self
}
}
pub fn width_range_if(self, widths: impl RangeBounds<i32>, predicate: bool) -> Self {
if predicate {
self.width_range(widths)
} else {
self
}
}
pub fn width_list(self, widths: impl IntoIterator<Item = i32>) -> Self {
Self {
builder: self
.builder
.field(glib::gstr!("width"), gst::List::new(widths)),
}
}
pub fn width_list_if(self, widths: impl IntoIterator<Item = i32>, predicate: bool) -> Self {
if predicate {
self.width_list(widths)
} else {
self
}
}
pub fn width_list_if_some(self, widths: Option<impl IntoIterator<Item = i32>>) -> Self {
if let Some(widths) = widths {
self.width_list(widths)
} else {
self
}
}
pub fn width_list_if_not_empty(self, widths: impl IntoIterator<Item = i32>) -> Self {
let mut widths = widths.into_iter().peekable();
if widths.peek().is_some() {
self.width_list(widths)
} else {
self
}
}
pub fn height(self, height: i32) -> Self {
Self {
builder: self.builder.field(glib::gstr!("height"), height),
}
}
pub fn height_if(self, height: i32, predicate: bool) -> Self {
if predicate {
self.height(height)
} else {
self
}
}
pub fn height_if_some(self, height: Option<i32>) -> Self {
if let Some(height) = height {
self.height(height)
} else {
self
}
}
pub fn height_range(self, heights: impl RangeBounds<i32>) -> Self {
let (start, end) = range_bounds_i32_start_end(heights);
let gst_heights: gst::IntRange<i32> = gst::IntRange::new(start, end);
Self {
builder: self.builder.field(glib::gstr!("height"), gst_heights),
}
}
pub fn height_range_if(self, heights: impl RangeBounds<i32>, predicate: bool) -> Self {
if predicate {
self.height_range(heights)
} else {
self
}
}
pub fn height_range_if_some(self, heights: Option<impl RangeBounds<i32>>) -> Self {
if let Some(heights) = heights {
self.height_range(heights)
} else {
self
}
}
pub fn height_list(self, heights: impl IntoIterator<Item = i32>) -> Self {
Self {
builder: self
.builder
.field(glib::gstr!("height"), gst::List::new(heights)),
}
}
pub fn height_list_if(self, heights: impl IntoIterator<Item = i32>, predicate: bool) -> Self {
if predicate {
self.height_list(heights)
} else {
self
}
}
pub fn height_list_if_some(self, heights: Option<impl IntoIterator<Item = i32>>) -> Self {
if let Some(heights) = heights {
self.height_list(heights)
} else {
self
}
}
pub fn height_list_if_not_empty(self, heights: impl IntoIterator<Item = i32>) -> Self {
let mut heights = heights.into_iter().peekable();
if heights.peek().is_some() {
self.height_list(heights)
} else {
self
}
}
pub fn framerate(self, framerate: gst::Fraction) -> Self {
Self {
builder: self.builder.field(glib::gstr!("framerate"), framerate),
}
}
pub fn framerate_if(self, framerate: gst::Fraction, predicate: bool) -> Self {
if predicate {
self.framerate(framerate)
} else {
self
}
}
pub fn framerate_if_some(self, framerate: Option<gst::Fraction>) -> Self {
if let Some(framerate) = framerate {
self.framerate(framerate)
} else {
self
}
}
pub fn framerate_range(self, framerates: impl RangeBounds<gst::Fraction>) -> Self {
let start = match framerates.start_bound() {
Unbounded => gst::Fraction::new(0, 1),
Excluded(n) => next_fraction(*n),
Included(n) => {
assert!(n.numer() >= 0);
*n
}
};
let end = match framerates.end_bound() {
Unbounded => gst::Fraction::new(i32::MAX, 1),
Excluded(n) => previous_fraction(*n),
Included(n) => {
assert!(n.numer() >= 0);
*n
}
};
assert!(start <= end);
let framerates: gst::FractionRange = gst::FractionRange::new(start, end);
Self {
builder: self.builder.field(glib::gstr!("framerate"), framerates),
}
}
pub fn framerate_range_if(
self,
framerates: impl RangeBounds<gst::Fraction>,
predicate: bool,
) -> Self {
if predicate {
self.framerate_range(framerates)
} else {
self
}
}
pub fn framerate_range_if_some(
self,
framerates: Option<impl RangeBounds<gst::Fraction>>,
) -> Self {
if let Some(framerates) = framerates {
self.framerate_range(framerates)
} else {
self
}
}
pub fn framerate_list(self, framerates: impl IntoIterator<Item = gst::Fraction>) -> Self {
Self {
builder: self
.builder
.field(glib::gstr!("framerate"), gst::List::new(framerates)),
}
}
pub fn framerate_list_if(
self,
framerates: impl IntoIterator<Item = gst::Fraction>,
predicate: bool,
) -> Self {
if predicate {
self.framerate_list(framerates)
} else {
self
}
}
pub fn framerate_list_if_some(
self,
framerates: Option<impl IntoIterator<Item = gst::Fraction>>,
) -> Self {
if let Some(framerates) = framerates {
self.framerate_list(framerates)
} else {
self
}
}
pub fn framerate_list_if_not_empty(
self,
framerates: impl IntoIterator<Item = gst::Fraction>,
) -> Self {
let mut framerates = framerates.into_iter().peekable();
if framerates.peek().is_some() {
self.framerate_list(framerates)
} else {
self
}
}
pub fn pixel_aspect_ratio(self, pixel_aspect_ratio: gst::Fraction) -> Self {
Self {
builder: self.builder.field("pixel-aspect-ratio", pixel_aspect_ratio),
}
}
pub fn pixel_aspect_ratio_if(self, pixel_aspect_ratio: gst::Fraction, predicate: bool) -> Self {
if predicate {
self.pixel_aspect_ratio(pixel_aspect_ratio)
} else {
self
}
}
pub fn pixel_aspect_ratio_if_some(self, pixel_aspect_ratio: Option<gst::Fraction>) -> Self {
if let Some(pixel_aspect_ratio) = pixel_aspect_ratio {
self.pixel_aspect_ratio(pixel_aspect_ratio)
} else {
self
}
}
pub fn pixel_aspect_ratio_range(
self,
pixel_aspect_ratios: impl RangeBounds<gst::Fraction>,
) -> Self {
let start = match pixel_aspect_ratios.start_bound() {
Unbounded => gst::Fraction::new(1, i32::MAX),
Excluded(n) => next_fraction(*n),
Included(n) => {
assert!(n.numer() >= 0);
*n
}
};
let end = match pixel_aspect_ratios.end_bound() {
Unbounded => gst::Fraction::new(i32::MAX, 1),
Excluded(n) => previous_fraction(*n),
Included(n) => {
assert!(n.numer() >= 0);
*n
}
};
assert!(start <= end);
let pixel_aspect_ratios: gst::FractionRange = gst::FractionRange::new(start, end);
Self {
builder: self
.builder
.field("pixel-aspect-ratio", pixel_aspect_ratios),
}
}
pub fn pixel_aspect_ratio_range_if(
self,
pixel_aspect_ratios: impl RangeBounds<gst::Fraction>,
predicate: bool,
) -> Self {
if predicate {
self.pixel_aspect_ratio_range(pixel_aspect_ratios)
} else {
self
}
}
pub fn pixel_aspect_ratio_range_if_some(
self,
pixel_aspect_ratios: Option<impl RangeBounds<gst::Fraction>>,
) -> Self {
if let Some(pixel_aspect_ratios) = pixel_aspect_ratios {
self.pixel_aspect_ratio_range(pixel_aspect_ratios)
} else {
self
}
}
pub fn pixel_aspect_ratio_list(
self,
pixel_aspect_ratios: impl IntoIterator<Item = gst::Fraction>,
) -> Self {
Self {
builder: self
.builder
.field("pixel-aspect-ratio", gst::List::new(pixel_aspect_ratios)),
}
}
pub fn pixel_aspect_ratio_list_if(
self,
pixel_aspect_ratios: impl IntoIterator<Item = gst::Fraction>,
predicate: bool,
) -> Self {
if predicate {
self.pixel_aspect_ratio_list(pixel_aspect_ratios)
} else {
self
}
}
pub fn pixel_aspect_ratio_list_if_some(
self,
pixel_aspect_ratios: Option<impl IntoIterator<Item = gst::Fraction>>,
) -> Self {
if let Some(pixel_aspect_ratios) = pixel_aspect_ratios {
self.pixel_aspect_ratio_list(pixel_aspect_ratios)
} else {
self
}
}
pub fn pixel_aspect_ratio_list_if_not_empty(
self,
pixel_aspect_ratios: impl IntoIterator<Item = gst::Fraction>,
) -> Self {
let mut pixel_aspect_ratios = pixel_aspect_ratios.into_iter().peekable();
if pixel_aspect_ratios.peek().is_some() {
self.pixel_aspect_ratio_list(pixel_aspect_ratios)
} else {
self
}
}
#[inline]
pub fn field(self, name: impl IntoGStr, value: impl Into<glib::Value> + Send) -> Self {
Self {
builder: self.builder.field(name, value),
}
}
gst::impl_builder_gvalue_extra_setters!(field);
#[must_use]
pub fn build(self) -> gst::Caps {
self.builder.build()
}
}
fn range_bounds_i32_start_end(range: impl RangeBounds<i32>) -> (i32, i32) {
skip_assert_initialized!();
let start = match range.start_bound() {
Unbounded => 1,
Excluded(n) => n + 1,
Included(n) => *n,
};
let end = match range.end_bound() {
Unbounded => i32::MAX,
Excluded(n) => n - 1,
Included(n) => *n,
};
(start, end)
}
fn xgcd(mut a: i64, mut b: i64) -> (i64, i64, i64) {
skip_assert_initialized!();
let mut x0 = 0i64;
let mut x1 = 1i64;
let mut y0 = 1i64;
let mut y1 = 0i64;
while a != 0 {
let q;
(q, a, b) = (b / a, b % a, a);
(y0, y1) = (y1, y0 - q * y1);
(x0, x1) = (x1, x0 - q * x1);
}
if b >= 0 {
(b, x0, y0)
} else {
(-b, -x0, -y0)
}
}
fn farey_neighbours(p: i32, q: i32) -> (i32, i32, i32, i32) {
skip_assert_initialized!();
let n = i32::MAX as i64;
assert!(q != 0);
let mut p = p as i64;
let mut q = q as i64;
if q < 0 {
p = -p;
q = -q;
}
let (g, r, _) = xgcd(p, q);
p /= g;
q /= g;
let b = ((n - r) / q) * q + r;
let a = (b * p - 1) / q;
let d = ((n + r) / q) * q - r;
let c = (d * p + 1) / q;
(a as i32, b as i32, c as i32, d as i32)
}
fn previous_fraction(fraction: gst::Fraction) -> gst::Fraction {
skip_assert_initialized!();
let num = fraction.numer();
let den = fraction.denom();
let (new_num, new_den);
if num < den {
(new_num, new_den, _, _) = farey_neighbours(num, den);
} else {
(_, _, new_den, new_num) = farey_neighbours(den, num);
}
gst::Fraction::new(new_num, new_den)
}
fn next_fraction(fraction: gst::Fraction) -> gst::Fraction {
skip_assert_initialized!();
let num = fraction.numer();
let den = fraction.denom();
let (new_num, new_den);
if num < den {
(_, _, new_num, new_den) = farey_neighbours(num, den);
} else {
(new_den, new_num, _, _) = farey_neighbours(den, num);
}
gst::Fraction::new(new_num, new_den)
}
#[cfg(test)]
mod tests {
use super::{next_fraction, previous_fraction, VideoCapsBuilder};
#[test]
fn default_encoding() {
gst::init().unwrap();
let caps = VideoCapsBuilder::new().build();
assert_eq!(caps.structure(0).unwrap().name(), "video/x-raw");
}
#[test]
fn explicit_encoding() {
gst::init().unwrap();
let caps = VideoCapsBuilder::for_encoding("video/mpeg").build();
assert_eq!(caps.structure(0).unwrap().name(), "video/mpeg");
}
#[test]
fn test_0_1_fraction() {
gst::init().unwrap();
let zero_over_one = gst::Fraction::new(0, 1);
let prev = previous_fraction(zero_over_one);
assert_eq!(prev.numer(), -1);
assert_eq!(prev.denom(), i32::MAX);
let next = next_fraction(zero_over_one);
assert_eq!(next.numer(), 1);
assert_eq!(next.denom(), i32::MAX);
}
#[test]
fn test_25_1() {
gst::init().unwrap();
let twentyfive = gst::Fraction::new(25, 1);
let next = next_fraction(twentyfive);
assert_eq!(next.numer(), 2147483626);
assert_eq!(next.denom(), 85899345);
let prev = previous_fraction(twentyfive);
assert_eq!(prev.numer(), 2147483624);
assert_eq!(prev.denom(), 85899345);
}
#[test]
fn test_1_25() {
gst::init().unwrap();
let twentyfive = gst::Fraction::new(1, 25);
let next = next_fraction(twentyfive);
assert_eq!(next.numer(), 85899345);
assert_eq!(next.denom(), 2147483624);
let prev = previous_fraction(twentyfive);
assert_eq!(prev.numer(), 85899345);
assert_eq!(prev.denom(), 2147483626);
}
}