Select quality
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6
TODO.md
6
TODO.md
@ -1,5 +1,9 @@
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Support an alpha channel.
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Improve the PNG interface.
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Actually support terminating early for "progressive" loads
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Done:
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Interleave layers instead of having them consecutively. (Bad idea, breaks RLE. Skipping)
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Global parameters to control encoder settings:
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- Quantization level: quant 0
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- Quantization level: quants 1-63
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@ -7,6 +11,4 @@ Global parameters to control encoder settings:
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- Linear term
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- Number of quants to keep, per tile.
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- Whether to use wide or packed representation for the thumbnail block
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Interleave layers instead of having them consecutively.
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Maybe have a second instance of the global parameters block for the alpha channel.
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Actually support terminating early for "progressive" loads
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@ -1,18 +1,20 @@
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use std::io::Write;
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use crate::{constants::{MAGIC, TILE_SZ, TILE_SZ2}, protocol::{self, ProtocolWriter, ProtocolWriterResult}, quantization, transform};
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use crate::{constants::{MAGIC, TILE_SZ, TILE_SZ2}, protocol::{self, ProtocolWriter, ProtocolWriterResult}, quality_settings::{self, QualitySettings}, quantization, transform};
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struct PixelTile {
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// i32: representation that supports Walsh-Hadamard
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quality: QualitySettings,
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pixels: [i16; TILE_SZ2]
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}
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struct CoefTile {
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quality: QualitySettings,
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coefs: [i16; TILE_SZ2]
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}
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#[derive(Clone, Copy)]
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struct QuantTile {
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quality: QualitySettings,
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quants: [i16; TILE_SZ2]
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}
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@ -21,13 +23,13 @@ pub fn compress<W: Write>(
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width: u32,
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height: u32,
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// n_components: u16,
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layers: &[&[u8]],
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layers: &[(QualitySettings, &[u8])],
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writer: &mut protocol::ProtocolWriter<W>
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) -> ProtocolWriterResult<()> {
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// validation
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for l in 0..layers.len() {
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assert!(layers[l].len() == width as usize * height as usize);
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assert!(layers[l].1.len() == width as usize * height as usize);
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}
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// write header
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@ -36,12 +38,18 @@ pub fn compress<W: Write>(
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writer.write_u32_wide(height)?;
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writer.write_u32_wide(layers.len() as u32)?;
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// write quality settings for each layout
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for (quality, _) in layers.iter() {
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writer.write_quality_settings(*quality)?;
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}
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// build list of tiles
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let mut tiles = vec![];
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for layer in layers.iter() {
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for (quality, layer) in layers.iter() {
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for x0 in (0..width).step_by(TILE_SZ) {
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for y0 in (0..height).step_by(TILE_SZ) {
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let pixel_tile = PixelTile::from_layer(
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x0 as usize, y0 as usize, layer,
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x0 as usize, y0 as usize, *quality, layer,
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width as usize, height as usize
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);
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let coef_tile = CoefTile::from_pixel_tile(&pixel_tile);
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@ -51,13 +59,16 @@ pub fn compress<W: Write>(
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}
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}
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// write the thumbnail block
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for t in tiles.iter() {
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t.write_zero(writer)?;
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}
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for ti in 0..tiles.len() {
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let prev = if ti > 0 { Some(tiles[ti - 1]) } else { None };
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let t = tiles[ti];
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// write the tiles
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let mut prev: Option<QuantTile> = None;
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for t in tiles {
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t.write_rest(prev, writer)?;
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prev = Some(t);
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}
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Ok(())
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@ -67,6 +78,7 @@ impl PixelTile {
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fn from_layer(
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x0: usize,
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y0: usize,
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quality: QualitySettings,
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layer: &[u8],
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width: usize,
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height: usize
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@ -85,7 +97,7 @@ impl PixelTile {
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}
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}
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return PixelTile { pixels };
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return PixelTile { quality, pixels };
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}
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}
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@ -103,19 +115,24 @@ impl CoefTile {
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transform::encode(&mut coefs, x, 8);
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}
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return CoefTile { coefs }
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return CoefTile { quality: pt.quality, coefs }
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}
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}
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impl QuantTile {
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fn from_coef_tile(pt: &CoefTile) -> QuantTile {
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QuantTile {
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quants: quantization::to_quantized(pt.coefs)
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quality: pt.quality,
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quants: quantization::to_quantized(pt.quality, pt.coefs)
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}
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}
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fn write_zero<W: Write>(&self, writer: &mut ProtocolWriter<W>) -> ProtocolWriterResult<()> {
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writer.write_i16_wide(self.quants[0])?;
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if self.quality.values[quality_settings::THUMBNAIL_IS_WIDE] != 0 {
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writer.write_i16_wide(self.quants[0])?;
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} else {
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writer.write_i16_packed(self.quants[0])?;
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}
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Ok(())
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}
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@ -1,9 +1,8 @@
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use std::io::Read;
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use crate::{constants::{MAGIC, TILE_SZ, TILE_SZ2}, protocol::{ProtocolReader, ProtocolReaderError, ProtocolReaderResult}, quantization, transform};
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use crate::{constants::{MAGIC, TILE_SZ, TILE_SZ2}, protocol::{ProtocolReader, ProtocolReaderError, ProtocolReaderResult}, quality_settings::{self, QualitySettings}, quantization, transform};
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struct PixelTile {
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// i32: representation that supports Walsh-Hadamard
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pixels: [i16; TILE_SZ2]
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}
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@ -14,6 +13,7 @@ struct CoefTile {
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#[derive(Clone, Copy)]
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struct QuantTile {
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quality: QualitySettings,
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quants: [i16; TILE_SZ2]
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}
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@ -36,17 +36,32 @@ pub fn decompress<R: Read>(
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let width_in_tiles = (width as usize + TILE_SZ - 1) / TILE_SZ;
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let height_in_tiles = (height as usize + TILE_SZ - 1) / TILE_SZ;
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let n_tiles = width_in_tiles * height_in_tiles * (n_layers as usize);
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let mut tiles = vec![QuantTile::new(); n_tiles];
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for i in 0..n_tiles {
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tiles[i].load_zero(reader)?;
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let n_tiles_per_layer = width_in_tiles * height_in_tiles;
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// read quality settings for each layout
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let mut quality_settings = vec![];
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for _ in 0..n_layers {
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quality_settings.push(reader.read_quality_settings()?);
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}
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for i in 0..n_tiles {
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let prev = if i > 0 { Some(tiles[i - 1]) } else { None };
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// read thumbnail block
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let mut tiles = vec![QuantTile::new(); n_tiles_per_layer * n_layers as usize];
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for l in 0..n_layers {
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for i in 0..n_tiles_per_layer {
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tiles[l as usize * n_tiles_per_layer + i].load_zero(
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quality_settings[l as usize], reader
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)?;
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}
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}
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// read remaining tiles
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let mut prev: Option<QuantTile> = None;
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for i in 0..n_tiles_per_layer * n_layers as usize {
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tiles[i].load_rest(
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prev,
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reader
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)?;
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prev = Some(tiles[i]);
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}
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let mut tile_i = 0;
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@ -110,17 +125,29 @@ impl PixelTile {
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impl QuantTile {
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fn new() -> QuantTile {
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QuantTile { quants: [0; TILE_SZ2] }
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QuantTile {
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quality: QualitySettings { values: [0, 0, 0, 0, 0, 0, 0, 0] },
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quants: [0; TILE_SZ2]
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}
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}
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fn to_coef_tile(&self) -> CoefTile {
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CoefTile {
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coefs: quantization::from_quantized(self.quants)
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coefs: quantization::from_quantized(self.quality, self.quants)
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}
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}
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fn load_zero<R: Read>(&mut self, reader: &mut ProtocolReader<R>) -> ProtocolReaderResult<()> {
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self.quants[0] = reader.read_i16_wide()?;
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fn load_zero<R: Read>(
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&mut self,
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quality: QualitySettings,
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reader: &mut ProtocolReader<R>
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) -> ProtocolReaderResult<()> {
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self.quality = quality;
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if quality.values[quality_settings::THUMBNAIL_IS_WIDE] != 0 {
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self.quants[0] = reader.read_i16_wide()?;
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} else {
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self.quants[0] = reader.read_i16_packed()?;
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}
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Ok(())
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}
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@ -8,6 +8,7 @@ mod compression;
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mod constants;
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mod decompression;
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mod protocol;
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mod quality_settings;
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mod quantization;
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mod transform;
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@ -33,8 +34,11 @@ fn main() {
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fn hard_main() {
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let (width, height, r, g, b) = load_image();
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let mut writer = ProtocolWriter::new(vec![]);
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let quality_settings = quality_settings::QualitySettings::new(3);
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compression::compress(
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width as u32, height as u32, &[&r, &g, &b],
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width as u32, height as u32, &[(quality_settings, &r), (quality_settings, &g), (quality_settings, &b)],
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&mut writer
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).unwrap();
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let compressed = writer.destroy();
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@ -2,6 +2,8 @@ use std::io::{self, ErrorKind, Read, Write};
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use thiserror::Error;
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use crate::quality_settings::QualitySettings;
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#[derive(Clone, Copy)]
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pub struct Header {
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pub bytes: [u8; 3],
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@ -57,6 +59,12 @@ impl<W: Write> ProtocolWriter<W> {
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self.writer.write_all(&[value.version])?;
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Ok(())
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}
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pub fn write_quality_settings(&mut self, quality: QualitySettings) -> ProtocolWriterResult<()> {
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self.writer.write_all(&quality.values)?;
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Ok(())
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}
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pub fn write_u32_wide(&mut self, value: u32) -> ProtocolWriterResult<()> {
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self.writer.write_all(&value.to_le_bytes())?;
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Ok(())
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@ -100,6 +108,13 @@ impl<R: Read> ProtocolReader<R> {
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})
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}
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pub fn read_quality_settings(&mut self) -> ProtocolReaderResult<QualitySettings> {
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let mut qsettings_buf = [0; 8];
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self.read_exact(&mut qsettings_buf)?;
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Ok(QualitySettings { values: qsettings_buf })
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}
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pub fn read_u32_wide(&mut self) -> ProtocolReaderResult<u32> {
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let mut u32_buf = [0; 4];
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self.read_exact(&mut u32_buf)?;
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40
src/quality_settings.rs
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40
src/quality_settings.rs
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#[derive(Clone, Copy)]
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pub struct QualitySettings {
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pub values: [u8; 8],
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}
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pub const QUANTIZATION_QUANT0_DIVISOR: usize = 0;
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pub const QUANTIZATION_CONSTANT: usize = 1;
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pub const QUANTIZATION_LINEAR: usize = 2;
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pub const QUANTIZATION_N_QUANTS_TO_KEEP: usize = 3;
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pub const THUMBNAIL_IS_WIDE: usize = 4;
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// 5, 6, 7: reserved
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impl QualitySettings {
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pub fn new(level: u8) -> Self {
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// Concept:
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// Levels 0, 1, and 2 are incredibly deep fried
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// Levels 3, 4, 5, 6 are usable with artifacting
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// Levels 7, 8, 9 are above what you would seriously use
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if level == 0 {
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return QualitySettings { values: [255, 255, 32, 1, 0, 0, 0, 0] };
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} else if level == 1 {
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return QualitySettings { values: [192, 192, 24, 2, 0, 0, 0, 0] };
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} else if level == 2 {
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return QualitySettings { values: [128, 128, 16, 3, 0, 0, 0, 0] };
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} else if level == 3 {
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return QualitySettings { values: [96, 96, 12, 4, 0, 0, 0, 0] };
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// TODO: Levels 4, 5, 6
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} else if level == 7 {
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return QualitySettings { values: [1, 24, 8, 24, 1, 0, 0, 0] };
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} else if level == 8 {
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return QualitySettings { values: [1, 12, 4, 48, 1, 0, 0, 0] };
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} else { // level >= 9
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return QualitySettings { values: [1, 1, 1, 96, 1, 0, 0, 0] };
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}
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}
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}
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use crate::constants::TILE_SZ2;
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use crate::{constants::TILE_SZ2, quality_settings::{self, QualitySettings}};
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const ZIGZAG: [u8; TILE_SZ2] = [
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0 , 1 , 5 , 6 , 14, 15, 27, 28,
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@ -12,12 +12,13 @@ const ZIGZAG: [u8; TILE_SZ2] = [
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];
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pub fn to_quantized(
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quality_settings: QualitySettings,
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coefs: [i16; TILE_SZ2]
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) -> [i16; TILE_SZ2] {
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let mut quant: [i16; TILE_SZ2] = [0; TILE_SZ2];
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for cf_ix in 0..TILE_SZ2 {
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let div = divisor(cf_ix);
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let div = divisor(quality_settings, cf_ix);
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let qval = (coefs[cf_ix] + div / 2) / div;
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quant[ZIGZAG[cf_ix] as usize] = qval
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}
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@ -27,7 +28,7 @@ pub fn to_quantized(
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indices[i] = i;
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}
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indices.sort_by_key(|i| -quant[*i].abs());
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for i in 4..indices.len() {
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for i in (quality_settings.values[quality_settings::QUANTIZATION_N_QUANTS_TO_KEEP] as usize)..indices.len() {
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quant[indices[i]] = 0;
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}
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@ -35,21 +36,30 @@ pub fn to_quantized(
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}
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pub fn from_quantized(
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quality_settings: QualitySettings,
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quant: [i16; TILE_SZ2]
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) -> [i16; TILE_SZ2] {
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let mut coefs: [i16; TILE_SZ2] = [0; TILE_SZ2];
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for cf_ix in 0..TILE_SZ2 {
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let div = divisor(cf_ix);
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let div = divisor(quality_settings, cf_ix);
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coefs[cf_ix] = quant[ZIGZAG[cf_ix] as usize].wrapping_mul(div);
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}
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coefs
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}
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pub fn divisor(cf_ix: usize) -> i16 {
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if cf_ix == 0 { return 1; }
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pub fn divisor(
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quality_settings: QualitySettings,
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cf_ix: usize
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) -> i16 {
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if cf_ix == 0 { return quality_settings.values[quality_settings::QUANTIZATION_QUANT0_DIVISOR] as i16; }
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let x = cf_ix % 8;
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let y = cf_ix / 8;
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let div = 32 + (x as i16 + y as i16) * 12;
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let div =
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(quality_settings.values[quality_settings::QUANTIZATION_CONSTANT] as i16).wrapping_add(
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(x as i16 + y as i16).wrapping_mul(
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quality_settings.values[quality_settings::QUANTIZATION_LINEAR] as i16
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)
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);
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if div==32 && cf_ix != 0 {
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dbg!(cf_ix, x, y, div);
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}
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