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use crate::{BLOCK_SIZE, Frame, LastFrames, frame_to_frame_rect_copy};
use framework::BitstreamFilter;
use glam::{I16Vec2, i16vec2};
use std::collections::VecDeque;
pub struct Dec {
res: I16Vec2,
last: LastFrames,
}
impl BitstreamFilter for Dec {
const INPUT_CODEC_ID: &str = "V_VCEMTREE";
const OUTPUT_CODEC_ID: &str = "V_UNCOMPRESSED";
fn new(width: u32, height: u32) -> Self {
Self {
res: i16vec2(width as i16, height as i16),
last: LastFrames {
frame_offset: 0,
frames: VecDeque::new(),
},
}
}
fn process_block(&mut self, a: Vec<u8>) -> Vec<u8> {
let mut a = a.as_slice();
let mut frame = Frame::new(self.res);
for bx in 0..self.res.x / BLOCK_SIZE {
for by in 0..self.res.y / BLOCK_SIZE {
let boff = i16vec2(bx * BLOCK_SIZE, by * BLOCK_SIZE);
let brect = boff..boff + I16Vec2::splat(BLOCK_SIZE);
let kind = a[0];
a = &a[1..];
if kind == 0 {
let size = frame.import_rect(self.res, brect, &a);
a = &a[size..];
} else {
let rframeindex =
u64::from_le_bytes([a[0], a[1], a[2], a[3], a[4], a[5], a[6], a[7]]);
a = &a[8..];
let offx = i16::from_le_bytes([a[0], a[1]]);
a = &a[2..];
let offy = i16::from_le_bytes([a[0], a[1]]);
a = &a[2..];
let rframe = &self.last.frames[(rframeindex - self.last.frame_offset) as usize];
frame_to_frame_rect_copy(
self.res,
&mut frame,
rframe,
I16Vec2::splat(BLOCK_SIZE),
boff,
i16vec2(offx, offy),
);
}
}
}
self.last.frames.push_back(frame.clone());
frame.0
}
}
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