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更新libclamav库1.0.0版本
2023-01-14 18:28:39 +08:00
[![Rust Docs](https://docs.rs/exr/badge.svg)](https://docs.rs/exr)
[![Crate Crate](https://img.shields.io/crates/v/exr.svg)](https://crates.io/crates/exr)
[![Rust Lang Version](https://img.shields.io/badge/rustc-1.58.1-lightgray.svg)](https://github.com/rust-lang/rust/blob/master/RELEASES.md#version-1581-2022-01-19)
[![Lines of Code](https://tokei.rs/b1/github/johannesvollmer/exrs?category=code)](https://tokei.rs)
# EXRS
This library is a 100% Rust and 100% safe code library for
reading and writing OpenEXR images.
[OpenEXR](http://www.openexr.com/)
is the de-facto standard image format in animation, VFX, and
other computer graphics pipelines, for it can represent an immense variety of pixel data with lossless compression.
Features include:
- any number of layers placed anywhere in 2d space, like in Photoshop
- any set of channels in an image (rgb, xyz, lab, depth, motion, mask, anything, ...)
- three types of high dynamic range values (16bit float, 32bit float, 32bit unsigned integer) per channel
- uncompressed pixel data for fast file access
- lossless compression for any image type
- lossy compression for non-deep image types to produce very small files
- load specific sections of an image without processing the whole file
- compress and decompress image pixels on multiple threads in parallel
- add arbitrary meta data to any image, including custom byte data, with full backwards compatibility
- any number of samples per pixel ("deep data") (not yet supported)
### Current Status
This library has matured quite a bit, but should still be considered incomplete.
For example, deep data and DWA compression algorithms are not supported yet.
If you encounter an exr file that cannot be opened by this crate but should be,
please leave an issue on this repository, containing the image file.
The focus is set on supporting all feature and correctness;
some performance optimizations are to be done.
__What we can do:__
- Supported OpenEXR Features
- [x] custom attributes
- [x] multi-part images (multiple layers, like Photoshop)
- [x] multi-resolution images (mip maps, rip maps)
- [x] access meta data and raw pixel blocks independently
- [x] automatically crop away transparent pixels of an image (opt-in)
- [ ] channel subsampling
- [ ] deep data
- [x] compression methods
- [x] uncompressed
- [x] zip line (lossless)
- [x] zip block (lossless)
- [x] rle (lossless)
- [x] piz (lossless) (huge thanks to @dgsantana)
- [x] pxr24 (lossless for f16 and u32)
- [x] little-endian architectures
- [ ] big-endian architectures __(help wanted)__
- [x] b44, b44a (huge thanks to @narann)
- [ ] dwaa, dwab __(help wanted)__
- Nice Things
- [x] no unsafe code, no undefined behaviour
- [x] no compiling C++, no configuring CMake,
no setting up external dependencies or environment variables
- [x] re-imagined exr api with low barrier of entry
(see `read_rgba_file`, `write_rgba_file`, `read_all_data_from_file`),
plus embracing common high-level Rust abstractions
- [x] a full-fledged image data structure that can contain any exr image,
can open any image with a single function call (`read_all_data_from_file`)
without knowing anything about the file in advance
- [x] decompress and decompress image sections either
in parallel or with low memory overhead
- [x] read and write progress callback
- [x] write blocks streams, one after another
- [x] memory mapping automatically supported
by using the generic `std::io::Read` and `std::io::Write` traits
<!-- detailed internal feature checklist:
- [x] Inspecting Metadata
- [x] Singlepart
- [x] Tiles
- [x] Scan lines
- [x] Deep Tiles
- [ ] Deep Scan Lines _(coded, but untested)_
- [x] Multipart
- [x] Tiles
- [x] Scan lines
- [ ] Deep Tiles _(coded, but untested)_
- [x] Deep Scan Lines
- [x] Multi Resolution
- [x] Singular Resolution
- [x] MipMaps
- [x] RipMaps _(coded, but untested)_
- [x] Non-Standard Attributes
- [x] Reading those with known names and unknown names
- [x] Reading those with known types
- [x] Reading those with unknown types into a plain byte buffer
- [x] Nice API for preview attribute extraction
- [ ] Decompressing Pixel Data
- [x] Any LineOrder
- [x] Any Pixel Type (`f16`, `f32`, `u32`)
- [x] Multipart
- [ ] Deep Data
- [x] Rip/Mip Maps _(coded, but untested)_
- [ ] Nice API for RGBA conversion and displaying other color spaces?
- [ ] Compression Methods
- [x] Uncompressed
- [x] ZIPS
- [x] ZIP
- [x] RLE
- [x] PIZ
- [x] RXR24
- [x] B44, B44A
- [ ] DWAA, DWAB
- [ ] Writing images
- [x] Scan Lines
- [x] Tiles
- [x] Multipart
- [ ] Deep Data
- [x] User supplied line order
- [x] Rip/Mip Maps _(coded, but untested)_
- [x] 100% correct meta data
- [x] Compression Methods
- [x] Uncompressed
- [x] ZIPS (lossless)
- [x] ZIP (lossless)
- [x] RLE (lossless)
- [x] PIZ (lossless)
- [x] PXR24 (lossless for f16 and u32)
- [x] B44, B44A
- [ ] DWAA, DWAB
- [x] De/compressing multiple blocks in parallel
- [ ] Profiling and real optimization
- [x] Memory Mapping
- [x] IO Progress callback?
- [ ] SIMD
- [x] Detailed file validation
- [x] Channels with an x or y sampling rate other than 1 are allowed only in flat, scan-line based images.
- [x] If the headers include timeCode and chromaticities attributes, then the values of those attributes must also be the same for all parts of a file
- [x] Scan-line based images cannot be multi-resolution images. (encoded in type system)
- [x] Scan-line based images cannot have unspecified line order apparently?
- [x] layer name is required for multipart images
- [x] Enforce minimum length of 1 for arrays
- [x] [Validate data_window matches data size when writing images] is not required because one is inferred from the other
- [x] Channel names and layer names must be unique
- [x] Explore different APIs
- [x] Let user decide how to store data
- [x] Loading Metadata and specific tiles or blocks separately
-->
### Usage
Add this to your `Cargo.toml`:
```toml
[dependencies]
exr = "1.5.2"
# also, optionally add this to your crate for smaller binary size
# and better runtime performance
[profile.release]
lto = true
```
The master branch of this repository always matches the `crates.io` version,
so you could also link the github repository master branch.
### Example
Example: [generate an rgb exr file](https://github.com/johannesvollmer/exrs/blob/master/examples/0_write_rgba.rs).
```rust
extern crate exr;
/// To write your image data, you need to specify how to retrieve a single pixel from it.
/// The closure may capture variables or generate data on the fly.
fn main() {
use exr::prelude::*;
// write a file, with 32-bit float precision per channel
write_rgba_file(
// this accepts paths or &str
"minimal_rgba.exr",
// image resolution is 2k
2048, 2048,
// generate (or lookup in your own image)
// an f32 rgb color for each of the 2048x2048 pixels
|x,y| {
(
x as f32 / 2048.0, // red
y as f32 / 2048.0, // green
1.0 - (y as f32 / 2048.0), // blue
1.0 // alpha
)
}
).unwrap();
}
```
See the [the examples folder](https://github.com/johannesvollmer/exrs/tree/master/examples) for more examples.
Or read [the guide](https://github.com/johannesvollmer/exrs/tree/master/GUIDE.md).
### Motivation
Using Rust bindings to a C++ library unfortunately
requires compiling one or more C++ Libraries
and possibly setting environment variables,
which I didn't quite feel like to do,
so I wrote this library instead.
Also, I really wanted to have a library
which had an 'X' in its name in my git repositories.
### Goals
`exrs` aims to provide a safe and convenient
interface to the OpenEXR file format. It is designed
to minimize the possibility of invalid files and runtime errors.
It contains a full-fledged image data structure that can contain any exr image,
but also grants access a low level block interface.
This library does not try to be a general purpose image file or image processing library.
Therefore, color conversion, beautiful subsampling, and mip map generation are left to other crates for now.
As the original OpenEXR implementation supports those operations, this library may choose to support them later.
Furthermore, this implementation does not try to produce byte-exact file output
matching the original implementation, instead, it is only aimed for correct output.
#### Safety
This library uses no unsafe code. In fact, this crate is annotated with `#[forbid(unsafe_code)]`.
Some dependencies use unsafe code, though this is minimized by selecting dependencies carefully.
All information from a file is handled with caution.
Allocations have a safe maximum size that will not be exceeded at once,
to reduce memory exhaustion attacks.
### What I am proud of
- Flexible API (choose how to store your data instead of receiving an allocated image)
- Safe API (almost impossible to accidentally write invalid files)
- This is a pretty detailed README, yay
- [Awesome Contributors!](CONTRIBUTORS.md)
### Running Tests
To run all fast tests on your native system, use `cargo test`.
To start fuzzing on your native system indefinitely,
use `cargo test --package exr --test fuzz fuzz -- --exact --ignored`.
To run all fast tests on an emulated system, use one of the following commands.
Each command requires a running `docker` instance,
and `cross-rs` to be installed on your machine (`cargo install cross-rs`).
- Mips (Big Endian) `cross test --target mips-unknown-linux-gnu --verbose`
To benchmark the library, simply run `cargo bench`.
### Specification
This library is modeled after the
official [`OpenEXRFileLayout.pdf`](http://www.openexr.com/documentation.html)
document. Unspecified behavior is concluded from the C++ library.
### PRIORITIES
1. Support all compression formats
1. Support Deep Data
1. Simple rendering of common image formats
1. Profiling and other optimization
1. Tooling (Image Viewer App)
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