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authorValentin Popov <valentin@popov.link>2024-07-19 15:37:58 +0300
committerValentin Popov <valentin@popov.link>2024-07-19 15:37:58 +0300
commita990de90fe41456a23e58bd087d2f107d321f3a1 (patch)
tree15afc392522a9e85dc3332235e311b7d39352ea9 /vendor/exr/src/image/read/levels.rs
parent3d48cd3f81164bbfc1a755dc1d4a9a02f98c8ddd (diff)
downloadfparkan-a990de90fe41456a23e58bd087d2f107d321f3a1.tar.xz
fparkan-a990de90fe41456a23e58bd087d2f107d321f3a1.zip
Deleted vendor folder
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-rw-r--r--vendor/exr/src/image/read/levels.rs219
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diff --git a/vendor/exr/src/image/read/levels.rs b/vendor/exr/src/image/read/levels.rs
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--- a/vendor/exr/src/image/read/levels.rs
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-//! How to read a set of resolution levels.
-
-use crate::meta::*;
-use crate::image::*;
-use crate::error::*;
-use crate::meta::attribute::*;
-use crate::image::read::any_channels::*;
-use crate::block::chunk::TileCoordinates;
-use crate::image::read::specific_channels::*;
-use crate::image::recursive::*;
-use crate::math::Vec2;
-use crate::block::lines::LineRef;
-use crate::block::samples::*;
-use crate::meta::header::{Header};
-
-
-// Note: In the resulting image, the `FlatSamples` are placed
-// directly inside the channels, without `LargestLevel<>` indirection
-/// Specify to read only the highest resolution level, skipping all smaller variations.
-/// The sample storage can be [`ReadFlatSamples`].
-#[derive(Debug, Clone, Eq, PartialEq)]
-pub struct ReadLargestLevel<DeepOrFlatSamples> {
-
- /// The sample reading specification
- pub read_samples: DeepOrFlatSamples
-}
-
-
-// FIXME rgba levels???
-
-// Read the largest level, directly, without intermediate structs
-impl<DeepOrFlatSamples> ReadLargestLevel<DeepOrFlatSamples> {
-
- /// Read all arbitrary channels in each layer.
- pub fn all_channels(self) -> ReadAnyChannels<DeepOrFlatSamples> { ReadAnyChannels { read_samples: self.read_samples } } // Instead of Self, the `FlatSamples` are used directly
-
- /// Read only layers that contain rgba channels. Skips any other channels in the layer.
- /// The alpha channel will contain the value `1.0` if no alpha channel can be found in the image.
- ///
- /// Using two closures, define how to store the pixels.
- /// The first closure creates an image, and the second closure inserts a single pixel.
- /// The type of the pixel can be defined by the second closure;
- /// it must be a tuple containing four values, each being either `f16`, `f32`, `u32` or `Sample`.
- ///
- /// Throws an error for images with deep data or subsampling.
- /// Use `specific_channels` or `all_channels` if you want to read something other than rgba.
- pub fn rgba_channels<R,G,B,A, Create, Set, Pixels>(
- self, create_pixels: Create, set_pixel: Set
- ) -> CollectPixels<
- ReadOptionalChannel<ReadRequiredChannel<ReadRequiredChannel<ReadRequiredChannel<NoneMore, R>, G>, B>, A>,
- (R, G, B, A), Pixels, Create, Set
- >
- where
- R: FromNativeSample, G: FromNativeSample, B: FromNativeSample, A: FromNativeSample,
- Create: Fn(Vec2<usize>, &RgbaChannels) -> Pixels,
- Set: Fn(&mut Pixels, Vec2<usize>, (R,G,B,A)),
- {
- self.specific_channels()
- .required("R").required("G").required("B")
- .optional("A", A::from_f32(1.0))
- .collect_pixels(create_pixels, set_pixel)
- }
-
- /// Read only layers that contain rgb channels. Skips any other channels in the layer.
- ///
- /// Using two closures, define how to store the pixels.
- /// The first closure creates an image, and the second closure inserts a single pixel.
- /// The type of the pixel can be defined by the second closure;
- /// it must be a tuple containing three values, each being either `f16`, `f32`, `u32` or `Sample`.
- ///
- /// Throws an error for images with deep data or subsampling.
- /// Use `specific_channels` or `all_channels` if you want to read something other than rgb.
- pub fn rgb_channels<R,G,B, Create, Set, Pixels>(
- self, create_pixels: Create, set_pixel: Set
- ) -> CollectPixels<
- ReadRequiredChannel<ReadRequiredChannel<ReadRequiredChannel<NoneMore, R>, G>, B>,
- (R, G, B), Pixels, Create, Set
- >
- where
- R: FromNativeSample, G: FromNativeSample, B: FromNativeSample,
- Create: Fn(Vec2<usize>, &RgbChannels) -> Pixels,
- Set: Fn(&mut Pixels, Vec2<usize>, (R,G,B)),
- {
- self.specific_channels()
- .required("R").required("G").required("B")
- .collect_pixels(create_pixels, set_pixel)
- }
-
- /// Read only layers that contain the specified channels, skipping any other channels in the layer.
- /// Further specify which channels should be included by calling `.required("ChannelName")`
- /// or `.optional("ChannelName", default_value)` on the result of this function.
- /// Call `collect_pixels` afterwards to define the pixel container for your set of channels.
- ///
- /// Throws an error for images with deep data or subsampling.
- pub fn specific_channels(self) -> ReadZeroChannels {
- ReadZeroChannels { }
- }
-}
-
-/// Specify to read all contained resolution levels from the image, if any.
-#[derive(Debug, Clone, Eq, PartialEq)]
-pub struct ReadAllLevels<DeepOrFlatSamples> {
-
- /// The sample reading specification
- pub read_samples: DeepOrFlatSamples
-}
-
-impl<ReadDeepOrFlatSamples> ReadAllLevels<ReadDeepOrFlatSamples> {
-
- /// Read all arbitrary channels in each layer.
- pub fn all_channels(self) -> ReadAnyChannels<Self> { ReadAnyChannels { read_samples: self } }
-
- // TODO specific channels for multiple resolution levels
-
-}
-
-/*pub struct ReadLevels<S> {
- read_samples: S,
-}*/
-
-/// Processes pixel blocks from a file and accumulates them into multiple levels per channel.
-#[derive(Debug, Clone, Eq, PartialEq)]
-pub struct AllLevelsReader<SamplesReader> {
- levels: Levels<SamplesReader>,
-}
-
-/// A template that creates a [`SamplesReader`] once for each resolution level.
-pub trait ReadSamplesLevel {
-
- /// The type of the temporary level reader
- type Reader: SamplesReader;
-
- /// Create a single reader for a single resolution level
- fn create_samples_level_reader(&self, header: &Header, channel: &ChannelDescription, level: Vec2<usize>, resolution: Vec2<usize>) -> Result<Self::Reader>;
-}
-
-
-impl<S: ReadSamplesLevel> ReadSamples for ReadAllLevels<S> {
- type Reader = AllLevelsReader<S::Reader>;
-
- fn create_sample_reader(&self, header: &Header, channel: &ChannelDescription) -> Result<Self::Reader> {
- let data_size = header.layer_size / channel.sampling;
-
- let levels = {
- if let crate::meta::BlockDescription::Tiles(tiles) = &header.blocks {
- match tiles.level_mode {
- LevelMode::Singular => Levels::Singular(self.read_samples.create_samples_level_reader(header, channel, Vec2(0,0), header.layer_size)?),
-
- LevelMode::MipMap => Levels::Mip {
- rounding_mode: tiles.rounding_mode,
- level_data: {
- let round = tiles.rounding_mode;
- let maps: Result<LevelMaps<S::Reader>> = mip_map_levels(round, data_size)
- .map(|(index, level_size)| self.read_samples.create_samples_level_reader(header, channel, Vec2(index, index), level_size))
- .collect();
-
- maps?
- },
- },
-
- // TODO put this into Levels::new(..) ?
- LevelMode::RipMap => Levels::Rip {
- rounding_mode: tiles.rounding_mode,
- level_data: {
- let round = tiles.rounding_mode;
- let level_count_x = compute_level_count(round, data_size.width());
- let level_count_y = compute_level_count(round, data_size.height());
- let maps: Result<LevelMaps<S::Reader>> = rip_map_levels(round, data_size)
- .map(|(index, level_size)| self.read_samples.create_samples_level_reader(header, channel, index, level_size))
- .collect();
-
- RipMaps {
- map_data: maps?,
- level_count: Vec2(level_count_x, level_count_y)
- }
- },
- },
- }
- }
-
- // scan line blocks never have mip maps
- else {
- Levels::Singular(self.read_samples.create_samples_level_reader(header, channel, Vec2(0, 0), data_size)?)
- }
- };
-
- Ok(AllLevelsReader { levels })
- }
-}
-
-
-impl<S: SamplesReader> SamplesReader for AllLevelsReader<S> {
- type Samples = Levels<S::Samples>;
-
- fn filter_block(&self, _: TileCoordinates) -> bool {
- true
- }
-
- fn read_line(&mut self, line: LineRef<'_>) -> UnitResult {
- self.levels.get_level_mut(line.location.level)?.read_line(line)
- }
-
- fn into_samples(self) -> Self::Samples {
- match self.levels {
- Levels::Singular(level) => Levels::Singular(level.into_samples()),
- Levels::Mip { rounding_mode, level_data } => Levels::Mip {
- rounding_mode, level_data: level_data.into_iter().map(|s| s.into_samples()).collect(),
- },
-
- Levels::Rip { rounding_mode, level_data } => Levels::Rip {
- rounding_mode,
- level_data: RipMaps {
- level_count: level_data.level_count,
- map_data: level_data.map_data.into_iter().map(|s| s.into_samples()).collect(),
- }
- },
- }
- }
-}