blob: 59f2f80b1574179b475a8f57f432b6eca05aa4ac [file] [log] [blame]
use alloc::vec;
use alloc::vec::Vec;
use core::mem;
use core::convert::TryInto;
use crate::decoder::MAX_COMPONENTS;
use crate::error::Result;
use crate::idct::dequantize_and_idct_block;
use crate::alloc::sync::Arc;
use crate::parser::Component;
use super::{RowData, Worker};
pub struct ImmediateWorker {
offsets: [usize; MAX_COMPONENTS],
results: Vec<Vec<u8>>,
components: Vec<Option<Component>>,
quantization_tables: Vec<Option<Arc<[u16; 64]>>>,
}
pub fn with_immediate<T>(f: impl FnOnce(&mut dyn Worker) -> T) -> T {
let mut worker = ImmediateWorker::new_immediate();
f(&mut worker)
}
impl ImmediateWorker {
pub fn new_immediate() -> ImmediateWorker {
ImmediateWorker {
offsets: [0; MAX_COMPONENTS],
results: vec![Vec::new(); MAX_COMPONENTS],
components: vec![None; MAX_COMPONENTS],
quantization_tables: vec![None; MAX_COMPONENTS],
}
}
pub fn start_immediate(&mut self, data: RowData) {
assert!(self.results[data.index].is_empty());
self.offsets[data.index] = 0;
self.results[data.index].resize(data.component.block_size.width as usize * data.component.block_size.height as usize * data.component.dct_scale * data.component.dct_scale, 0u8);
self.components[data.index] = Some(data.component);
self.quantization_tables[data.index] = Some(data.quantization_table);
}
pub fn append_row_immediate(&mut self, (index, data): (usize, Vec<i16>)) {
// Convert coefficients from a MCU row to samples.
let component = self.components[index].as_ref().unwrap();
let quantization_table = self.quantization_tables[index].as_ref().unwrap();
let block_count = component.block_size.width as usize * component.vertical_sampling_factor as usize;
let line_stride = component.block_size.width as usize * component.dct_scale;
assert_eq!(data.len(), block_count * 64);
for i in 0..block_count {
let x = (i % component.block_size.width as usize) * component.dct_scale;
let y = (i / component.block_size.width as usize) * component.dct_scale;
let coefficients = data[i * 64..(i + 1) * 64].try_into().unwrap();
let output = &mut self.results[index][self.offsets[index] + y * line_stride + x..];
dequantize_and_idct_block(component.dct_scale, coefficients, quantization_table, line_stride, output);
}
self.offsets[index] += block_count * component.dct_scale * component.dct_scale;
}
pub fn get_result_immediate(&mut self, index: usize) -> Vec<u8> {
mem::take(&mut self.results[index])
}
}
impl Worker for ImmediateWorker {
fn start(&mut self, data: RowData) -> Result<()> {
self.start_immediate(data);
Ok(())
}
fn append_row(&mut self, row: (usize, Vec<i16>)) -> Result<()> {
self.append_row_immediate(row);
Ok(())
}
fn get_result(&mut self, index: usize) -> Result<Vec<u8>> {
Ok(self.get_result_immediate(index))
}
}