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-rw-r--r--vendor/png/.cargo-checksum.json1
-rw-r--r--vendor/png/CHANGES.md171
-rw-r--r--vendor/png/Cargo.lock2145
-rw-r--r--vendor/png/Cargo.toml80
-rw-r--r--vendor/png/LICENSE-APACHE201
-rw-r--r--vendor/png/LICENSE-MIT25
-rw-r--r--vendor/png/README.md39
-rw-r--r--vendor/png/benches/README.md6
-rw-r--r--vendor/png/benches/decoder.rs38
-rw-r--r--vendor/png/examples/corpus-bench.rs198
-rw-r--r--vendor/png/examples/png-generate.rs55
-rw-r--r--vendor/png/examples/pngcheck.rs381
-rw-r--r--vendor/png/examples/show.rs198
-rw-r--r--vendor/png/src/chunk.rs98
-rw-r--r--vendor/png/src/common.rs808
-rw-r--r--vendor/png/src/decoder/mod.rs961
-rw-r--r--vendor/png/src/decoder/stream.rs1576
-rw-r--r--vendor/png/src/decoder/zlib.rs212
-rw-r--r--vendor/png/src/encoder.rs2389
-rw-r--r--vendor/png/src/filter.rs801
-rw-r--r--vendor/png/src/lib.rs81
-rw-r--r--vendor/png/src/srgb.rs30
-rw-r--r--vendor/png/src/text_metadata.rs586
-rw-r--r--vendor/png/src/traits.rs43
-rw-r--r--vendor/png/src/utils.rs463
25 files changed, 0 insertions, 11586 deletions
diff --git a/vendor/png/.cargo-checksum.json b/vendor/png/.cargo-checksum.json
deleted file mode 100644
index 9c7a0e4..0000000
--- a/vendor/png/.cargo-checksum.json
+++ /dev/null
@@ -1 +0,0 @@
-{"files":{"CHANGES.md":"40d21212c11de3f25dc0563700d455c1d347daeaac53f9d8dde7dd6450cd7a30","Cargo.lock":"2c9e68ff7a31ae0874dec0b7a72bffd1a68aa79c38c6f1fee15b5c9239cc3da5","Cargo.toml":"bee5f601128d49e9586bf77957638b180fef8808cd097ac1b845b670903a22a2","LICENSE-APACHE":"a60eea817514531668d7e00765731449fe14d059d3249e0bc93b36de45f759f2","LICENSE-MIT":"eaf40297c75da471f7cda1f3458e8d91b4b2ec866e609527a13acfa93b638652","README.md":"a87e2bc972068409cff0665241349c4eb72291b33d12ed97a09f97e9a2560655","benches/README.md":"0c60c3d497abdf6c032863aa47da41bc6bb4f5ff696d45dec0e6eb33459b14b0","benches/decoder.rs":"2f5258ae02fdcdd8ca917512df012a9f74893a27936629a6c0db7d555d6fadbb","examples/corpus-bench.rs":"0a9f2a95b0bd72a76dd2cc27d86f960746d5e0e707e2c3efbf281db0998e9e3a","examples/png-generate.rs":"e4cca06b9cc3291b52261d88a2e016940620b613fc1402bb54ccc68f73026a96","examples/pngcheck.rs":"7a5cb4cbb4d166f4337ff69a9e4b16783dce482a56ca56a709bf636d8f3bb981","examples/show.rs":"d5d120e50a8375361f6b265fc77ff9e823d7567e79ad5cc2f162b37f73a98f39","src/chunk.rs":"eff04345e9af621ce51a9141f35657262ee1a891e724332a80ac40eec90a2c45","src/common.rs":"3f2aa7bcebbcfb7ce08e891ae1fbdaadde440aabc178424da4e993e4b794ce18","src/decoder/mod.rs":"67a37100957659999308767f35ab6158e8b86e6df0b77567f0ff31110b39055a","src/decoder/stream.rs":"885b64a639a6101e02612f4f67b178ac2d6be1eabb29d1eedec9770b759e1e02","src/decoder/zlib.rs":"42a31c28feae91b0dd5f410bba6fcfc8eb15b50990b24b79339f13607f9c5215","src/encoder.rs":"004abc4a2cc173d3d379ac86668cc7382b704d57598159cd56af2446705ad864","src/filter.rs":"d72f43620e8ab4865702dc09123496cb08caf1bba839747987de314cdbc6e7c3","src/lib.rs":"78b272d03da14f52254dc2a9c97a138d5a9082f1df3213bf36ec5ee7ab6f1700","src/srgb.rs":"da1609902064016853410633926d316b5289d4bbe1fa469b21f116c1c1b2c18e","src/text_metadata.rs":"e531277c3f1205239d21825aa3dacb8d828e3fa4c257c94af799b0c04d38a8d5","src/traits.rs":"79d357244e493f5174ca11873b0d5c443fd4a5e6e1f7c6df400a1767c5ad05b2","src/utils.rs":"1ddd60fb80e8e301ba1836dcb5dfd097341c638a018d646c3fc4fad06cad7bc5"},"package":"dd75bf2d8dd3702b9707cdbc56a5b9ef42cec752eb8b3bafc01234558442aa64"} \ No newline at end of file
diff --git a/vendor/png/CHANGES.md b/vendor/png/CHANGES.md
deleted file mode 100644
index 6baffb4..0000000
--- a/vendor/png/CHANGES.md
+++ /dev/null
@@ -1,171 +0,0 @@
-## Unreleased
-
-## 0.17.10
-
-* Added Transformations::ALPHA
-* Enable encoding pixel dimensions
-
-## 0.17.9
-
-* Fixed a bug in ICC profile decompression.
-* Improved unfilter performance.
-
-## 0.17.8
-
-* Increased MSRV to 1.57.0.
-* Substantially optimized encoding and decoding:
- - Autovectorize filtering and unfiltering.
- - Make the "fast" compression preset use fdeflate.
- - Switch decompression to always use fdeflate.
- - Updated to miniz_oxide 0.7.
- - Added an option to ignore checksums.
-* Added corpus-bench example which measures the compression ratio and time to
- re-encode and subsequently decode a corpus of images.
-* More fuzz testing.
-
-## 0.17.7
-
-* Fixed handling broken tRNS chunk.
-* Updated to miniz_oxide 0.6.
-
-## 0.17.6
-
-* Added `Decoder::read_header_info` to query the information contained in the
- PNG header.
-* Switched to using the flate2 crate for encoding.
-
-## 0.17.5
-
-* Fixed a regression, introduced by chunk validation, that made the decoder
- sensitive to the order of `gAMA`, `cHRM`, and `sRGB` chunks.
-
-## 0.17.4
-
-* Added `{Decoder,StreamDecoder}::set_ignore_text_chunk` to disable decoding of
- ancillary text chunks during the decoding process (chunks decoded by default).
-* Added duplicate chunk checks. The decoder now enforces that standard chunks
- such as palette, gamma, … occur at most once as specified.
-* Added `#[forbid(unsafe_code)]` again. This may come at a minor performance
- cost when decoding ASCII text for now.
-* Fixed a bug where decoding of large chunks (>32kB) failed to produce the
- correct result, or fail the image decoding. As new chunk types are decoded
- this introduced regressions relative to previous versions.
-
-## 0.17.3
-
-* Fixed a bug where `Writer::finish` would not drop the underlying writer. This
- would fail to flush and leak memory when using a buffered file writers.
-* Calling `Writer::finish` will now eagerly flush the underlying writer,
- returning any error that this operation may result in.
-* Errors in inflate are now diagnosed with more details.
-* The color and depth combination is now checked in stream decoder.
-
-## 0.17.2
-
-* Added support for encoding and decoding tEXt/zTXt/iTXt chunks.
-* Added `Encoder::validate_sequence` to enable validation of the written frame
- sequence, that is, if the number of written images is consistent with the
- animation state.
-* Validation is now off by default. The basis of the new validation had been
- introduced in 0.17 but this fixes some cases where this validation was too
- aggressive compared to previous versions.
-* Added `Writer::finish` to fully check the write of the end of an image
- instead of silently ignoring potential errors in `Drop`.
-* The `Writer::write_chunk` method now validates that the computed chunk length
- does not overflow the limit set by PNG.
-* Fix an issue where the library would panic or even abort the process when
- `flush` or `write` of an underlying writer panicked, or in some other uses of
- `StreamWriter`.
-
-## 0.17.1
-
-* Fix panic in adaptive filter method `sum_buffer`
-
-## 0.17.0
-
-* Increased MSRV to 1.46.0
-* Rework output info usage
-* Implement APNG encoding
-* Improve ergonomics of encoder set_palette and set_trns methods
-* Make Info struct non-exhaustive
-* Make encoder a core feature
-* Default Transformations to Identity
-* Add Adaptive filtering method for encoding
-* Fix SCREAM_CASE on ColorType variants
-* Forbid unsafe code
-
-## 0.16.7
-
-* Added `Encoder::set_trns` to register a transparency table to be written.
-
-## 0.16.6
-
-* Fixed silent integer overflows in buffer size calculation, resulting in
- panics from assertions and out-of-bounds accesses when actually decoding.
- This improves the stability of 32-bit and 16-bit targets and make decoding
- run as stable as on 64-bit.
-* Reject invalid color/depth combinations. Some would lead to mismatched output
- buffer size and panics during decoding.
-* Add `Clone` impl for `Info` struct.
-
-## 0.16.5
-
-* Decoding of APNG subframes is now officially supported and specified. Note
- that dispose ops and positioning in the image need to be done by the caller.
-* Added encoding of indexed data.
-* Switched to `miniz_oxide` for decompressing image data, with 30%-50% speedup
- in common cases and up to 200% in special ones.
-* Fix accepting images only with consecutive IDAT chunks, rules out data loss.
-
-## 0.16.4
-
-* The fdAT frames are no longer inspected when the main image is read. This
- would previously be the case for non-interlaced images. This would lead to
- incorrect failure and, e.g. an error of the form `"invalid filter method"`.
-* Fix always validating the last IDAT-chunks checksum, was sometimes ignored.
-* Prevent encoding color/bit-depth combinations forbidden by the specification.
-* The fixes for APNG/fdAT enable further implementation. The _next_ release is
- expected to officially support APNG.
-
-## 0.16.3
-
-* Fix encoding with filtering methods Up, Avg, Paeth
-* Optimize decoding throughput by up to +30%
-
-## 0.16.2
-
-* Added method constructing an owned stream encoder.
-
-## 0.16.1
-
-* Addressed files bloating the packed crate
-
-## 0.16.0
-
-* Fix a bug compressing images with deflate
-* Address use of deprecated error interfaces
-
-## 0.15.3
-
-* Fix panic while trying to encode empty images. Such images are no longer
- accepted and error when calling `write_header` before any data has been
- written. The specification does not permit empty images.
-
-## 0.15.2
-
-* Fix `EXPAND` transformation to leave bit depths above 8 unchanged
-
-## 0.15.1
-
-* Fix encoding writing invalid chunks. Images written can be corrected: see
- https://github.com/image-rs/image/issues/1074 for a recovery.
-* Fix a panic in bit unpacking with checked arithmetic (e.g. in debug builds)
-* Added better fuzzer integration
-* Update `term`, `rand` dev-dependency
-* Note: The `show` example program requires a newer compiler than 1.34.2 on
- some targets due to depending on `glium`. This is not considered a breaking
- bug.
-
-## 0.15
-
-Begin of changelog
diff --git a/vendor/png/Cargo.lock b/vendor/png/Cargo.lock
deleted file mode 100644
index 3532262..0000000
--- a/vendor/png/Cargo.lock
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-checksum = "463705a63313cd4301184381c5e8042f0a7e9b4bb63653f216311d4ae74690b7"
-dependencies = [
- "nom",
-]
-
-[[package]]
-name = "xml-rs"
-version = "0.8.16"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "47430998a7b5d499ccee752b41567bc3afc57e1327dc855b1a2aa44ce29b5fa1"
diff --git a/vendor/png/Cargo.toml b/vendor/png/Cargo.toml
deleted file mode 100644
index 00756a4..0000000
--- a/vendor/png/Cargo.toml
+++ /dev/null
@@ -1,80 +0,0 @@
-# THIS FILE IS AUTOMATICALLY GENERATED BY CARGO
-#
-# When uploading crates to the registry Cargo will automatically
-# "normalize" Cargo.toml files for maximal compatibility
-# with all versions of Cargo and also rewrite `path` dependencies
-# to registry (e.g., crates.io) dependencies.
-#
-# If you are reading this file be aware that the original Cargo.toml
-# will likely look very different (and much more reasonable).
-# See Cargo.toml.orig for the original contents.
-
-[package]
-edition = "2018"
-rust-version = "1.57"
-name = "png"
-version = "0.17.10"
-authors = ["The image-rs Developers"]
-include = [
- "/LICENSE-MIT",
- "/LICENSE-APACHE",
- "/README.md",
- "/CHANGES.md",
- "/src/",
- "/examples/",
- "/benches/",
-]
-description = "PNG decoding and encoding library in pure Rust"
-readme = "README.md"
-categories = ["multimedia::images"]
-license = "MIT OR Apache-2.0"
-repository = "https://github.com/image-rs/image-png.git"
-
-[[bench]]
-name = "decoder"
-path = "benches/decoder.rs"
-harness = false
-
-[dependencies.bitflags]
-version = "1.0"
-
-[dependencies.crc32fast]
-version = "1.2.0"
-
-[dependencies.fdeflate]
-version = "0.3.0"
-
-[dependencies.flate2]
-version = "1.0"
-
-[dependencies.miniz_oxide]
-version = "0.7.1"
-features = ["simd"]
-
-[dev-dependencies.clap]
-version = "3.0"
-features = ["derive"]
-
-[dev-dependencies.criterion]
-version = "0.3.1"
-
-[dev-dependencies.getopts]
-version = "0.2.14"
-
-[dev-dependencies.glium]
-version = "0.32"
-features = ["glutin"]
-default-features = false
-
-[dev-dependencies.glob]
-version = "0.3"
-
-[dev-dependencies.rand]
-version = "0.8.4"
-
-[dev-dependencies.term]
-version = "0.7"
-
-[features]
-benchmarks = []
-unstable = []
diff --git a/vendor/png/LICENSE-APACHE b/vendor/png/LICENSE-APACHE
deleted file mode 100644
index 16fe87b..0000000
--- a/vendor/png/LICENSE-APACHE
+++ /dev/null
@@ -1,201 +0,0 @@
- Apache License
- Version 2.0, January 2004
- http://www.apache.org/licenses/
-
-TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
-
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-
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-5. Submission of Contributions. Unless You explicitly state otherwise,
- any Contribution intentionally submitted for inclusion in the Work
- by You to the Licensor shall be under the terms and conditions of
- this License, without any additional terms or conditions.
- Notwithstanding the above, nothing herein shall supersede or modify
- the terms of any separate license agreement you may have executed
- with Licensor regarding such Contributions.
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-
-7. Disclaimer of Warranty. Unless required by applicable law or
- agreed to in writing, Licensor provides the Work (and each
- Contributor provides its Contributions) on an "AS IS" BASIS,
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- appropriateness of using or redistributing the Work and assume any
- risks associated with Your exercise of permissions under this License.
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-8. Limitation of Liability. In no event and under no legal theory,
- whether in tort (including negligence), contract, or otherwise,
- unless required by applicable law (such as deliberate and grossly
- negligent acts) or agreed to in writing, shall any Contributor be
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- and charge a fee for, acceptance of support, warranty, indemnity,
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- License. However, in accepting such obligations, You may act only
- on Your own behalf and on Your sole responsibility, not on behalf
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- defend, and hold each Contributor harmless for any liability
- incurred by, or claims asserted against, such Contributor by reason
- of your accepting any such warranty or additional liability.
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-END OF TERMS AND CONDITIONS
-
-APPENDIX: How to apply the Apache License to your work.
-
- To apply the Apache License to your work, attach the following
- boilerplate notice, with the fields enclosed by brackets "[]"
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-you may not use this file except in compliance with the License.
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-
- http://www.apache.org/licenses/LICENSE-2.0
-
-Unless required by applicable law or agreed to in writing, software
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-WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-See the License for the specific language governing permissions and
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diff --git a/vendor/png/LICENSE-MIT b/vendor/png/LICENSE-MIT
deleted file mode 100644
index ea471f0..0000000
--- a/vendor/png/LICENSE-MIT
+++ /dev/null
@@ -1,25 +0,0 @@
-Copyright (c) 2015 nwin
-
-Permission is hereby granted, free of charge, to any
-person obtaining a copy of this software and associated
-documentation files (the "Software"), to deal in the
-Software without restriction, including without
-limitation the rights to use, copy, modify, merge,
-publish, distribute, sublicense, and/or sell copies of
-the Software, and to permit persons to whom the Software
-is furnished to do so, subject to the following
-conditions:
-
-The above copyright notice and this permission notice
-shall be included in all copies or substantial portions
-of the Software.
-
-THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF
-ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
-TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
-PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
-SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
-CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
-OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR
-IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
-DEALINGS IN THE SOFTWARE.
diff --git a/vendor/png/README.md b/vendor/png/README.md
deleted file mode 100644
index e6719bc..0000000
--- a/vendor/png/README.md
+++ /dev/null
@@ -1,39 +0,0 @@
-# PNG Decoder/Encoder
-[![Build Status](https://github.com/image-rs/image-png/workflows/Rust%20CI/badge.svg)](https://github.com/image-rs/image-png/actions)
-[![Documentation](https://docs.rs/png/badge.svg)](https://docs.rs/png)
-[![Crates.io](https://img.shields.io/crates/v/png.svg)](https://crates.io/crates/png)
-![Lines of Code](https://tokei.rs/b1/github/image-rs/image-png)
-[![License](https://img.shields.io/crates/l/png.svg)](https://github.com/image-rs/image-png)
-[![fuzzit](https://app.fuzzit.dev/badge?org_id=image-rs)](https://app.fuzzit.dev/orgs/image-rs/dashboard)
-
-PNG decoder/encoder in pure Rust.
-
-It contains all features required to handle the entirety of [the PngSuite by
-Willem van Schack][PngSuite].
-
-[PngSuite]: http://www.schaik.com/pngsuite2011/pngsuite.html
-
-## pngcheck
-
-The `pngcheck` utility is a small demonstration binary that checks and prints
-metadata on every `.png` image provided via parameter. You can run it (for
-example on the test directories) with
-
-```bash
-cargo run --release --example pngcheck ./tests/pngsuite/*
-```
-
-## License
-
-Licensed under either of
-
- * Apache License, Version 2.0 ([LICENSE-APACHE](LICENSE-APACHE) or https://www.apache.org/licenses/LICENSE-2.0)
- * MIT license ([LICENSE-MIT](LICENSE-MIT) or https://opensource.org/licenses/MIT)
-
-at your option.
-
-### Contribution
-
-Unless you explicitly state otherwise, any contribution intentionally submitted
-for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any
-additional terms or conditions.
diff --git a/vendor/png/benches/README.md b/vendor/png/benches/README.md
deleted file mode 100644
index bf13a55..0000000
--- a/vendor/png/benches/README.md
+++ /dev/null
@@ -1,6 +0,0 @@
-# Getting started with benchmarking
-
-To run the benchmarks you need a nightly rust toolchain.
-Then you launch it with
-
- rustup run nightly cargo bench --features=benchmarks
diff --git a/vendor/png/benches/decoder.rs b/vendor/png/benches/decoder.rs
deleted file mode 100644
index a078c9a..0000000
--- a/vendor/png/benches/decoder.rs
+++ /dev/null
@@ -1,38 +0,0 @@
-use std::fs;
-
-use criterion::{criterion_group, criterion_main, Criterion, Throughput};
-use png::Decoder;
-
-fn load_all(c: &mut Criterion) {
- for entry in fs::read_dir("tests/benches/").unwrap().flatten() {
- match entry.path().extension() {
- Some(st) if st == "png" => {}
- _ => continue,
- }
-
- let data = fs::read(entry.path()).unwrap();
- bench_file(c, data, entry.file_name().into_string().unwrap());
- }
-}
-
-criterion_group!(benches, load_all);
-criterion_main!(benches);
-
-fn bench_file(c: &mut Criterion, data: Vec<u8>, name: String) {
- let mut group = c.benchmark_group("decode");
- group.sample_size(20);
-
- let decoder = Decoder::new(&*data);
- let mut reader = decoder.read_info().unwrap();
- let mut image = vec![0; reader.output_buffer_size()];
- let info = reader.next_frame(&mut image).unwrap();
-
- group.throughput(Throughput::Bytes(info.buffer_size() as u64));
- group.bench_with_input(name, &data, |b, data| {
- b.iter(|| {
- let decoder = Decoder::new(data.as_slice());
- let mut decoder = decoder.read_info().unwrap();
- decoder.next_frame(&mut image).unwrap();
- })
- });
-}
diff --git a/vendor/png/examples/corpus-bench.rs b/vendor/png/examples/corpus-bench.rs
deleted file mode 100644
index b030d6d..0000000
--- a/vendor/png/examples/corpus-bench.rs
+++ /dev/null
@@ -1,198 +0,0 @@
-use std::{fs, path::PathBuf};
-
-use clap::Parser;
-use png::Decoder;
-
-#[derive(clap::ValueEnum, Clone)]
-enum Speed {
- Fast,
- Default,
- Best,
-}
-
-#[derive(clap::ValueEnum, Clone)]
-enum Filter {
- None,
- Sub,
- Up,
- Average,
- Paeth,
- Adaptive,
-}
-
-#[derive(clap::Parser)]
-struct Args {
- directory: Option<PathBuf>,
- #[clap(short, long, value_enum, default_value_t = Speed::Fast)]
- speed: Speed,
- #[clap(short, long, value_enum, default_value_t = Filter::Adaptive)]
- filter: Filter,
-}
-
-#[inline(never)]
-fn run_encode(
- args: &Args,
- dimensions: (u32, u32),
- color_type: png::ColorType,
- bit_depth: png::BitDepth,
- image: &[u8],
-) -> Vec<u8> {
- let mut reencoded = Vec::new();
- let mut encoder = png::Encoder::new(&mut reencoded, dimensions.0, dimensions.1);
- encoder.set_color(color_type);
- encoder.set_depth(bit_depth);
- encoder.set_compression(match args.speed {
- Speed::Fast => png::Compression::Fast,
- Speed::Default => png::Compression::Default,
- Speed::Best => png::Compression::Best,
- });
- encoder.set_filter(match args.filter {
- Filter::None => png::FilterType::NoFilter,
- Filter::Sub => png::FilterType::Sub,
- Filter::Up => png::FilterType::Up,
- Filter::Average => png::FilterType::Avg,
- Filter::Paeth => png::FilterType::Paeth,
- Filter::Adaptive => png::FilterType::Paeth,
- });
- encoder.set_adaptive_filter(match args.filter {
- Filter::Adaptive => png::AdaptiveFilterType::Adaptive,
- _ => png::AdaptiveFilterType::NonAdaptive,
- });
- let mut encoder = encoder.write_header().unwrap();
- encoder.write_image_data(&image).unwrap();
- encoder.finish().unwrap();
- reencoded
-}
-
-#[inline(never)]
-fn run_decode(image: &[u8], output: &mut [u8]) {
- let mut reader = Decoder::new(image).read_info().unwrap();
- reader.next_frame(output).unwrap();
-}
-
-fn main() {
- let mut total_uncompressed = 0;
- let mut total_compressed = 0;
- let mut total_pixels = 0;
- let mut total_encode_time = 0;
- let mut total_decode_time = 0;
-
- let args = Args::parse();
-
- println!(
- "{:45} Ratio Encode Decode",
- "Directory"
- );
- println!(
- "{:45}------- -------------------- --------------------",
- "---------"
- );
-
- let mut image2 = Vec::new();
-
- let mut pending = vec![args.directory.clone().unwrap_or(PathBuf::from("."))];
- while let Some(directory) = pending.pop() {
- let mut dir_uncompressed = 0;
- let mut dir_compressed = 0;
- let mut dir_pixels = 0;
- let mut dir_encode_time = 0;
- let mut dir_decode_time = 0;
-
- for entry in fs::read_dir(&directory).unwrap().flatten() {
- if entry.file_type().unwrap().is_dir() {
- pending.push(entry.path());
- continue;
- }
-
- match entry.path().extension() {
- Some(st) if st == "png" => {}
- _ => continue,
- }
-
- // Parse
- let data = fs::read(entry.path()).unwrap();
- let mut decoder = Decoder::new(&*data);
- if decoder.read_header_info().ok().map(|h| h.color_type)
- == Some(png::ColorType::Indexed)
- {
- decoder.set_transformations(
- png::Transformations::EXPAND | png::Transformations::STRIP_16,
- );
- }
- let mut reader = match decoder.read_info() {
- Ok(reader) => reader,
- Err(_) => continue,
- };
- let mut image = vec![0; reader.output_buffer_size()];
- let info = match reader.next_frame(&mut image) {
- Ok(info) => info,
- Err(_) => continue,
- };
- let (width, height) = (info.width, info.height);
- let bit_depth = info.bit_depth;
- let mut color_type = info.color_type;
-
- // qoibench expands grayscale to RGB, so we do the same.
- if bit_depth == png::BitDepth::Eight {
- if color_type == png::ColorType::Grayscale {
- image = image.into_iter().flat_map(|v| [v, v, v, 255]).collect();
- color_type = png::ColorType::Rgba;
- } else if color_type == png::ColorType::GrayscaleAlpha {
- image = image
- .chunks_exact(2)
- .flat_map(|v| [v[0], v[0], v[0], v[1]])
- .collect();
- color_type = png::ColorType::Rgba;
- }
- }
-
- // Re-encode
- let start = std::time::Instant::now();
- let reencoded = run_encode(&args, (width, height), color_type, bit_depth, &image);
- let elapsed = start.elapsed().as_nanos() as u64;
-
- // And decode again
- image2.resize(image.len(), 0);
- let start2 = std::time::Instant::now();
- run_decode(&reencoded, &mut image2);
- let elapsed2 = start2.elapsed().as_nanos() as u64;
-
- assert_eq!(image, image2);
-
- // Stats
- dir_uncompressed += image.len();
- dir_compressed += reencoded.len();
- dir_pixels += (width * height) as u64;
- dir_encode_time += elapsed;
- dir_decode_time += elapsed2;
- }
- if dir_uncompressed > 0 {
- println!(
- "{:45}{:6.2}%{:8} mps {:6.2} GiB/s {:8} mps {:6.2} GiB/s",
- directory.display(),
- 100.0 * dir_compressed as f64 / dir_uncompressed as f64,
- dir_pixels * 1000 / dir_encode_time,
- dir_uncompressed as f64 / (dir_encode_time as f64 * 1e-9 * (1 << 30) as f64),
- dir_pixels * 1000 / dir_decode_time,
- dir_uncompressed as f64 / (dir_decode_time as f64 * 1e-9 * (1 << 30) as f64)
- );
- }
-
- total_uncompressed += dir_uncompressed;
- total_compressed += dir_compressed;
- total_pixels += dir_pixels;
- total_encode_time += dir_encode_time;
- total_decode_time += dir_decode_time;
- }
-
- println!();
- println!(
- "{:44}{:7.3}%{:8} mps {:6.3} GiB/s {:8} mps {:6.3} GiB/s",
- "Total",
- 100.0 * total_compressed as f64 / total_uncompressed as f64,
- total_pixels * 1000 / total_encode_time,
- total_uncompressed as f64 / (total_encode_time as f64 * 1e-9 * (1 << 30) as f64),
- total_pixels * 1000 / total_decode_time,
- total_uncompressed as f64 / (total_decode_time as f64 * 1e-9 * (1 << 30) as f64)
- );
-}
diff --git a/vendor/png/examples/png-generate.rs b/vendor/png/examples/png-generate.rs
deleted file mode 100644
index 9036a04..0000000
--- a/vendor/png/examples/png-generate.rs
+++ /dev/null
@@ -1,55 +0,0 @@
-// For reading and opening files
-use png::text_metadata::{ITXtChunk, ZTXtChunk};
-use std::env;
-use std::fs::File;
-use std::io::BufWriter;
-
-fn main() {
- let path = env::args()
- .nth(1)
- .expect("Expected a filename to output to.");
- let file = File::create(path).unwrap();
- let w = &mut BufWriter::new(file);
-
- let mut encoder = png::Encoder::new(w, 2, 1); // Width is 2 pixels and height is 1.
- encoder.set_color(png::ColorType::Rgba);
- encoder.set_depth(png::BitDepth::Eight);
- // Adding text chunks to the header
- encoder
- .add_text_chunk(
- "Testing tEXt".to_string(),
- "This is a tEXt chunk that will appear before the IDAT chunks.".to_string(),
- )
- .unwrap();
- encoder
- .add_ztxt_chunk(
- "Testing zTXt".to_string(),
- "This is a zTXt chunk that is compressed in the png file.".to_string(),
- )
- .unwrap();
- encoder
- .add_itxt_chunk(
- "Testing iTXt".to_string(),
- "iTXt chunks support all of UTF8. Example: हिंदी.".to_string(),
- )
- .unwrap();
-
- let mut writer = encoder.write_header().unwrap();
-
- let data = [255, 0, 0, 255, 0, 0, 0, 255]; // An array containing a RGBA sequence. First pixel is red and second pixel is black.
- writer.write_image_data(&data).unwrap(); // Save
-
- // We can add a tEXt/zTXt/iTXt at any point before the encoder is dropped from scope. These chunks will be at the end of the png file.
- let tail_ztxt_chunk = ZTXtChunk::new(
- "Comment".to_string(),
- "A zTXt chunk after the image data.".to_string(),
- );
- writer.write_text_chunk(&tail_ztxt_chunk).unwrap();
-
- // The fields of the text chunk are public, so they can be mutated before being written to the file.
- let mut tail_itxt_chunk = ITXtChunk::new("Author".to_string(), "सायंतन खान".to_string());
- tail_itxt_chunk.compressed = true;
- tail_itxt_chunk.language_tag = "hi".to_string();
- tail_itxt_chunk.translated_keyword = "लेखक".to_string();
- writer.write_text_chunk(&tail_itxt_chunk).unwrap();
-}
diff --git a/vendor/png/examples/pngcheck.rs b/vendor/png/examples/pngcheck.rs
deleted file mode 100644
index 69e95e3..0000000
--- a/vendor/png/examples/pngcheck.rs
+++ /dev/null
@@ -1,381 +0,0 @@
-#![allow(non_upper_case_globals)]
-
-extern crate getopts;
-extern crate glob;
-extern crate png;
-
-use std::env;
-use std::fs::File;
-use std::io;
-use std::io::prelude::*;
-use std::path::Path;
-
-use getopts::{Matches, Options, ParsingStyle};
-use term::{color, Attr};
-
-fn parse_args() -> Matches {
- let args: Vec<String> = env::args().collect();
- let mut opts = Options::new();
- opts.optflag("c", "", "colorize output (for ANSI terminals)")
- .optflag("q", "", "test quietly (output only errors)")
- .optflag(
- "t",
- "",
- "print contents of tEXt/zTXt/iTXt chunks (can be used with -q)",
- )
- .optflag("v", "", "test verbosely (print most chunk data)")
- .parsing_style(ParsingStyle::StopAtFirstFree);
- if args.len() > 1 {
- match opts.parse(&args[1..]) {
- Ok(matches) => return matches,
- Err(err) => println!("{}", err),
- }
- }
- println!("{}", opts.usage("Usage: pngcheck [-cpt] [file ...]"));
- std::process::exit(0);
-}
-
-#[derive(Clone, Copy)]
-struct Config {
- quiet: bool,
- verbose: bool,
- color: bool,
- text: bool,
-}
-
-fn display_interlaced(i: bool) -> &'static str {
- if i {
- "interlaced"
- } else {
- "non-interlaced"
- }
-}
-
-fn display_image_type(bits: u8, color: png::ColorType) -> String {
- use png::ColorType::*;
- format!(
- "{}-bit {}",
- bits,
- match color {
- Grayscale => "grayscale",
- Rgb => "RGB",
- Indexed => "palette",
- GrayscaleAlpha => "grayscale+alpha",
- Rgba => "RGB+alpha",
- }
- )
-}
-// channels after expansion of tRNS
-fn final_channels(c: png::ColorType, trns: bool) -> u8 {
- use png::ColorType::*;
- match c {
- Grayscale => 1 + u8::from(trns),
- Rgb => 3,
- Indexed => 3 + u8::from(trns),
- GrayscaleAlpha => 2,
- Rgba => 4,
- }
-}
-fn check_image<P: AsRef<Path>>(c: Config, fname: P) -> io::Result<()> {
- // TODO improve performance by resusing allocations from decoder
- use png::Decoded::*;
- let mut t = term::stdout()
- .ok_or_else(|| io::Error::new(io::ErrorKind::Other, "could not open terminal"))?;
- let data = &mut vec![0; 10 * 1024][..];
- let mut reader = io::BufReader::new(File::open(&fname)?);
- let fname = fname.as_ref().to_string_lossy();
- let n = reader.read(data)?;
- let mut buf = &data[..n];
- let mut pos = 0;
- let mut decoder = png::StreamingDecoder::new();
- // Image data
- let mut width = 0;
- let mut height = 0;
- let mut color = png::ColorType::Grayscale;
- let mut bits = 0;
- let mut trns = false;
- let mut interlaced = false;
- let mut compressed_size = 0;
- let mut n_chunks = 0;
- let mut have_idat = false;
- macro_rules! c_ratio(
- // TODO add palette entries to compressed_size
- () => ({
- compressed_size as f32/(
- height as u64 *
- (width as u64 * final_channels(color, trns) as u64 * bits as u64 + 7)>>3
- ) as f32
- });
- );
- let display_error = |err| -> Result<_, io::Error> {
- let mut t = term::stdout()
- .ok_or_else(|| io::Error::new(io::ErrorKind::Other, "could not open terminal"))?;
- if c.verbose {
- if c.color {
- print!(": ");
- t.fg(color::RED)?;
- writeln!(t, "{}", err)?;
- t.attr(Attr::Bold)?;
- write!(t, "ERRORS DETECTED")?;
- t.reset()?;
- } else {
- println!(": {}", err);
- print!("ERRORS DETECTED")
- }
- println!(" in {}", fname);
- } else {
- if !c.quiet {
- if c.color {
- t.fg(color::RED)?;
- t.attr(Attr::Bold)?;
- write!(t, "ERROR")?;
- t.reset()?;
- write!(t, ": ")?;
- t.fg(color::YELLOW)?;
- writeln!(t, "{}", fname)?;
- t.reset()?;
- } else {
- println!("ERROR: {}", fname)
- }
- }
- print!("{}: ", fname);
- if c.color {
- t.fg(color::RED)?;
- writeln!(t, "{}", err)?;
- t.reset()?;
- } else {
- println!("{}", err);
- }
- }
- Ok(())
- };
-
- if c.verbose {
- print!("File: ");
- if c.color {
- t.attr(Attr::Bold)?;
- write!(t, "{}", fname)?;
- t.reset()?;
- } else {
- print!("{}", fname);
- }
- print!(" ({}) bytes", data.len())
- }
- loop {
- if buf.is_empty() {
- // circumvent borrow checker
- assert!(!data.is_empty());
- let n = reader.read(data)?;
-
- // EOF
- if n == 0 {
- println!("ERROR: premature end of file {}", fname);
- break;
- }
- buf = &data[..n];
- }
- match decoder.update(buf, &mut Vec::new()) {
- Ok((_, ImageEnd)) => {
- if !have_idat {
- // This isn't beautiful. But it works.
- display_error(png::DecodingError::IoError(io::Error::new(
- io::ErrorKind::InvalidData,
- "IDAT chunk missing",
- )))?;
- break;
- }
- if !c.verbose && !c.quiet {
- if c.color {
- t.fg(color::GREEN)?;
- t.attr(Attr::Bold)?;
- write!(t, "OK")?;
- t.reset()?;
- write!(t, ": ")?;
- t.fg(color::YELLOW)?;
- write!(t, "{}", fname)?;
- t.reset()?;
- } else {
- print!("OK: {}", fname)
- }
- println!(
- " ({}x{}, {}{}, {}, {:.1}%)",
- width,
- height,
- display_image_type(bits, color),
- (if trns { "+trns" } else { "" }),
- display_interlaced(interlaced),
- 100.0 * (1.0 - c_ratio!())
- )
- } else if !c.quiet {
- println!();
- if c.color {
- t.fg(color::GREEN)?;
- t.attr(Attr::Bold)?;
- write!(t, "No errors detected ")?;
- t.reset()?;
- } else {
- print!("No errors detected ");
- }
- println!(
- "in {} ({} chunks, {:.1}% compression)",
- fname,
- n_chunks,
- 100.0 * (1.0 - c_ratio!()),
- )
- }
- break;
- }
- Ok((n, res)) => {
- buf = &buf[n..];
- pos += n;
- match res {
- Header(w, h, b, c, i) => {
- width = w;
- height = h;
- bits = b as u8;
- color = c;
- interlaced = i;
- }
- ChunkBegin(len, type_str) => {
- use png::chunk;
- n_chunks += 1;
- if c.verbose {
- let chunk = type_str;
- println!();
- print!(" chunk ");
- if c.color {
- t.fg(color::YELLOW)?;
- write!(t, "{:?}", chunk)?;
- t.reset()?;
- } else {
- print!("{:?}", chunk)
- }
- print!(
- " at offset {:#07x}, length {}",
- pos - 4, // substract chunk name length
- len
- )
- }
- match type_str {
- chunk::IDAT => {
- have_idat = true;
- compressed_size += len
- }
- chunk::tRNS => {
- trns = true;
- }
- _ => (),
- }
- }
- ImageData => {
- //println!("got {} bytes of image data", data.len())
- }
- ChunkComplete(_, type_str) if c.verbose => {
- use png::chunk::*;
- if type_str == IHDR {
- println!();
- print!(
- " {} x {} image, {}{}, {}",
- width,
- height,
- display_image_type(bits, color),
- (if trns { "+trns" } else { "" }),
- display_interlaced(interlaced),
- );
- }
- }
- AnimationControl(actl) => {
- println!();
- print!(" {} frames, {} plays", actl.num_frames, actl.num_plays,);
- }
- FrameControl(fctl) => {
- println!();
- println!(
- " sequence #{}, {} x {} pixels @ ({}, {})",
- fctl.sequence_number,
- fctl.width,
- fctl.height,
- fctl.x_offset,
- fctl.y_offset,
- /*fctl.delay_num,
- fctl.delay_den,
- fctl.dispose_op,
- fctl.blend_op,*/
- );
- print!(
- " {}/{} s delay, dispose: {}, blend: {}",
- fctl.delay_num,
- if fctl.delay_den == 0 {
- 100
- } else {
- fctl.delay_den
- },
- fctl.dispose_op,
- fctl.blend_op,
- );
- }
- _ => (),
- }
- //println!("{} {:?}", n, res)
- }
- Err(err) => {
- let _ = display_error(err);
- break;
- }
- }
- }
- if c.text {
- println!("Parsed tEXt chunks:");
- for text_chunk in &decoder.info().unwrap().uncompressed_latin1_text {
- println!("{:#?}", text_chunk);
- }
-
- println!("Parsed zTXt chunks:");
- for text_chunk in &decoder.info().unwrap().compressed_latin1_text {
- let mut cloned_text_chunk = text_chunk.clone();
- cloned_text_chunk.decompress_text()?;
- println!("{:#?}", cloned_text_chunk);
- }
-
- println!("Parsed iTXt chunks:");
- for text_chunk in &decoder.info().unwrap().utf8_text {
- let mut cloned_text_chunk = text_chunk.clone();
- cloned_text_chunk.decompress_text()?;
- println!("{:#?}", cloned_text_chunk);
- }
- }
-
- Ok(())
-}
-
-fn main() {
- let m = parse_args();
-
- let config = Config {
- quiet: m.opt_present("q"),
- verbose: m.opt_present("v"),
- color: m.opt_present("c"),
- text: m.opt_present("t"),
- };
-
- for file in m.free {
- let result = if file.contains('*') {
- glob::glob(&file)
- .map_err(|err| io::Error::new(io::ErrorKind::Other, err))
- .and_then(|mut glob| {
- glob.try_for_each(|entry| {
- entry
- .map_err(|err| io::Error::new(io::ErrorKind::Other, err))
- .and_then(|file| check_image(config, file))
- })
- })
- } else {
- check_image(config, &file)
- };
-
- result.unwrap_or_else(|err| {
- println!("{}: {}", file, err);
- std::process::exit(1)
- });
- }
-}
diff --git a/vendor/png/examples/show.rs b/vendor/png/examples/show.rs
deleted file mode 100644
index d8ddf75..0000000
--- a/vendor/png/examples/show.rs
+++ /dev/null
@@ -1,198 +0,0 @@
-use glium::{
- backend::glutin::Display,
- glutin::{
- self, dpi,
- event::{ElementState, Event, KeyboardInput, VirtualKeyCode, WindowEvent},
- event_loop::ControlFlow,
- },
- texture::{ClientFormat, RawImage2d},
- BlitTarget, Rect, Surface,
-};
-use std::{borrow::Cow, env, fs::File, io, path};
-
-/// Load the image using `png`
-fn load_image(path: &path::PathBuf) -> io::Result<RawImage2d<'static, u8>> {
- use png::ColorType::*;
- let mut decoder = png::Decoder::new(File::open(path)?);
- decoder.set_transformations(png::Transformations::normalize_to_color8());
- let mut reader = decoder.read_info()?;
- let mut img_data = vec![0; reader.output_buffer_size()];
- let info = reader.next_frame(&mut img_data)?;
-
- let (data, format) = match info.color_type {
- Rgb => (img_data, ClientFormat::U8U8U8),
- Rgba => (img_data, ClientFormat::U8U8U8U8),
- Grayscale => (
- {
- let mut vec = Vec::with_capacity(img_data.len() * 3);
- for g in img_data {
- vec.extend([g, g, g].iter().cloned())
- }
- vec
- },
- ClientFormat::U8U8U8,
- ),
- GrayscaleAlpha => (
- {
- let mut vec = Vec::with_capacity(img_data.len() * 3);
- for ga in img_data.chunks(2) {
- let g = ga[0];
- let a = ga[1];
- vec.extend([g, g, g, a].iter().cloned())
- }
- vec
- },
- ClientFormat::U8U8U8U8,
- ),
- _ => unreachable!("uncovered color type"),
- };
-
- Ok(RawImage2d {
- data: Cow::Owned(data),
- width: info.width,
- height: info.height,
- format,
- })
-}
-
-fn main_loop(files: Vec<path::PathBuf>) -> io::Result<()> {
- let mut files = files.into_iter();
- let image = load_image(&files.next().unwrap())?;
-
- let event_loop = glutin::event_loop::EventLoop::new();
- let window_builder = glutin::window::WindowBuilder::new().with_title("Show Example");
- let context_builder = glutin::ContextBuilder::new().with_vsync(true);
- let display = glium::Display::new(window_builder, context_builder, &event_loop)
- .map_err(|err| io::Error::new(io::ErrorKind::Other, err))?;
- resize_window(&display, &image);
- let mut texture = glium::Texture2d::new(&display, image).unwrap();
- draw(&display, &texture);
-
- event_loop.run(move |event, _, control_flow| match event {
- Event::WindowEvent {
- event: WindowEvent::CloseRequested,
- ..
- } => exit(control_flow),
- Event::WindowEvent {
- event:
- WindowEvent::KeyboardInput {
- input:
- KeyboardInput {
- state: ElementState::Pressed,
- virtual_keycode: code,
- ..
- },
- ..
- },
- ..
- } => match code {
- Some(VirtualKeyCode::Escape) => exit(control_flow),
- Some(VirtualKeyCode::Right) => match &files.next() {
- Some(path) => {
- match load_image(path) {
- Ok(image) => {
- resize_window(&display, &image);
- texture = glium::Texture2d::new(&display, image).unwrap();
- draw(&display, &texture);
- }
- Err(err) => {
- println!("Error: {}", err);
- exit(control_flow);
- }
- };
- }
- None => exit(control_flow),
- },
- _ => {}
- },
- Event::RedrawRequested(_) => draw(&display, &texture),
- _ => {}
- });
-}
-
-fn draw(display: &glium::Display, texture: &glium::Texture2d) {
- let frame = display.draw();
- fill_v_flipped(
- &texture.as_surface(),
- &frame,
- glium::uniforms::MagnifySamplerFilter::Linear,
- );
- frame.finish().unwrap();
-}
-
-fn exit(control_flow: &mut ControlFlow) {
- *control_flow = ControlFlow::Exit;
-}
-
-fn fill_v_flipped<S1, S2>(src: &S1, target: &S2, filter: glium::uniforms::MagnifySamplerFilter)
-where
- S1: Surface,
- S2: Surface,
-{
- let src_dim = src.get_dimensions();
- let src_rect = Rect {
- left: 0,
- bottom: 0,
- width: src_dim.0 as u32,
- height: src_dim.1 as u32,
- };
- let target_dim = target.get_dimensions();
- let target_rect = BlitTarget {
- left: 0,
- bottom: target_dim.1,
- width: target_dim.0 as i32,
- height: -(target_dim.1 as i32),
- };
- src.blit_color(&src_rect, target, &target_rect, filter);
-}
-
-fn resize_window(display: &Display, image: &RawImage2d<'static, u8>) {
- let mut width = image.width;
- let mut height = image.height;
- if width < 50 && height < 50 {
- width *= 10;
- height *= 10;
- }
- display
- .gl_window()
- .window()
- .set_inner_size(dpi::LogicalSize::new(f64::from(width), f64::from(height)));
-}
-
-fn main() {
- let args: Vec<String> = env::args().collect();
- if args.len() < 2 {
- println!("Usage: show files [...]");
- } else {
- let mut files = vec![];
- for file in args.iter().skip(1) {
- match if file.contains('*') {
- (|| -> io::Result<_> {
- for entry in glob::glob(file)
- .map_err(|err| io::Error::new(io::ErrorKind::Other, err.msg))?
- {
- files.push(
- entry
- .map_err(|_| io::Error::new(io::ErrorKind::Other, "glob error"))?,
- )
- }
- Ok(())
- })()
- } else {
- files.push(path::PathBuf::from(file));
- Ok(())
- } {
- Ok(_) => (),
- Err(err) => {
- println!("{}: {}", file, err);
- break;
- }
- }
- }
- // "tests/pngsuite/pngsuite.png"
- match main_loop(files) {
- Ok(_) => (),
- Err(err) => println!("Error: {}", err),
- }
- }
-}
diff --git a/vendor/png/src/chunk.rs b/vendor/png/src/chunk.rs
deleted file mode 100644
index 39578a4..0000000
--- a/vendor/png/src/chunk.rs
+++ /dev/null
@@ -1,98 +0,0 @@
-//! Chunk types and functions
-#![allow(dead_code)]
-#![allow(non_upper_case_globals)]
-use core::fmt;
-
-#[derive(Clone, Copy, PartialEq, Eq, Hash)]
-pub struct ChunkType(pub [u8; 4]);
-
-// -- Critical chunks --
-
-/// Image header
-pub const IHDR: ChunkType = ChunkType(*b"IHDR");
-/// Palette
-pub const PLTE: ChunkType = ChunkType(*b"PLTE");
-/// Image data
-pub const IDAT: ChunkType = ChunkType(*b"IDAT");
-/// Image trailer
-pub const IEND: ChunkType = ChunkType(*b"IEND");
-
-// -- Ancillary chunks --
-
-/// Transparency
-pub const tRNS: ChunkType = ChunkType(*b"tRNS");
-/// Background colour
-pub const bKGD: ChunkType = ChunkType(*b"bKGD");
-/// Image last-modification time
-pub const tIME: ChunkType = ChunkType(*b"tIME");
-/// Physical pixel dimensions
-pub const pHYs: ChunkType = ChunkType(*b"pHYs");
-/// Source system's pixel chromaticities
-pub const cHRM: ChunkType = ChunkType(*b"cHRM");
-/// Source system's gamma value
-pub const gAMA: ChunkType = ChunkType(*b"gAMA");
-/// sRGB color space chunk
-pub const sRGB: ChunkType = ChunkType(*b"sRGB");
-/// ICC profile chunk
-pub const iCCP: ChunkType = ChunkType(*b"iCCP");
-/// Latin-1 uncompressed textual data
-pub const tEXt: ChunkType = ChunkType(*b"tEXt");
-/// Latin-1 compressed textual data
-pub const zTXt: ChunkType = ChunkType(*b"zTXt");
-/// UTF-8 textual data
-pub const iTXt: ChunkType = ChunkType(*b"iTXt");
-
-// -- Extension chunks --
-
-/// Animation control
-pub const acTL: ChunkType = ChunkType(*b"acTL");
-/// Frame control
-pub const fcTL: ChunkType = ChunkType(*b"fcTL");
-/// Frame data
-pub const fdAT: ChunkType = ChunkType(*b"fdAT");
-
-// -- Chunk type determination --
-
-/// Returns true if the chunk is critical.
-pub fn is_critical(ChunkType(type_): ChunkType) -> bool {
- type_[0] & 32 == 0
-}
-
-/// Returns true if the chunk is private.
-pub fn is_private(ChunkType(type_): ChunkType) -> bool {
- type_[1] & 32 != 0
-}
-
-/// Checks whether the reserved bit of the chunk name is set.
-/// If it is set the chunk name is invalid.
-pub fn reserved_set(ChunkType(type_): ChunkType) -> bool {
- type_[2] & 32 != 0
-}
-
-/// Returns true if the chunk is safe to copy if unknown.
-pub fn safe_to_copy(ChunkType(type_): ChunkType) -> bool {
- type_[3] & 32 != 0
-}
-
-impl fmt::Debug for ChunkType {
- fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
- struct DebugType([u8; 4]);
-
- impl fmt::Debug for DebugType {
- fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
- for &c in &self.0[..] {
- write!(f, "{}", char::from(c).escape_debug())?;
- }
- Ok(())
- }
- }
-
- f.debug_struct("ChunkType")
- .field("type", &DebugType(self.0))
- .field("critical", &is_critical(*self))
- .field("private", &is_private(*self))
- .field("reserved", &reserved_set(*self))
- .field("safecopy", &safe_to_copy(*self))
- .finish()
- }
-}
diff --git a/vendor/png/src/common.rs b/vendor/png/src/common.rs
deleted file mode 100644
index 6e5dbff..0000000
--- a/vendor/png/src/common.rs
+++ /dev/null
@@ -1,808 +0,0 @@
-//! Common types shared between the encoder and decoder
-use crate::text_metadata::{EncodableTextChunk, ITXtChunk, TEXtChunk, ZTXtChunk};
-use crate::{chunk, encoder};
-use io::Write;
-use std::{borrow::Cow, convert::TryFrom, fmt, io};
-
-/// Describes how a pixel is encoded.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-#[repr(u8)]
-pub enum ColorType {
- /// 1 grayscale sample.
- Grayscale = 0,
- /// 1 red sample, 1 green sample, 1 blue sample.
- Rgb = 2,
- /// 1 sample for the palette index.
- Indexed = 3,
- /// 1 grayscale sample, then 1 alpha sample.
- GrayscaleAlpha = 4,
- /// 1 red sample, 1 green sample, 1 blue sample, and finally, 1 alpha sample.
- Rgba = 6,
-}
-
-impl ColorType {
- /// Returns the number of samples used per pixel encoded in this way.
- pub fn samples(self) -> usize {
- self.samples_u8().into()
- }
-
- pub(crate) fn samples_u8(self) -> u8 {
- use self::ColorType::*;
- match self {
- Grayscale | Indexed => 1,
- Rgb => 3,
- GrayscaleAlpha => 2,
- Rgba => 4,
- }
- }
-
- /// u8 -> Self. Temporary solution until Rust provides a canonical one.
- pub fn from_u8(n: u8) -> Option<ColorType> {
- match n {
- 0 => Some(ColorType::Grayscale),
- 2 => Some(ColorType::Rgb),
- 3 => Some(ColorType::Indexed),
- 4 => Some(ColorType::GrayscaleAlpha),
- 6 => Some(ColorType::Rgba),
- _ => None,
- }
- }
-
- pub(crate) fn checked_raw_row_length(self, depth: BitDepth, width: u32) -> Option<usize> {
- // No overflow can occur in 64 bits, we multiply 32-bit with 5 more bits.
- let bits = u64::from(width) * u64::from(self.samples_u8()) * u64::from(depth.into_u8());
- TryFrom::try_from(1 + (bits + 7) / 8).ok()
- }
-
- pub(crate) fn raw_row_length_from_width(self, depth: BitDepth, width: u32) -> usize {
- let samples = width as usize * self.samples();
- 1 + match depth {
- BitDepth::Sixteen => samples * 2,
- BitDepth::Eight => samples,
- subbyte => {
- let samples_per_byte = 8 / subbyte as usize;
- let whole = samples / samples_per_byte;
- let fract = usize::from(samples % samples_per_byte > 0);
- whole + fract
- }
- }
- }
-
- pub(crate) fn is_combination_invalid(self, bit_depth: BitDepth) -> bool {
- // Section 11.2.2 of the PNG standard disallows several combinations
- // of bit depth and color type
- ((bit_depth == BitDepth::One || bit_depth == BitDepth::Two || bit_depth == BitDepth::Four)
- && (self == ColorType::Rgb
- || self == ColorType::GrayscaleAlpha
- || self == ColorType::Rgba))
- || (bit_depth == BitDepth::Sixteen && self == ColorType::Indexed)
- }
-}
-
-/// Bit depth of the PNG file.
-/// Specifies the number of bits per sample.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-#[repr(u8)]
-pub enum BitDepth {
- One = 1,
- Two = 2,
- Four = 4,
- Eight = 8,
- Sixteen = 16,
-}
-
-/// Internal count of bytes per pixel.
-/// This is used for filtering which never uses sub-byte units. This essentially reduces the number
-/// of possible byte chunk lengths to a very small set of values appropriate to be defined as an
-/// enum.
-#[derive(Debug, Clone, Copy)]
-#[repr(u8)]
-pub(crate) enum BytesPerPixel {
- One = 1,
- Two = 2,
- Three = 3,
- Four = 4,
- Six = 6,
- Eight = 8,
-}
-
-impl BitDepth {
- /// u8 -> Self. Temporary solution until Rust provides a canonical one.
- pub fn from_u8(n: u8) -> Option<BitDepth> {
- match n {
- 1 => Some(BitDepth::One),
- 2 => Some(BitDepth::Two),
- 4 => Some(BitDepth::Four),
- 8 => Some(BitDepth::Eight),
- 16 => Some(BitDepth::Sixteen),
- _ => None,
- }
- }
-
- pub(crate) fn into_u8(self) -> u8 {
- self as u8
- }
-}
-
-/// Pixel dimensions information
-#[derive(Clone, Copy, Debug)]
-pub struct PixelDimensions {
- /// Pixels per unit, X axis
- pub xppu: u32,
- /// Pixels per unit, Y axis
- pub yppu: u32,
- /// Either *Meter* or *Unspecified*
- pub unit: Unit,
-}
-
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-#[repr(u8)]
-/// Physical unit of the pixel dimensions
-pub enum Unit {
- Unspecified = 0,
- Meter = 1,
-}
-
-impl Unit {
- /// u8 -> Self. Temporary solution until Rust provides a canonical one.
- pub fn from_u8(n: u8) -> Option<Unit> {
- match n {
- 0 => Some(Unit::Unspecified),
- 1 => Some(Unit::Meter),
- _ => None,
- }
- }
-}
-
-/// How to reset buffer of an animated png (APNG) at the end of a frame.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-#[repr(u8)]
-pub enum DisposeOp {
- /// Leave the buffer unchanged.
- None = 0,
- /// Clear buffer with the background color.
- Background = 1,
- /// Reset the buffer to the state before the current frame.
- Previous = 2,
-}
-
-impl DisposeOp {
- /// u8 -> Self. Using enum_primitive or transmute is probably the right thing but this will do for now.
- pub fn from_u8(n: u8) -> Option<DisposeOp> {
- match n {
- 0 => Some(DisposeOp::None),
- 1 => Some(DisposeOp::Background),
- 2 => Some(DisposeOp::Previous),
- _ => None,
- }
- }
-}
-
-impl fmt::Display for DisposeOp {
- fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
- let name = match *self {
- DisposeOp::None => "DISPOSE_OP_NONE",
- DisposeOp::Background => "DISPOSE_OP_BACKGROUND",
- DisposeOp::Previous => "DISPOSE_OP_PREVIOUS",
- };
- write!(f, "{}", name)
- }
-}
-
-/// How pixels are written into the buffer.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-#[repr(u8)]
-pub enum BlendOp {
- /// Pixels overwrite the value at their position.
- Source = 0,
- /// The new pixels are blended into the current state based on alpha.
- Over = 1,
-}
-
-impl BlendOp {
- /// u8 -> Self. Using enum_primitive or transmute is probably the right thing but this will do for now.
- pub fn from_u8(n: u8) -> Option<BlendOp> {
- match n {
- 0 => Some(BlendOp::Source),
- 1 => Some(BlendOp::Over),
- _ => None,
- }
- }
-}
-
-impl fmt::Display for BlendOp {
- fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
- let name = match *self {
- BlendOp::Source => "BLEND_OP_SOURCE",
- BlendOp::Over => "BLEND_OP_OVER",
- };
- write!(f, "{}", name)
- }
-}
-
-/// Frame control information
-#[derive(Clone, Copy, Debug)]
-pub struct FrameControl {
- /// Sequence number of the animation chunk, starting from 0
- pub sequence_number: u32,
- /// Width of the following frame
- pub width: u32,
- /// Height of the following frame
- pub height: u32,
- /// X position at which to render the following frame
- pub x_offset: u32,
- /// Y position at which to render the following frame
- pub y_offset: u32,
- /// Frame delay fraction numerator
- pub delay_num: u16,
- /// Frame delay fraction denominator
- pub delay_den: u16,
- /// Type of frame area disposal to be done after rendering this frame
- pub dispose_op: DisposeOp,
- /// Type of frame area rendering for this frame
- pub blend_op: BlendOp,
-}
-
-impl Default for FrameControl {
- fn default() -> FrameControl {
- FrameControl {
- sequence_number: 0,
- width: 0,
- height: 0,
- x_offset: 0,
- y_offset: 0,
- delay_num: 1,
- delay_den: 30,
- dispose_op: DisposeOp::None,
- blend_op: BlendOp::Source,
- }
- }
-}
-
-impl FrameControl {
- pub fn set_seq_num(&mut self, s: u32) {
- self.sequence_number = s;
- }
-
- pub fn inc_seq_num(&mut self, i: u32) {
- self.sequence_number += i;
- }
-
- pub fn encode<W: Write>(self, w: &mut W) -> encoder::Result<()> {
- let mut data = [0u8; 26];
- data[..4].copy_from_slice(&self.sequence_number.to_be_bytes());
- data[4..8].copy_from_slice(&self.width.to_be_bytes());
- data[8..12].copy_from_slice(&self.height.to_be_bytes());
- data[12..16].copy_from_slice(&self.x_offset.to_be_bytes());
- data[16..20].copy_from_slice(&self.y_offset.to_be_bytes());
- data[20..22].copy_from_slice(&self.delay_num.to_be_bytes());
- data[22..24].copy_from_slice(&self.delay_den.to_be_bytes());
- data[24] = self.dispose_op as u8;
- data[25] = self.blend_op as u8;
-
- encoder::write_chunk(w, chunk::fcTL, &data)
- }
-}
-
-/// Animation control information
-#[derive(Clone, Copy, Debug)]
-pub struct AnimationControl {
- /// Number of frames
- pub num_frames: u32,
- /// Number of times to loop this APNG. 0 indicates infinite looping.
- pub num_plays: u32,
-}
-
-impl AnimationControl {
- pub fn encode<W: Write>(self, w: &mut W) -> encoder::Result<()> {
- let mut data = [0; 8];
- data[..4].copy_from_slice(&self.num_frames.to_be_bytes());
- data[4..].copy_from_slice(&self.num_plays.to_be_bytes());
- encoder::write_chunk(w, chunk::acTL, &data)
- }
-}
-
-/// The type and strength of applied compression.
-#[derive(Debug, Clone, Copy)]
-pub enum Compression {
- /// Default level
- Default,
- /// Fast minimal compression
- Fast,
- /// Higher compression level
- ///
- /// Best in this context isn't actually the highest possible level
- /// the encoder can do, but is meant to emulate the `Best` setting in the `Flate2`
- /// library.
- Best,
- #[deprecated(
- since = "0.17.6",
- note = "use one of the other compression levels instead, such as 'fast'"
- )]
- Huffman,
- #[deprecated(
- since = "0.17.6",
- note = "use one of the other compression levels instead, such as 'fast'"
- )]
- Rle,
-}
-
-impl Default for Compression {
- fn default() -> Self {
- Self::Default
- }
-}
-
-/// An unsigned integer scaled version of a floating point value,
-/// equivalent to an integer quotient with fixed denominator (100_000)).
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub struct ScaledFloat(u32);
-
-impl ScaledFloat {
- const SCALING: f32 = 100_000.0;
-
- /// Gets whether the value is within the clamped range of this type.
- pub fn in_range(value: f32) -> bool {
- value >= 0.0 && (value * Self::SCALING).floor() <= std::u32::MAX as f32
- }
-
- /// Gets whether the value can be exactly converted in round-trip.
- #[allow(clippy::float_cmp)] // Stupid tool, the exact float compare is _the entire point_.
- pub fn exact(value: f32) -> bool {
- let there = Self::forward(value);
- let back = Self::reverse(there);
- value == back
- }
-
- fn forward(value: f32) -> u32 {
- (value.max(0.0) * Self::SCALING).floor() as u32
- }
-
- fn reverse(encoded: u32) -> f32 {
- encoded as f32 / Self::SCALING
- }
-
- /// Slightly inaccurate scaling and quantization.
- /// Clamps the value into the representable range if it is negative or too large.
- pub fn new(value: f32) -> Self {
- Self(Self::forward(value))
- }
-
- /// Fully accurate construction from a value scaled as per specification.
- pub fn from_scaled(val: u32) -> Self {
- Self(val)
- }
-
- /// Get the accurate encoded value.
- pub fn into_scaled(self) -> u32 {
- self.0
- }
-
- /// Get the unscaled value as a floating point.
- pub fn into_value(self) -> f32 {
- Self::reverse(self.0)
- }
-
- pub(crate) fn encode_gama<W: Write>(self, w: &mut W) -> encoder::Result<()> {
- encoder::write_chunk(w, chunk::gAMA, &self.into_scaled().to_be_bytes())
- }
-}
-
-/// Chromaticities of the color space primaries
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub struct SourceChromaticities {
- pub white: (ScaledFloat, ScaledFloat),
- pub red: (ScaledFloat, ScaledFloat),
- pub green: (ScaledFloat, ScaledFloat),
- pub blue: (ScaledFloat, ScaledFloat),
-}
-
-impl SourceChromaticities {
- pub fn new(white: (f32, f32), red: (f32, f32), green: (f32, f32), blue: (f32, f32)) -> Self {
- SourceChromaticities {
- white: (ScaledFloat::new(white.0), ScaledFloat::new(white.1)),
- red: (ScaledFloat::new(red.0), ScaledFloat::new(red.1)),
- green: (ScaledFloat::new(green.0), ScaledFloat::new(green.1)),
- blue: (ScaledFloat::new(blue.0), ScaledFloat::new(blue.1)),
- }
- }
-
- #[rustfmt::skip]
- pub fn to_be_bytes(self) -> [u8; 32] {
- let white_x = self.white.0.into_scaled().to_be_bytes();
- let white_y = self.white.1.into_scaled().to_be_bytes();
- let red_x = self.red.0.into_scaled().to_be_bytes();
- let red_y = self.red.1.into_scaled().to_be_bytes();
- let green_x = self.green.0.into_scaled().to_be_bytes();
- let green_y = self.green.1.into_scaled().to_be_bytes();
- let blue_x = self.blue.0.into_scaled().to_be_bytes();
- let blue_y = self.blue.1.into_scaled().to_be_bytes();
- [
- white_x[0], white_x[1], white_x[2], white_x[3],
- white_y[0], white_y[1], white_y[2], white_y[3],
- red_x[0], red_x[1], red_x[2], red_x[3],
- red_y[0], red_y[1], red_y[2], red_y[3],
- green_x[0], green_x[1], green_x[2], green_x[3],
- green_y[0], green_y[1], green_y[2], green_y[3],
- blue_x[0], blue_x[1], blue_x[2], blue_x[3],
- blue_y[0], blue_y[1], blue_y[2], blue_y[3],
- ]
- }
-
- pub fn encode<W: Write>(self, w: &mut W) -> encoder::Result<()> {
- encoder::write_chunk(w, chunk::cHRM, &self.to_be_bytes())
- }
-}
-
-/// The rendering intent for an sRGB image.
-///
-/// Presence of this data also indicates that the image conforms to the sRGB color space.
-#[repr(u8)]
-#[derive(Clone, Copy, Debug, PartialEq, Eq)]
-pub enum SrgbRenderingIntent {
- /// For images preferring good adaptation to the output device gamut at the expense of colorimetric accuracy, such as photographs.
- Perceptual = 0,
- /// For images requiring colour appearance matching (relative to the output device white point), such as logos.
- RelativeColorimetric = 1,
- /// For images preferring preservation of saturation at the expense of hue and lightness, such as charts and graphs.
- Saturation = 2,
- /// For images requiring preservation of absolute colorimetry, such as previews of images destined for a different output device (proofs).
- AbsoluteColorimetric = 3,
-}
-
-impl SrgbRenderingIntent {
- pub(crate) fn into_raw(self) -> u8 {
- self as u8
- }
-
- pub(crate) fn from_raw(raw: u8) -> Option<Self> {
- match raw {
- 0 => Some(SrgbRenderingIntent::Perceptual),
- 1 => Some(SrgbRenderingIntent::RelativeColorimetric),
- 2 => Some(SrgbRenderingIntent::Saturation),
- 3 => Some(SrgbRenderingIntent::AbsoluteColorimetric),
- _ => None,
- }
- }
-
- pub fn encode<W: Write>(self, w: &mut W) -> encoder::Result<()> {
- encoder::write_chunk(w, chunk::sRGB, &[self.into_raw()])
- }
-}
-
-/// PNG info struct
-#[derive(Clone, Debug)]
-#[non_exhaustive]
-pub struct Info<'a> {
- pub width: u32,
- pub height: u32,
- pub bit_depth: BitDepth,
- /// How colors are stored in the image.
- pub color_type: ColorType,
- pub interlaced: bool,
- /// The image's `tRNS` chunk, if present; contains the alpha channel of the image's palette, 1 byte per entry.
- pub trns: Option<Cow<'a, [u8]>>,
- pub pixel_dims: Option<PixelDimensions>,
- /// The image's `PLTE` chunk, if present; contains the RGB channels (in that order) of the image's palettes, 3 bytes per entry (1 per channel).
- pub palette: Option<Cow<'a, [u8]>>,
- /// The contents of the image's gAMA chunk, if present.
- /// Prefer `source_gamma` to also get the derived replacement gamma from sRGB chunks.
- pub gama_chunk: Option<ScaledFloat>,
- /// The contents of the image's `cHRM` chunk, if present.
- /// Prefer `source_chromaticities` to also get the derived replacements from sRGB chunks.
- pub chrm_chunk: Option<SourceChromaticities>,
-
- pub frame_control: Option<FrameControl>,
- pub animation_control: Option<AnimationControl>,
- pub compression: Compression,
- /// Gamma of the source system.
- /// Set by both `gAMA` as well as to a replacement by `sRGB` chunk.
- pub source_gamma: Option<ScaledFloat>,
- /// Chromaticities of the source system.
- /// Set by both `cHRM` as well as to a replacement by `sRGB` chunk.
- pub source_chromaticities: Option<SourceChromaticities>,
- /// The rendering intent of an SRGB image.
- ///
- /// Presence of this value also indicates that the image conforms to the SRGB color space.
- pub srgb: Option<SrgbRenderingIntent>,
- /// The ICC profile for the image.
- pub icc_profile: Option<Cow<'a, [u8]>>,
- /// tEXt field
- pub uncompressed_latin1_text: Vec<TEXtChunk>,
- /// zTXt field
- pub compressed_latin1_text: Vec<ZTXtChunk>,
- /// iTXt field
- pub utf8_text: Vec<ITXtChunk>,
-}
-
-impl Default for Info<'_> {
- fn default() -> Info<'static> {
- Info {
- width: 0,
- height: 0,
- bit_depth: BitDepth::Eight,
- color_type: ColorType::Grayscale,
- interlaced: false,
- palette: None,
- trns: None,
- gama_chunk: None,
- chrm_chunk: None,
- pixel_dims: None,
- frame_control: None,
- animation_control: None,
- // Default to `deflate::Compression::Fast` and `filter::FilterType::Sub`
- // to maintain backward compatible output.
- compression: Compression::Fast,
- source_gamma: None,
- source_chromaticities: None,
- srgb: None,
- icc_profile: None,
- uncompressed_latin1_text: Vec::new(),
- compressed_latin1_text: Vec::new(),
- utf8_text: Vec::new(),
- }
- }
-}
-
-impl Info<'_> {
- /// A utility constructor for a default info with width and height.
- pub fn with_size(width: u32, height: u32) -> Self {
- Info {
- width,
- height,
- ..Default::default()
- }
- }
-
- /// Size of the image, width then height.
- pub fn size(&self) -> (u32, u32) {
- (self.width, self.height)
- }
-
- /// Returns true if the image is an APNG image.
- pub fn is_animated(&self) -> bool {
- self.frame_control.is_some() && self.animation_control.is_some()
- }
-
- /// Returns the frame control information of the image.
- pub fn animation_control(&self) -> Option<&AnimationControl> {
- self.animation_control.as_ref()
- }
-
- /// Returns the frame control information of the current frame
- pub fn frame_control(&self) -> Option<&FrameControl> {
- self.frame_control.as_ref()
- }
-
- /// Returns the number of bits per pixel.
- pub fn bits_per_pixel(&self) -> usize {
- self.color_type.samples() * self.bit_depth as usize
- }
-
- /// Returns the number of bytes per pixel.
- pub fn bytes_per_pixel(&self) -> usize {
- // If adjusting this for expansion or other transformation passes, remember to keep the old
- // implementation for bpp_in_prediction, which is internal to the png specification.
- self.color_type.samples() * ((self.bit_depth as usize + 7) >> 3)
- }
-
- /// Return the number of bytes for this pixel used in prediction.
- ///
- /// Some filters use prediction, over the raw bytes of a scanline. Where a previous pixel is
- /// require for such forms the specification instead references previous bytes. That is, for
- /// a gray pixel of bit depth 2, the pixel used in prediction is actually 4 pixels prior. This
- /// has the consequence that the number of possible values is rather small. To make this fact
- /// more obvious in the type system and the optimizer we use an explicit enum here.
- pub(crate) fn bpp_in_prediction(&self) -> BytesPerPixel {
- match self.bytes_per_pixel() {
- 1 => BytesPerPixel::One,
- 2 => BytesPerPixel::Two,
- 3 => BytesPerPixel::Three,
- 4 => BytesPerPixel::Four,
- 6 => BytesPerPixel::Six, // Only rgb×16bit
- 8 => BytesPerPixel::Eight, // Only rgba×16bit
- _ => unreachable!("Not a possible byte rounded pixel width"),
- }
- }
-
- /// Returns the number of bytes needed for one deinterlaced image.
- pub fn raw_bytes(&self) -> usize {
- self.height as usize * self.raw_row_length()
- }
-
- /// Returns the number of bytes needed for one deinterlaced row.
- pub fn raw_row_length(&self) -> usize {
- self.raw_row_length_from_width(self.width)
- }
-
- pub(crate) fn checked_raw_row_length(&self) -> Option<usize> {
- self.color_type
- .checked_raw_row_length(self.bit_depth, self.width)
- }
-
- /// Returns the number of bytes needed for one deinterlaced row of width `width`.
- pub fn raw_row_length_from_width(&self, width: u32) -> usize {
- self.color_type
- .raw_row_length_from_width(self.bit_depth, width)
- }
-
- /// Encode this header to the writer.
- ///
- /// Note that this does _not_ include the PNG signature, it starts with the IHDR chunk and then
- /// includes other chunks that were added to the header.
- pub fn encode<W: Write>(&self, mut w: W) -> encoder::Result<()> {
- // Encode the IHDR chunk
- let mut data = [0; 13];
- data[..4].copy_from_slice(&self.width.to_be_bytes());
- data[4..8].copy_from_slice(&self.height.to_be_bytes());
- data[8] = self.bit_depth as u8;
- data[9] = self.color_type as u8;
- data[12] = self.interlaced as u8;
- encoder::write_chunk(&mut w, chunk::IHDR, &data)?;
- // Encode the pHYs chunk
- if let Some(pd) = self.pixel_dims {
- let mut phys_data = [0; 9];
- phys_data[0..4].copy_from_slice(&pd.xppu.to_be_bytes());
- phys_data[4..8].copy_from_slice(&pd.yppu.to_be_bytes());
- match pd.unit {
- Unit::Meter => phys_data[8] = 1,
- Unit::Unspecified => phys_data[8] = 0,
- }
- encoder::write_chunk(&mut w, chunk::pHYs, &phys_data)?;
- }
-
- if let Some(p) = &self.palette {
- encoder::write_chunk(&mut w, chunk::PLTE, p)?;
- };
-
- if let Some(t) = &self.trns {
- encoder::write_chunk(&mut w, chunk::tRNS, t)?;
- }
-
- // If specified, the sRGB information overrides the source gamma and chromaticities.
- if let Some(srgb) = &self.srgb {
- let gamma = crate::srgb::substitute_gamma();
- let chromaticities = crate::srgb::substitute_chromaticities();
- srgb.encode(&mut w)?;
- gamma.encode_gama(&mut w)?;
- chromaticities.encode(&mut w)?;
- } else {
- if let Some(gma) = self.source_gamma {
- gma.encode_gama(&mut w)?
- }
- if let Some(chrms) = self.source_chromaticities {
- chrms.encode(&mut w)?;
- }
- }
- if let Some(actl) = self.animation_control {
- actl.encode(&mut w)?;
- }
-
- for text_chunk in &self.uncompressed_latin1_text {
- text_chunk.encode(&mut w)?;
- }
-
- for text_chunk in &self.compressed_latin1_text {
- text_chunk.encode(&mut w)?;
- }
-
- for text_chunk in &self.utf8_text {
- text_chunk.encode(&mut w)?;
- }
-
- Ok(())
- }
-}
-
-impl BytesPerPixel {
- pub(crate) fn into_usize(self) -> usize {
- self as usize
- }
-}
-
-bitflags! {
- /// Output transformations
- ///
- /// Many flags from libpng are not yet supported. A PR discussing/adding them would be nice.
- ///
- #[doc = "
- ```c
- /// Discard the alpha channel
- const STRIP_ALPHA = 0x0002; // read only
- /// Expand 1; 2 and 4-bit samples to bytes
- const PACKING = 0x0004; // read and write
- /// Change order of packed pixels to LSB first
- const PACKSWAP = 0x0008; // read and write
- /// Invert monochrome images
- const INVERT_MONO = 0x0020; // read and write
- /// Normalize pixels to the sBIT depth
- const SHIFT = 0x0040; // read and write
- /// Flip RGB to BGR; RGBA to BGRA
- const BGR = 0x0080; // read and write
- /// Flip RGBA to ARGB or GA to AG
- const SWAP_ALPHA = 0x0100; // read and write
- /// Byte-swap 16-bit samples
- const SWAP_ENDIAN = 0x0200; // read and write
- /// Change alpha from opacity to transparency
- const INVERT_ALPHA = 0x0400; // read and write
- const STRIP_FILLER = 0x0800; // write only
- const STRIP_FILLER_BEFORE = 0x0800; // write only
- const STRIP_FILLER_AFTER = 0x1000; // write only
- const GRAY_TO_RGB = 0x2000; // read only
- const EXPAND_16 = 0x4000; // read only
- /// Similar to STRIP_16 but in libpng considering gamma?
- /// Not entirely sure the documentation says it is more
- /// accurate but doesn't say precisely how.
- const SCALE_16 = 0x8000; // read only
- ```
- "]
- pub struct Transformations: u32 {
- /// No transformation
- const IDENTITY = 0x00000; // read and write */
- /// Strip 16-bit samples to 8 bits
- const STRIP_16 = 0x00001; // read only */
- /// Expand paletted images to RGB; expand grayscale images of
- /// less than 8-bit depth to 8-bit depth; and expand tRNS chunks
- /// to alpha channels.
- const EXPAND = 0x00010; // read only */
- /// Expand paletted images to include an alpha channel. Implies `EXPAND`.
- const ALPHA = 0x10000; // read only */
- }
-}
-
-impl Transformations {
- /// Transform every input to 8bit grayscale or color.
- ///
- /// This sets `EXPAND` and `STRIP_16` which is similar to the default transformation used by
- /// this library prior to `0.17`.
- pub fn normalize_to_color8() -> Transformations {
- Transformations::EXPAND | Transformations::STRIP_16
- }
-}
-
-/// Instantiate the default transformations, the identity transform.
-impl Default for Transformations {
- fn default() -> Transformations {
- Transformations::IDENTITY
- }
-}
-
-#[derive(Debug)]
-pub struct ParameterError {
- inner: ParameterErrorKind,
-}
-
-#[derive(Debug)]
-pub(crate) enum ParameterErrorKind {
- /// A provided buffer must be have the exact size to hold the image data. Where the buffer can
- /// be allocated by the caller, they must ensure that it has a minimum size as hinted previously.
- /// Even though the size is calculated from image data, this does counts as a parameter error
- /// because they must react to a value produced by this library, which can have been subjected
- /// to limits.
- ImageBufferSize { expected: usize, actual: usize },
- /// A bit like return `None` from an iterator.
- /// We use it to differentiate between failing to seek to the next image in a sequence and the
- /// absence of a next image. This is an error of the caller because they should have checked
- /// the number of images by inspecting the header data returned when opening the image. This
- /// library will perform the checks necessary to ensure that data was accurate or error with a
- /// format error otherwise.
- PolledAfterEndOfImage,
-}
-
-impl From<ParameterErrorKind> for ParameterError {
- fn from(inner: ParameterErrorKind) -> Self {
- ParameterError { inner }
- }
-}
-
-impl fmt::Display for ParameterError {
- fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
- use ParameterErrorKind::*;
- match self.inner {
- ImageBufferSize { expected, actual } => {
- write!(fmt, "wrong data size, expected {} got {}", expected, actual)
- }
- PolledAfterEndOfImage => write!(fmt, "End of image has been reached"),
- }
- }
-}
diff --git a/vendor/png/src/decoder/mod.rs b/vendor/png/src/decoder/mod.rs
deleted file mode 100644
index 09772fe..0000000
--- a/vendor/png/src/decoder/mod.rs
+++ /dev/null
@@ -1,961 +0,0 @@
-mod stream;
-mod zlib;
-
-pub use self::stream::{DecodeOptions, Decoded, DecodingError, StreamingDecoder};
-use self::stream::{FormatErrorInner, CHUNCK_BUFFER_SIZE};
-
-use std::io::{BufRead, BufReader, Read};
-use std::mem;
-use std::ops::Range;
-
-use crate::chunk;
-use crate::common::{
- BitDepth, BytesPerPixel, ColorType, Info, ParameterErrorKind, Transformations,
-};
-use crate::filter::{unfilter, FilterType};
-use crate::utils;
-
-/*
-pub enum InterlaceHandling {
- /// Outputs the raw rows
- RawRows,
- /// Fill missing the pixels from the existing ones
- Rectangle,
- /// Only fill the needed pixels
- Sparkle
-}
-*/
-
-/// Output info.
-///
-/// This describes one particular frame of the image that was written into the output buffer.
-#[derive(Debug, PartialEq, Eq)]
-pub struct OutputInfo {
- /// The pixel width of this frame.
- pub width: u32,
- /// The pixel height of this frame.
- pub height: u32,
- /// The chosen output color type.
- pub color_type: ColorType,
- /// The chosen output bit depth.
- pub bit_depth: BitDepth,
- /// The byte count of each scan line in the image.
- pub line_size: usize,
-}
-
-impl OutputInfo {
- /// Returns the size needed to hold a decoded frame
- /// If the output buffer was larger then bytes after this count should be ignored. They may
- /// still have been changed.
- pub fn buffer_size(&self) -> usize {
- self.line_size * self.height as usize
- }
-}
-
-#[derive(Clone, Copy, Debug)]
-/// Limits on the resources the `Decoder` is allowed too use
-pub struct Limits {
- /// maximum number of bytes the decoder is allowed to allocate, default is 64Mib
- pub bytes: usize,
-}
-
-impl Default for Limits {
- fn default() -> Limits {
- Limits {
- bytes: 1024 * 1024 * 64,
- }
- }
-}
-
-/// PNG Decoder
-pub struct Decoder<R: Read> {
- read_decoder: ReadDecoder<R>,
- /// Output transformations
- transform: Transformations,
- /// Limits on resources the Decoder is allowed to use
- limits: Limits,
-}
-
-/// A row of data with interlace information attached.
-#[derive(Clone, Copy, Debug)]
-pub struct InterlacedRow<'data> {
- data: &'data [u8],
- interlace: InterlaceInfo,
-}
-
-impl<'data> InterlacedRow<'data> {
- pub fn data(&self) -> &'data [u8] {
- self.data
- }
-
- pub fn interlace(&self) -> InterlaceInfo {
- self.interlace
- }
-}
-
-/// PNG (2003) specifies two interlace modes, but reserves future extensions.
-#[derive(Clone, Copy, Debug)]
-pub enum InterlaceInfo {
- /// the null method means no interlacing
- Null,
- /// Adam7 derives its name from doing 7 passes over the image, only decoding a subset of all pixels in each pass.
- /// The following table shows pictorially what parts of each 8x8 area of the image is found in each pass:
- ///
- /// 1 6 4 6 2 6 4 6
- /// 7 7 7 7 7 7 7 7
- /// 5 6 5 6 5 6 5 6
- /// 7 7 7 7 7 7 7 7
- /// 3 6 4 6 3 6 4 6
- /// 7 7 7 7 7 7 7 7
- /// 5 6 5 6 5 6 5 6
- /// 7 7 7 7 7 7 7 7
- Adam7 { pass: u8, line: u32, width: u32 },
-}
-
-/// A row of data without interlace information.
-#[derive(Clone, Copy, Debug)]
-pub struct Row<'data> {
- data: &'data [u8],
-}
-
-impl<'data> Row<'data> {
- pub fn data(&self) -> &'data [u8] {
- self.data
- }
-}
-
-impl<R: Read> Decoder<R> {
- /// Create a new decoder configuration with default limits.
- pub fn new(r: R) -> Decoder<R> {
- Decoder::new_with_limits(r, Limits::default())
- }
-
- /// Create a new decoder configuration with custom limits.
- pub fn new_with_limits(r: R, limits: Limits) -> Decoder<R> {
- Decoder {
- read_decoder: ReadDecoder {
- reader: BufReader::with_capacity(CHUNCK_BUFFER_SIZE, r),
- decoder: StreamingDecoder::new(),
- at_eof: false,
- },
- transform: Transformations::IDENTITY,
- limits,
- }
- }
-
- /// Create a new decoder configuration with custom `DecodeOptions`.
- pub fn new_with_options(r: R, decode_options: DecodeOptions) -> Decoder<R> {
- Decoder {
- read_decoder: ReadDecoder {
- reader: BufReader::with_capacity(CHUNCK_BUFFER_SIZE, r),
- decoder: StreamingDecoder::new_with_options(decode_options),
- at_eof: false,
- },
- transform: Transformations::IDENTITY,
- limits: Limits::default(),
- }
- }
-
- /// Limit resource usage.
- ///
- /// Note that your allocations, e.g. when reading into a pre-allocated buffer, are __NOT__
- /// considered part of the limits. Nevertheless, required intermediate buffers such as for
- /// singular lines is checked against the limit.
- ///
- /// Note that this is a best-effort basis.
- ///
- /// ```
- /// use std::fs::File;
- /// use png::{Decoder, Limits};
- /// // This image is 32×32, 1bit per pixel. The reader buffers one row which requires 4 bytes.
- /// let mut limits = Limits::default();
- /// limits.bytes = 3;
- /// let mut decoder = Decoder::new_with_limits(File::open("tests/pngsuite/basi0g01.png").unwrap(), limits);
- /// assert!(decoder.read_info().is_err());
- ///
- /// // This image is 32x32 pixels, so the decoder will allocate less than 10Kib
- /// let mut limits = Limits::default();
- /// limits.bytes = 10*1024;
- /// let mut decoder = Decoder::new_with_limits(File::open("tests/pngsuite/basi0g01.png").unwrap(), limits);
- /// assert!(decoder.read_info().is_ok());
- /// ```
- pub fn set_limits(&mut self, limits: Limits) {
- self.limits = limits;
- }
-
- /// Read the PNG header and return the information contained within.
- ///
- /// Most image metadata will not be read until `read_info` is called, so those fields will be
- /// None or empty.
- pub fn read_header_info(&mut self) -> Result<&Info, DecodingError> {
- let mut buf = Vec::new();
- while self.read_decoder.info().is_none() {
- buf.clear();
- if self.read_decoder.decode_next(&mut buf)?.is_none() {
- return Err(DecodingError::Format(
- FormatErrorInner::UnexpectedEof.into(),
- ));
- }
- }
- Ok(self.read_decoder.info().unwrap())
- }
-
- /// Reads all meta data until the first IDAT chunk
- pub fn read_info(mut self) -> Result<Reader<R>, DecodingError> {
- self.read_header_info()?;
-
- let mut reader = Reader {
- decoder: self.read_decoder,
- bpp: BytesPerPixel::One,
- subframe: SubframeInfo::not_yet_init(),
- fctl_read: 0,
- next_frame: SubframeIdx::Initial,
- prev: Vec::new(),
- current: Vec::new(),
- scan_start: 0,
- transform: self.transform,
- scratch_buffer: Vec::new(),
- limits: self.limits,
- };
-
- // Check if the decoding buffer of a single raw line has a valid size.
- if reader.info().checked_raw_row_length().is_none() {
- return Err(DecodingError::LimitsExceeded);
- }
-
- // Check if the output buffer has a valid size.
- let (width, height) = reader.info().size();
- let (color, depth) = reader.output_color_type();
- let rowlen = color
- .checked_raw_row_length(depth, width)
- .ok_or(DecodingError::LimitsExceeded)?
- - 1;
- let height: usize =
- std::convert::TryFrom::try_from(height).map_err(|_| DecodingError::LimitsExceeded)?;
- if rowlen.checked_mul(height).is_none() {
- return Err(DecodingError::LimitsExceeded);
- }
-
- reader.read_until_image_data()?;
- Ok(reader)
- }
-
- /// Set the allowed and performed transformations.
- ///
- /// A transformation is a pre-processing on the raw image data modifying content or encoding.
- /// Many options have an impact on memory or CPU usage during decoding.
- pub fn set_transformations(&mut self, transform: Transformations) {
- self.transform = transform;
- }
-
- /// Set the decoder to ignore all text chunks while parsing.
- ///
- /// eg.
- /// ```
- /// use std::fs::File;
- /// use png::Decoder;
- /// let mut decoder = Decoder::new(File::open("tests/pngsuite/basi0g01.png").unwrap());
- /// decoder.set_ignore_text_chunk(true);
- /// assert!(decoder.read_info().is_ok());
- /// ```
- pub fn set_ignore_text_chunk(&mut self, ignore_text_chunk: bool) {
- self.read_decoder
- .decoder
- .set_ignore_text_chunk(ignore_text_chunk);
- }
-
- /// Set the decoder to ignore and not verify the Adler-32 checksum
- /// and CRC code.
- pub fn ignore_checksums(&mut self, ignore_checksums: bool) {
- self.read_decoder
- .decoder
- .set_ignore_adler32(ignore_checksums);
- self.read_decoder.decoder.set_ignore_crc(ignore_checksums);
- }
-}
-
-struct ReadDecoder<R: Read> {
- reader: BufReader<R>,
- decoder: StreamingDecoder,
- at_eof: bool,
-}
-
-impl<R: Read> ReadDecoder<R> {
- /// Returns the next decoded chunk. If the chunk is an ImageData chunk, its contents are written
- /// into image_data.
- fn decode_next(&mut self, image_data: &mut Vec<u8>) -> Result<Option<Decoded>, DecodingError> {
- while !self.at_eof {
- let (consumed, result) = {
- let buf = self.reader.fill_buf()?;
- if buf.is_empty() {
- return Err(DecodingError::Format(
- FormatErrorInner::UnexpectedEof.into(),
- ));
- }
- self.decoder.update(buf, image_data)?
- };
- self.reader.consume(consumed);
- match result {
- Decoded::Nothing => (),
- Decoded::ImageEnd => self.at_eof = true,
- result => return Ok(Some(result)),
- }
- }
- Ok(None)
- }
-
- fn finish_decoding(&mut self) -> Result<(), DecodingError> {
- while !self.at_eof {
- let buf = self.reader.fill_buf()?;
- if buf.is_empty() {
- return Err(DecodingError::Format(
- FormatErrorInner::UnexpectedEof.into(),
- ));
- }
- let (consumed, event) = self.decoder.update(buf, &mut vec![])?;
- self.reader.consume(consumed);
- match event {
- Decoded::Nothing => (),
- Decoded::ImageEnd => self.at_eof = true,
- // ignore more data
- Decoded::ChunkComplete(_, _) | Decoded::ChunkBegin(_, _) | Decoded::ImageData => {}
- Decoded::ImageDataFlushed => return Ok(()),
- Decoded::PartialChunk(_) => {}
- new => unreachable!("{:?}", new),
- }
- }
-
- Err(DecodingError::Format(
- FormatErrorInner::UnexpectedEof.into(),
- ))
- }
-
- fn info(&self) -> Option<&Info> {
- self.decoder.info.as_ref()
- }
-}
-
-/// PNG reader (mostly high-level interface)
-///
-/// Provides a high level that iterates over lines or whole images.
-pub struct Reader<R: Read> {
- decoder: ReadDecoder<R>,
- bpp: BytesPerPixel,
- subframe: SubframeInfo,
- /// Number of frame control chunks read.
- /// By the APNG specification the total number must equal the count specified in the animation
- /// control chunk. The IDAT image _may_ have such a chunk applying to it.
- fctl_read: u32,
- next_frame: SubframeIdx,
- /// Previous raw line
- prev: Vec<u8>,
- /// Current raw line
- current: Vec<u8>,
- /// Start index of the current scan line.
- scan_start: usize,
- /// Output transformations
- transform: Transformations,
- /// This buffer is only used so that `next_row` and `next_interlaced_row` can return reference
- /// to a byte slice. In a future version of this library, this buffer will be removed and
- /// `next_row` and `next_interlaced_row` will write directly into a user provided output buffer.
- scratch_buffer: Vec<u8>,
- /// How resources we can spend (for example, on allocation).
- limits: Limits,
-}
-
-/// The subframe specific information.
-///
-/// In APNG the frames are constructed by combining previous frame and a new subframe (through a
-/// combination of `dispose_op` and `overlay_op`). These sub frames specify individual dimension
-/// information and reuse the global interlace options. This struct encapsulates the state of where
-/// in a particular IDAT-frame or subframe we are.
-struct SubframeInfo {
- width: u32,
- height: u32,
- rowlen: usize,
- interlace: InterlaceIter,
- consumed_and_flushed: bool,
-}
-
-#[derive(Clone)]
-enum InterlaceIter {
- None(Range<u32>),
- Adam7(utils::Adam7Iterator),
-}
-
-/// Denote a frame as given by sequence numbers.
-#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord)]
-enum SubframeIdx {
- /// The initial frame in an IDAT chunk without fcTL chunk applying to it.
- /// Note that this variant precedes `Some` as IDAT frames precede fdAT frames and all fdAT
- /// frames must have a fcTL applying to it.
- Initial,
- /// An IDAT frame with fcTL or an fdAT frame.
- Some(u32),
- /// The past-the-end index.
- End,
-}
-
-impl<R: Read> Reader<R> {
- /// Reads all meta data until the next frame data starts.
- /// Requires IHDR before the IDAT and fcTL before fdAT.
- fn read_until_image_data(&mut self) -> Result<(), DecodingError> {
- loop {
- // This is somewhat ugly. The API requires us to pass a buffer to decode_next but we
- // know that we will stop before reading any image data from the stream. Thus pass an
- // empty buffer and assert that remains empty.
- let mut buf = Vec::new();
- let state = self.decoder.decode_next(&mut buf)?;
- assert!(buf.is_empty());
-
- match state {
- Some(Decoded::ChunkBegin(_, chunk::IDAT))
- | Some(Decoded::ChunkBegin(_, chunk::fdAT)) => break,
- Some(Decoded::FrameControl(_)) => {
- self.subframe = SubframeInfo::new(self.info());
- // The next frame is the one to which this chunk applies.
- self.next_frame = SubframeIdx::Some(self.fctl_read);
- // TODO: what about overflow here? That would imply there are more fctl chunks
- // than can be specified in the animation control but also that we have read
- // several gigabytes of data.
- self.fctl_read += 1;
- }
- None => {
- return Err(DecodingError::Format(
- FormatErrorInner::MissingImageData.into(),
- ))
- }
- // Ignore all other chunk events. Any other chunk may be between IDAT chunks, fdAT
- // chunks and their control chunks.
- _ => {}
- }
- }
-
- let info = self
- .decoder
- .info()
- .ok_or(DecodingError::Format(FormatErrorInner::MissingIhdr.into()))?;
- self.bpp = info.bpp_in_prediction();
- self.subframe = SubframeInfo::new(info);
-
- // Allocate output buffer.
- let buflen = self.output_line_size(self.subframe.width);
- if buflen > self.limits.bytes {
- return Err(DecodingError::LimitsExceeded);
- }
-
- self.prev.clear();
- self.prev.resize(self.subframe.rowlen, 0);
-
- Ok(())
- }
-
- /// Get information on the image.
- ///
- /// The structure will change as new frames of an animated image are decoded.
- pub fn info(&self) -> &Info {
- self.decoder.info().unwrap()
- }
-
- /// Decodes the next frame into `buf`.
- ///
- /// Note that this decodes raw subframes that need to be mixed according to blend-op and
- /// dispose-op by the caller.
- ///
- /// The caller must always provide a buffer large enough to hold a complete frame (the APNG
- /// specification restricts subframes to the dimensions given in the image header). The region
- /// that has been written be checked afterwards by calling `info` after a successful call and
- /// inspecting the `frame_control` data. This requirement may be lifted in a later version of
- /// `png`.
- ///
- /// Output lines will be written in row-major, packed matrix with width and height of the read
- /// frame (or subframe), all samples are in big endian byte order where this matters.
- pub fn next_frame(&mut self, buf: &mut [u8]) -> Result<OutputInfo, DecodingError> {
- let subframe_idx = match self.decoder.info().unwrap().frame_control() {
- None => SubframeIdx::Initial,
- Some(_) => SubframeIdx::Some(self.fctl_read - 1),
- };
-
- if self.next_frame == SubframeIdx::End {
- return Err(DecodingError::Parameter(
- ParameterErrorKind::PolledAfterEndOfImage.into(),
- ));
- } else if self.next_frame != subframe_idx {
- // Advance until we've read the info / fcTL for this frame.
- self.read_until_image_data()?;
- }
-
- if buf.len() < self.output_buffer_size() {
- return Err(DecodingError::Parameter(
- ParameterErrorKind::ImageBufferSize {
- expected: buf.len(),
- actual: self.output_buffer_size(),
- }
- .into(),
- ));
- }
-
- let (color_type, bit_depth) = self.output_color_type();
- let output_info = OutputInfo {
- width: self.subframe.width,
- height: self.subframe.height,
- color_type,
- bit_depth,
- line_size: self.output_line_size(self.subframe.width),
- };
-
- self.current.clear();
- self.scan_start = 0;
- let width = self.info().width;
- if self.info().interlaced {
- while let Some(InterlacedRow {
- data: row,
- interlace,
- ..
- }) = self.next_interlaced_row()?
- {
- let (line, pass) = match interlace {
- InterlaceInfo::Adam7 { line, pass, .. } => (line, pass),
- InterlaceInfo::Null => unreachable!("expected interlace information"),
- };
- let samples = color_type.samples() as u8;
- utils::expand_pass(buf, width, row, pass, line, samples * (bit_depth as u8));
- }
- } else {
- for row in buf
- .chunks_exact_mut(output_info.line_size)
- .take(self.subframe.height as usize)
- {
- self.next_interlaced_row_impl(self.subframe.rowlen, row)?;
- }
- }
-
- // Advance over the rest of data for this (sub-)frame.
- if !self.subframe.consumed_and_flushed {
- self.decoder.finish_decoding()?;
- }
-
- // Advance our state to expect the next frame.
- let past_end_subframe = self
- .info()
- .animation_control()
- .map(|ac| ac.num_frames)
- .unwrap_or(0);
- self.next_frame = match self.next_frame {
- SubframeIdx::End => unreachable!("Next frame called when already at image end"),
- // Reached the end of non-animated image.
- SubframeIdx::Initial if past_end_subframe == 0 => SubframeIdx::End,
- // An animated image, expecting first subframe.
- SubframeIdx::Initial => SubframeIdx::Some(0),
- // This was the last subframe, slightly fuzzy condition in case of programmer error.
- SubframeIdx::Some(idx) if past_end_subframe <= idx + 1 => SubframeIdx::End,
- // Expecting next subframe.
- SubframeIdx::Some(idx) => SubframeIdx::Some(idx + 1),
- };
-
- Ok(output_info)
- }
-
- /// Returns the next processed row of the image
- pub fn next_row(&mut self) -> Result<Option<Row>, DecodingError> {
- self.next_interlaced_row()
- .map(|v| v.map(|v| Row { data: v.data }))
- }
-
- /// Returns the next processed row of the image
- pub fn next_interlaced_row(&mut self) -> Result<Option<InterlacedRow>, DecodingError> {
- let (rowlen, interlace) = match self.next_pass() {
- Some((rowlen, interlace)) => (rowlen, interlace),
- None => return Ok(None),
- };
-
- let width = if let InterlaceInfo::Adam7 { width, .. } = interlace {
- width
- } else {
- self.subframe.width
- };
- let output_line_size = self.output_line_size(width);
-
- // TODO: change the interface of `next_interlaced_row` to take an output buffer instead of
- // making us return a reference to a buffer that we own.
- let mut output_buffer = mem::take(&mut self.scratch_buffer);
- output_buffer.resize(output_line_size, 0u8);
- let ret = self.next_interlaced_row_impl(rowlen, &mut output_buffer);
- self.scratch_buffer = output_buffer;
- ret?;
-
- Ok(Some(InterlacedRow {
- data: &self.scratch_buffer[..output_line_size],
- interlace,
- }))
- }
-
- /// Fetch the next interlaced row and filter it according to our own transformations.
- fn next_interlaced_row_impl(
- &mut self,
- rowlen: usize,
- output_buffer: &mut [u8],
- ) -> Result<(), DecodingError> {
- self.next_raw_interlaced_row(rowlen)?;
- let row = &self.prev[1..rowlen];
-
- // Apply transformations and write resulting data to buffer.
- let (color_type, bit_depth, trns) = {
- let info = self.info();
- (
- info.color_type,
- info.bit_depth as u8,
- info.trns.is_some() || self.transform.contains(Transformations::ALPHA),
- )
- };
- let expand = self.transform.contains(Transformations::EXPAND)
- || self.transform.contains(Transformations::ALPHA);
- let strip16 = bit_depth == 16 && self.transform.contains(Transformations::STRIP_16);
- let info = self.decoder.info().unwrap();
- let trns = if trns {
- Some(info.trns.as_deref())
- } else {
- None
- };
- match (color_type, trns) {
- (ColorType::Indexed, _) if expand => {
- output_buffer[..row.len()].copy_from_slice(row);
- expand_paletted(output_buffer, info, trns)?;
- }
- (ColorType::Grayscale | ColorType::GrayscaleAlpha, _) if bit_depth < 8 && expand => {
- output_buffer[..row.len()].copy_from_slice(row);
- expand_gray_u8(output_buffer, info, trns)
- }
- (ColorType::Grayscale | ColorType::Rgb, Some(trns)) if expand => {
- let channels = color_type.samples();
- if bit_depth == 8 {
- utils::expand_trns_line(row, output_buffer, trns, channels);
- } else if strip16 {
- utils::expand_trns_and_strip_line16(row, output_buffer, trns, channels);
- } else {
- assert_eq!(bit_depth, 16);
- utils::expand_trns_line16(row, output_buffer, trns, channels);
- }
- }
- (
- ColorType::Grayscale | ColorType::GrayscaleAlpha | ColorType::Rgb | ColorType::Rgba,
- _,
- ) if strip16 => {
- for i in 0..row.len() / 2 {
- output_buffer[i] = row[2 * i];
- }
- }
- _ => output_buffer.copy_from_slice(row),
- }
-
- Ok(())
- }
-
- /// Returns the color type and the number of bits per sample
- /// of the data returned by `Reader::next_row` and Reader::frames`.
- pub fn output_color_type(&self) -> (ColorType, BitDepth) {
- use crate::common::ColorType::*;
- let t = self.transform;
- let info = self.info();
- if t == Transformations::IDENTITY {
- (info.color_type, info.bit_depth)
- } else {
- let bits = match info.bit_depth as u8 {
- 16 if t.intersects(Transformations::STRIP_16) => 8,
- n if n < 8
- && (t.contains(Transformations::EXPAND)
- || t.contains(Transformations::ALPHA)) =>
- {
- 8
- }
- n => n,
- };
- let color_type =
- if t.contains(Transformations::EXPAND) || t.contains(Transformations::ALPHA) {
- let has_trns = info.trns.is_some() || t.contains(Transformations::ALPHA);
- match info.color_type {
- Grayscale if has_trns => GrayscaleAlpha,
- Rgb if has_trns => Rgba,
- Indexed if has_trns => Rgba,
- Indexed => Rgb,
- ct => ct,
- }
- } else {
- info.color_type
- };
- (color_type, BitDepth::from_u8(bits).unwrap())
- }
- }
-
- /// Returns the number of bytes required to hold a deinterlaced image frame
- /// that is decoded using the given input transformations.
- pub fn output_buffer_size(&self) -> usize {
- let (width, height) = self.info().size();
- let size = self.output_line_size(width);
- size * height as usize
- }
-
- /// Returns the number of bytes required to hold a deinterlaced row.
- pub fn output_line_size(&self, width: u32) -> usize {
- let (color, depth) = self.output_color_type();
- color.raw_row_length_from_width(depth, width) - 1
- }
-
- fn next_pass(&mut self) -> Option<(usize, InterlaceInfo)> {
- match self.subframe.interlace {
- InterlaceIter::Adam7(ref mut adam7) => {
- let last_pass = adam7.current_pass();
- let (pass, line, width) = adam7.next()?;
- let rowlen = self.info().raw_row_length_from_width(width);
- if last_pass != pass {
- self.prev.clear();
- self.prev.resize(rowlen, 0u8);
- }
- Some((rowlen, InterlaceInfo::Adam7 { pass, line, width }))
- }
- InterlaceIter::None(ref mut height) => {
- let _ = height.next()?;
- Some((self.subframe.rowlen, InterlaceInfo::Null))
- }
- }
- }
-
- /// Write the next raw interlaced row into `self.prev`.
- ///
- /// The scanline is filtered against the previous scanline according to the specification.
- fn next_raw_interlaced_row(&mut self, rowlen: usize) -> Result<(), DecodingError> {
- // Read image data until we have at least one full row (but possibly more than one).
- while self.current.len() - self.scan_start < rowlen {
- if self.subframe.consumed_and_flushed {
- return Err(DecodingError::Format(
- FormatErrorInner::NoMoreImageData.into(),
- ));
- }
-
- // Clear the current buffer before appending more data.
- if self.scan_start > 0 {
- self.current.drain(..self.scan_start).for_each(drop);
- self.scan_start = 0;
- }
-
- match self.decoder.decode_next(&mut self.current)? {
- Some(Decoded::ImageData) => {}
- Some(Decoded::ImageDataFlushed) => {
- self.subframe.consumed_and_flushed = true;
- }
- None => {
- return Err(DecodingError::Format(
- if self.current.is_empty() {
- FormatErrorInner::NoMoreImageData
- } else {
- FormatErrorInner::UnexpectedEndOfChunk
- }
- .into(),
- ));
- }
- _ => (),
- }
- }
-
- // Get a reference to the current row and point scan_start to the next one.
- let row = &mut self.current[self.scan_start..];
- self.scan_start += rowlen;
-
- // Unfilter the row.
- let filter = FilterType::from_u8(row[0]).ok_or(DecodingError::Format(
- FormatErrorInner::UnknownFilterMethod(row[0]).into(),
- ))?;
- unfilter(filter, self.bpp, &self.prev[1..rowlen], &mut row[1..rowlen]);
-
- // Save the current row for the next pass.
- self.prev[..rowlen].copy_from_slice(&row[..rowlen]);
-
- Ok(())
- }
-}
-
-impl SubframeInfo {
- fn not_yet_init() -> Self {
- SubframeInfo {
- width: 0,
- height: 0,
- rowlen: 0,
- interlace: InterlaceIter::None(0..0),
- consumed_and_flushed: false,
- }
- }
-
- fn new(info: &Info) -> Self {
- // The apng fctnl overrides width and height.
- // All other data is set by the main info struct.
- let (width, height) = if let Some(fc) = info.frame_control {
- (fc.width, fc.height)
- } else {
- (info.width, info.height)
- };
-
- let interlace = if info.interlaced {
- InterlaceIter::Adam7(utils::Adam7Iterator::new(width, height))
- } else {
- InterlaceIter::None(0..height)
- };
-
- SubframeInfo {
- width,
- height,
- rowlen: info.raw_row_length_from_width(width),
- interlace,
- consumed_and_flushed: false,
- }
- }
-}
-
-fn expand_paletted(
- buffer: &mut [u8],
- info: &Info,
- trns: Option<Option<&[u8]>>,
-) -> Result<(), DecodingError> {
- if let Some(palette) = info.palette.as_ref() {
- if let BitDepth::Sixteen = info.bit_depth {
- // This should have been caught earlier but let's check again. Can't hurt.
- Err(DecodingError::Format(
- FormatErrorInner::InvalidColorBitDepth {
- color_type: ColorType::Indexed,
- bit_depth: BitDepth::Sixteen,
- }
- .into(),
- ))
- } else {
- let black = [0, 0, 0];
- if let Some(trns) = trns {
- let trns = trns.unwrap_or(&[]);
- // > The tRNS chunk shall not contain more alpha values than there are palette
- // entries, but a tRNS chunk may contain fewer values than there are palette
- // entries. In this case, the alpha value for all remaining palette entries is
- // assumed to be 255.
- //
- // It seems, accepted reading is to fully *ignore* an invalid tRNS as if it were
- // completely empty / all pixels are non-transparent.
- let trns = if trns.len() <= palette.len() / 3 {
- trns
- } else {
- &[]
- };
-
- utils::unpack_bits(buffer, 4, info.bit_depth as u8, |i, chunk| {
- let (rgb, a) = (
- palette
- .get(3 * i as usize..3 * i as usize + 3)
- .unwrap_or(&black),
- *trns.get(i as usize).unwrap_or(&0xFF),
- );
- chunk[0] = rgb[0];
- chunk[1] = rgb[1];
- chunk[2] = rgb[2];
- chunk[3] = a;
- });
- } else {
- utils::unpack_bits(buffer, 3, info.bit_depth as u8, |i, chunk| {
- let rgb = palette
- .get(3 * i as usize..3 * i as usize + 3)
- .unwrap_or(&black);
- chunk[0] = rgb[0];
- chunk[1] = rgb[1];
- chunk[2] = rgb[2];
- })
- }
- Ok(())
- }
- } else {
- Err(DecodingError::Format(
- FormatErrorInner::PaletteRequired.into(),
- ))
- }
-}
-
-fn expand_gray_u8(buffer: &mut [u8], info: &Info, trns: Option<Option<&[u8]>>) {
- let rescale = true;
- let scaling_factor = if rescale {
- (255) / ((1u16 << info.bit_depth as u8) - 1) as u8
- } else {
- 1
- };
- if let Some(trns) = trns {
- utils::unpack_bits(buffer, 2, info.bit_depth as u8, |pixel, chunk| {
- chunk[1] = if let Some(trns) = trns {
- if pixel == trns[0] {
- 0
- } else {
- 0xFF
- }
- } else {
- 0xFF
- };
- chunk[0] = pixel * scaling_factor
- })
- } else {
- utils::unpack_bits(buffer, 1, info.bit_depth as u8, |val, chunk| {
- chunk[0] = val * scaling_factor
- })
- }
-}
-
-#[cfg(test)]
-mod tests {
- use super::Decoder;
- use std::io::{BufRead, Read, Result};
- use std::mem::discriminant;
-
- /// A reader that reads at most `n` bytes.
- struct SmalBuf<R: BufRead> {
- inner: R,
- cap: usize,
- }
-
- impl<R: BufRead> SmalBuf<R> {
- fn new(inner: R, cap: usize) -> Self {
- SmalBuf { inner, cap }
- }
- }
-
- impl<R: BufRead> Read for SmalBuf<R> {
- fn read(&mut self, buf: &mut [u8]) -> Result<usize> {
- let len = buf.len().min(self.cap);
- self.inner.read(&mut buf[..len])
- }
- }
-
- impl<R: BufRead> BufRead for SmalBuf<R> {
- fn fill_buf(&mut self) -> Result<&[u8]> {
- let buf = self.inner.fill_buf()?;
- let len = buf.len().min(self.cap);
- Ok(&buf[..len])
- }
-
- fn consume(&mut self, amt: usize) {
- assert!(amt <= self.cap);
- self.inner.consume(amt)
- }
- }
-
- #[test]
- fn no_data_dup_on_finish() {
- const IMG: &[u8] = include_bytes!(concat!(
- env!("CARGO_MANIFEST_DIR"),
- "/tests/bugfixes/x_issue#214.png"
- ));
-
- let mut normal = Decoder::new(IMG).read_info().unwrap();
-
- let mut buffer = vec![0; normal.output_buffer_size()];
- let normal = normal.next_frame(&mut buffer).unwrap_err();
-
- let smal = Decoder::new(SmalBuf::new(IMG, 1))
- .read_info()
- .unwrap()
- .next_frame(&mut buffer)
- .unwrap_err();
-
- assert_eq!(discriminant(&normal), discriminant(&smal));
- }
-}
diff --git a/vendor/png/src/decoder/stream.rs b/vendor/png/src/decoder/stream.rs
deleted file mode 100644
index f5df6e9..0000000
--- a/vendor/png/src/decoder/stream.rs
+++ /dev/null
@@ -1,1576 +0,0 @@
-extern crate crc32fast;
-
-use std::convert::From;
-use std::default::Default;
-use std::error;
-use std::fmt;
-use std::io;
-use std::{borrow::Cow, cmp::min};
-
-use crc32fast::Hasher as Crc32;
-
-use super::zlib::ZlibStream;
-use crate::chunk::{self, ChunkType, IDAT, IEND, IHDR};
-use crate::common::{
- AnimationControl, BitDepth, BlendOp, ColorType, DisposeOp, FrameControl, Info, ParameterError,
- PixelDimensions, ScaledFloat, SourceChromaticities, Unit,
-};
-use crate::text_metadata::{ITXtChunk, TEXtChunk, TextDecodingError, ZTXtChunk};
-use crate::traits::ReadBytesExt;
-
-/// TODO check if these size are reasonable
-pub const CHUNCK_BUFFER_SIZE: usize = 32 * 1024;
-
-/// Determines if checksum checks should be disabled globally.
-///
-/// This is used only in fuzzing. `afl` automatically adds `--cfg fuzzing` to RUSTFLAGS which can
-/// be used to detect that build.
-const CHECKSUM_DISABLED: bool = cfg!(fuzzing);
-
-#[derive(Debug)]
-enum U32Value {
- // CHUNKS
- Length,
- Type(u32),
- Crc(ChunkType),
-}
-
-#[derive(Debug)]
-enum State {
- Signature(u8, [u8; 7]),
- U32Byte3(U32Value, u32),
- U32Byte2(U32Value, u32),
- U32Byte1(U32Value, u32),
- U32(U32Value),
- ReadChunk(ChunkType),
- PartialChunk(ChunkType),
- DecodeData(ChunkType, usize),
-}
-
-#[derive(Debug)]
-/// Result of the decoding process
-pub enum Decoded {
- /// Nothing decoded yet
- Nothing,
- Header(u32, u32, BitDepth, ColorType, bool),
- ChunkBegin(u32, ChunkType),
- ChunkComplete(u32, ChunkType),
- PixelDimensions(PixelDimensions),
- AnimationControl(AnimationControl),
- FrameControl(FrameControl),
- /// Decoded raw image data.
- ImageData,
- /// The last of a consecutive chunk of IDAT was done.
- /// This is distinct from ChunkComplete which only marks that some IDAT chunk was completed but
- /// not that no additional IDAT chunk follows.
- ImageDataFlushed,
- PartialChunk(ChunkType),
- ImageEnd,
-}
-
-/// Any kind of error during PNG decoding.
-///
-/// This enumeration provides a very rough analysis on the origin of the failure. That is, each
-/// variant corresponds to one kind of actor causing the error. It should not be understood as a
-/// direct blame but can inform the search for a root cause or if such a search is required.
-#[derive(Debug)]
-pub enum DecodingError {
- /// An error in IO of the underlying reader.
- IoError(io::Error),
- /// The input image was not a valid PNG.
- ///
- /// There isn't a lot that can be done here, except if the program itself was responsible for
- /// creating this image then investigate the generator. This is internally implemented with a
- /// large Enum. If You are interested in accessing some of the more exact information on the
- /// variant then we can discuss in an issue.
- Format(FormatError),
- /// An interface was used incorrectly.
- ///
- /// This is used in cases where it's expected that the programmer might trip up and stability
- /// could be affected. For example when:
- ///
- /// * The decoder is polled for more animation frames despite being done (or not being animated
- /// in the first place).
- /// * The output buffer does not have the required size.
- ///
- /// As a rough guideline for introducing new variants parts of the requirements are dynamically
- /// derived from the (untrusted) input data while the other half is from the caller. In the
- /// above cases the number of frames respectively the size is determined by the file while the
- /// number of calls
- ///
- /// If you're an application you might want to signal that a bug report is appreciated.
- Parameter(ParameterError),
- /// The image would have required exceeding the limits configured with the decoder.
- ///
- /// Note that Your allocations, e.g. when reading into a pre-allocated buffer, is __NOT__
- /// considered part of the limits. Nevertheless, required intermediate buffers such as for
- /// singular lines is checked against the limit.
- ///
- /// Note that this is a best-effort basis.
- LimitsExceeded,
-}
-
-#[derive(Debug)]
-pub struct FormatError {
- inner: FormatErrorInner,
-}
-
-#[derive(Debug)]
-pub(crate) enum FormatErrorInner {
- /// Bad framing.
- CrcMismatch {
- /// Stored CRC32 value
- crc_val: u32,
- /// Calculated CRC32 sum
- crc_sum: u32,
- /// The chunk type that has the CRC mismatch.
- chunk: ChunkType,
- },
- /// Not a PNG, the magic signature is missing.
- InvalidSignature,
- /// End of file, within a chunk event.
- UnexpectedEof,
- /// End of file, while expecting more image data.
- UnexpectedEndOfChunk,
- // Errors of chunk level ordering, missing etc.
- /// Ihdr must occur.
- MissingIhdr,
- /// Fctl must occur if an animated chunk occurs.
- MissingFctl,
- /// Image data that was indicated in IHDR or acTL is missing.
- MissingImageData,
- /// 4.3., Must be first.
- ChunkBeforeIhdr {
- kind: ChunkType,
- },
- /// 4.3., some chunks must be before IDAT.
- AfterIdat {
- kind: ChunkType,
- },
- /// 4.3., some chunks must be before PLTE.
- AfterPlte {
- kind: ChunkType,
- },
- /// 4.3., some chunks must be between PLTE and IDAT.
- OutsidePlteIdat {
- kind: ChunkType,
- },
- /// 4.3., some chunks must be unique.
- DuplicateChunk {
- kind: ChunkType,
- },
- /// Specifically for fdat there is an embedded sequence number for chunks.
- ApngOrder {
- /// The sequence number in the chunk.
- present: u32,
- /// The one that should have been present.
- expected: u32,
- },
- // Errors specific to particular chunk data to be validated.
- /// The palette did not even contain a single pixel data.
- ShortPalette {
- expected: usize,
- len: usize,
- },
- /// A palletized image did not have a palette.
- PaletteRequired,
- /// The color-depth combination is not valid according to Table 11.1.
- InvalidColorBitDepth {
- color_type: ColorType,
- bit_depth: BitDepth,
- },
- ColorWithBadTrns(ColorType),
- InvalidBitDepth(u8),
- InvalidColorType(u8),
- InvalidDisposeOp(u8),
- InvalidBlendOp(u8),
- InvalidUnit(u8),
- /// The rendering intent of the sRGB chunk is invalid.
- InvalidSrgbRenderingIntent(u8),
- UnknownCompressionMethod(u8),
- UnknownFilterMethod(u8),
- UnknownInterlaceMethod(u8),
- /// The subframe is not in bounds of the image.
- /// TODO: fields with relevant data.
- BadSubFrameBounds {},
- // Errors specific to the IDAT/fDAT chunks.
- /// The compression of the data stream was faulty.
- CorruptFlateStream {
- err: fdeflate::DecompressionError,
- },
- /// The image data chunk was too short for the expected pixel count.
- NoMoreImageData,
- /// Bad text encoding
- BadTextEncoding(TextDecodingError),
-}
-
-impl error::Error for DecodingError {
- fn cause(&self) -> Option<&(dyn error::Error + 'static)> {
- match self {
- DecodingError::IoError(err) => Some(err),
- _ => None,
- }
- }
-}
-
-impl fmt::Display for DecodingError {
- fn fmt(&self, fmt: &mut fmt::Formatter) -> Result<(), fmt::Error> {
- use self::DecodingError::*;
- match self {
- IoError(err) => write!(fmt, "{}", err),
- Parameter(desc) => write!(fmt, "{}", &desc),
- Format(desc) => write!(fmt, "{}", desc),
- LimitsExceeded => write!(fmt, "limits are exceeded"),
- }
- }
-}
-
-impl fmt::Display for FormatError {
- fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
- use FormatErrorInner::*;
- match &self.inner {
- CrcMismatch {
- crc_val,
- crc_sum,
- chunk,
- ..
- } => write!(
- fmt,
- "CRC error: expected 0x{:x} have 0x{:x} while decoding {:?} chunk.",
- crc_val, crc_sum, chunk
- ),
- MissingIhdr => write!(fmt, "IHDR chunk missing"),
- MissingFctl => write!(fmt, "fcTL chunk missing before fdAT chunk."),
- MissingImageData => write!(fmt, "IDAT or fDAT chunk is missing."),
- ChunkBeforeIhdr { kind } => write!(fmt, "{:?} chunk appeared before IHDR chunk", kind),
- AfterIdat { kind } => write!(fmt, "Chunk {:?} is invalid after IDAT chunk.", kind),
- AfterPlte { kind } => write!(fmt, "Chunk {:?} is invalid after PLTE chunk.", kind),
- OutsidePlteIdat { kind } => write!(
- fmt,
- "Chunk {:?} must appear between PLTE and IDAT chunks.",
- kind
- ),
- DuplicateChunk { kind } => write!(fmt, "Chunk {:?} must appear at most once.", kind),
- ApngOrder { present, expected } => write!(
- fmt,
- "Sequence is not in order, expected #{} got #{}.",
- expected, present,
- ),
- ShortPalette { expected, len } => write!(
- fmt,
- "Not enough palette entries, expect {} got {}.",
- expected, len
- ),
- PaletteRequired => write!(fmt, "Missing palette of indexed image."),
- InvalidColorBitDepth {
- color_type,
- bit_depth,
- } => write!(
- fmt,
- "Invalid color/depth combination in header: {:?}/{:?}",
- color_type, bit_depth,
- ),
- ColorWithBadTrns(color_type) => write!(
- fmt,
- "Transparency chunk found for color type {:?}.",
- color_type
- ),
- InvalidBitDepth(nr) => write!(fmt, "Invalid dispose operation {}.", nr),
- InvalidColorType(nr) => write!(fmt, "Invalid color type {}.", nr),
- InvalidDisposeOp(nr) => write!(fmt, "Invalid dispose op {}.", nr),
- InvalidBlendOp(nr) => write!(fmt, "Invalid blend op {}.", nr),
- InvalidUnit(nr) => write!(fmt, "Invalid physical pixel size unit {}.", nr),
- InvalidSrgbRenderingIntent(nr) => write!(fmt, "Invalid sRGB rendering intent {}.", nr),
- UnknownCompressionMethod(nr) => write!(fmt, "Unknown compression method {}.", nr),
- UnknownFilterMethod(nr) => write!(fmt, "Unknown filter method {}.", nr),
- UnknownInterlaceMethod(nr) => write!(fmt, "Unknown interlace method {}.", nr),
- BadSubFrameBounds {} => write!(fmt, "Sub frame is out-of-bounds."),
- InvalidSignature => write!(fmt, "Invalid PNG signature."),
- UnexpectedEof => write!(fmt, "Unexpected end of data before image end."),
- UnexpectedEndOfChunk => write!(fmt, "Unexpected end of data within a chunk."),
- NoMoreImageData => write!(fmt, "IDAT or fDAT chunk is has not enough data for image."),
- CorruptFlateStream { err } => {
- write!(fmt, "Corrupt deflate stream. ")?;
- write!(fmt, "{:?}", err)
- }
- // TODO: Wrap more info in the enum variant
- BadTextEncoding(tde) => {
- match tde {
- TextDecodingError::Unrepresentable => {
- write!(fmt, "Unrepresentable data in tEXt chunk.")
- }
- TextDecodingError::InvalidKeywordSize => {
- write!(fmt, "Keyword empty or longer than 79 bytes.")
- }
- TextDecodingError::MissingNullSeparator => {
- write!(fmt, "No null separator in tEXt chunk.")
- }
- TextDecodingError::InflationError => {
- write!(fmt, "Invalid compressed text data.")
- }
- TextDecodingError::OutOfDecompressionSpace => {
- write!(fmt, "Out of decompression space. Try with a larger limit.")
- }
- TextDecodingError::InvalidCompressionMethod => {
- write!(fmt, "Using an unrecognized byte as compression method.")
- }
- TextDecodingError::InvalidCompressionFlag => {
- write!(fmt, "Using a flag that is not 0 or 255 as a compression flag for iTXt chunk.")
- }
- TextDecodingError::MissingCompressionFlag => {
- write!(fmt, "No compression flag in the iTXt chunk.")
- }
- }
- }
- }
- }
-}
-
-impl From<io::Error> for DecodingError {
- fn from(err: io::Error) -> DecodingError {
- DecodingError::IoError(err)
- }
-}
-
-impl From<FormatError> for DecodingError {
- fn from(err: FormatError) -> DecodingError {
- DecodingError::Format(err)
- }
-}
-
-impl From<FormatErrorInner> for FormatError {
- fn from(inner: FormatErrorInner) -> Self {
- FormatError { inner }
- }
-}
-
-impl From<DecodingError> for io::Error {
- fn from(err: DecodingError) -> io::Error {
- match err {
- DecodingError::IoError(err) => err,
- err => io::Error::new(io::ErrorKind::Other, err.to_string()),
- }
- }
-}
-
-impl From<TextDecodingError> for DecodingError {
- fn from(tbe: TextDecodingError) -> Self {
- DecodingError::Format(FormatError {
- inner: FormatErrorInner::BadTextEncoding(tbe),
- })
- }
-}
-
-/// Decoder configuration options
-#[derive(Clone)]
-pub struct DecodeOptions {
- ignore_adler32: bool,
- ignore_crc: bool,
- ignore_text_chunk: bool,
-}
-
-impl Default for DecodeOptions {
- fn default() -> Self {
- Self {
- ignore_adler32: true,
- ignore_crc: false,
- ignore_text_chunk: false,
- }
- }
-}
-
-impl DecodeOptions {
- /// When set, the decoder will not compute and verify the Adler-32 checksum.
- ///
- /// Defaults to `true`.
- pub fn set_ignore_adler32(&mut self, ignore_adler32: bool) {
- self.ignore_adler32 = ignore_adler32;
- }
-
- /// When set, the decoder will not compute and verify the CRC code.
- ///
- /// Defaults to `false`.
- pub fn set_ignore_crc(&mut self, ignore_crc: bool) {
- self.ignore_crc = ignore_crc;
- }
-
- /// Flag to ignore computing and verifying the Adler-32 checksum and CRC
- /// code.
- pub fn set_ignore_checksums(&mut self, ignore_checksums: bool) {
- self.ignore_adler32 = ignore_checksums;
- self.ignore_crc = ignore_checksums;
- }
-
- /// Ignore text chunks while decoding.
- ///
- /// Defaults to `false`.
- pub fn set_ignore_text_chunk(&mut self, ignore_text_chunk: bool) {
- self.ignore_text_chunk = ignore_text_chunk;
- }
-}
-
-/// PNG StreamingDecoder (low-level interface)
-///
-/// By default, the decoder does not verify Adler-32 checksum computation. To
-/// enable checksum verification, set it with [`StreamingDecoder::set_ignore_adler32`]
-/// before starting decompression.
-pub struct StreamingDecoder {
- state: Option<State>,
- current_chunk: ChunkState,
- /// The inflater state handling consecutive `IDAT` and `fdAT` chunks.
- inflater: ZlibStream,
- /// The complete image info read from all prior chunks.
- pub(crate) info: Option<Info<'static>>,
- /// The animation chunk sequence number.
- current_seq_no: Option<u32>,
- /// Stores where in decoding an `fdAT` chunk we are.
- apng_seq_handled: bool,
- have_idat: bool,
- decode_options: DecodeOptions,
-}
-
-struct ChunkState {
- /// The type of the current chunk.
- /// Relevant for `IDAT` and `fdAT` which aggregate consecutive chunks of their own type.
- type_: ChunkType,
-
- /// Partial crc until now.
- crc: Crc32,
-
- /// Remaining bytes to be read.
- remaining: u32,
-
- /// Non-decoded bytes in the chunk.
- raw_bytes: Vec<u8>,
-}
-
-impl StreamingDecoder {
- /// Creates a new StreamingDecoder
- ///
- /// Allocates the internal buffers.
- pub fn new() -> StreamingDecoder {
- StreamingDecoder::new_with_options(DecodeOptions::default())
- }
-
- pub fn new_with_options(decode_options: DecodeOptions) -> StreamingDecoder {
- let mut inflater = ZlibStream::new();
- inflater.set_ignore_adler32(decode_options.ignore_adler32);
-
- StreamingDecoder {
- state: Some(State::Signature(0, [0; 7])),
- current_chunk: ChunkState::default(),
- inflater,
- info: None,
- current_seq_no: None,
- apng_seq_handled: false,
- have_idat: false,
- decode_options,
- }
- }
-
- /// Resets the StreamingDecoder
- pub fn reset(&mut self) {
- self.state = Some(State::Signature(0, [0; 7]));
- self.current_chunk.crc = Crc32::new();
- self.current_chunk.remaining = 0;
- self.current_chunk.raw_bytes.clear();
- self.inflater.reset();
- self.info = None;
- self.current_seq_no = None;
- self.apng_seq_handled = false;
- self.have_idat = false;
- }
-
- /// Provides access to the inner `info` field
- pub fn info(&self) -> Option<&Info<'static>> {
- self.info.as_ref()
- }
-
- pub fn set_ignore_text_chunk(&mut self, ignore_text_chunk: bool) {
- self.decode_options.set_ignore_text_chunk(ignore_text_chunk);
- }
-
- /// Return whether the decoder is set to ignore the Adler-32 checksum.
- pub fn ignore_adler32(&self) -> bool {
- self.inflater.ignore_adler32()
- }
-
- /// Set whether to compute and verify the Adler-32 checksum during
- /// decompression. Return `true` if the flag was successfully set.
- ///
- /// The decoder defaults to `true`.
- ///
- /// This flag cannot be modified after decompression has started until the
- /// [`StreamingDecoder`] is reset.
- pub fn set_ignore_adler32(&mut self, ignore_adler32: bool) -> bool {
- self.inflater.set_ignore_adler32(ignore_adler32)
- }
-
- /// Set whether to compute and verify the Adler-32 checksum during
- /// decompression.
- ///
- /// The decoder defaults to `false`.
- pub fn set_ignore_crc(&mut self, ignore_crc: bool) {
- self.decode_options.set_ignore_crc(ignore_crc)
- }
-
- /// Low level StreamingDecoder interface.
- ///
- /// Allows to stream partial data to the encoder. Returns a tuple containing the bytes that have
- /// been consumed from the input buffer and the current decoding result. If the decoded chunk
- /// was an image data chunk, it also appends the read data to `image_data`.
- pub fn update(
- &mut self,
- mut buf: &[u8],
- image_data: &mut Vec<u8>,
- ) -> Result<(usize, Decoded), DecodingError> {
- let len = buf.len();
- while !buf.is_empty() && self.state.is_some() {
- match self.next_state(buf, image_data) {
- Ok((bytes, Decoded::Nothing)) => buf = &buf[bytes..],
- Ok((bytes, result)) => {
- buf = &buf[bytes..];
- return Ok((len - buf.len(), result));
- }
- Err(err) => return Err(err),
- }
- }
- Ok((len - buf.len(), Decoded::Nothing))
- }
-
- fn next_state<'a>(
- &'a mut self,
- buf: &[u8],
- image_data: &mut Vec<u8>,
- ) -> Result<(usize, Decoded), DecodingError> {
- use self::State::*;
-
- let current_byte = buf[0];
-
- // Driver should ensure that state is never None
- let state = self.state.take().unwrap();
-
- match state {
- Signature(i, mut signature) if i < 7 => {
- signature[i as usize] = current_byte;
- self.state = Some(Signature(i + 1, signature));
- Ok((1, Decoded::Nothing))
- }
- Signature(_, signature)
- if signature == [137, 80, 78, 71, 13, 10, 26] && current_byte == 10 =>
- {
- self.state = Some(U32(U32Value::Length));
- Ok((1, Decoded::Nothing))
- }
- Signature(..) => Err(DecodingError::Format(
- FormatErrorInner::InvalidSignature.into(),
- )),
- U32Byte3(type_, mut val) => {
- use self::U32Value::*;
- val |= u32::from(current_byte);
- match type_ {
- Length => {
- self.state = Some(U32(Type(val)));
- Ok((1, Decoded::Nothing))
- }
- Type(length) => {
- let type_str = ChunkType([
- (val >> 24) as u8,
- (val >> 16) as u8,
- (val >> 8) as u8,
- val as u8,
- ]);
- if type_str != self.current_chunk.type_
- && (self.current_chunk.type_ == IDAT
- || self.current_chunk.type_ == chunk::fdAT)
- {
- self.current_chunk.type_ = type_str;
- self.inflater.finish_compressed_chunks(image_data)?;
- self.inflater.reset();
- self.state = Some(U32Byte3(Type(length), val & !0xff));
- return Ok((0, Decoded::ImageDataFlushed));
- }
- self.current_chunk.type_ = type_str;
- if !self.decode_options.ignore_crc {
- self.current_chunk.crc.reset();
- self.current_chunk.crc.update(&type_str.0);
- }
- self.current_chunk.remaining = length;
- self.apng_seq_handled = false;
- self.current_chunk.raw_bytes.clear();
- self.state = Some(ReadChunk(type_str));
- Ok((1, Decoded::ChunkBegin(length, type_str)))
- }
- Crc(type_str) => {
- // If ignore_crc is set, do not calculate CRC. We set
- // sum=val so that it short-circuits to true in the next
- // if-statement block
- let sum = if self.decode_options.ignore_crc {
- val
- } else {
- self.current_chunk.crc.clone().finalize()
- };
-
- if val == sum || CHECKSUM_DISABLED {
- self.state = Some(State::U32(U32Value::Length));
- if type_str == IEND {
- Ok((1, Decoded::ImageEnd))
- } else {
- Ok((1, Decoded::ChunkComplete(val, type_str)))
- }
- } else {
- Err(DecodingError::Format(
- FormatErrorInner::CrcMismatch {
- crc_val: val,
- crc_sum: sum,
- chunk: type_str,
- }
- .into(),
- ))
- }
- }
- }
- }
- U32Byte2(type_, val) => {
- self.state = Some(U32Byte3(type_, val | u32::from(current_byte) << 8));
- Ok((1, Decoded::Nothing))
- }
- U32Byte1(type_, val) => {
- self.state = Some(U32Byte2(type_, val | u32::from(current_byte) << 16));
- Ok((1, Decoded::Nothing))
- }
- U32(type_) => {
- self.state = Some(U32Byte1(type_, u32::from(current_byte) << 24));
- Ok((1, Decoded::Nothing))
- }
- PartialChunk(type_str) => {
- match type_str {
- IDAT => {
- self.have_idat = true;
- self.state = Some(DecodeData(type_str, 0));
- Ok((0, Decoded::PartialChunk(type_str)))
- }
- chunk::fdAT => {
- let data_start;
- if let Some(seq_no) = self.current_seq_no {
- if !self.apng_seq_handled {
- data_start = 4;
- let mut buf = &self.current_chunk.raw_bytes[..];
- let next_seq_no = buf.read_be()?;
- if next_seq_no != seq_no + 1 {
- return Err(DecodingError::Format(
- FormatErrorInner::ApngOrder {
- present: next_seq_no,
- expected: seq_no + 1,
- }
- .into(),
- ));
- }
- self.current_seq_no = Some(next_seq_no);
- self.apng_seq_handled = true;
- } else {
- data_start = 0;
- }
- } else {
- return Err(DecodingError::Format(
- FormatErrorInner::MissingFctl.into(),
- ));
- }
- self.state = Some(DecodeData(type_str, data_start));
- Ok((0, Decoded::PartialChunk(type_str)))
- }
- // Handle other chunks
- _ => {
- if self.current_chunk.remaining == 0 {
- // complete chunk
- Ok((0, self.parse_chunk(type_str)?))
- } else {
- // Make sure we have room to read more of the chunk.
- // We need it fully before parsing.
- self.reserve_current_chunk()?;
-
- self.state = Some(ReadChunk(type_str));
- Ok((0, Decoded::PartialChunk(type_str)))
- }
- }
- }
- }
- ReadChunk(type_str) => {
- // The _previous_ event wanted to return the contents of raw_bytes, and let the
- // caller consume it,
- if self.current_chunk.remaining == 0 {
- self.state = Some(U32(U32Value::Crc(type_str)));
- Ok((0, Decoded::Nothing))
- } else {
- let ChunkState {
- crc,
- remaining,
- raw_bytes,
- type_: _,
- } = &mut self.current_chunk;
-
- let buf_avail = raw_bytes.capacity() - raw_bytes.len();
- let bytes_avail = min(buf.len(), buf_avail);
- let n = min(*remaining, bytes_avail as u32);
- if buf_avail == 0 {
- self.state = Some(PartialChunk(type_str));
- Ok((0, Decoded::Nothing))
- } else {
- let buf = &buf[..n as usize];
- if !self.decode_options.ignore_crc {
- crc.update(buf);
- }
- raw_bytes.extend_from_slice(buf);
-
- *remaining -= n;
- if *remaining == 0 {
- self.state = Some(PartialChunk(type_str));
- } else {
- self.state = Some(ReadChunk(type_str));
- }
- Ok((n as usize, Decoded::Nothing))
- }
- }
- }
- DecodeData(type_str, mut n) => {
- let chunk_len = self.current_chunk.raw_bytes.len();
- let chunk_data = &self.current_chunk.raw_bytes[n..];
- let c = self.inflater.decompress(chunk_data, image_data)?;
- n += c;
- if n == chunk_len && c == 0 {
- self.current_chunk.raw_bytes.clear();
- self.state = Some(ReadChunk(type_str));
- Ok((0, Decoded::ImageData))
- } else {
- self.state = Some(DecodeData(type_str, n));
- Ok((0, Decoded::ImageData))
- }
- }
- }
- }
-
- fn reserve_current_chunk(&mut self) -> Result<(), DecodingError> {
- // FIXME: use limits, also do so in iccp/zlib decompression.
- const MAX: usize = 0x10_0000;
- let buffer = &mut self.current_chunk.raw_bytes;
-
- // Double if necessary, but no more than until the limit is reached.
- let reserve_size = MAX.saturating_sub(buffer.capacity()).min(buffer.len());
- buffer.reserve_exact(reserve_size);
-
- if buffer.capacity() == buffer.len() {
- Err(DecodingError::LimitsExceeded)
- } else {
- Ok(())
- }
- }
-
- fn parse_chunk(&mut self, type_str: ChunkType) -> Result<Decoded, DecodingError> {
- self.state = Some(State::U32(U32Value::Crc(type_str)));
- if self.info.is_none() && type_str != IHDR {
- return Err(DecodingError::Format(
- FormatErrorInner::ChunkBeforeIhdr { kind: type_str }.into(),
- ));
- }
- match match type_str {
- IHDR => self.parse_ihdr(),
- chunk::PLTE => self.parse_plte(),
- chunk::tRNS => self.parse_trns(),
- chunk::pHYs => self.parse_phys(),
- chunk::gAMA => self.parse_gama(),
- chunk::acTL => self.parse_actl(),
- chunk::fcTL => self.parse_fctl(),
- chunk::cHRM => self.parse_chrm(),
- chunk::sRGB => self.parse_srgb(),
- chunk::iCCP => self.parse_iccp(),
- chunk::tEXt if !self.decode_options.ignore_text_chunk => self.parse_text(),
- chunk::zTXt if !self.decode_options.ignore_text_chunk => self.parse_ztxt(),
- chunk::iTXt if !self.decode_options.ignore_text_chunk => self.parse_itxt(),
- _ => Ok(Decoded::PartialChunk(type_str)),
- } {
- Err(err) => {
- // Borrow of self ends here, because Decoding error does not borrow self.
- self.state = None;
- Err(err)
- }
- ok => ok,
- }
- }
-
- fn parse_fctl(&mut self) -> Result<Decoded, DecodingError> {
- let mut buf = &self.current_chunk.raw_bytes[..];
- let next_seq_no = buf.read_be()?;
-
- // Assuming that fcTL is required before *every* fdAT-sequence
- self.current_seq_no = Some(if let Some(seq_no) = self.current_seq_no {
- if next_seq_no != seq_no + 1 {
- return Err(DecodingError::Format(
- FormatErrorInner::ApngOrder {
- expected: seq_no + 1,
- present: next_seq_no,
- }
- .into(),
- ));
- }
- next_seq_no
- } else {
- if next_seq_no != 0 {
- return Err(DecodingError::Format(
- FormatErrorInner::ApngOrder {
- expected: 0,
- present: next_seq_no,
- }
- .into(),
- ));
- }
- 0
- });
- self.inflater.reset();
- let fc = FrameControl {
- sequence_number: next_seq_no,
- width: buf.read_be()?,
- height: buf.read_be()?,
- x_offset: buf.read_be()?,
- y_offset: buf.read_be()?,
- delay_num: buf.read_be()?,
- delay_den: buf.read_be()?,
- dispose_op: {
- let dispose_op = buf.read_be()?;
- match DisposeOp::from_u8(dispose_op) {
- Some(dispose_op) => dispose_op,
- None => {
- return Err(DecodingError::Format(
- FormatErrorInner::InvalidDisposeOp(dispose_op).into(),
- ))
- }
- }
- },
- blend_op: {
- let blend_op = buf.read_be()?;
- match BlendOp::from_u8(blend_op) {
- Some(blend_op) => blend_op,
- None => {
- return Err(DecodingError::Format(
- FormatErrorInner::InvalidBlendOp(blend_op).into(),
- ))
- }
- }
- },
- };
- self.info.as_ref().unwrap().validate(&fc)?;
- self.info.as_mut().unwrap().frame_control = Some(fc);
- Ok(Decoded::FrameControl(fc))
- }
-
- fn parse_actl(&mut self) -> Result<Decoded, DecodingError> {
- if self.have_idat {
- Err(DecodingError::Format(
- FormatErrorInner::AfterIdat { kind: chunk::acTL }.into(),
- ))
- } else {
- let mut buf = &self.current_chunk.raw_bytes[..];
- let actl = AnimationControl {
- num_frames: buf.read_be()?,
- num_plays: buf.read_be()?,
- };
- self.info.as_mut().unwrap().animation_control = Some(actl);
- Ok(Decoded::AnimationControl(actl))
- }
- }
-
- fn parse_plte(&mut self) -> Result<Decoded, DecodingError> {
- let info = self.info.as_mut().unwrap();
- if info.palette.is_some() {
- // Only one palette is allowed
- Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: chunk::PLTE }.into(),
- ))
- } else {
- info.palette = Some(Cow::Owned(self.current_chunk.raw_bytes.clone()));
- Ok(Decoded::Nothing)
- }
- }
-
- fn parse_trns(&mut self) -> Result<Decoded, DecodingError> {
- let info = self.info.as_mut().unwrap();
- if info.trns.is_some() {
- return Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: chunk::PLTE }.into(),
- ));
- }
- let (color_type, bit_depth) = { (info.color_type, info.bit_depth as u8) };
- let mut vec = self.current_chunk.raw_bytes.clone();
- let len = vec.len();
- match color_type {
- ColorType::Grayscale => {
- if len < 2 {
- return Err(DecodingError::Format(
- FormatErrorInner::ShortPalette { expected: 2, len }.into(),
- ));
- }
- if bit_depth < 16 {
- vec[0] = vec[1];
- vec.truncate(1);
- }
- info.trns = Some(Cow::Owned(vec));
- Ok(Decoded::Nothing)
- }
- ColorType::Rgb => {
- if len < 6 {
- return Err(DecodingError::Format(
- FormatErrorInner::ShortPalette { expected: 6, len }.into(),
- ));
- }
- if bit_depth < 16 {
- vec[0] = vec[1];
- vec[1] = vec[3];
- vec[2] = vec[5];
- vec.truncate(3);
- }
- info.trns = Some(Cow::Owned(vec));
- Ok(Decoded::Nothing)
- }
- ColorType::Indexed => {
- // The transparency chunk must be after the palette chunk and
- // before the data chunk.
- if info.palette.is_none() {
- return Err(DecodingError::Format(
- FormatErrorInner::AfterPlte { kind: chunk::tRNS }.into(),
- ));
- } else if self.have_idat {
- return Err(DecodingError::Format(
- FormatErrorInner::OutsidePlteIdat { kind: chunk::tRNS }.into(),
- ));
- }
-
- info.trns = Some(Cow::Owned(vec));
- Ok(Decoded::Nothing)
- }
- c => Err(DecodingError::Format(
- FormatErrorInner::ColorWithBadTrns(c).into(),
- )),
- }
- }
-
- fn parse_phys(&mut self) -> Result<Decoded, DecodingError> {
- let info = self.info.as_mut().unwrap();
- if self.have_idat {
- Err(DecodingError::Format(
- FormatErrorInner::AfterIdat { kind: chunk::pHYs }.into(),
- ))
- } else if info.pixel_dims.is_some() {
- Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: chunk::pHYs }.into(),
- ))
- } else {
- let mut buf = &self.current_chunk.raw_bytes[..];
- let xppu = buf.read_be()?;
- let yppu = buf.read_be()?;
- let unit = buf.read_be()?;
- let unit = match Unit::from_u8(unit) {
- Some(unit) => unit,
- None => {
- return Err(DecodingError::Format(
- FormatErrorInner::InvalidUnit(unit).into(),
- ))
- }
- };
- let pixel_dims = PixelDimensions { xppu, yppu, unit };
- info.pixel_dims = Some(pixel_dims);
- Ok(Decoded::PixelDimensions(pixel_dims))
- }
- }
-
- fn parse_chrm(&mut self) -> Result<Decoded, DecodingError> {
- let info = self.info.as_mut().unwrap();
- if self.have_idat {
- Err(DecodingError::Format(
- FormatErrorInner::AfterIdat { kind: chunk::cHRM }.into(),
- ))
- } else if info.chrm_chunk.is_some() {
- Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: chunk::cHRM }.into(),
- ))
- } else {
- let mut buf = &self.current_chunk.raw_bytes[..];
- let white_x: u32 = buf.read_be()?;
- let white_y: u32 = buf.read_be()?;
- let red_x: u32 = buf.read_be()?;
- let red_y: u32 = buf.read_be()?;
- let green_x: u32 = buf.read_be()?;
- let green_y: u32 = buf.read_be()?;
- let blue_x: u32 = buf.read_be()?;
- let blue_y: u32 = buf.read_be()?;
-
- let source_chromaticities = SourceChromaticities {
- white: (
- ScaledFloat::from_scaled(white_x),
- ScaledFloat::from_scaled(white_y),
- ),
- red: (
- ScaledFloat::from_scaled(red_x),
- ScaledFloat::from_scaled(red_y),
- ),
- green: (
- ScaledFloat::from_scaled(green_x),
- ScaledFloat::from_scaled(green_y),
- ),
- blue: (
- ScaledFloat::from_scaled(blue_x),
- ScaledFloat::from_scaled(blue_y),
- ),
- };
-
- info.chrm_chunk = Some(source_chromaticities);
- // Ignore chromaticities if sRGB profile is used.
- if info.srgb.is_none() {
- info.source_chromaticities = Some(source_chromaticities);
- }
-
- Ok(Decoded::Nothing)
- }
- }
-
- fn parse_gama(&mut self) -> Result<Decoded, DecodingError> {
- let info = self.info.as_mut().unwrap();
- if self.have_idat {
- Err(DecodingError::Format(
- FormatErrorInner::AfterIdat { kind: chunk::gAMA }.into(),
- ))
- } else if info.gama_chunk.is_some() {
- Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: chunk::gAMA }.into(),
- ))
- } else {
- let mut buf = &self.current_chunk.raw_bytes[..];
- let source_gamma: u32 = buf.read_be()?;
- let source_gamma = ScaledFloat::from_scaled(source_gamma);
-
- info.gama_chunk = Some(source_gamma);
- // Ignore chromaticities if sRGB profile is used.
- if info.srgb.is_none() {
- info.source_gamma = Some(source_gamma);
- }
-
- Ok(Decoded::Nothing)
- }
- }
-
- fn parse_srgb(&mut self) -> Result<Decoded, DecodingError> {
- let info = self.info.as_mut().unwrap();
- if self.have_idat {
- Err(DecodingError::Format(
- FormatErrorInner::AfterIdat { kind: chunk::acTL }.into(),
- ))
- } else if info.srgb.is_some() {
- Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: chunk::sRGB }.into(),
- ))
- } else {
- let mut buf = &self.current_chunk.raw_bytes[..];
- let raw: u8 = buf.read_be()?; // BE is is nonsense for single bytes, but this way the size is checked.
- let rendering_intent = crate::SrgbRenderingIntent::from_raw(raw).ok_or_else(|| {
- FormatError::from(FormatErrorInner::InvalidSrgbRenderingIntent(raw))
- })?;
-
- // Set srgb and override source gamma and chromaticities.
- info.srgb = Some(rendering_intent);
- info.source_gamma = Some(crate::srgb::substitute_gamma());
- info.source_chromaticities = Some(crate::srgb::substitute_chromaticities());
- Ok(Decoded::Nothing)
- }
- }
-
- fn parse_iccp(&mut self) -> Result<Decoded, DecodingError> {
- let info = self.info.as_mut().unwrap();
- if self.have_idat {
- Err(DecodingError::Format(
- FormatErrorInner::AfterIdat { kind: chunk::iCCP }.into(),
- ))
- } else if info.icc_profile.is_some() {
- Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: chunk::iCCP }.into(),
- ))
- } else {
- let mut buf = &self.current_chunk.raw_bytes[..];
-
- // read profile name
- let _: u8 = buf.read_be()?;
- for _ in 1..80 {
- let raw: u8 = buf.read_be()?;
- if raw == 0 {
- break;
- }
- }
-
- match buf.read_be()? {
- // compression method
- 0u8 => (),
- n => {
- return Err(DecodingError::Format(
- FormatErrorInner::UnknownCompressionMethod(n).into(),
- ))
- }
- }
-
- let mut profile = Vec::new();
- let mut inflater = ZlibStream::new();
- while !buf.is_empty() {
- let consumed_bytes = inflater.decompress(buf, &mut profile)?;
- if profile.len() > 8000000 {
- // TODO: this should use Limits.bytes
- return Err(DecodingError::LimitsExceeded);
- }
- buf = &buf[consumed_bytes..];
- }
- inflater.finish_compressed_chunks(&mut profile)?;
-
- info.icc_profile = Some(Cow::Owned(profile));
- Ok(Decoded::Nothing)
- }
- }
-
- fn parse_ihdr(&mut self) -> Result<Decoded, DecodingError> {
- if self.info.is_some() {
- return Err(DecodingError::Format(
- FormatErrorInner::DuplicateChunk { kind: IHDR }.into(),
- ));
- }
- let mut buf = &self.current_chunk.raw_bytes[..];
- let width = buf.read_be()?;
- let height = buf.read_be()?;
- let bit_depth = buf.read_be()?;
- let bit_depth = match BitDepth::from_u8(bit_depth) {
- Some(bits) => bits,
- None => {
- return Err(DecodingError::Format(
- FormatErrorInner::InvalidBitDepth(bit_depth).into(),
- ))
- }
- };
- let color_type = buf.read_be()?;
- let color_type = match ColorType::from_u8(color_type) {
- Some(color_type) => {
- if color_type.is_combination_invalid(bit_depth) {
- return Err(DecodingError::Format(
- FormatErrorInner::InvalidColorBitDepth {
- color_type,
- bit_depth,
- }
- .into(),
- ));
- } else {
- color_type
- }
- }
- None => {
- return Err(DecodingError::Format(
- FormatErrorInner::InvalidColorType(color_type).into(),
- ))
- }
- };
- match buf.read_be()? {
- // compression method
- 0u8 => (),
- n => {
- return Err(DecodingError::Format(
- FormatErrorInner::UnknownCompressionMethod(n).into(),
- ))
- }
- }
- match buf.read_be()? {
- // filter method
- 0u8 => (),
- n => {
- return Err(DecodingError::Format(
- FormatErrorInner::UnknownFilterMethod(n).into(),
- ))
- }
- }
- let interlaced = match buf.read_be()? {
- 0u8 => false,
- 1 => true,
- n => {
- return Err(DecodingError::Format(
- FormatErrorInner::UnknownInterlaceMethod(n).into(),
- ))
- }
- };
-
- self.info = Some(Info {
- width,
- height,
- bit_depth,
- color_type,
- interlaced,
- ..Default::default()
- });
-
- Ok(Decoded::Header(
- width, height, bit_depth, color_type, interlaced,
- ))
- }
-
- fn split_keyword(buf: &[u8]) -> Result<(&[u8], &[u8]), DecodingError> {
- let null_byte_index = buf
- .iter()
- .position(|&b| b == 0)
- .ok_or_else(|| DecodingError::from(TextDecodingError::MissingNullSeparator))?;
-
- if null_byte_index == 0 || null_byte_index > 79 {
- return Err(DecodingError::from(TextDecodingError::InvalidKeywordSize));
- }
-
- Ok((&buf[..null_byte_index], &buf[null_byte_index + 1..]))
- }
-
- fn parse_text(&mut self) -> Result<Decoded, DecodingError> {
- let buf = &self.current_chunk.raw_bytes[..];
-
- let (keyword_slice, value_slice) = Self::split_keyword(buf)?;
-
- self.info
- .as_mut()
- .unwrap()
- .uncompressed_latin1_text
- .push(TEXtChunk::decode(keyword_slice, value_slice).map_err(DecodingError::from)?);
-
- Ok(Decoded::Nothing)
- }
-
- fn parse_ztxt(&mut self) -> Result<Decoded, DecodingError> {
- let buf = &self.current_chunk.raw_bytes[..];
-
- let (keyword_slice, value_slice) = Self::split_keyword(buf)?;
-
- let compression_method = *value_slice
- .first()
- .ok_or_else(|| DecodingError::from(TextDecodingError::InvalidCompressionMethod))?;
-
- let text_slice = &value_slice[1..];
-
- self.info.as_mut().unwrap().compressed_latin1_text.push(
- ZTXtChunk::decode(keyword_slice, compression_method, text_slice)
- .map_err(DecodingError::from)?,
- );
-
- Ok(Decoded::Nothing)
- }
-
- fn parse_itxt(&mut self) -> Result<Decoded, DecodingError> {
- let buf = &self.current_chunk.raw_bytes[..];
-
- let (keyword_slice, value_slice) = Self::split_keyword(buf)?;
-
- let compression_flag = *value_slice
- .first()
- .ok_or_else(|| DecodingError::from(TextDecodingError::MissingCompressionFlag))?;
-
- let compression_method = *value_slice
- .get(1)
- .ok_or_else(|| DecodingError::from(TextDecodingError::InvalidCompressionMethod))?;
-
- let second_null_byte_index = value_slice[2..]
- .iter()
- .position(|&b| b == 0)
- .ok_or_else(|| DecodingError::from(TextDecodingError::MissingNullSeparator))?
- + 2;
-
- let language_tag_slice = &value_slice[2..second_null_byte_index];
-
- let third_null_byte_index = value_slice[second_null_byte_index + 1..]
- .iter()
- .position(|&b| b == 0)
- .ok_or_else(|| DecodingError::from(TextDecodingError::MissingNullSeparator))?
- + (second_null_byte_index + 1);
-
- let translated_keyword_slice =
- &value_slice[second_null_byte_index + 1..third_null_byte_index];
-
- let text_slice = &value_slice[third_null_byte_index + 1..];
-
- self.info.as_mut().unwrap().utf8_text.push(
- ITXtChunk::decode(
- keyword_slice,
- compression_flag,
- compression_method,
- language_tag_slice,
- translated_keyword_slice,
- text_slice,
- )
- .map_err(DecodingError::from)?,
- );
-
- Ok(Decoded::Nothing)
- }
-}
-
-impl Info<'_> {
- fn validate(&self, fc: &FrameControl) -> Result<(), DecodingError> {
- // Validate mathematically: fc.width + fc.x_offset <= self.width
- let in_x_bounds = Some(fc.width) <= self.width.checked_sub(fc.x_offset);
- // Validate mathematically: fc.height + fc.y_offset <= self.height
- let in_y_bounds = Some(fc.height) <= self.height.checked_sub(fc.y_offset);
-
- if !in_x_bounds || !in_y_bounds {
- return Err(DecodingError::Format(
- // TODO: do we want to display the bad bounds?
- FormatErrorInner::BadSubFrameBounds {}.into(),
- ));
- }
-
- Ok(())
- }
-}
-
-impl Default for StreamingDecoder {
- fn default() -> Self {
- Self::new()
- }
-}
-
-impl Default for ChunkState {
- fn default() -> Self {
- ChunkState {
- type_: ChunkType([0; 4]),
- crc: Crc32::new(),
- remaining: 0,
- raw_bytes: Vec::with_capacity(CHUNCK_BUFFER_SIZE),
- }
- }
-}
-
-#[cfg(test)]
-mod tests {
- use super::ScaledFloat;
- use super::SourceChromaticities;
- use std::fs::File;
-
- #[test]
- fn image_gamma() -> Result<(), ()> {
- fn trial(path: &str, expected: Option<ScaledFloat>) {
- let decoder = crate::Decoder::new(File::open(path).unwrap());
- let reader = decoder.read_info().unwrap();
- let actual: Option<ScaledFloat> = reader.info().source_gamma;
- assert!(actual == expected);
- }
- trial("tests/pngsuite/f00n0g08.png", None);
- trial("tests/pngsuite/f00n2c08.png", None);
- trial("tests/pngsuite/f01n0g08.png", None);
- trial("tests/pngsuite/f01n2c08.png", None);
- trial("tests/pngsuite/f02n0g08.png", None);
- trial("tests/pngsuite/f02n2c08.png", None);
- trial("tests/pngsuite/f03n0g08.png", None);
- trial("tests/pngsuite/f03n2c08.png", None);
- trial("tests/pngsuite/f04n0g08.png", None);
- trial("tests/pngsuite/f04n2c08.png", None);
- trial("tests/pngsuite/f99n0g04.png", None);
- trial("tests/pngsuite/tm3n3p02.png", None);
- trial("tests/pngsuite/g03n0g16.png", Some(ScaledFloat::new(0.35)));
- trial("tests/pngsuite/g03n2c08.png", Some(ScaledFloat::new(0.35)));
- trial("tests/pngsuite/g03n3p04.png", Some(ScaledFloat::new(0.35)));
- trial("tests/pngsuite/g04n0g16.png", Some(ScaledFloat::new(0.45)));
- trial("tests/pngsuite/g04n2c08.png", Some(ScaledFloat::new(0.45)));
- trial("tests/pngsuite/g04n3p04.png", Some(ScaledFloat::new(0.45)));
- trial("tests/pngsuite/g05n0g16.png", Some(ScaledFloat::new(0.55)));
- trial("tests/pngsuite/g05n2c08.png", Some(ScaledFloat::new(0.55)));
- trial("tests/pngsuite/g05n3p04.png", Some(ScaledFloat::new(0.55)));
- trial("tests/pngsuite/g07n0g16.png", Some(ScaledFloat::new(0.7)));
- trial("tests/pngsuite/g07n2c08.png", Some(ScaledFloat::new(0.7)));
- trial("tests/pngsuite/g07n3p04.png", Some(ScaledFloat::new(0.7)));
- trial("tests/pngsuite/g10n0g16.png", Some(ScaledFloat::new(1.0)));
- trial("tests/pngsuite/g10n2c08.png", Some(ScaledFloat::new(1.0)));
- trial("tests/pngsuite/g10n3p04.png", Some(ScaledFloat::new(1.0)));
- trial("tests/pngsuite/g25n0g16.png", Some(ScaledFloat::new(2.5)));
- trial("tests/pngsuite/g25n2c08.png", Some(ScaledFloat::new(2.5)));
- trial("tests/pngsuite/g25n3p04.png", Some(ScaledFloat::new(2.5)));
- Ok(())
- }
-
- #[test]
- fn image_source_chromaticities() -> Result<(), ()> {
- fn trial(path: &str, expected: Option<SourceChromaticities>) {
- let decoder = crate::Decoder::new(File::open(path).unwrap());
- let reader = decoder.read_info().unwrap();
- let actual: Option<SourceChromaticities> = reader.info().source_chromaticities;
- assert!(actual == expected);
- }
- trial(
- "tests/pngsuite/ccwn2c08.png",
- Some(SourceChromaticities::new(
- (0.3127, 0.3290),
- (0.64, 0.33),
- (0.30, 0.60),
- (0.15, 0.06),
- )),
- );
- trial(
- "tests/pngsuite/ccwn3p08.png",
- Some(SourceChromaticities::new(
- (0.3127, 0.3290),
- (0.64, 0.33),
- (0.30, 0.60),
- (0.15, 0.06),
- )),
- );
- trial("tests/pngsuite/basi0g01.png", None);
- trial("tests/pngsuite/basi0g02.png", None);
- trial("tests/pngsuite/basi0g04.png", None);
- trial("tests/pngsuite/basi0g08.png", None);
- trial("tests/pngsuite/basi0g16.png", None);
- trial("tests/pngsuite/basi2c08.png", None);
- trial("tests/pngsuite/basi2c16.png", None);
- trial("tests/pngsuite/basi3p01.png", None);
- trial("tests/pngsuite/basi3p02.png", None);
- trial("tests/pngsuite/basi3p04.png", None);
- trial("tests/pngsuite/basi3p08.png", None);
- trial("tests/pngsuite/basi4a08.png", None);
- trial("tests/pngsuite/basi4a16.png", None);
- trial("tests/pngsuite/basi6a08.png", None);
- trial("tests/pngsuite/basi6a16.png", None);
- trial("tests/pngsuite/basn0g01.png", None);
- trial("tests/pngsuite/basn0g02.png", None);
- trial("tests/pngsuite/basn0g04.png", None);
- trial("tests/pngsuite/basn0g08.png", None);
- trial("tests/pngsuite/basn0g16.png", None);
- trial("tests/pngsuite/basn2c08.png", None);
- trial("tests/pngsuite/basn2c16.png", None);
- trial("tests/pngsuite/basn3p01.png", None);
- trial("tests/pngsuite/basn3p02.png", None);
- trial("tests/pngsuite/basn3p04.png", None);
- trial("tests/pngsuite/basn3p08.png", None);
- trial("tests/pngsuite/basn4a08.png", None);
- trial("tests/pngsuite/basn4a16.png", None);
- trial("tests/pngsuite/basn6a08.png", None);
- trial("tests/pngsuite/basn6a16.png", None);
- trial("tests/pngsuite/bgai4a08.png", None);
- trial("tests/pngsuite/bgai4a16.png", None);
- trial("tests/pngsuite/bgan6a08.png", None);
- trial("tests/pngsuite/bgan6a16.png", None);
- trial("tests/pngsuite/bgbn4a08.png", None);
- trial("tests/pngsuite/bggn4a16.png", None);
- trial("tests/pngsuite/bgwn6a08.png", None);
- trial("tests/pngsuite/bgyn6a16.png", None);
- trial("tests/pngsuite/cdfn2c08.png", None);
- trial("tests/pngsuite/cdhn2c08.png", None);
- trial("tests/pngsuite/cdsn2c08.png", None);
- trial("tests/pngsuite/cdun2c08.png", None);
- trial("tests/pngsuite/ch1n3p04.png", None);
- trial("tests/pngsuite/ch2n3p08.png", None);
- trial("tests/pngsuite/cm0n0g04.png", None);
- trial("tests/pngsuite/cm7n0g04.png", None);
- trial("tests/pngsuite/cm9n0g04.png", None);
- trial("tests/pngsuite/cs3n2c16.png", None);
- trial("tests/pngsuite/cs3n3p08.png", None);
- trial("tests/pngsuite/cs5n2c08.png", None);
- trial("tests/pngsuite/cs5n3p08.png", None);
- trial("tests/pngsuite/cs8n2c08.png", None);
- trial("tests/pngsuite/cs8n3p08.png", None);
- trial("tests/pngsuite/ct0n0g04.png", None);
- trial("tests/pngsuite/ct1n0g04.png", None);
- trial("tests/pngsuite/cten0g04.png", None);
- trial("tests/pngsuite/ctfn0g04.png", None);
- trial("tests/pngsuite/ctgn0g04.png", None);
- trial("tests/pngsuite/cthn0g04.png", None);
- trial("tests/pngsuite/ctjn0g04.png", None);
- trial("tests/pngsuite/ctzn0g04.png", None);
- trial("tests/pngsuite/f00n0g08.png", None);
- trial("tests/pngsuite/f00n2c08.png", None);
- trial("tests/pngsuite/f01n0g08.png", None);
- trial("tests/pngsuite/f01n2c08.png", None);
- trial("tests/pngsuite/f02n0g08.png", None);
- trial("tests/pngsuite/f02n2c08.png", None);
- trial("tests/pngsuite/f03n0g08.png", None);
- trial("tests/pngsuite/f03n2c08.png", None);
- trial("tests/pngsuite/f04n0g08.png", None);
- trial("tests/pngsuite/f04n2c08.png", None);
- trial("tests/pngsuite/f99n0g04.png", None);
- trial("tests/pngsuite/g03n0g16.png", None);
- trial("tests/pngsuite/g03n2c08.png", None);
- trial("tests/pngsuite/g03n3p04.png", None);
- trial("tests/pngsuite/g04n0g16.png", None);
- trial("tests/pngsuite/g04n2c08.png", None);
- trial("tests/pngsuite/g04n3p04.png", None);
- trial("tests/pngsuite/g05n0g16.png", None);
- trial("tests/pngsuite/g05n2c08.png", None);
- trial("tests/pngsuite/g05n3p04.png", None);
- trial("tests/pngsuite/g07n0g16.png", None);
- trial("tests/pngsuite/g07n2c08.png", None);
- trial("tests/pngsuite/g07n3p04.png", None);
- trial("tests/pngsuite/g10n0g16.png", None);
- trial("tests/pngsuite/g10n2c08.png", None);
- trial("tests/pngsuite/g10n3p04.png", None);
- trial("tests/pngsuite/g25n0g16.png", None);
- trial("tests/pngsuite/g25n2c08.png", None);
- trial("tests/pngsuite/g25n3p04.png", None);
- trial("tests/pngsuite/oi1n0g16.png", None);
- trial("tests/pngsuite/oi1n2c16.png", None);
- trial("tests/pngsuite/oi2n0g16.png", None);
- trial("tests/pngsuite/oi2n2c16.png", None);
- trial("tests/pngsuite/oi4n0g16.png", None);
- trial("tests/pngsuite/oi4n2c16.png", None);
- trial("tests/pngsuite/oi9n0g16.png", None);
- trial("tests/pngsuite/oi9n2c16.png", None);
- trial("tests/pngsuite/PngSuite.png", None);
- trial("tests/pngsuite/pp0n2c16.png", None);
- trial("tests/pngsuite/pp0n6a08.png", None);
- trial("tests/pngsuite/ps1n0g08.png", None);
- trial("tests/pngsuite/ps1n2c16.png", None);
- trial("tests/pngsuite/ps2n0g08.png", None);
- trial("tests/pngsuite/ps2n2c16.png", None);
- trial("tests/pngsuite/s01i3p01.png", None);
- trial("tests/pngsuite/s01n3p01.png", None);
- trial("tests/pngsuite/s02i3p01.png", None);
- trial("tests/pngsuite/s02n3p01.png", None);
- trial("tests/pngsuite/s03i3p01.png", None);
- trial("tests/pngsuite/s03n3p01.png", None);
- trial("tests/pngsuite/s04i3p01.png", None);
- trial("tests/pngsuite/s04n3p01.png", None);
- trial("tests/pngsuite/s05i3p02.png", None);
- trial("tests/pngsuite/s05n3p02.png", None);
- trial("tests/pngsuite/s06i3p02.png", None);
- trial("tests/pngsuite/s06n3p02.png", None);
- trial("tests/pngsuite/s07i3p02.png", None);
- trial("tests/pngsuite/s07n3p02.png", None);
- trial("tests/pngsuite/s08i3p02.png", None);
- trial("tests/pngsuite/s08n3p02.png", None);
- trial("tests/pngsuite/s09i3p02.png", None);
- trial("tests/pngsuite/s09n3p02.png", None);
- trial("tests/pngsuite/s32i3p04.png", None);
- trial("tests/pngsuite/s32n3p04.png", None);
- trial("tests/pngsuite/s33i3p04.png", None);
- trial("tests/pngsuite/s33n3p04.png", None);
- trial("tests/pngsuite/s34i3p04.png", None);
- trial("tests/pngsuite/s34n3p04.png", None);
- trial("tests/pngsuite/s35i3p04.png", None);
- trial("tests/pngsuite/s35n3p04.png", None);
- trial("tests/pngsuite/s36i3p04.png", None);
- trial("tests/pngsuite/s36n3p04.png", None);
- trial("tests/pngsuite/s37i3p04.png", None);
- trial("tests/pngsuite/s37n3p04.png", None);
- trial("tests/pngsuite/s38i3p04.png", None);
- trial("tests/pngsuite/s38n3p04.png", None);
- trial("tests/pngsuite/s39i3p04.png", None);
- trial("tests/pngsuite/s39n3p04.png", None);
- trial("tests/pngsuite/s40i3p04.png", None);
- trial("tests/pngsuite/s40n3p04.png", None);
- trial("tests/pngsuite/tbbn0g04.png", None);
- trial("tests/pngsuite/tbbn2c16.png", None);
- trial("tests/pngsuite/tbbn3p08.png", None);
- trial("tests/pngsuite/tbgn2c16.png", None);
- trial("tests/pngsuite/tbgn3p08.png", None);
- trial("tests/pngsuite/tbrn2c08.png", None);
- trial("tests/pngsuite/tbwn0g16.png", None);
- trial("tests/pngsuite/tbwn3p08.png", None);
- trial("tests/pngsuite/tbyn3p08.png", None);
- trial("tests/pngsuite/tm3n3p02.png", None);
- trial("tests/pngsuite/tp0n0g08.png", None);
- trial("tests/pngsuite/tp0n2c08.png", None);
- trial("tests/pngsuite/tp0n3p08.png", None);
- trial("tests/pngsuite/tp1n3p08.png", None);
- trial("tests/pngsuite/z00n2c08.png", None);
- trial("tests/pngsuite/z03n2c08.png", None);
- trial("tests/pngsuite/z06n2c08.png", None);
- Ok(())
- }
-}
diff --git a/vendor/png/src/decoder/zlib.rs b/vendor/png/src/decoder/zlib.rs
deleted file mode 100644
index 2953c95..0000000
--- a/vendor/png/src/decoder/zlib.rs
+++ /dev/null
@@ -1,212 +0,0 @@
-use super::{stream::FormatErrorInner, DecodingError, CHUNCK_BUFFER_SIZE};
-
-use fdeflate::Decompressor;
-
-/// Ergonomics wrapper around `miniz_oxide::inflate::stream` for zlib compressed data.
-pub(super) struct ZlibStream {
- /// Current decoding state.
- state: Box<fdeflate::Decompressor>,
- /// If there has been a call to decompress already.
- started: bool,
- /// A buffer of compressed data.
- /// We use this for a progress guarantee. The data in the input stream is chunked as given by
- /// the underlying stream buffer. We will not read any more data until the current buffer has
- /// been fully consumed. The zlib decompression can not fully consume all the data when it is
- /// in the middle of the stream, it will treat full symbols and maybe the last bytes need to be
- /// treated in a special way. The exact reason isn't as important but the interface does not
- /// promise us this. Now, the complication is that the _current_ chunking information of PNG
- /// alone is not enough to determine this as indeed the compressed stream is the concatenation
- /// of all consecutive `IDAT`/`fdAT` chunks. We would need to inspect the next chunk header.
- ///
- /// Thus, there needs to be a buffer that allows fully clearing a chunk so that the next chunk
- /// type can be inspected.
- in_buffer: Vec<u8>,
- /// The logical start of the `in_buffer`.
- in_pos: usize,
- /// Remaining buffered decoded bytes.
- /// The decoder sometimes wants inspect some already finished bytes for further decoding. So we
- /// keep a total of 32KB of decoded data available as long as more data may be appended.
- out_buffer: Vec<u8>,
- /// The cursor position in the output stream as a buffer index.
- out_pos: usize,
- /// Ignore and do not calculate the Adler-32 checksum. Defaults to `true`.
- ///
- /// This flag overrides `TINFL_FLAG_COMPUTE_ADLER32`.
- ///
- /// This flag should not be modified after decompression has started.
- ignore_adler32: bool,
-}
-
-impl ZlibStream {
- pub(crate) fn new() -> Self {
- ZlibStream {
- state: Box::new(Decompressor::new()),
- started: false,
- in_buffer: Vec::with_capacity(CHUNCK_BUFFER_SIZE),
- in_pos: 0,
- out_buffer: vec![0; 2 * CHUNCK_BUFFER_SIZE],
- out_pos: 0,
- ignore_adler32: true,
- }
- }
-
- pub(crate) fn reset(&mut self) {
- self.started = false;
- self.in_buffer.clear();
- self.in_pos = 0;
- self.out_buffer.clear();
- self.out_pos = 0;
- *self.state = Decompressor::new();
- }
-
- /// Set the `ignore_adler32` flag and return `true` if the flag was
- /// successfully set.
- ///
- /// The default is `true`.
- ///
- /// This flag cannot be modified after decompression has started until the
- /// [ZlibStream] is reset.
- pub(crate) fn set_ignore_adler32(&mut self, flag: bool) -> bool {
- if !self.started {
- self.ignore_adler32 = flag;
- true
- } else {
- false
- }
- }
-
- /// Return the `ignore_adler32` flag.
- pub(crate) fn ignore_adler32(&self) -> bool {
- self.ignore_adler32
- }
-
- /// Fill the decoded buffer as far as possible from `data`.
- /// On success returns the number of consumed input bytes.
- pub(crate) fn decompress(
- &mut self,
- data: &[u8],
- image_data: &mut Vec<u8>,
- ) -> Result<usize, DecodingError> {
- self.prepare_vec_for_appending();
-
- if !self.started && self.ignore_adler32 {
- self.state.ignore_adler32();
- }
-
- let in_data = if self.in_buffer.is_empty() {
- data
- } else {
- &self.in_buffer[self.in_pos..]
- };
-
- let (mut in_consumed, out_consumed) = self
- .state
- .read(in_data, self.out_buffer.as_mut_slice(), self.out_pos, false)
- .map_err(|err| {
- DecodingError::Format(FormatErrorInner::CorruptFlateStream { err }.into())
- })?;
-
- if !self.in_buffer.is_empty() {
- self.in_pos += in_consumed;
- in_consumed = 0;
- }
-
- if self.in_buffer.len() == self.in_pos {
- self.in_buffer.clear();
- self.in_pos = 0;
- }
-
- if in_consumed == 0 {
- self.in_buffer.extend_from_slice(data);
- in_consumed = data.len();
- }
-
- self.started = true;
- self.out_pos += out_consumed;
- self.transfer_finished_data(image_data);
-
- Ok(in_consumed)
- }
-
- /// Called after all consecutive IDAT chunks were handled.
- ///
- /// The compressed stream can be split on arbitrary byte boundaries. This enables some cleanup
- /// within the decompressor and flushing additional data which may have been kept back in case
- /// more data were passed to it.
- pub(crate) fn finish_compressed_chunks(
- &mut self,
- image_data: &mut Vec<u8>,
- ) -> Result<(), DecodingError> {
- if !self.started {
- return Ok(());
- }
-
- let tail = self.in_buffer.split_off(0);
- let tail = &tail[self.in_pos..];
-
- let mut start = 0;
- loop {
- self.prepare_vec_for_appending();
-
- let (in_consumed, out_consumed) = self
- .state
- .read(
- &tail[start..],
- self.out_buffer.as_mut_slice(),
- self.out_pos,
- true,
- )
- .map_err(|err| {
- DecodingError::Format(FormatErrorInner::CorruptFlateStream { err }.into())
- })?;
-
- start += in_consumed;
- self.out_pos += out_consumed;
-
- if self.state.is_done() {
- self.out_buffer.truncate(self.out_pos);
- image_data.append(&mut self.out_buffer);
- return Ok(());
- } else {
- let transferred = self.transfer_finished_data(image_data);
- assert!(
- transferred > 0 || in_consumed > 0 || out_consumed > 0,
- "No more forward progress made in stream decoding."
- );
- }
- }
- }
-
- /// Resize the vector to allow allocation of more data.
- fn prepare_vec_for_appending(&mut self) {
- if self.out_buffer.len().saturating_sub(self.out_pos) >= CHUNCK_BUFFER_SIZE {
- return;
- }
-
- let buffered_len = self.decoding_size(self.out_buffer.len());
- debug_assert!(self.out_buffer.len() <= buffered_len);
- self.out_buffer.resize(buffered_len, 0u8);
- }
-
- fn decoding_size(&self, len: usize) -> usize {
- // Allocate one more chunk size than currently or double the length while ensuring that the
- // allocation is valid and that any cursor within it will be valid.
- len
- // This keeps the buffer size a power-of-two, required by miniz_oxide.
- .saturating_add(CHUNCK_BUFFER_SIZE.max(len))
- // Ensure all buffer indices are valid cursor positions.
- // Note: both cut off and zero extension give correct results.
- .min(u64::max_value() as usize)
- // Ensure the allocation request is valid.
- // TODO: maximum allocation limits?
- .min(isize::max_value() as usize)
- }
-
- fn transfer_finished_data(&mut self, image_data: &mut Vec<u8>) -> usize {
- let safe = self.out_pos.saturating_sub(CHUNCK_BUFFER_SIZE);
- // TODO: allocation limits.
- image_data.extend(self.out_buffer.drain(..safe));
- self.out_pos -= safe;
- safe
- }
-}
diff --git a/vendor/png/src/encoder.rs b/vendor/png/src/encoder.rs
deleted file mode 100644
index 812bcaa..0000000
--- a/vendor/png/src/encoder.rs
+++ /dev/null
@@ -1,2389 +0,0 @@
-use borrow::Cow;
-use io::{Read, Write};
-use ops::{Deref, DerefMut};
-use std::{borrow, error, fmt, io, mem, ops, result};
-
-use crc32fast::Hasher as Crc32;
-use flate2::write::ZlibEncoder;
-
-use crate::chunk::{self, ChunkType};
-use crate::common::{
- AnimationControl, BitDepth, BlendOp, BytesPerPixel, ColorType, Compression, DisposeOp,
- FrameControl, Info, ParameterError, ParameterErrorKind, PixelDimensions, ScaledFloat,
-};
-use crate::filter::{filter, AdaptiveFilterType, FilterType};
-use crate::text_metadata::{
- EncodableTextChunk, ITXtChunk, TEXtChunk, TextEncodingError, ZTXtChunk,
-};
-use crate::traits::WriteBytesExt;
-
-pub type Result<T> = result::Result<T, EncodingError>;
-
-#[derive(Debug)]
-pub enum EncodingError {
- IoError(io::Error),
- Format(FormatError),
- Parameter(ParameterError),
- LimitsExceeded,
-}
-
-#[derive(Debug)]
-pub struct FormatError {
- inner: FormatErrorKind,
-}
-
-#[derive(Debug)]
-enum FormatErrorKind {
- ZeroWidth,
- ZeroHeight,
- InvalidColorCombination(BitDepth, ColorType),
- NoPalette,
- // TODO: wait, what?
- WrittenTooMuch(usize),
- NotAnimated,
- OutOfBounds,
- EndReached,
- ZeroFrames,
- MissingFrames,
- MissingData(usize),
- Unrecoverable,
- BadTextEncoding(TextEncodingError),
-}
-
-impl error::Error for EncodingError {
- fn cause(&self) -> Option<&(dyn error::Error + 'static)> {
- match self {
- EncodingError::IoError(err) => Some(err),
- _ => None,
- }
- }
-}
-
-impl fmt::Display for EncodingError {
- fn fmt(&self, fmt: &mut fmt::Formatter) -> result::Result<(), fmt::Error> {
- use self::EncodingError::*;
- match self {
- IoError(err) => write!(fmt, "{}", err),
- Format(desc) => write!(fmt, "{}", desc),
- Parameter(desc) => write!(fmt, "{}", desc),
- LimitsExceeded => write!(fmt, "Limits are exceeded."),
- }
- }
-}
-
-impl fmt::Display for FormatError {
- fn fmt(&self, fmt: &mut fmt::Formatter) -> result::Result<(), fmt::Error> {
- use FormatErrorKind::*;
- match self.inner {
- ZeroWidth => write!(fmt, "Zero width not allowed"),
- ZeroHeight => write!(fmt, "Zero height not allowed"),
- ZeroFrames => write!(fmt, "Zero frames not allowed"),
- InvalidColorCombination(depth, color) => write!(
- fmt,
- "Invalid combination of bit-depth '{:?}' and color-type '{:?}'",
- depth, color
- ),
- NoPalette => write!(fmt, "can't write indexed image without palette"),
- WrittenTooMuch(index) => write!(fmt, "wrong data size, got {} bytes too many", index),
- NotAnimated => write!(fmt, "not an animation"),
- OutOfBounds => write!(
- fmt,
- "the dimension and position go over the frame boundaries"
- ),
- EndReached => write!(fmt, "all the frames have been already written"),
- MissingFrames => write!(fmt, "there are still frames to be written"),
- MissingData(n) => write!(fmt, "there are still {} bytes to be written", n),
- Unrecoverable => write!(
- fmt,
- "a previous error put the writer into an unrecoverable state"
- ),
- BadTextEncoding(tee) => match tee {
- TextEncodingError::Unrepresentable => write!(
- fmt,
- "The text metadata cannot be encoded into valid ISO 8859-1"
- ),
- TextEncodingError::InvalidKeywordSize => write!(fmt, "Invalid keyword size"),
- TextEncodingError::CompressionError => {
- write!(fmt, "Unable to compress text metadata")
- }
- },
- }
- }
-}
-
-impl From<io::Error> for EncodingError {
- fn from(err: io::Error) -> EncodingError {
- EncodingError::IoError(err)
- }
-}
-
-impl From<EncodingError> for io::Error {
- fn from(err: EncodingError) -> io::Error {
- io::Error::new(io::ErrorKind::Other, err.to_string())
- }
-}
-
-// Private impl.
-impl From<FormatErrorKind> for FormatError {
- fn from(kind: FormatErrorKind) -> Self {
- FormatError { inner: kind }
- }
-}
-
-impl From<TextEncodingError> for EncodingError {
- fn from(tee: TextEncodingError) -> Self {
- EncodingError::Format(FormatError {
- inner: FormatErrorKind::BadTextEncoding(tee),
- })
- }
-}
-
-/// PNG Encoder.
-///
-/// This configures the PNG format options such as animation chunks, palette use, color types,
-/// auxiliary chunks etc.
-///
-/// FIXME: Configuring APNG might be easier (less individual errors) if we had an _adapter_ which
-/// borrows this mutably but guarantees that `info.frame_control` is not `None`.
-pub struct Encoder<'a, W: Write> {
- w: W,
- info: Info<'a>,
- options: Options,
-}
-
-/// Decoding options, internal type, forwarded to the Writer.
-#[derive(Default)]
-struct Options {
- filter: FilterType,
- adaptive_filter: AdaptiveFilterType,
- sep_def_img: bool,
- validate_sequence: bool,
-}
-
-impl<'a, W: Write> Encoder<'a, W> {
- pub fn new(w: W, width: u32, height: u32) -> Encoder<'static, W> {
- Encoder {
- w,
- info: Info::with_size(width, height),
- options: Options::default(),
- }
- }
-
- /// Specify that the image is animated.
- ///
- /// `num_frames` controls how many frames the animation has, while
- /// `num_plays` controls how many times the animation should be
- /// repeated until it stops, if it's zero then it will repeat
- /// infinitely.
- ///
- /// When this method is returns successfully then the images written will be encoded as fdAT
- /// chunks, except for the first image that is still encoded as `IDAT`. You can control if the
- /// first frame should be treated as an animation frame with [`Encoder::set_sep_def_img()`].
- ///
- /// This method returns an error if `num_frames` is 0.
- pub fn set_animated(&mut self, num_frames: u32, num_plays: u32) -> Result<()> {
- if num_frames == 0 {
- return Err(EncodingError::Format(FormatErrorKind::ZeroFrames.into()));
- }
-
- let actl = AnimationControl {
- num_frames,
- num_plays,
- };
-
- let fctl = FrameControl {
- sequence_number: 0,
- width: self.info.width,
- height: self.info.height,
- ..Default::default()
- };
-
- self.info.animation_control = Some(actl);
- self.info.frame_control = Some(fctl);
- Ok(())
- }
-
- /// Mark the first animated frame as a 'separate default image'.
- ///
- /// In APNG each animated frame is preceded by a special control chunk, `fcTL`. It's up to the
- /// encoder to decide if the first image, the standard `IDAT` data, should be part of the
- /// animation by emitting this chunk or by not doing so. A default image that is _not_ part of
- /// the animation is often interpreted as a thumbnail.
- ///
- /// This method will return an error when animation control was not configured
- /// (which is done by calling [`Encoder::set_animated`]).
- pub fn set_sep_def_img(&mut self, sep_def_img: bool) -> Result<()> {
- if self.info.animation_control.is_some() {
- self.options.sep_def_img = sep_def_img;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Sets the raw byte contents of the PLTE chunk. This method accepts
- /// both borrowed and owned byte data.
- pub fn set_palette<T: Into<Cow<'a, [u8]>>>(&mut self, palette: T) {
- self.info.palette = Some(palette.into());
- }
-
- /// Sets the raw byte contents of the tRNS chunk. This method accepts
- /// both borrowed and owned byte data.
- pub fn set_trns<T: Into<Cow<'a, [u8]>>>(&mut self, trns: T) {
- self.info.trns = Some(trns.into());
- }
-
- /// Set the display gamma of the source system on which the image was generated or last edited.
- pub fn set_source_gamma(&mut self, source_gamma: ScaledFloat) {
- self.info.source_gamma = Some(source_gamma);
- }
-
- /// Set the chromaticities for the source system's display channels (red, green, blue) and the whitepoint
- /// of the source system on which the image was generated or last edited.
- pub fn set_source_chromaticities(
- &mut self,
- source_chromaticities: super::SourceChromaticities,
- ) {
- self.info.source_chromaticities = Some(source_chromaticities);
- }
-
- /// Mark the image data as conforming to the SRGB color space with the specified rendering intent.
- ///
- /// Matching source gamma and chromaticities chunks are added automatically.
- /// Any manually specified source gamma or chromaticities will be ignored.
- pub fn set_srgb(&mut self, rendering_intent: super::SrgbRenderingIntent) {
- self.info.srgb = Some(rendering_intent);
- }
-
- /// Start encoding by writing the header data.
- ///
- /// The remaining data can be supplied by methods on the returned [`Writer`].
- pub fn write_header(self) -> Result<Writer<W>> {
- Writer::new(self.w, PartialInfo::new(&self.info), self.options).init(&self.info)
- }
-
- /// Set the color of the encoded image.
- ///
- /// These correspond to the color types in the png IHDR data that will be written. The length
- /// of the image data that is later supplied must match the color type, otherwise an error will
- /// be emitted.
- pub fn set_color(&mut self, color: ColorType) {
- self.info.color_type = color;
- }
-
- /// Set the indicated depth of the image data.
- pub fn set_depth(&mut self, depth: BitDepth) {
- self.info.bit_depth = depth;
- }
-
- /// Set compression parameters.
- ///
- /// Accepts a `Compression` or any type that can transform into a `Compression`. Notably `deflate::Compression` and
- /// `deflate::CompressionOptions` which "just work".
- pub fn set_compression(&mut self, compression: Compression) {
- self.info.compression = compression;
- }
-
- /// Set the used filter type.
- ///
- /// The default filter is [`FilterType::Sub`] which provides a basic prediction algorithm for
- /// sample values based on the previous. For a potentially better compression ratio, at the
- /// cost of more complex processing, try out [`FilterType::Paeth`].
- ///
- /// [`FilterType::Sub`]: enum.FilterType.html#variant.Sub
- /// [`FilterType::Paeth`]: enum.FilterType.html#variant.Paeth
- pub fn set_filter(&mut self, filter: FilterType) {
- self.options.filter = filter;
- }
-
- /// Set the adaptive filter type.
- ///
- /// Adaptive filtering attempts to select the best filter for each line
- /// based on heuristics which minimize the file size for compression rather
- /// than use a single filter for the entire image. The default method is
- /// [`AdaptiveFilterType::NonAdaptive`].
- ///
- /// [`AdaptiveFilterType::NonAdaptive`]: enum.AdaptiveFilterType.html
- pub fn set_adaptive_filter(&mut self, adaptive_filter: AdaptiveFilterType) {
- self.options.adaptive_filter = adaptive_filter;
- }
-
- /// Set the fraction of time every frame is going to be displayed, in seconds.
- ///
- /// *Note that this parameter can be set for each individual frame after
- /// [`Encoder::write_header`] is called. (see [`Writer::set_frame_delay`])*
- ///
- /// If the denominator is 0, it is to be treated as if it were 100
- /// (that is, the numerator then specifies 1/100ths of a second).
- /// If the the value of the numerator is 0 the decoder should render the next frame
- /// as quickly as possible, though viewers may impose a reasonable lower bound.
- ///
- /// The default value is 0 for both the numerator and denominator.
- ///
- /// This method will return an error if the image is not animated.
- /// (see [`set_animated`])
- ///
- /// [`write_header`]: struct.Encoder.html#method.write_header
- /// [`set_animated`]: struct.Encoder.html#method.set_animated
- /// [`Writer::set_frame_delay`]: struct.Writer#method.set_frame_delay
- pub fn set_frame_delay(&mut self, numerator: u16, denominator: u16) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.delay_den = denominator;
- fctl.delay_num = numerator;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the blend operation for every frame.
- ///
- /// The blend operation specifies whether the frame is to be alpha blended
- /// into the current output buffer content, or whether it should completely
- /// replace its region in the output buffer.
- ///
- /// *Note that this parameter can be set for each individual frame after
- /// [`write_header`] is called. (see [`Writer::set_blend_op`])*
- ///
- /// See the [`BlendOp`] documentation for the possible values and their effects.
- ///
- /// *Note that for the first frame the two blend modes are functionally
- /// equivalent due to the clearing of the output buffer at the beginning
- /// of each play.*
- ///
- /// The default value is [`BlendOp::Source`].
- ///
- /// This method will return an error if the image is not animated.
- /// (see [`set_animated`])
- ///
- /// [`BlendOP`]: enum.BlendOp.html
- /// [`BlendOP::Source`]: enum.BlendOp.html#variant.Source
- /// [`write_header`]: struct.Encoder.html#method.write_header
- /// [`set_animated`]: struct.Encoder.html#method.set_animated
- /// [`Writer::set_blend_op`]: struct.Writer#method.set_blend_op
- pub fn set_blend_op(&mut self, op: BlendOp) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.blend_op = op;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the dispose operation for every frame.
- ///
- /// The dispose operation specifies how the output buffer should be changed
- /// at the end of the delay (before rendering the next frame)
- ///
- /// *Note that this parameter can be set for each individual frame after
- /// [`write_header`] is called (see [`Writer::set_dispose_op`])*
- ///
- /// See the [`DisposeOp`] documentation for the possible values and their effects.
- ///
- /// *Note that if the first frame uses [`DisposeOp::Previous`]
- /// it will be treated as [`DisposeOp::Background`].*
- ///
- /// The default value is [`DisposeOp::None`].
- ///
- /// This method will return an error if the image is not animated.
- /// (see [`set_animated`])
- ///
- /// [`DisposeOp`]: ../common/enum.BlendOp.html
- /// [`DisposeOp::Previous`]: ../common/enum.BlendOp.html#variant.Previous
- /// [`DisposeOp::Background`]: ../common/enum.BlendOp.html#variant.Background
- /// [`DisposeOp::None`]: ../common/enum.BlendOp.html#variant.None
- /// [`write_header`]: struct.Encoder.html#method.write_header
- /// [`set_animated`]: struct.Encoder.html#method.set_animated
- /// [`Writer::set_dispose_op`]: struct.Writer#method.set_dispose_op
- pub fn set_dispose_op(&mut self, op: DisposeOp) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.dispose_op = op;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
- pub fn set_pixel_dims(&mut self, pixel_dims: Option<PixelDimensions>) {
- self.info.pixel_dims = pixel_dims
- }
- /// Convenience function to add tEXt chunks to [`Info`] struct
- pub fn add_text_chunk(&mut self, keyword: String, text: String) -> Result<()> {
- let text_chunk = TEXtChunk::new(keyword, text);
- self.info.uncompressed_latin1_text.push(text_chunk);
- Ok(())
- }
-
- /// Convenience function to add zTXt chunks to [`Info`] struct
- pub fn add_ztxt_chunk(&mut self, keyword: String, text: String) -> Result<()> {
- let text_chunk = ZTXtChunk::new(keyword, text);
- self.info.compressed_latin1_text.push(text_chunk);
- Ok(())
- }
-
- /// Convenience function to add iTXt chunks to [`Info`] struct
- ///
- /// This function only sets the `keyword` and `text` field of the iTXt chunk.
- /// To set the other fields, create a [`ITXtChunk`] directly, and then encode it to the output stream.
- pub fn add_itxt_chunk(&mut self, keyword: String, text: String) -> Result<()> {
- let text_chunk = ITXtChunk::new(keyword, text);
- self.info.utf8_text.push(text_chunk);
- Ok(())
- }
-
- /// Validate the written image sequence.
- ///
- /// When validation is turned on (it's turned off by default) then attempts to write more than
- /// one `IDAT` image or images beyond the number of frames indicated in the animation control
- /// chunk will fail and return an error result instead. Attempts to [finish][finish] the image
- /// with missing frames will also return an error.
- ///
- /// [finish]: StreamWriter::finish
- ///
- /// (It's possible to circumvent these checks by writing raw chunks instead.)
- pub fn validate_sequence(&mut self, validate: bool) {
- self.options.validate_sequence = validate;
- }
-}
-
-/// PNG writer
-///
-/// Progresses through the image by writing images, frames, or raw individual chunks. This is
-/// constructed through [`Encoder::write_header()`].
-///
-/// FIXME: Writing of animated chunks might be clearer if we had an _adapter_ that you would call
-/// to guarantee the next image to be prefaced with a fcTL-chunk, and all other chunks would be
-/// guaranteed to be `IDAT`/not affected by APNG's frame control.
-pub struct Writer<W: Write> {
- /// The underlying writer.
- w: W,
- /// The local version of the `Info` struct.
- info: PartialInfo,
- /// Global encoding options.
- options: Options,
- /// The total number of image frames, counting all consecutive IDAT and fdAT chunks.
- images_written: u64,
- /// The total number of animation frames, that is equivalent to counting fcTL chunks.
- animation_written: u32,
- /// A flag to note when the IEND chunk was already added.
- /// This is only set on code paths that drop `Self` to control the destructor.
- iend_written: bool,
-}
-
-/// Contains the subset of attributes of [Info] needed for [Writer] to function
-struct PartialInfo {
- width: u32,
- height: u32,
- bit_depth: BitDepth,
- color_type: ColorType,
- frame_control: Option<FrameControl>,
- animation_control: Option<AnimationControl>,
- compression: Compression,
- has_palette: bool,
-}
-
-impl PartialInfo {
- fn new(info: &Info) -> Self {
- PartialInfo {
- width: info.width,
- height: info.height,
- bit_depth: info.bit_depth,
- color_type: info.color_type,
- frame_control: info.frame_control,
- animation_control: info.animation_control,
- compression: info.compression,
- has_palette: info.palette.is_some(),
- }
- }
-
- fn bpp_in_prediction(&self) -> BytesPerPixel {
- // Passthrough
- self.to_info().bpp_in_prediction()
- }
-
- fn raw_row_length(&self) -> usize {
- // Passthrough
- self.to_info().raw_row_length()
- }
-
- fn raw_row_length_from_width(&self, width: u32) -> usize {
- // Passthrough
- self.to_info().raw_row_length_from_width(width)
- }
-
- /// Converts this partial info to an owned Info struct,
- /// setting missing values to their defaults
- fn to_info(&self) -> Info<'static> {
- Info {
- width: self.width,
- height: self.height,
- bit_depth: self.bit_depth,
- color_type: self.color_type,
- frame_control: self.frame_control,
- animation_control: self.animation_control,
- compression: self.compression,
- ..Default::default()
- }
- }
-}
-
-const DEFAULT_BUFFER_LENGTH: usize = 4 * 1024;
-
-pub(crate) fn write_chunk<W: Write>(mut w: W, name: chunk::ChunkType, data: &[u8]) -> Result<()> {
- w.write_be(data.len() as u32)?;
- w.write_all(&name.0)?;
- w.write_all(data)?;
- let mut crc = Crc32::new();
- crc.update(&name.0);
- crc.update(data);
- w.write_be(crc.finalize())?;
- Ok(())
-}
-
-impl<W: Write> Writer<W> {
- fn new(w: W, info: PartialInfo, options: Options) -> Writer<W> {
- Writer {
- w,
- info,
- options,
- images_written: 0,
- animation_written: 0,
- iend_written: false,
- }
- }
-
- fn init(mut self, info: &Info<'_>) -> Result<Self> {
- if self.info.width == 0 {
- return Err(EncodingError::Format(FormatErrorKind::ZeroWidth.into()));
- }
-
- if self.info.height == 0 {
- return Err(EncodingError::Format(FormatErrorKind::ZeroHeight.into()));
- }
-
- if self
- .info
- .color_type
- .is_combination_invalid(self.info.bit_depth)
- {
- return Err(EncodingError::Format(
- FormatErrorKind::InvalidColorCombination(self.info.bit_depth, self.info.color_type)
- .into(),
- ));
- }
-
- self.w.write_all(&[137, 80, 78, 71, 13, 10, 26, 10])?; // PNG signature
- info.encode(&mut self.w)?;
-
- Ok(self)
- }
-
- /// Write a raw chunk of PNG data.
- ///
- /// The chunk will have its CRC calculated and correctly. The data is not filtered in any way,
- /// but the chunk needs to be short enough to have its length encoded correctly.
- pub fn write_chunk(&mut self, name: ChunkType, data: &[u8]) -> Result<()> {
- use std::convert::TryFrom;
-
- if u32::try_from(data.len()).map_or(true, |length| length > i32::MAX as u32) {
- let kind = FormatErrorKind::WrittenTooMuch(data.len() - i32::MAX as usize);
- return Err(EncodingError::Format(kind.into()));
- }
-
- write_chunk(&mut self.w, name, data)
- }
-
- pub fn write_text_chunk<T: EncodableTextChunk>(&mut self, text_chunk: &T) -> Result<()> {
- text_chunk.encode(&mut self.w)
- }
-
- /// Check if we should allow writing another image.
- fn validate_new_image(&self) -> Result<()> {
- if !self.options.validate_sequence {
- return Ok(());
- }
-
- match self.info.animation_control {
- None => {
- if self.images_written == 0 {
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::EndReached.into()))
- }
- }
- Some(_) => {
- if self.info.frame_control.is_some() {
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::EndReached.into()))
- }
- }
- }
- }
-
- fn validate_sequence_done(&self) -> Result<()> {
- if !self.options.validate_sequence {
- return Ok(());
- }
-
- if (self.info.animation_control.is_some() && self.info.frame_control.is_some())
- || self.images_written == 0
- {
- Err(EncodingError::Format(FormatErrorKind::MissingFrames.into()))
- } else {
- Ok(())
- }
- }
-
- const MAX_IDAT_CHUNK_LEN: u32 = std::u32::MAX >> 1;
- #[allow(non_upper_case_globals)]
- const MAX_fdAT_CHUNK_LEN: u32 = (std::u32::MAX >> 1) - 4;
-
- /// Writes the next image data.
- pub fn write_image_data(&mut self, data: &[u8]) -> Result<()> {
- if self.info.color_type == ColorType::Indexed && !self.info.has_palette {
- return Err(EncodingError::Format(FormatErrorKind::NoPalette.into()));
- }
-
- self.validate_new_image()?;
-
- let width: usize;
- let height: usize;
- if let Some(ref mut fctl) = self.info.frame_control {
- width = fctl.width as usize;
- height = fctl.height as usize;
- } else {
- width = self.info.width as usize;
- height = self.info.height as usize;
- }
-
- let in_len = self.info.raw_row_length_from_width(width as u32) - 1;
- let data_size = in_len * height;
- if data_size != data.len() {
- return Err(EncodingError::Parameter(
- ParameterErrorKind::ImageBufferSize {
- expected: data_size,
- actual: data.len(),
- }
- .into(),
- ));
- }
-
- let prev = vec![0; in_len];
- let mut prev = prev.as_slice();
-
- let bpp = self.info.bpp_in_prediction();
- let filter_method = self.options.filter;
- let adaptive_method = self.options.adaptive_filter;
-
- let zlib_encoded = match self.info.compression {
- Compression::Fast => {
- let mut compressor = fdeflate::Compressor::new(std::io::Cursor::new(Vec::new()))?;
-
- let mut current = vec![0; in_len + 1];
- for line in data.chunks(in_len) {
- let filter_type = filter(
- filter_method,
- adaptive_method,
- bpp,
- prev,
- line,
- &mut current[1..],
- );
-
- current[0] = filter_type as u8;
- compressor.write_data(&current)?;
- prev = line;
- }
-
- let compressed = compressor.finish()?.into_inner();
- if compressed.len()
- > fdeflate::StoredOnlyCompressor::<()>::compressed_size((in_len + 1) * height)
- {
- // Write uncompressed data since the result from fast compression would take
- // more space than that.
- //
- // We always use FilterType::NoFilter here regardless of the filter method
- // requested by the user. Doing filtering again would only add performance
- // cost for both encoding and subsequent decoding, without improving the
- // compression ratio.
- let mut compressor =
- fdeflate::StoredOnlyCompressor::new(std::io::Cursor::new(Vec::new()))?;
- for line in data.chunks(in_len) {
- compressor.write_data(&[0])?;
- compressor.write_data(line)?;
- }
- compressor.finish()?.into_inner()
- } else {
- compressed
- }
- }
- _ => {
- let mut current = vec![0; in_len];
-
- let mut zlib = ZlibEncoder::new(Vec::new(), self.info.compression.to_options());
- for line in data.chunks(in_len) {
- let filter_type = filter(
- filter_method,
- adaptive_method,
- bpp,
- prev,
- line,
- &mut current,
- );
-
- zlib.write_all(&[filter_type as u8])?;
- zlib.write_all(&current)?;
- prev = line;
- }
- zlib.finish()?
- }
- };
-
- match self.info.frame_control {
- None => {
- self.write_zlib_encoded_idat(&zlib_encoded)?;
- }
- Some(_) if self.should_skip_frame_control_on_default_image() => {
- self.write_zlib_encoded_idat(&zlib_encoded)?;
- }
- Some(ref mut fctl) => {
- fctl.encode(&mut self.w)?;
- fctl.sequence_number = fctl.sequence_number.wrapping_add(1);
- self.animation_written += 1;
-
- // If the default image is the first frame of an animation, it's still an IDAT.
- if self.images_written == 0 {
- self.write_zlib_encoded_idat(&zlib_encoded)?;
- } else {
- let buff_size = zlib_encoded.len().min(Self::MAX_fdAT_CHUNK_LEN as usize);
- let mut alldata = vec![0u8; 4 + buff_size];
- for chunk in zlib_encoded.chunks(Self::MAX_fdAT_CHUNK_LEN as usize) {
- alldata[..4].copy_from_slice(&fctl.sequence_number.to_be_bytes());
- alldata[4..][..chunk.len()].copy_from_slice(chunk);
- write_chunk(&mut self.w, chunk::fdAT, &alldata[..4 + chunk.len()])?;
- fctl.sequence_number = fctl.sequence_number.wrapping_add(1);
- }
- }
- }
- }
-
- self.increment_images_written();
-
- Ok(())
- }
-
- fn increment_images_written(&mut self) {
- self.images_written = self.images_written.saturating_add(1);
-
- if let Some(actl) = self.info.animation_control {
- if actl.num_frames <= self.animation_written {
- // If we've written all animation frames, all following will be normal image chunks.
- self.info.frame_control = None;
- }
- }
- }
-
- fn write_iend(&mut self) -> Result<()> {
- self.iend_written = true;
- self.write_chunk(chunk::IEND, &[])
- }
-
- fn should_skip_frame_control_on_default_image(&self) -> bool {
- self.options.sep_def_img && self.images_written == 0
- }
-
- fn write_zlib_encoded_idat(&mut self, zlib_encoded: &[u8]) -> Result<()> {
- for chunk in zlib_encoded.chunks(Self::MAX_IDAT_CHUNK_LEN as usize) {
- self.write_chunk(chunk::IDAT, chunk)?;
- }
- Ok(())
- }
-
- /// Set the used filter type for the following frames.
- ///
- /// The default filter is [`FilterType::Sub`] which provides a basic prediction algorithm for
- /// sample values based on the previous. For a potentially better compression ratio, at the
- /// cost of more complex processing, try out [`FilterType::Paeth`].
- ///
- /// [`FilterType::Sub`]: enum.FilterType.html#variant.Sub
- /// [`FilterType::Paeth`]: enum.FilterType.html#variant.Paeth
- pub fn set_filter(&mut self, filter: FilterType) {
- self.options.filter = filter;
- }
-
- /// Set the adaptive filter type for the following frames.
- ///
- /// Adaptive filtering attempts to select the best filter for each line
- /// based on heuristics which minimize the file size for compression rather
- /// than use a single filter for the entire image. The default method is
- /// [`AdaptiveFilterType::NonAdaptive`].
- ///
- /// [`AdaptiveFilterType::NonAdaptive`]: enum.AdaptiveFilterType.html
- pub fn set_adaptive_filter(&mut self, adaptive_filter: AdaptiveFilterType) {
- self.options.adaptive_filter = adaptive_filter;
- }
-
- /// Set the fraction of time the following frames are going to be displayed,
- /// in seconds
- ///
- /// If the denominator is 0, it is to be treated as if it were 100
- /// (that is, the numerator then specifies 1/100ths of a second).
- /// If the the value of the numerator is 0 the decoder should render the next frame
- /// as quickly as possible, though viewers may impose a reasonable lower bound.
- ///
- /// This method will return an error if the image is not animated.
- pub fn set_frame_delay(&mut self, numerator: u16, denominator: u16) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.delay_den = denominator;
- fctl.delay_num = numerator;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the dimension of the following frames.
- ///
- /// This function will return an error when:
- /// - The image is not an animated;
- ///
- /// - The selected dimension, considering also the current frame position,
- /// goes outside the image boundaries;
- ///
- /// - One or both the width and height are 0;
- ///
- // ??? TODO ???
- // - The next frame is the default image
- pub fn set_frame_dimension(&mut self, width: u32, height: u32) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- if Some(width) > self.info.width.checked_sub(fctl.x_offset)
- || Some(height) > self.info.height.checked_sub(fctl.y_offset)
- {
- return Err(EncodingError::Format(FormatErrorKind::OutOfBounds.into()));
- } else if width == 0 {
- return Err(EncodingError::Format(FormatErrorKind::ZeroWidth.into()));
- } else if height == 0 {
- return Err(EncodingError::Format(FormatErrorKind::ZeroHeight.into()));
- }
- fctl.width = width;
- fctl.height = height;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the position of the following frames.
- ///
- /// An error will be returned if:
- /// - The image is not animated;
- ///
- /// - The selected position, considering also the current frame dimension,
- /// goes outside the image boundaries;
- ///
- // ??? TODO ???
- // - The next frame is the default image
- pub fn set_frame_position(&mut self, x: u32, y: u32) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- if Some(x) > self.info.width.checked_sub(fctl.width)
- || Some(y) > self.info.height.checked_sub(fctl.height)
- {
- return Err(EncodingError::Format(FormatErrorKind::OutOfBounds.into()));
- }
- fctl.x_offset = x;
- fctl.y_offset = y;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the frame dimension to occupy all the image, starting from
- /// the current position.
- ///
- /// To reset the frame to the full image size [`reset_frame_position`]
- /// should be called first.
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`reset_frame_position`]: struct.Writer.html#method.reset_frame_position
- pub fn reset_frame_dimension(&mut self) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.width = self.info.width - fctl.x_offset;
- fctl.height = self.info.height - fctl.y_offset;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the frame position to (0, 0).
- ///
- /// Equivalent to calling [`set_frame_position(0, 0)`].
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`set_frame_position(0, 0)`]: struct.Writer.html#method.set_frame_position
- pub fn reset_frame_position(&mut self) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.x_offset = 0;
- fctl.y_offset = 0;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the blend operation for the following frames.
- ///
- /// The blend operation specifies whether the frame is to be alpha blended
- /// into the current output buffer content, or whether it should completely
- /// replace its region in the output buffer.
- ///
- /// See the [`BlendOp`] documentation for the possible values and their effects.
- ///
- /// *Note that for the first frame the two blend modes are functionally
- /// equivalent due to the clearing of the output buffer at the beginning
- /// of each play.*
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`BlendOP`]: enum.BlendOp.html
- pub fn set_blend_op(&mut self, op: BlendOp) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.blend_op = op;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the dispose operation for the following frames.
- ///
- /// The dispose operation specifies how the output buffer should be changed
- /// at the end of the delay (before rendering the next frame)
- ///
- /// See the [`DisposeOp`] documentation for the possible values and their effects.
- ///
- /// *Note that if the first frame uses [`DisposeOp::Previous`]
- /// it will be treated as [`DisposeOp::Background`].*
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`DisposeOp`]: ../common/enum.BlendOp.html
- /// [`DisposeOp::Previous`]: ../common/enum.BlendOp.html#variant.Previous
- /// [`DisposeOp::Background`]: ../common/enum.BlendOp.html#variant.Background
- pub fn set_dispose_op(&mut self, op: DisposeOp) -> Result<()> {
- if let Some(ref mut fctl) = self.info.frame_control {
- fctl.dispose_op = op;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Create a stream writer.
- ///
- /// This allows you to create images that do not fit in memory. The default
- /// chunk size is 4K, use `stream_writer_with_size` to set another chunk
- /// size.
- ///
- /// This borrows the writer which allows for manually appending additional
- /// chunks after the image data has been written.
- pub fn stream_writer(&mut self) -> Result<StreamWriter<W>> {
- self.stream_writer_with_size(DEFAULT_BUFFER_LENGTH)
- }
-
- /// Create a stream writer with custom buffer size.
- ///
- /// See [`stream_writer`].
- ///
- /// [`stream_writer`]: #fn.stream_writer
- pub fn stream_writer_with_size(&mut self, size: usize) -> Result<StreamWriter<W>> {
- StreamWriter::new(ChunkOutput::Borrowed(self), size)
- }
-
- /// Turn this into a stream writer for image data.
- ///
- /// This allows you to create images that do not fit in memory. The default
- /// chunk size is 4K, use `stream_writer_with_size` to set another chunk
- /// size.
- pub fn into_stream_writer(self) -> Result<StreamWriter<'static, W>> {
- self.into_stream_writer_with_size(DEFAULT_BUFFER_LENGTH)
- }
-
- /// Turn this into a stream writer with custom buffer size.
- ///
- /// See [`into_stream_writer`].
- ///
- /// [`into_stream_writer`]: #fn.into_stream_writer
- pub fn into_stream_writer_with_size(self, size: usize) -> Result<StreamWriter<'static, W>> {
- StreamWriter::new(ChunkOutput::Owned(self), size)
- }
-
- /// Consume the stream writer with validation.
- ///
- /// Unlike a simple drop this ensures that the final chunk was written correctly. When other
- /// validation options (chunk sequencing) had been turned on in the configuration then it will
- /// also do a check on their correctness _before_ writing the final chunk.
- pub fn finish(mut self) -> Result<()> {
- self.validate_sequence_done()?;
- self.write_iend()?;
- self.w.flush()?;
-
- // Explicitly drop `self` just for clarity.
- drop(self);
- Ok(())
- }
-}
-
-impl<W: Write> Drop for Writer<W> {
- fn drop(&mut self) {
- if !self.iend_written {
- let _ = self.write_iend();
- }
- }
-}
-
-enum ChunkOutput<'a, W: Write> {
- Borrowed(&'a mut Writer<W>),
- Owned(Writer<W>),
-}
-
-// opted for deref for practical reasons
-impl<'a, W: Write> Deref for ChunkOutput<'a, W> {
- type Target = Writer<W>;
-
- fn deref(&self) -> &Self::Target {
- match self {
- ChunkOutput::Borrowed(writer) => writer,
- ChunkOutput::Owned(writer) => writer,
- }
- }
-}
-
-impl<'a, W: Write> DerefMut for ChunkOutput<'a, W> {
- fn deref_mut(&mut self) -> &mut Self::Target {
- match self {
- ChunkOutput::Borrowed(writer) => writer,
- ChunkOutput::Owned(writer) => writer,
- }
- }
-}
-
-/// This writer is used between the actual writer and the
-/// ZlibEncoder and has the job of packaging the compressed
-/// data into a PNG chunk, based on the image metadata
-///
-/// Currently the way it works is that the specified buffer
-/// will hold one chunk at the time and buffer the incoming
-/// data until `flush` is called or the maximum chunk size
-/// is reached.
-///
-/// The maximum chunk is the smallest between the selected buffer size
-/// and `u32::MAX >> 1` (`0x7fffffff` or `2147483647` dec)
-///
-/// When a chunk has to be flushed the length (that is now known)
-/// and the CRC will be written at the correct locations in the chunk.
-struct ChunkWriter<'a, W: Write> {
- writer: ChunkOutput<'a, W>,
- buffer: Vec<u8>,
- /// keeps track of where the last byte was written
- index: usize,
- curr_chunk: ChunkType,
-}
-
-impl<'a, W: Write> ChunkWriter<'a, W> {
- fn new(writer: ChunkOutput<'a, W>, buf_len: usize) -> ChunkWriter<'a, W> {
- // currently buf_len will determine the size of each chunk
- // the len is capped to the maximum size every chunk can hold
- // (this wont ever overflow an u32)
- //
- // TODO (maybe): find a way to hold two chunks at a time if `usize`
- // is 64 bits.
- const CAP: usize = std::u32::MAX as usize >> 1;
- let curr_chunk = if writer.images_written == 0 {
- chunk::IDAT
- } else {
- chunk::fdAT
- };
- ChunkWriter {
- writer,
- buffer: vec![0; CAP.min(buf_len)],
- index: 0,
- curr_chunk,
- }
- }
-
- /// Returns the size of each scanline for the next frame
- /// paired with the size of the whole frame
- ///
- /// This is used by the `StreamWriter` to know when the scanline ends
- /// so it can filter compress it and also to know when to start
- /// the next one
- fn next_frame_info(&self) -> (usize, usize) {
- let wrt = self.writer.deref();
-
- let width: usize;
- let height: usize;
- if let Some(fctl) = wrt.info.frame_control {
- width = fctl.width as usize;
- height = fctl.height as usize;
- } else {
- width = wrt.info.width as usize;
- height = wrt.info.height as usize;
- }
-
- let in_len = wrt.info.raw_row_length_from_width(width as u32) - 1;
- let data_size = in_len * height;
-
- (in_len, data_size)
- }
-
- /// NOTE: this bypasses the internal buffer so the flush method should be called before this
- /// in the case there is some data left in the buffer when this is called, it will panic
- fn write_header(&mut self) -> Result<()> {
- assert_eq!(self.index, 0, "Called when not flushed");
- let wrt = self.writer.deref_mut();
-
- self.curr_chunk = if wrt.images_written == 0 {
- chunk::IDAT
- } else {
- chunk::fdAT
- };
-
- match wrt.info.frame_control {
- Some(_) if wrt.should_skip_frame_control_on_default_image() => {}
- Some(ref mut fctl) => {
- fctl.encode(&mut wrt.w)?;
- fctl.sequence_number += 1;
- }
- _ => {}
- }
-
- Ok(())
- }
-
- /// Set the `FrameControl` for the following frame
- ///
- /// It will ignore the `sequence_number` of the parameter
- /// as it is updated internally.
- fn set_fctl(&mut self, f: FrameControl) {
- if let Some(ref mut fctl) = self.writer.info.frame_control {
- // Ignore the sequence number
- *fctl = FrameControl {
- sequence_number: fctl.sequence_number,
- ..f
- };
- } else {
- panic!("This function must be called on an animated PNG")
- }
- }
-
- /// Flushes the current chunk
- fn flush_inner(&mut self) -> io::Result<()> {
- if self.index > 0 {
- // flush the chunk and reset everything
- write_chunk(
- &mut self.writer.w,
- self.curr_chunk,
- &self.buffer[..self.index],
- )?;
-
- self.index = 0;
- }
- Ok(())
- }
-}
-
-impl<'a, W: Write> Write for ChunkWriter<'a, W> {
- fn write(&mut self, mut data: &[u8]) -> io::Result<usize> {
- if data.is_empty() {
- return Ok(0);
- }
-
- // index == 0 means a chunk has been flushed out
- if self.index == 0 {
- let wrt = self.writer.deref_mut();
-
- // Prepare the next animated frame, if any.
- let no_fctl = wrt.should_skip_frame_control_on_default_image();
- if wrt.info.frame_control.is_some() && !no_fctl {
- let fctl = wrt.info.frame_control.as_mut().unwrap();
- self.buffer[0..4].copy_from_slice(&fctl.sequence_number.to_be_bytes());
- fctl.sequence_number += 1;
- self.index = 4;
- }
- }
-
- // Cap the buffer length to the maximum number of bytes that can't still
- // be added to the current chunk
- let written = data.len().min(self.buffer.len() - self.index);
- data = &data[..written];
-
- self.buffer[self.index..][..written].copy_from_slice(data);
- self.index += written;
-
- // if the maximum data for this chunk as been reached it needs to be flushed
- if self.index == self.buffer.len() {
- self.flush_inner()?;
- }
-
- Ok(written)
- }
-
- fn flush(&mut self) -> io::Result<()> {
- self.flush_inner()
- }
-}
-
-impl<W: Write> Drop for ChunkWriter<'_, W> {
- fn drop(&mut self) {
- let _ = self.flush();
- }
-}
-
-// TODO: find a better name
-//
-/// This enum is used to be allow the `StreamWriter` to keep
-/// its inner `ChunkWriter` without wrapping it inside a
-/// `ZlibEncoder`. This is used in the case that between the
-/// change of state that happens when the last write of a frame
-/// is performed an error occurs, which obviously has to be returned.
-/// This creates the problem of where to store the writer before
-/// exiting the function, and this is where `Wrapper` comes in.
-///
-/// Unfortunately the `ZlibWriter` can't be used because on the
-/// write following the error, `finish` would be called and that
-/// would write some data even if 0 bytes where compressed.
-///
-/// If the `finish` function fails then there is nothing much to
-/// do as the `ChunkWriter` would get lost so the `Unrecoverable`
-/// variant is used to signal that.
-enum Wrapper<'a, W: Write> {
- Chunk(ChunkWriter<'a, W>),
- Zlib(ZlibEncoder<ChunkWriter<'a, W>>),
- Unrecoverable,
- /// This is used in-between, should never be matched
- None,
-}
-
-impl<'a, W: Write> Wrapper<'a, W> {
- /// Like `Option::take` this returns the `Wrapper` contained
- /// in `self` and replaces it with `Wrapper::None`
- fn take(&mut self) -> Wrapper<'a, W> {
- let mut swap = Wrapper::None;
- mem::swap(self, &mut swap);
- swap
- }
-}
-
-/// Streaming PNG writer
-///
-/// This may silently fail in the destructor, so it is a good idea to call
-/// [`finish`](#method.finish) or [`flush`] before dropping.
-///
-/// [`flush`]: https://doc.rust-lang.org/stable/std/io/trait.Write.html#tymethod.flush
-pub struct StreamWriter<'a, W: Write> {
- /// The option here is needed in order to access the inner `ChunkWriter` in-between
- /// each frame, which is needed for writing the fcTL chunks between each frame
- writer: Wrapper<'a, W>,
- prev_buf: Vec<u8>,
- curr_buf: Vec<u8>,
- /// Amount of data already written
- index: usize,
- /// length of the current scanline
- line_len: usize,
- /// size of the frame (width * height * sample_size)
- to_write: usize,
-
- width: u32,
- height: u32,
-
- bpp: BytesPerPixel,
- filter: FilterType,
- adaptive_filter: AdaptiveFilterType,
- fctl: Option<FrameControl>,
- compression: Compression,
-}
-
-impl<'a, W: Write> StreamWriter<'a, W> {
- fn new(writer: ChunkOutput<'a, W>, buf_len: usize) -> Result<StreamWriter<'a, W>> {
- let PartialInfo {
- width,
- height,
- frame_control: fctl,
- compression,
- ..
- } = writer.info;
-
- let bpp = writer.info.bpp_in_prediction();
- let in_len = writer.info.raw_row_length() - 1;
- let filter = writer.options.filter;
- let adaptive_filter = writer.options.adaptive_filter;
- let prev_buf = vec![0; in_len];
- let curr_buf = vec![0; in_len];
-
- let mut chunk_writer = ChunkWriter::new(writer, buf_len);
- let (line_len, to_write) = chunk_writer.next_frame_info();
- chunk_writer.write_header()?;
- let zlib = ZlibEncoder::new(chunk_writer, compression.to_options());
-
- Ok(StreamWriter {
- writer: Wrapper::Zlib(zlib),
- index: 0,
- prev_buf,
- curr_buf,
- bpp,
- filter,
- width,
- height,
- adaptive_filter,
- line_len,
- to_write,
- fctl,
- compression,
- })
- }
-
- /// Set the used filter type for the next frame.
- ///
- /// The default filter is [`FilterType::Sub`] which provides a basic prediction algorithm for
- /// sample values based on the previous. For a potentially better compression ratio, at the
- /// cost of more complex processing, try out [`FilterType::Paeth`].
- ///
- /// [`FilterType::Sub`]: enum.FilterType.html#variant.Sub
- /// [`FilterType::Paeth`]: enum.FilterType.html#variant.Paeth
- pub fn set_filter(&mut self, filter: FilterType) {
- self.filter = filter;
- }
-
- /// Set the adaptive filter type for the next frame.
- ///
- /// Adaptive filtering attempts to select the best filter for each line
- /// based on heuristics which minimize the file size for compression rather
- /// than use a single filter for the entire image. The default method is
- /// [`AdaptiveFilterType::NonAdaptive`].
- ///
- /// [`AdaptiveFilterType::NonAdaptive`]: enum.AdaptiveFilterType.html
- pub fn set_adaptive_filter(&mut self, adaptive_filter: AdaptiveFilterType) {
- self.adaptive_filter = adaptive_filter;
- }
-
- /// Set the fraction of time the following frames are going to be displayed,
- /// in seconds
- ///
- /// If the denominator is 0, it is to be treated as if it were 100
- /// (that is, the numerator then specifies 1/100ths of a second).
- /// If the the value of the numerator is 0 the decoder should render the next frame
- /// as quickly as possible, though viewers may impose a reasonable lower bound.
- ///
- /// This method will return an error if the image is not animated.
- pub fn set_frame_delay(&mut self, numerator: u16, denominator: u16) -> Result<()> {
- if let Some(ref mut fctl) = self.fctl {
- fctl.delay_den = denominator;
- fctl.delay_num = numerator;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the dimension of the following frames.
- ///
- /// This function will return an error when:
- /// - The image is not an animated;
- ///
- /// - The selected dimension, considering also the current frame position,
- /// goes outside the image boundaries;
- ///
- /// - One or both the width and height are 0;
- ///
- pub fn set_frame_dimension(&mut self, width: u32, height: u32) -> Result<()> {
- if let Some(ref mut fctl) = self.fctl {
- if Some(width) > self.width.checked_sub(fctl.x_offset)
- || Some(height) > self.height.checked_sub(fctl.y_offset)
- {
- return Err(EncodingError::Format(FormatErrorKind::OutOfBounds.into()));
- } else if width == 0 {
- return Err(EncodingError::Format(FormatErrorKind::ZeroWidth.into()));
- } else if height == 0 {
- return Err(EncodingError::Format(FormatErrorKind::ZeroHeight.into()));
- }
- fctl.width = width;
- fctl.height = height;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the position of the following frames.
- ///
- /// An error will be returned if:
- /// - The image is not animated;
- ///
- /// - The selected position, considering also the current frame dimension,
- /// goes outside the image boundaries;
- ///
- pub fn set_frame_position(&mut self, x: u32, y: u32) -> Result<()> {
- if let Some(ref mut fctl) = self.fctl {
- if Some(x) > self.width.checked_sub(fctl.width)
- || Some(y) > self.height.checked_sub(fctl.height)
- {
- return Err(EncodingError::Format(FormatErrorKind::OutOfBounds.into()));
- }
- fctl.x_offset = x;
- fctl.y_offset = y;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the frame dimension to occupy all the image, starting from
- /// the current position.
- ///
- /// To reset the frame to the full image size [`reset_frame_position`]
- /// should be called first.
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`reset_frame_position`]: struct.Writer.html#method.reset_frame_position
- pub fn reset_frame_dimension(&mut self) -> Result<()> {
- if let Some(ref mut fctl) = self.fctl {
- fctl.width = self.width - fctl.x_offset;
- fctl.height = self.height - fctl.y_offset;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the frame position to (0, 0).
- ///
- /// Equivalent to calling [`set_frame_position(0, 0)`].
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`set_frame_position(0, 0)`]: struct.Writer.html#method.set_frame_position
- pub fn reset_frame_position(&mut self) -> Result<()> {
- if let Some(ref mut fctl) = self.fctl {
- fctl.x_offset = 0;
- fctl.y_offset = 0;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the blend operation for the following frames.
- ///
- /// The blend operation specifies whether the frame is to be alpha blended
- /// into the current output buffer content, or whether it should completely
- /// replace its region in the output buffer.
- ///
- /// See the [`BlendOp`] documentation for the possible values and their effects.
- ///
- /// *Note that for the first frame the two blend modes are functionally
- /// equivalent due to the clearing of the output buffer at the beginning
- /// of each play.*
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`BlendOP`]: enum.BlendOp.html
- pub fn set_blend_op(&mut self, op: BlendOp) -> Result<()> {
- if let Some(ref mut fctl) = self.fctl {
- fctl.blend_op = op;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- /// Set the dispose operation for the following frames.
- ///
- /// The dispose operation specifies how the output buffer should be changed
- /// at the end of the delay (before rendering the next frame)
- ///
- /// See the [`DisposeOp`] documentation for the possible values and their effects.
- ///
- /// *Note that if the first frame uses [`DisposeOp::Previous`]
- /// it will be treated as [`DisposeOp::Background`].*
- ///
- /// This method will return an error if the image is not animated.
- ///
- /// [`DisposeOp`]: ../common/enum.BlendOp.html
- /// [`DisposeOp::Previous`]: ../common/enum.BlendOp.html#variant.Previous
- /// [`DisposeOp::Background`]: ../common/enum.BlendOp.html#variant.Background
- pub fn set_dispose_op(&mut self, op: DisposeOp) -> Result<()> {
- if let Some(ref mut fctl) = self.fctl {
- fctl.dispose_op = op;
- Ok(())
- } else {
- Err(EncodingError::Format(FormatErrorKind::NotAnimated.into()))
- }
- }
-
- pub fn finish(mut self) -> Result<()> {
- if self.to_write > 0 {
- let err = FormatErrorKind::MissingData(self.to_write).into();
- return Err(EncodingError::Format(err));
- }
-
- // TODO: call `writer.finish` somehow?
- self.flush()?;
-
- if let Wrapper::Chunk(wrt) = self.writer.take() {
- wrt.writer.validate_sequence_done()?;
- }
-
- Ok(())
- }
-
- /// Flushes the buffered chunk, checks if it was the last frame,
- /// writes the next frame header and gets the next frame scanline size
- /// and image size.
- /// NOTE: This method must only be called when the writer is the variant Chunk(_)
- fn new_frame(&mut self) -> Result<()> {
- let wrt = match &mut self.writer {
- Wrapper::Chunk(wrt) => wrt,
- Wrapper::Unrecoverable => {
- let err = FormatErrorKind::Unrecoverable.into();
- return Err(EncodingError::Format(err));
- }
- Wrapper::Zlib(_) => unreachable!("never called on a half-finished frame"),
- Wrapper::None => unreachable!(),
- };
- wrt.flush()?;
- wrt.writer.validate_new_image()?;
-
- if let Some(fctl) = self.fctl {
- wrt.set_fctl(fctl);
- }
- let (scansize, size) = wrt.next_frame_info();
- self.line_len = scansize;
- self.to_write = size;
-
- wrt.write_header()?;
- wrt.writer.increment_images_written();
-
- // now it can be taken because the next statements cannot cause any errors
- match self.writer.take() {
- Wrapper::Chunk(wrt) => {
- let encoder = ZlibEncoder::new(wrt, self.compression.to_options());
- self.writer = Wrapper::Zlib(encoder);
- }
- _ => unreachable!(),
- };
-
- Ok(())
- }
-}
-
-impl<'a, W: Write> Write for StreamWriter<'a, W> {
- fn write(&mut self, mut data: &[u8]) -> io::Result<usize> {
- if let Wrapper::Unrecoverable = self.writer {
- let err = FormatErrorKind::Unrecoverable.into();
- return Err(EncodingError::Format(err).into());
- }
-
- if data.is_empty() {
- return Ok(0);
- }
-
- if self.to_write == 0 {
- match self.writer.take() {
- Wrapper::Zlib(wrt) => match wrt.finish() {
- Ok(chunk) => self.writer = Wrapper::Chunk(chunk),
- Err(err) => {
- self.writer = Wrapper::Unrecoverable;
- return Err(err);
- }
- },
- chunk @ Wrapper::Chunk(_) => self.writer = chunk,
- Wrapper::Unrecoverable => unreachable!(),
- Wrapper::None => unreachable!(),
- };
-
- // Transition Wrapper::Chunk to Wrapper::Zlib.
- self.new_frame()?;
- }
-
- let written = data.read(&mut self.curr_buf[..self.line_len][self.index..])?;
- self.index += written;
- self.to_write -= written;
-
- if self.index == self.line_len {
- // TODO: reuse this buffer between rows.
- let mut filtered = vec![0; self.curr_buf.len()];
- let filter_type = filter(
- self.filter,
- self.adaptive_filter,
- self.bpp,
- &self.prev_buf,
- &self.curr_buf,
- &mut filtered,
- );
- // This can't fail as the other variant is used only to allow the zlib encoder to finish
- let wrt = match &mut self.writer {
- Wrapper::Zlib(wrt) => wrt,
- _ => unreachable!(),
- };
-
- wrt.write_all(&[filter_type as u8])?;
- wrt.write_all(&filtered)?;
- mem::swap(&mut self.prev_buf, &mut self.curr_buf);
- self.index = 0;
- }
-
- Ok(written)
- }
-
- fn flush(&mut self) -> io::Result<()> {
- match &mut self.writer {
- Wrapper::Zlib(wrt) => wrt.flush()?,
- Wrapper::Chunk(wrt) => wrt.flush()?,
- // This handles both the case where we entered an unrecoverable state after zlib
- // decoding failure and after a panic while we had taken the chunk/zlib reader.
- Wrapper::Unrecoverable | Wrapper::None => {
- let err = FormatErrorKind::Unrecoverable.into();
- return Err(EncodingError::Format(err).into());
- }
- }
-
- if self.index > 0 {
- let err = FormatErrorKind::WrittenTooMuch(self.index).into();
- return Err(EncodingError::Format(err).into());
- }
-
- Ok(())
- }
-}
-
-impl<W: Write> Drop for StreamWriter<'_, W> {
- fn drop(&mut self) {
- let _ = self.flush();
- }
-}
-
-#[cfg(test)]
-mod tests {
- use super::*;
- use crate::Decoder;
-
- use rand::{thread_rng, Rng};
- use std::fs::File;
- use std::io::{Cursor, Write};
- use std::{cmp, io};
-
- #[test]
- fn roundtrip() {
- // More loops = more random testing, but also more test wait time
- for _ in 0..10 {
- for path in glob::glob("tests/pngsuite/*.png")
- .unwrap()
- .map(|r| r.unwrap())
- {
- if path.file_name().unwrap().to_str().unwrap().starts_with('x') {
- // x* files are expected to fail to decode
- continue;
- }
- eprintln!("{}", path.display());
- // Decode image
- let decoder = Decoder::new(File::open(path).unwrap());
- let mut reader = decoder.read_info().unwrap();
- let mut buf = vec![0; reader.output_buffer_size()];
- let info = reader.next_frame(&mut buf).unwrap();
- // Encode decoded image
- let mut out = Vec::new();
- {
- let mut wrapper = RandomChunkWriter {
- rng: thread_rng(),
- w: &mut out,
- };
-
- let mut encoder = Encoder::new(&mut wrapper, info.width, info.height);
- encoder.set_color(info.color_type);
- encoder.set_depth(info.bit_depth);
- if let Some(palette) = &reader.info().palette {
- encoder.set_palette(palette.clone());
- }
- let mut encoder = encoder.write_header().unwrap();
- encoder.write_image_data(&buf).unwrap();
- }
- // Decode encoded decoded image
- let decoder = Decoder::new(&*out);
- let mut reader = decoder.read_info().unwrap();
- let mut buf2 = vec![0; reader.output_buffer_size()];
- reader.next_frame(&mut buf2).unwrap();
- // check if the encoded image is ok:
- assert_eq!(buf, buf2);
- }
- }
- }
-
- #[test]
- fn roundtrip_stream() {
- // More loops = more random testing, but also more test wait time
- for _ in 0..10 {
- for path in glob::glob("tests/pngsuite/*.png")
- .unwrap()
- .map(|r| r.unwrap())
- {
- if path.file_name().unwrap().to_str().unwrap().starts_with('x') {
- // x* files are expected to fail to decode
- continue;
- }
- // Decode image
- let decoder = Decoder::new(File::open(path).unwrap());
- let mut reader = decoder.read_info().unwrap();
- let mut buf = vec![0; reader.output_buffer_size()];
- let info = reader.next_frame(&mut buf).unwrap();
- // Encode decoded image
- let mut out = Vec::new();
- {
- let mut wrapper = RandomChunkWriter {
- rng: thread_rng(),
- w: &mut out,
- };
-
- let mut encoder = Encoder::new(&mut wrapper, info.width, info.height);
- encoder.set_color(info.color_type);
- encoder.set_depth(info.bit_depth);
- if let Some(palette) = &reader.info().palette {
- encoder.set_palette(palette.clone());
- }
- let mut encoder = encoder.write_header().unwrap();
- let mut stream_writer = encoder.stream_writer().unwrap();
-
- let mut outer_wrapper = RandomChunkWriter {
- rng: thread_rng(),
- w: &mut stream_writer,
- };
-
- outer_wrapper.write_all(&buf).unwrap();
- }
- // Decode encoded decoded image
- let decoder = Decoder::new(&*out);
- let mut reader = decoder.read_info().unwrap();
- let mut buf2 = vec![0; reader.output_buffer_size()];
- reader.next_frame(&mut buf2).unwrap();
- // check if the encoded image is ok:
- assert_eq!(buf, buf2);
- }
- }
- }
-
- #[test]
- fn image_palette() -> Result<()> {
- for &bit_depth in &[1u8, 2, 4, 8] {
- // Do a reference decoding, choose a fitting palette image from pngsuite
- let path = format!("tests/pngsuite/basn3p0{}.png", bit_depth);
- let decoder = Decoder::new(File::open(&path).unwrap());
- let mut reader = decoder.read_info().unwrap();
-
- let mut decoded_pixels = vec![0; reader.output_buffer_size()];
- let info = reader.info();
- assert_eq!(
- info.width as usize * info.height as usize * usize::from(bit_depth),
- decoded_pixels.len() * 8
- );
- let info = reader.next_frame(&mut decoded_pixels).unwrap();
- let indexed_data = decoded_pixels;
-
- let palette = reader.info().palette.as_ref().unwrap();
- let mut out = Vec::new();
- {
- let mut encoder = Encoder::new(&mut out, info.width, info.height);
- encoder.set_depth(BitDepth::from_u8(bit_depth).unwrap());
- encoder.set_color(ColorType::Indexed);
- encoder.set_palette(palette.as_ref());
-
- let mut writer = encoder.write_header().unwrap();
- writer.write_image_data(&indexed_data).unwrap();
- }
-
- // Decode re-encoded image
- let decoder = Decoder::new(&*out);
- let mut reader = decoder.read_info().unwrap();
- let mut redecoded = vec![0; reader.output_buffer_size()];
- reader.next_frame(&mut redecoded).unwrap();
- // check if the encoded image is ok:
- assert_eq!(indexed_data, redecoded);
- }
- Ok(())
- }
-
- #[test]
- fn expect_error_on_wrong_image_len() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
- let mut encoder = Encoder::new(writer, width as u32, height as u32);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Rgb);
- let mut png_writer = encoder.write_header()?;
-
- let correct_image_size = width * height * 3;
- let image = vec![0u8; correct_image_size + 1];
- let result = png_writer.write_image_data(image.as_ref());
- assert!(result.is_err());
-
- Ok(())
- }
-
- #[test]
- fn expect_error_on_empty_image() -> Result<()> {
- let output = vec![0u8; 1024];
- let mut writer = Cursor::new(output);
-
- let encoder = Encoder::new(&mut writer, 0, 0);
- assert!(encoder.write_header().is_err());
-
- let encoder = Encoder::new(&mut writer, 100, 0);
- assert!(encoder.write_header().is_err());
-
- let encoder = Encoder::new(&mut writer, 0, 100);
- assert!(encoder.write_header().is_err());
-
- Ok(())
- }
-
- #[test]
- fn expect_error_on_invalid_bit_depth_color_type_combination() -> Result<()> {
- let output = vec![0u8; 1024];
- let mut writer = Cursor::new(output);
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::One);
- encoder.set_color(ColorType::Rgb);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::One);
- encoder.set_color(ColorType::GrayscaleAlpha);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::One);
- encoder.set_color(ColorType::Rgba);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Two);
- encoder.set_color(ColorType::Rgb);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Two);
- encoder.set_color(ColorType::GrayscaleAlpha);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Two);
- encoder.set_color(ColorType::Rgba);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Four);
- encoder.set_color(ColorType::Rgb);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Four);
- encoder.set_color(ColorType::GrayscaleAlpha);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Four);
- encoder.set_color(ColorType::Rgba);
- assert!(encoder.write_header().is_err());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Sixteen);
- encoder.set_color(ColorType::Indexed);
- assert!(encoder.write_header().is_err());
-
- Ok(())
- }
-
- #[test]
- fn can_write_header_with_valid_bit_depth_color_type_combination() -> Result<()> {
- let output = vec![0u8; 1024];
- let mut writer = Cursor::new(output);
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::One);
- encoder.set_color(ColorType::Grayscale);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::One);
- encoder.set_color(ColorType::Indexed);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Two);
- encoder.set_color(ColorType::Grayscale);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Two);
- encoder.set_color(ColorType::Indexed);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Four);
- encoder.set_color(ColorType::Grayscale);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Four);
- encoder.set_color(ColorType::Indexed);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Rgb);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Indexed);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::GrayscaleAlpha);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Rgba);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Sixteen);
- encoder.set_color(ColorType::Grayscale);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Sixteen);
- encoder.set_color(ColorType::Rgb);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Sixteen);
- encoder.set_color(ColorType::GrayscaleAlpha);
- assert!(encoder.write_header().is_ok());
-
- let mut encoder = Encoder::new(&mut writer, 1, 1);
- encoder.set_depth(BitDepth::Sixteen);
- encoder.set_color(ColorType::Rgba);
- assert!(encoder.write_header().is_ok());
-
- Ok(())
- }
-
- #[test]
- fn all_filters_roundtrip() -> io::Result<()> {
- let pixel: Vec<_> = (0..48).collect();
-
- let roundtrip = |filter: FilterType| -> io::Result<()> {
- let mut buffer = vec![];
- let mut encoder = Encoder::new(&mut buffer, 4, 4);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Rgb);
- encoder.set_filter(filter);
- encoder.write_header()?.write_image_data(&pixel)?;
-
- let decoder = crate::Decoder::new(Cursor::new(buffer));
- let mut reader = decoder.read_info()?;
- let info = reader.info();
- assert_eq!(info.width, 4);
- assert_eq!(info.height, 4);
- let mut dest = vec![0; pixel.len()];
- reader.next_frame(&mut dest)?;
- assert_eq!(dest, pixel, "Deviation with filter type {:?}", filter);
-
- Ok(())
- };
-
- roundtrip(FilterType::NoFilter)?;
- roundtrip(FilterType::Sub)?;
- roundtrip(FilterType::Up)?;
- roundtrip(FilterType::Avg)?;
- roundtrip(FilterType::Paeth)?;
-
- Ok(())
- }
-
- #[test]
- fn some_gamma_roundtrip() -> io::Result<()> {
- let pixel: Vec<_> = (0..48).collect();
-
- let roundtrip = |gamma: Option<ScaledFloat>| -> io::Result<()> {
- let mut buffer = vec![];
- let mut encoder = Encoder::new(&mut buffer, 4, 4);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Rgb);
- encoder.set_filter(FilterType::Avg);
- if let Some(gamma) = gamma {
- encoder.set_source_gamma(gamma);
- }
- encoder.write_header()?.write_image_data(&pixel)?;
-
- let decoder = crate::Decoder::new(Cursor::new(buffer));
- let mut reader = decoder.read_info()?;
- assert_eq!(
- reader.info().source_gamma,
- gamma,
- "Deviation with gamma {:?}",
- gamma
- );
- let mut dest = vec![0; pixel.len()];
- let info = reader.next_frame(&mut dest)?;
- assert_eq!(info.width, 4);
- assert_eq!(info.height, 4);
-
- Ok(())
- };
-
- roundtrip(None)?;
- roundtrip(Some(ScaledFloat::new(0.35)))?;
- roundtrip(Some(ScaledFloat::new(0.45)))?;
- roundtrip(Some(ScaledFloat::new(0.55)))?;
- roundtrip(Some(ScaledFloat::new(0.7)))?;
- roundtrip(Some(ScaledFloat::new(1.0)))?;
- roundtrip(Some(ScaledFloat::new(2.5)))?;
-
- Ok(())
- }
-
- #[test]
- fn write_image_chunks_beyond_first() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
-
- // Not an animation but we should still be able to write multiple images
- // See issue: <https://github.com/image-rs/image-png/issues/301>
- // This is technically all valid png so there is no issue with correctness.
- let mut encoder = Encoder::new(writer, width, height);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- let mut png_writer = encoder.write_header()?;
-
- for _ in 0..3 {
- let correct_image_size = (width * height) as usize;
- let image = vec![0u8; correct_image_size];
- png_writer.write_image_data(image.as_ref())?;
- }
-
- Ok(())
- }
-
- #[test]
- fn image_validate_sequence_without_animation() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
-
- let mut encoder = Encoder::new(writer, width, height);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- encoder.validate_sequence(true);
- let mut png_writer = encoder.write_header()?;
-
- let correct_image_size = (width * height) as usize;
- let image = vec![0u8; correct_image_size];
- png_writer.write_image_data(image.as_ref())?;
-
- assert!(png_writer.write_image_data(image.as_ref()).is_err());
- Ok(())
- }
-
- #[test]
- fn image_validate_animation() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
- let correct_image_size = (width * height) as usize;
- let image = vec![0u8; correct_image_size];
-
- let mut encoder = Encoder::new(writer, width, height);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- encoder.set_animated(1, 0)?;
- encoder.validate_sequence(true);
- let mut png_writer = encoder.write_header()?;
-
- png_writer.write_image_data(image.as_ref())?;
-
- Ok(())
- }
-
- #[test]
- fn image_validate_animation2() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
- let correct_image_size = (width * height) as usize;
- let image = vec![0u8; correct_image_size];
-
- let mut encoder = Encoder::new(writer, width, height);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- encoder.set_animated(2, 0)?;
- encoder.validate_sequence(true);
- let mut png_writer = encoder.write_header()?;
-
- png_writer.write_image_data(image.as_ref())?;
- png_writer.write_image_data(image.as_ref())?;
- png_writer.finish()?;
-
- Ok(())
- }
-
- #[test]
- fn image_validate_animation_sep_def_image() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
- let correct_image_size = (width * height) as usize;
- let image = vec![0u8; correct_image_size];
-
- let mut encoder = Encoder::new(writer, width, height);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- encoder.set_animated(1, 0)?;
- encoder.set_sep_def_img(true)?;
- encoder.validate_sequence(true);
- let mut png_writer = encoder.write_header()?;
-
- png_writer.write_image_data(image.as_ref())?;
- png_writer.write_image_data(image.as_ref())?;
- png_writer.finish()?;
-
- Ok(())
- }
-
- #[test]
- fn image_validate_missing_image() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
-
- let mut encoder = Encoder::new(writer, width, height);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- encoder.validate_sequence(true);
- let png_writer = encoder.write_header()?;
-
- assert!(png_writer.finish().is_err());
- Ok(())
- }
-
- #[test]
- fn image_validate_missing_animated_frame() -> Result<()> {
- let width = 10;
- let height = 10;
-
- let output = vec![0u8; 1024];
- let writer = Cursor::new(output);
- let correct_image_size = (width * height) as usize;
- let image = vec![0u8; correct_image_size];
-
- let mut encoder = Encoder::new(writer, width, height);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- encoder.set_animated(2, 0)?;
- encoder.validate_sequence(true);
- let mut png_writer = encoder.write_header()?;
-
- png_writer.write_image_data(image.as_ref())?;
- assert!(png_writer.finish().is_err());
-
- Ok(())
- }
-
- #[test]
- fn issue_307_stream_validation() -> Result<()> {
- let output = vec![0u8; 1024];
- let mut cursor = Cursor::new(output);
-
- let encoder = Encoder::new(&mut cursor, 1, 1); // Create a 1-pixel image
- let mut writer = encoder.write_header()?;
- let mut stream = writer.stream_writer()?;
-
- let written = stream.write(&[1, 2, 3, 4])?;
- assert_eq!(written, 1);
- stream.finish()?;
- drop(writer);
-
- {
- cursor.set_position(0);
- let mut decoder = Decoder::new(cursor).read_info().expect("A valid image");
- let mut buffer = [0u8; 1];
- decoder.next_frame(&mut buffer[..]).expect("Valid read");
- assert_eq!(buffer, [1]);
- }
-
- Ok(())
- }
-
- #[test]
- fn stream_filtering() -> Result<()> {
- let output = vec![0u8; 1024];
- let mut cursor = Cursor::new(output);
-
- let mut encoder = Encoder::new(&mut cursor, 8, 8);
- encoder.set_color(ColorType::Rgba);
- encoder.set_filter(FilterType::Paeth);
- let mut writer = encoder.write_header()?;
- let mut stream = writer.stream_writer()?;
-
- for _ in 0..8 {
- let written = stream.write(&[1; 32])?;
- assert_eq!(written, 32);
- }
- stream.finish()?;
- drop(writer);
-
- {
- cursor.set_position(0);
- let mut decoder = Decoder::new(cursor).read_info().expect("A valid image");
- let mut buffer = [0u8; 256];
- decoder.next_frame(&mut buffer[..]).expect("Valid read");
- assert_eq!(buffer, [1; 256]);
- }
-
- Ok(())
- }
-
- #[test]
- #[cfg(all(unix, not(target_pointer_width = "32")))]
- fn exper_error_on_huge_chunk() -> Result<()> {
- // Okay, so we want a proper 4 GB chunk but not actually spend the memory for reserving it.
- // Let's rely on overcommit? Otherwise we got the rather dumb option of mmap-ing /dev/zero.
- let empty = vec![0; 1usize << 31];
- let writer = Cursor::new(vec![0u8; 1024]);
-
- let mut encoder = Encoder::new(writer, 10, 10);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- let mut png_writer = encoder.write_header()?;
-
- assert!(png_writer.write_chunk(chunk::fdAT, &empty).is_err());
- Ok(())
- }
-
- #[test]
- #[cfg(all(unix, not(target_pointer_width = "32")))]
- fn exper_error_on_non_u32_chunk() -> Result<()> {
- // Okay, so we want a proper 4 GB chunk but not actually spend the memory for reserving it.
- // Let's rely on overcommit? Otherwise we got the rather dumb option of mmap-ing /dev/zero.
- let empty = vec![0; 1usize << 32];
- let writer = Cursor::new(vec![0u8; 1024]);
-
- let mut encoder = Encoder::new(writer, 10, 10);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
- let mut png_writer = encoder.write_header()?;
-
- assert!(png_writer.write_chunk(chunk::fdAT, &empty).is_err());
- Ok(())
- }
-
- #[test]
- fn finish_drops_inner_writer() -> Result<()> {
- struct NoWriter<'flag>(&'flag mut bool);
-
- impl Write for NoWriter<'_> {
- fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
- Ok(buf.len())
- }
- fn flush(&mut self) -> io::Result<()> {
- Ok(())
- }
- }
- impl Drop for NoWriter<'_> {
- fn drop(&mut self) {
- *self.0 = true;
- }
- }
-
- let mut flag = false;
-
- {
- let mut encoder = Encoder::new(NoWriter(&mut flag), 10, 10);
- encoder.set_depth(BitDepth::Eight);
- encoder.set_color(ColorType::Grayscale);
-
- let mut writer = encoder.write_header()?;
- writer.write_image_data(&[0; 100])?;
- writer.finish()?;
- }
-
- assert!(flag, "PNG finished but writer was not dropped");
- Ok(())
- }
-
- /// A Writer that only writes a few bytes at a time
- struct RandomChunkWriter<R: Rng, W: Write> {
- rng: R,
- w: W,
- }
-
- impl<R: Rng, W: Write> Write for RandomChunkWriter<R, W> {
- fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
- // choose a random length to write
- let len = cmp::min(self.rng.gen_range(1..50), buf.len());
-
- self.w.write(&buf[0..len])
- }
-
- fn flush(&mut self) -> io::Result<()> {
- self.w.flush()
- }
- }
-}
-
-/// Mod to encapsulate the converters depending on the `deflate` crate.
-///
-/// Since this only contains trait impls, there is no need to make this public, they are simply
-/// available when the mod is compiled as well.
-impl Compression {
- fn to_options(self) -> flate2::Compression {
- #[allow(deprecated)]
- match self {
- Compression::Default => flate2::Compression::default(),
- Compression::Fast => flate2::Compression::fast(),
- Compression::Best => flate2::Compression::best(),
- #[allow(deprecated)]
- Compression::Huffman => flate2::Compression::none(),
- #[allow(deprecated)]
- Compression::Rle => flate2::Compression::none(),
- }
- }
-}
diff --git a/vendor/png/src/filter.rs b/vendor/png/src/filter.rs
deleted file mode 100644
index b561e4e..0000000
--- a/vendor/png/src/filter.rs
+++ /dev/null
@@ -1,801 +0,0 @@
-use core::convert::TryInto;
-
-use crate::common::BytesPerPixel;
-
-/// The byte level filter applied to scanlines to prepare them for compression.
-///
-/// Compression in general benefits from repetitive data. The filter is a content-aware method of
-/// compressing the range of occurring byte values to help the compression algorithm. Note that
-/// this does not operate on pixels but on raw bytes of a scanline.
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-#[repr(u8)]
-pub enum FilterType {
- NoFilter = 0,
- Sub = 1,
- Up = 2,
- Avg = 3,
- Paeth = 4,
-}
-
-impl Default for FilterType {
- fn default() -> Self {
- FilterType::Sub
- }
-}
-
-impl FilterType {
- /// u8 -> Self. Temporary solution until Rust provides a canonical one.
- pub fn from_u8(n: u8) -> Option<FilterType> {
- match n {
- 0 => Some(FilterType::NoFilter),
- 1 => Some(FilterType::Sub),
- 2 => Some(FilterType::Up),
- 3 => Some(FilterType::Avg),
- 4 => Some(FilterType::Paeth),
- _ => None,
- }
- }
-}
-
-/// The filtering method for preprocessing scanline data before compression.
-///
-/// Adaptive filtering performs additional computation in an attempt to maximize
-/// the compression of the data. [`NonAdaptive`] filtering is the default.
-///
-/// [`NonAdaptive`]: enum.AdaptiveFilterType.html#variant.NonAdaptive
-#[derive(Debug, Clone, Copy, PartialEq, Eq)]
-#[repr(u8)]
-pub enum AdaptiveFilterType {
- Adaptive,
- NonAdaptive,
-}
-
-impl Default for AdaptiveFilterType {
- fn default() -> Self {
- AdaptiveFilterType::NonAdaptive
- }
-}
-
-fn filter_paeth_decode(a: u8, b: u8, c: u8) -> u8 {
- // Decoding seems to optimize better with this algorithm
- let pa = (i16::from(b) - i16::from(c)).abs();
- let pb = (i16::from(a) - i16::from(c)).abs();
- let pc = ((i16::from(a) - i16::from(c)) + (i16::from(b) - i16::from(c))).abs();
-
- let mut out = a;
- let mut min = pa;
-
- if pb < min {
- min = pb;
- out = b;
- }
- if pc < min {
- out = c;
- }
-
- out
-}
-
-fn filter_paeth(a: u8, b: u8, c: u8) -> u8 {
- // This is an optimized version of the paeth filter from the PNG specification, proposed by
- // Luca Versari for [FPNGE](https://www.lucaversari.it/FJXL_and_FPNGE.pdf). It operates
- // entirely on unsigned 8-bit quantities, making it more conducive to vectorization.
- //
- // p = a + b - c
- // pa = |p - a| = |a + b - c - a| = |b - c| = max(b, c) - min(b, c)
- // pb = |p - b| = |a + b - c - b| = |a - c| = max(a, c) - min(a, c)
- // pc = |p - c| = |a + b - c - c| = |(b - c) + (a - c)| = ...
- //
- // Further optimizing the calculation of `pc` a bit tricker. However, notice that:
- //
- // a > c && b > c
- // ==> (a - c) > 0 && (b - c) > 0
- // ==> pc > (a - c) && pc > (b - c)
- // ==> pc > |a - c| && pc > |b - c|
- // ==> pc > pb && pc > pa
- //
- // Meaning that if `c` is smaller than `a` and `b`, the value of `pc` is irrelevant. Similar
- // reasoning applies if `c` is larger than the other two inputs. Assuming that `c >= b` and
- // `c <= b` or vice versa:
- //
- // pc = ||b - c| - |a - c|| = |pa - pb| = max(pa, pb) - min(pa, pb)
- //
- let pa = b.max(c) - c.min(b);
- let pb = a.max(c) - c.min(a);
- let pc = if (a < c) == (c < b) {
- pa.max(pb) - pa.min(pb)
- } else {
- 255
- };
-
- if pa <= pb && pa <= pc {
- a
- } else if pb <= pc {
- b
- } else {
- c
- }
-}
-
-pub(crate) fn unfilter(
- filter: FilterType,
- tbpp: BytesPerPixel,
- previous: &[u8],
- current: &mut [u8],
-) {
- use self::FilterType::*;
-
- // [2023/01 @okaneco] - Notes on optimizing decoding filters
- //
- // Links:
- // [PR]: https://github.com/image-rs/image-png/pull/382
- // [SWAR]: http://aggregate.org/SWAR/over.html
- // [AVG]: http://aggregate.org/MAGIC/#Average%20of%20Integers
- //
- // #382 heavily refactored and optimized the following filters making the
- // implementation nonobvious. These comments function as a summary of that
- // PR with an explanation of the choices made below.
- //
- // #382 originally started with trying to optimize using a technique called
- // SWAR, SIMD Within a Register. SWAR uses regular integer types like `u32`
- // and `u64` as SIMD registers to perform vertical operations in parallel,
- // usually involving bit-twiddling. This allowed each `BytesPerPixel` (bpp)
- // pixel to be decoded in parallel: 3bpp and 4bpp in a `u32`, 6bpp and 8pp
- // in a `u64`. The `Sub` filter looked like the following code block, `Avg`
- // was similar but used a bitwise average method from [AVG]:
- // ```
- // // See "Unpartitioned Operations With Correction Code" from [SWAR]
- // fn swar_add_u32(x: u32, y: u32) -> u32 {
- // // 7-bit addition so there's no carry over the most significant bit
- // let n = (x & 0x7f7f7f7f) + (y & 0x7f7f7f7f); // 0x7F = 0b_0111_1111
- // // 1-bit parity/XOR addition to fill in the missing MSB
- // n ^ (x ^ y) & 0x80808080 // 0x80 = 0b_1000_0000
- // }
- //
- // let mut prev =
- // u32::from_ne_bytes([current[0], current[1], current[2], current[3]]);
- // for chunk in current[4..].chunks_exact_mut(4) {
- // let cur = u32::from_ne_bytes([chunk[0], chunk[1], chunk[2], chunk[3]]);
- // let new_chunk = swar_add_u32(cur, prev);
- // chunk.copy_from_slice(&new_chunk.to_ne_bytes());
- // prev = new_chunk;
- // }
- // ```
- // While this provided a measurable increase, @fintelia found that this idea
- // could be taken even further by unrolling the chunks component-wise and
- // avoiding unnecessary byte-shuffling by using byte arrays instead of
- // `u32::from|to_ne_bytes`. The bitwise operations were no longer necessary
- // so they were reverted to their obvious arithmetic equivalent. Lastly,
- // `TryInto` was used instead of `copy_from_slice`. The `Sub` code now
- // looked like this (with asserts to remove `0..bpp` bounds checks):
- // ```
- // assert!(len > 3);
- // let mut prev = [current[0], current[1], current[2], current[3]];
- // for chunk in current[4..].chunks_exact_mut(4) {
- // let new_chunk = [
- // chunk[0].wrapping_add(prev[0]),
- // chunk[1].wrapping_add(prev[1]),
- // chunk[2].wrapping_add(prev[2]),
- // chunk[3].wrapping_add(prev[3]),
- // ];
- // *TryInto::<&mut [u8; 4]>::try_into(chunk).unwrap() = new_chunk;
- // prev = new_chunk;
- // }
- // ```
- // The compiler was able to optimize the code to be even faster and this
- // method even sped up Paeth filtering! Assertions were experimentally
- // added within loop bodies which produced better instructions but no
- // difference in speed. Finally, the code was refactored to remove manual
- // slicing and start the previous pixel chunks with arrays of `[0; N]`.
- // ```
- // let mut prev = [0; 4];
- // for chunk in current.chunks_exact_mut(4) {
- // let new_chunk = [
- // chunk[0].wrapping_add(prev[0]),
- // chunk[1].wrapping_add(prev[1]),
- // chunk[2].wrapping_add(prev[2]),
- // chunk[3].wrapping_add(prev[3]),
- // ];
- // *TryInto::<&mut [u8; 4]>::try_into(chunk).unwrap() = new_chunk;
- // prev = new_chunk;
- // }
- // ```
- // While we're not manually bit-twiddling anymore, a possible takeaway from
- // this is to "think in SWAR" when dealing with small byte arrays. Unrolling
- // array operations and performing them component-wise may unlock previously
- // unavailable optimizations from the compiler, even when using the
- // `chunks_exact` methods for their potential auto-vectorization benefits.
- match filter {
- NoFilter => {}
- Sub => match tbpp {
- BytesPerPixel::One => {
- current.iter_mut().reduce(|&mut prev, curr| {
- *curr = curr.wrapping_add(prev);
- curr
- });
- }
- BytesPerPixel::Two => {
- let mut prev = [0; 2];
- for chunk in current.chunks_exact_mut(2) {
- let new_chunk = [
- chunk[0].wrapping_add(prev[0]),
- chunk[1].wrapping_add(prev[1]),
- ];
- *TryInto::<&mut [u8; 2]>::try_into(chunk).unwrap() = new_chunk;
- prev = new_chunk;
- }
- }
- BytesPerPixel::Three => {
- let mut prev = [0; 3];
- for chunk in current.chunks_exact_mut(3) {
- let new_chunk = [
- chunk[0].wrapping_add(prev[0]),
- chunk[1].wrapping_add(prev[1]),
- chunk[2].wrapping_add(prev[2]),
- ];
- *TryInto::<&mut [u8; 3]>::try_into(chunk).unwrap() = new_chunk;
- prev = new_chunk;
- }
- }
- BytesPerPixel::Four => {
- let mut prev = [0; 4];
- for chunk in current.chunks_exact_mut(4) {
- let new_chunk = [
- chunk[0].wrapping_add(prev[0]),
- chunk[1].wrapping_add(prev[1]),
- chunk[2].wrapping_add(prev[2]),
- chunk[3].wrapping_add(prev[3]),
- ];
- *TryInto::<&mut [u8; 4]>::try_into(chunk).unwrap() = new_chunk;
- prev = new_chunk;
- }
- }
- BytesPerPixel::Six => {
- let mut prev = [0; 6];
- for chunk in current.chunks_exact_mut(6) {
- let new_chunk = [
- chunk[0].wrapping_add(prev[0]),
- chunk[1].wrapping_add(prev[1]),
- chunk[2].wrapping_add(prev[2]),
- chunk[3].wrapping_add(prev[3]),
- chunk[4].wrapping_add(prev[4]),
- chunk[5].wrapping_add(prev[5]),
- ];
- *TryInto::<&mut [u8; 6]>::try_into(chunk).unwrap() = new_chunk;
- prev = new_chunk;
- }
- }
- BytesPerPixel::Eight => {
- let mut prev = [0; 8];
- for chunk in current.chunks_exact_mut(8) {
- let new_chunk = [
- chunk[0].wrapping_add(prev[0]),
- chunk[1].wrapping_add(prev[1]),
- chunk[2].wrapping_add(prev[2]),
- chunk[3].wrapping_add(prev[3]),
- chunk[4].wrapping_add(prev[4]),
- chunk[5].wrapping_add(prev[5]),
- chunk[6].wrapping_add(prev[6]),
- chunk[7].wrapping_add(prev[7]),
- ];
- *TryInto::<&mut [u8; 8]>::try_into(chunk).unwrap() = new_chunk;
- prev = new_chunk;
- }
- }
- },
- Up => {
- for (curr, &above) in current.iter_mut().zip(previous) {
- *curr = curr.wrapping_add(above);
- }
- }
- Avg => match tbpp {
- BytesPerPixel::One => {
- let mut lprev = [0; 1];
- for (chunk, above) in current.chunks_exact_mut(1).zip(previous.chunks_exact(1)) {
- let new_chunk =
- [chunk[0].wrapping_add(((above[0] as u16 + lprev[0] as u16) / 2) as u8)];
- *TryInto::<&mut [u8; 1]>::try_into(chunk).unwrap() = new_chunk;
- lprev = new_chunk;
- }
- }
- BytesPerPixel::Two => {
- let mut lprev = [0; 2];
- for (chunk, above) in current.chunks_exact_mut(2).zip(previous.chunks_exact(2)) {
- let new_chunk = [
- chunk[0].wrapping_add(((above[0] as u16 + lprev[0] as u16) / 2) as u8),
- chunk[1].wrapping_add(((above[1] as u16 + lprev[1] as u16) / 2) as u8),
- ];
- *TryInto::<&mut [u8; 2]>::try_into(chunk).unwrap() = new_chunk;
- lprev = new_chunk;
- }
- }
- BytesPerPixel::Three => {
- let mut lprev = [0; 3];
- for (chunk, above) in current.chunks_exact_mut(3).zip(previous.chunks_exact(3)) {
- let new_chunk = [
- chunk[0].wrapping_add(((above[0] as u16 + lprev[0] as u16) / 2) as u8),
- chunk[1].wrapping_add(((above[1] as u16 + lprev[1] as u16) / 2) as u8),
- chunk[2].wrapping_add(((above[2] as u16 + lprev[2] as u16) / 2) as u8),
- ];
- *TryInto::<&mut [u8; 3]>::try_into(chunk).unwrap() = new_chunk;
- lprev = new_chunk;
- }
- }
- BytesPerPixel::Four => {
- let mut lprev = [0; 4];
- for (chunk, above) in current.chunks_exact_mut(4).zip(previous.chunks_exact(4)) {
- let new_chunk = [
- chunk[0].wrapping_add(((above[0] as u16 + lprev[0] as u16) / 2) as u8),
- chunk[1].wrapping_add(((above[1] as u16 + lprev[1] as u16) / 2) as u8),
- chunk[2].wrapping_add(((above[2] as u16 + lprev[2] as u16) / 2) as u8),
- chunk[3].wrapping_add(((above[3] as u16 + lprev[3] as u16) / 2) as u8),
- ];
- *TryInto::<&mut [u8; 4]>::try_into(chunk).unwrap() = new_chunk;
- lprev = new_chunk;
- }
- }
- BytesPerPixel::Six => {
- let mut lprev = [0; 6];
- for (chunk, above) in current.chunks_exact_mut(6).zip(previous.chunks_exact(6)) {
- let new_chunk = [
- chunk[0].wrapping_add(((above[0] as u16 + lprev[0] as u16) / 2) as u8),
- chunk[1].wrapping_add(((above[1] as u16 + lprev[1] as u16) / 2) as u8),
- chunk[2].wrapping_add(((above[2] as u16 + lprev[2] as u16) / 2) as u8),
- chunk[3].wrapping_add(((above[3] as u16 + lprev[3] as u16) / 2) as u8),
- chunk[4].wrapping_add(((above[4] as u16 + lprev[4] as u16) / 2) as u8),
- chunk[5].wrapping_add(((above[5] as u16 + lprev[5] as u16) / 2) as u8),
- ];
- *TryInto::<&mut [u8; 6]>::try_into(chunk).unwrap() = new_chunk;
- lprev = new_chunk;
- }
- }
- BytesPerPixel::Eight => {
- let mut lprev = [0; 8];
- for (chunk, above) in current.chunks_exact_mut(8).zip(previous.chunks_exact(8)) {
- let new_chunk = [
- chunk[0].wrapping_add(((above[0] as u16 + lprev[0] as u16) / 2) as u8),
- chunk[1].wrapping_add(((above[1] as u16 + lprev[1] as u16) / 2) as u8),
- chunk[2].wrapping_add(((above[2] as u16 + lprev[2] as u16) / 2) as u8),
- chunk[3].wrapping_add(((above[3] as u16 + lprev[3] as u16) / 2) as u8),
- chunk[4].wrapping_add(((above[4] as u16 + lprev[4] as u16) / 2) as u8),
- chunk[5].wrapping_add(((above[5] as u16 + lprev[5] as u16) / 2) as u8),
- chunk[6].wrapping_add(((above[6] as u16 + lprev[6] as u16) / 2) as u8),
- chunk[7].wrapping_add(((above[7] as u16 + lprev[7] as u16) / 2) as u8),
- ];
- *TryInto::<&mut [u8; 8]>::try_into(chunk).unwrap() = new_chunk;
- lprev = new_chunk;
- }
- }
- },
- Paeth => {
- // Paeth filter pixels:
- // C B D
- // A X
- match tbpp {
- BytesPerPixel::One => {
- let mut a_bpp = [0; 1];
- let mut c_bpp = [0; 1];
- for (chunk, b_bpp) in current.chunks_exact_mut(1).zip(previous.chunks_exact(1))
- {
- let new_chunk = [chunk[0]
- .wrapping_add(filter_paeth_decode(a_bpp[0], b_bpp[0], c_bpp[0]))];
- *TryInto::<&mut [u8; 1]>::try_into(chunk).unwrap() = new_chunk;
- a_bpp = new_chunk;
- c_bpp = b_bpp.try_into().unwrap();
- }
- }
- BytesPerPixel::Two => {
- let mut a_bpp = [0; 2];
- let mut c_bpp = [0; 2];
- for (chunk, b_bpp) in current.chunks_exact_mut(2).zip(previous.chunks_exact(2))
- {
- let new_chunk = [
- chunk[0]
- .wrapping_add(filter_paeth_decode(a_bpp[0], b_bpp[0], c_bpp[0])),
- chunk[1]
- .wrapping_add(filter_paeth_decode(a_bpp[1], b_bpp[1], c_bpp[1])),
- ];
- *TryInto::<&mut [u8; 2]>::try_into(chunk).unwrap() = new_chunk;
- a_bpp = new_chunk;
- c_bpp = b_bpp.try_into().unwrap();
- }
- }
- BytesPerPixel::Three => {
- let mut a_bpp = [0; 3];
- let mut c_bpp = [0; 3];
- for (chunk, b_bpp) in current.chunks_exact_mut(3).zip(previous.chunks_exact(3))
- {
- let new_chunk = [
- chunk[0]
- .wrapping_add(filter_paeth_decode(a_bpp[0], b_bpp[0], c_bpp[0])),
- chunk[1]
- .wrapping_add(filter_paeth_decode(a_bpp[1], b_bpp[1], c_bpp[1])),
- chunk[2]
- .wrapping_add(filter_paeth_decode(a_bpp[2], b_bpp[2], c_bpp[2])),
- ];
- *TryInto::<&mut [u8; 3]>::try_into(chunk).unwrap() = new_chunk;
- a_bpp = new_chunk;
- c_bpp = b_bpp.try_into().unwrap();
- }
- }
- BytesPerPixel::Four => {
- let mut a_bpp = [0; 4];
- let mut c_bpp = [0; 4];
- for (chunk, b_bpp) in current.chunks_exact_mut(4).zip(previous.chunks_exact(4))
- {
- let new_chunk = [
- chunk[0]
- .wrapping_add(filter_paeth_decode(a_bpp[0], b_bpp[0], c_bpp[0])),
- chunk[1]
- .wrapping_add(filter_paeth_decode(a_bpp[1], b_bpp[1], c_bpp[1])),
- chunk[2]
- .wrapping_add(filter_paeth_decode(a_bpp[2], b_bpp[2], c_bpp[2])),
- chunk[3]
- .wrapping_add(filter_paeth_decode(a_bpp[3], b_bpp[3], c_bpp[3])),
- ];
- *TryInto::<&mut [u8; 4]>::try_into(chunk).unwrap() = new_chunk;
- a_bpp = new_chunk;
- c_bpp = b_bpp.try_into().unwrap();
- }
- }
- BytesPerPixel::Six => {
- let mut a_bpp = [0; 6];
- let mut c_bpp = [0; 6];
- for (chunk, b_bpp) in current.chunks_exact_mut(6).zip(previous.chunks_exact(6))
- {
- let new_chunk = [
- chunk[0]
- .wrapping_add(filter_paeth_decode(a_bpp[0], b_bpp[0], c_bpp[0])),
- chunk[1]
- .wrapping_add(filter_paeth_decode(a_bpp[1], b_bpp[1], c_bpp[1])),
- chunk[2]
- .wrapping_add(filter_paeth_decode(a_bpp[2], b_bpp[2], c_bpp[2])),
- chunk[3]
- .wrapping_add(filter_paeth_decode(a_bpp[3], b_bpp[3], c_bpp[3])),
- chunk[4]
- .wrapping_add(filter_paeth_decode(a_bpp[4], b_bpp[4], c_bpp[4])),
- chunk[5]
- .wrapping_add(filter_paeth_decode(a_bpp[5], b_bpp[5], c_bpp[5])),
- ];
- *TryInto::<&mut [u8; 6]>::try_into(chunk).unwrap() = new_chunk;
- a_bpp = new_chunk;
- c_bpp = b_bpp.try_into().unwrap();
- }
- }
- BytesPerPixel::Eight => {
- let mut a_bpp = [0; 8];
- let mut c_bpp = [0; 8];
- for (chunk, b_bpp) in current.chunks_exact_mut(8).zip(previous.chunks_exact(8))
- {
- let new_chunk = [
- chunk[0]
- .wrapping_add(filter_paeth_decode(a_bpp[0], b_bpp[0], c_bpp[0])),
- chunk[1]
- .wrapping_add(filter_paeth_decode(a_bpp[1], b_bpp[1], c_bpp[1])),
- chunk[2]
- .wrapping_add(filter_paeth_decode(a_bpp[2], b_bpp[2], c_bpp[2])),
- chunk[3]
- .wrapping_add(filter_paeth_decode(a_bpp[3], b_bpp[3], c_bpp[3])),
- chunk[4]
- .wrapping_add(filter_paeth_decode(a_bpp[4], b_bpp[4], c_bpp[4])),
- chunk[5]
- .wrapping_add(filter_paeth_decode(a_bpp[5], b_bpp[5], c_bpp[5])),
- chunk[6]
- .wrapping_add(filter_paeth_decode(a_bpp[6], b_bpp[6], c_bpp[6])),
- chunk[7]
- .wrapping_add(filter_paeth_decode(a_bpp[7], b_bpp[7], c_bpp[7])),
- ];
- *TryInto::<&mut [u8; 8]>::try_into(chunk).unwrap() = new_chunk;
- a_bpp = new_chunk;
- c_bpp = b_bpp.try_into().unwrap();
- }
- }
- }
- }
- }
-}
-
-fn filter_internal(
- method: FilterType,
- bpp: usize,
- len: usize,
- previous: &[u8],
- current: &[u8],
- output: &mut [u8],
-) -> FilterType {
- use self::FilterType::*;
-
- // This value was chosen experimentally based on what acheived the best performance. The
- // Rust compiler does auto-vectorization, and 32-bytes per loop iteration seems to enable
- // the fastest code when doing so.
- const CHUNK_SIZE: usize = 32;
-
- match method {
- NoFilter => {
- output.copy_from_slice(current);
- NoFilter
- }
- Sub => {
- let mut out_chunks = output[bpp..].chunks_exact_mut(CHUNK_SIZE);
- let mut cur_chunks = current[bpp..].chunks_exact(CHUNK_SIZE);
- let mut prev_chunks = current[..len - bpp].chunks_exact(CHUNK_SIZE);
-
- for ((out, cur), prev) in (&mut out_chunks).zip(&mut cur_chunks).zip(&mut prev_chunks) {
- for i in 0..CHUNK_SIZE {
- out[i] = cur[i].wrapping_sub(prev[i]);
- }
- }
-
- for ((out, cur), &prev) in out_chunks
- .into_remainder()
- .iter_mut()
- .zip(cur_chunks.remainder())
- .zip(prev_chunks.remainder())
- {
- *out = cur.wrapping_sub(prev);
- }
-
- output[..bpp].copy_from_slice(&current[..bpp]);
- Sub
- }
- Up => {
- let mut out_chunks = output.chunks_exact_mut(CHUNK_SIZE);
- let mut cur_chunks = current.chunks_exact(CHUNK_SIZE);
- let mut prev_chunks = previous.chunks_exact(CHUNK_SIZE);
-
- for ((out, cur), prev) in (&mut out_chunks).zip(&mut cur_chunks).zip(&mut prev_chunks) {
- for i in 0..CHUNK_SIZE {
- out[i] = cur[i].wrapping_sub(prev[i]);
- }
- }
-
- for ((out, cur), &prev) in out_chunks
- .into_remainder()
- .iter_mut()
- .zip(cur_chunks.remainder())
- .zip(prev_chunks.remainder())
- {
- *out = cur.wrapping_sub(prev);
- }
- Up
- }
- Avg => {
- let mut out_chunks = output[bpp..].chunks_exact_mut(CHUNK_SIZE);
- let mut cur_chunks = current[bpp..].chunks_exact(CHUNK_SIZE);
- let mut cur_minus_bpp_chunks = current[..len - bpp].chunks_exact(CHUNK_SIZE);
- let mut prev_chunks = previous[bpp..].chunks_exact(CHUNK_SIZE);
-
- for (((out, cur), cur_minus_bpp), prev) in (&mut out_chunks)
- .zip(&mut cur_chunks)
- .zip(&mut cur_minus_bpp_chunks)
- .zip(&mut prev_chunks)
- {
- for i in 0..CHUNK_SIZE {
- // Bitwise average of two integers without overflow and
- // without converting to a wider bit-width. See:
- // http://aggregate.org/MAGIC/#Average%20of%20Integers
- // If this is unrolled by component, consider reverting to
- // `((cur_minus_bpp[i] as u16 + prev[i] as u16) / 2) as u8`
- out[i] = cur[i].wrapping_sub(
- (cur_minus_bpp[i] & prev[i]) + ((cur_minus_bpp[i] ^ prev[i]) >> 1),
- );
- }
- }
-
- for (((out, cur), &cur_minus_bpp), &prev) in out_chunks
- .into_remainder()
- .iter_mut()
- .zip(cur_chunks.remainder())
- .zip(cur_minus_bpp_chunks.remainder())
- .zip(prev_chunks.remainder())
- {
- *out = cur.wrapping_sub((cur_minus_bpp & prev) + ((cur_minus_bpp ^ prev) >> 1));
- }
-
- for i in 0..bpp {
- output[i] = current[i].wrapping_sub(previous[i] / 2);
- }
- Avg
- }
- Paeth => {
- let mut out_chunks = output[bpp..].chunks_exact_mut(CHUNK_SIZE);
- let mut cur_chunks = current[bpp..].chunks_exact(CHUNK_SIZE);
- let mut a_chunks = current[..len - bpp].chunks_exact(CHUNK_SIZE);
- let mut b_chunks = previous[bpp..].chunks_exact(CHUNK_SIZE);
- let mut c_chunks = previous[..len - bpp].chunks_exact(CHUNK_SIZE);
-
- for ((((out, cur), a), b), c) in (&mut out_chunks)
- .zip(&mut cur_chunks)
- .zip(&mut a_chunks)
- .zip(&mut b_chunks)
- .zip(&mut c_chunks)
- {
- for i in 0..CHUNK_SIZE {
- out[i] = cur[i].wrapping_sub(filter_paeth(a[i], b[i], c[i]));
- }
- }
-
- for ((((out, cur), &a), &b), &c) in out_chunks
- .into_remainder()
- .iter_mut()
- .zip(cur_chunks.remainder())
- .zip(a_chunks.remainder())
- .zip(b_chunks.remainder())
- .zip(c_chunks.remainder())
- {
- *out = cur.wrapping_sub(filter_paeth(a, b, c));
- }
-
- for i in 0..bpp {
- output[i] = current[i].wrapping_sub(filter_paeth(0, previous[i], 0));
- }
- Paeth
- }
- }
-}
-
-pub(crate) fn filter(
- method: FilterType,
- adaptive: AdaptiveFilterType,
- bpp: BytesPerPixel,
- previous: &[u8],
- current: &[u8],
- output: &mut [u8],
-) -> FilterType {
- use FilterType::*;
- let bpp = bpp.into_usize();
- let len = current.len();
-
- match adaptive {
- AdaptiveFilterType::NonAdaptive => {
- filter_internal(method, bpp, len, previous, current, output)
- }
- AdaptiveFilterType::Adaptive => {
- let mut min_sum: u64 = u64::MAX;
- let mut filter_choice = FilterType::NoFilter;
- for &filter in [Sub, Up, Avg, Paeth].iter() {
- filter_internal(filter, bpp, len, previous, current, output);
- let sum = sum_buffer(output);
- if sum <= min_sum {
- min_sum = sum;
- filter_choice = filter;
- }
- }
-
- if filter_choice != Paeth {
- filter_internal(filter_choice, bpp, len, previous, current, output);
- }
- filter_choice
- }
- }
-}
-
-// Helper function for Adaptive filter buffer summation
-fn sum_buffer(buf: &[u8]) -> u64 {
- const CHUNK_SIZE: usize = 32;
-
- let mut buf_chunks = buf.chunks_exact(CHUNK_SIZE);
- let mut sum = 0_u64;
-
- for chunk in &mut buf_chunks {
- // At most, `acc` can be `32 * (i8::MIN as u8) = 32 * 128 = 4096`.
- let mut acc = 0;
- for &b in chunk {
- acc += u64::from((b as i8).unsigned_abs());
- }
- sum = sum.saturating_add(acc);
- }
-
- let mut acc = 0;
- for &b in buf_chunks.remainder() {
- acc += u64::from((b as i8).unsigned_abs());
- }
-
- sum.saturating_add(acc)
-}
-
-#[cfg(test)]
-mod test {
- use super::{filter, unfilter, AdaptiveFilterType, BytesPerPixel, FilterType};
- use core::iter;
-
- #[test]
- fn roundtrip() {
- // A multiple of 8, 6, 4, 3, 2, 1
- const LEN: u8 = 240;
- let previous: Vec<_> = iter::repeat(1).take(LEN.into()).collect();
- let current: Vec<_> = (0..LEN).collect();
- let expected = current.clone();
- let adaptive = AdaptiveFilterType::NonAdaptive;
-
- let roundtrip = |kind, bpp: BytesPerPixel| {
- let mut output = vec![0; LEN.into()];
- filter(kind, adaptive, bpp, &previous, &current, &mut output);
- unfilter(kind, bpp, &previous, &mut output);
- assert_eq!(
- output, expected,
- "Filtering {:?} with {:?} does not roundtrip",
- bpp, kind
- );
- };
-
- let filters = [
- FilterType::NoFilter,
- FilterType::Sub,
- FilterType::Up,
- FilterType::Avg,
- FilterType::Paeth,
- ];
-
- let bpps = [
- BytesPerPixel::One,
- BytesPerPixel::Two,
- BytesPerPixel::Three,
- BytesPerPixel::Four,
- BytesPerPixel::Six,
- BytesPerPixel::Eight,
- ];
-
- for &filter in filters.iter() {
- for &bpp in bpps.iter() {
- roundtrip(filter, bpp);
- }
- }
- }
-
- #[test]
- fn roundtrip_ascending_previous_line() {
- // A multiple of 8, 6, 4, 3, 2, 1
- const LEN: u8 = 240;
- let previous: Vec<_> = (0..LEN).collect();
- let current: Vec<_> = (0..LEN).collect();
- let expected = current.clone();
- let adaptive = AdaptiveFilterType::NonAdaptive;
-
- let roundtrip = |kind, bpp: BytesPerPixel| {
- let mut output = vec![0; LEN.into()];
- filter(kind, adaptive, bpp, &previous, &current, &mut output);
- unfilter(kind, bpp, &previous, &mut output);
- assert_eq!(
- output, expected,
- "Filtering {:?} with {:?} does not roundtrip",
- bpp, kind
- );
- };
-
- let filters = [
- FilterType::NoFilter,
- FilterType::Sub,
- FilterType::Up,
- FilterType::Avg,
- FilterType::Paeth,
- ];
-
- let bpps = [
- BytesPerPixel::One,
- BytesPerPixel::Two,
- BytesPerPixel::Three,
- BytesPerPixel::Four,
- BytesPerPixel::Six,
- BytesPerPixel::Eight,
- ];
-
- for &filter in filters.iter() {
- for &bpp in bpps.iter() {
- roundtrip(filter, bpp);
- }
- }
- }
-
- #[test]
- // This tests that converting u8 to i8 doesn't overflow when taking the
- // absolute value for adaptive filtering: -128_i8.abs() will panic in debug
- // or produce garbage in release mode. The sum of 0..=255u8 should equal the
- // sum of the absolute values of -128_i8..=127, or abs(-128..=0) + 1..=127.
- fn sum_buffer_test() {
- let sum = (0..=128).sum::<u64>() + (1..=127).sum::<u64>();
- let buf: Vec<u8> = (0_u8..=255).collect();
-
- assert_eq!(sum, crate::filter::sum_buffer(&buf));
- }
-}
diff --git a/vendor/png/src/lib.rs b/vendor/png/src/lib.rs
deleted file mode 100644
index b3bb15b..0000000
--- a/vendor/png/src/lib.rs
+++ /dev/null
@@ -1,81 +0,0 @@
-//! # PNG encoder and decoder
-//!
-//! This crate contains a PNG encoder and decoder. It supports reading of single lines or whole frames.
-//!
-//! ## The decoder
-//!
-//! The most important types for decoding purposes are [`Decoder`](struct.Decoder.html) and
-//! [`Reader`](struct.Reader.html). They both wrap a `std::io::Read`.
-//! `Decoder` serves as a builder for `Reader`. Calling `Decoder::read_info` reads from the `Read` until the
-//! image data is reached.
-//!
-//! ### Using the decoder
-//! ```
-//! use std::fs::File;
-//! // The decoder is a build for reader and can be used to set various decoding options
-//! // via `Transformations`. The default output transformation is `Transformations::IDENTITY`.
-//! let decoder = png::Decoder::new(File::open("tests/pngsuite/basi0g01.png").unwrap());
-//! let mut reader = decoder.read_info().unwrap();
-//! // Allocate the output buffer.
-//! let mut buf = vec![0; reader.output_buffer_size()];
-//! // Read the next frame. An APNG might contain multiple frames.
-//! let info = reader.next_frame(&mut buf).unwrap();
-//! // Grab the bytes of the image.
-//! let bytes = &buf[..info.buffer_size()];
-//! // Inspect more details of the last read frame.
-//! let in_animation = reader.info().frame_control.is_some();
-//! ```
-//!
-//! ## Encoder
-//! ### Using the encoder
-//!
-//! ```no_run
-//! // For reading and opening files
-//! use std::path::Path;
-//! use std::fs::File;
-//! use std::io::BufWriter;
-//!
-//! let path = Path::new(r"/path/to/image.png");
-//! let file = File::create(path).unwrap();
-//! let ref mut w = BufWriter::new(file);
-//!
-//! let mut encoder = png::Encoder::new(w, 2, 1); // Width is 2 pixels and height is 1.
-//! encoder.set_color(png::ColorType::Rgba);
-//! encoder.set_depth(png::BitDepth::Eight);
-//! encoder.set_source_gamma(png::ScaledFloat::from_scaled(45455)); // 1.0 / 2.2, scaled by 100000
-//! encoder.set_source_gamma(png::ScaledFloat::new(1.0 / 2.2)); // 1.0 / 2.2, unscaled, but rounded
-//! let source_chromaticities = png::SourceChromaticities::new( // Using unscaled instantiation here
-//! (0.31270, 0.32900),
-//! (0.64000, 0.33000),
-//! (0.30000, 0.60000),
-//! (0.15000, 0.06000)
-//! );
-//! encoder.set_source_chromaticities(source_chromaticities);
-//! let mut writer = encoder.write_header().unwrap();
-//!
-//! let data = [255, 0, 0, 255, 0, 0, 0, 255]; // An array containing a RGBA sequence. First pixel is red and second pixel is black.
-//! writer.write_image_data(&data).unwrap(); // Save
-//! ```
-//!
-
-#![forbid(unsafe_code)]
-
-#[macro_use]
-extern crate bitflags;
-
-pub mod chunk;
-mod common;
-mod decoder;
-mod encoder;
-mod filter;
-mod srgb;
-pub mod text_metadata;
-mod traits;
-mod utils;
-
-pub use crate::common::*;
-pub use crate::decoder::{
- DecodeOptions, Decoded, Decoder, DecodingError, Limits, OutputInfo, Reader, StreamingDecoder,
-};
-pub use crate::encoder::{Encoder, EncodingError, StreamWriter, Writer};
-pub use crate::filter::{AdaptiveFilterType, FilterType};
diff --git a/vendor/png/src/srgb.rs b/vendor/png/src/srgb.rs
deleted file mode 100644
index 2780e42..0000000
--- a/vendor/png/src/srgb.rs
+++ /dev/null
@@ -1,30 +0,0 @@
-use crate::{ScaledFloat, SourceChromaticities};
-
-/// Get the gamma that should be substituted for images conforming to the sRGB color space.
-pub fn substitute_gamma() -> ScaledFloat {
- // Value taken from https://www.w3.org/TR/2003/REC-PNG-20031110/#11sRGB
- ScaledFloat::from_scaled(45455)
-}
-
-/// Get the chromaticities that should be substituted for images conforming to the sRGB color space.
-pub fn substitute_chromaticities() -> SourceChromaticities {
- // Values taken from https://www.w3.org/TR/2003/REC-PNG-20031110/#11sRGB
- SourceChromaticities {
- white: (
- ScaledFloat::from_scaled(31270),
- ScaledFloat::from_scaled(32900),
- ),
- red: (
- ScaledFloat::from_scaled(64000),
- ScaledFloat::from_scaled(33000),
- ),
- green: (
- ScaledFloat::from_scaled(30000),
- ScaledFloat::from_scaled(60000),
- ),
- blue: (
- ScaledFloat::from_scaled(15000),
- ScaledFloat::from_scaled(6000),
- ),
- }
-}
diff --git a/vendor/png/src/text_metadata.rs b/vendor/png/src/text_metadata.rs
deleted file mode 100644
index 42f8df3..0000000
--- a/vendor/png/src/text_metadata.rs
+++ /dev/null
@@ -1,586 +0,0 @@
-//! # Text chunks (tEXt/zTXt/iTXt) structs and functions
-//!
-//! The [PNG spec](https://www.w3.org/TR/2003/REC-PNG-20031110/#11textinfo) optionally allows for
-//! embedded text chunks in the file. They may appear either before or after the image data
-//! chunks. There are three kinds of text chunks.
-//! - `tEXt`: This has a `keyword` and `text` field, and is ISO 8859-1 encoded.
-//! - `zTXt`: This is semantically the same as `tEXt`, i.e. it has the same fields and
-//! encoding, but the `text` field is compressed before being written into the PNG file.
-//! - `iTXt`: This chunk allows for its `text` field to be any valid UTF-8, and supports
-//! compression of the text field as well.
-//!
-//! The `ISO 8859-1` encoding technically doesn't allow any control characters
-//! to be used, but in practice these values are encountered anyway. This can
-//! either be the extended `ISO-8859-1` encoding with control characters or the
-//! `Windows-1252` encoding. This crate assumes the `ISO-8859-1` encoding is
-//! used.
-//!
-//! ## Reading text chunks
-//!
-//! As a PNG is decoded, any text chunk encountered is appended the
-//! [`Info`](`crate::common::Info`) struct, in the `uncompressed_latin1_text`,
-//! `compressed_latin1_text`, and the `utf8_text` fields depending on whether the encountered
-//! chunk is `tEXt`, `zTXt`, or `iTXt`.
-//!
-//! ```
-//! use std::fs::File;
-//! use std::iter::FromIterator;
-//! use std::path::PathBuf;
-//!
-//! // Opening a png file that has a zTXt chunk
-//! let decoder = png::Decoder::new(
-//! File::open(PathBuf::from_iter([
-//! "tests",
-//! "text_chunk_examples",
-//! "ztxt_example.png",
-//! ]))
-//! .unwrap(),
-//! );
-//! let mut reader = decoder.read_info().unwrap();
-//! // If the text chunk is before the image data frames, `reader.info()` already contains the text.
-//! for text_chunk in &reader.info().compressed_latin1_text {
-//! println!("{:?}", text_chunk.keyword); // Prints the keyword
-//! println!("{:#?}", text_chunk); // Prints out the text chunk.
-//! // To get the uncompressed text, use the `get_text` method.
-//! println!("{}", text_chunk.get_text().unwrap());
-//! }
-//! ```
-//!
-//! ## Writing text chunks
-//!
-//! There are two ways to write text chunks: the first is to add the appropriate text structs directly to the encoder header before the header is written to file.
-//! To add a text chunk at any point in the stream, use the `write_text_chunk` method.
-//!
-//! ```
-//! # use png::text_metadata::{ITXtChunk, ZTXtChunk};
-//! # use std::env;
-//! # use std::fs::File;
-//! # use std::io::BufWriter;
-//! # use std::iter::FromIterator;
-//! # use std::path::PathBuf;
-//! # let file = File::create(PathBuf::from_iter(["target", "text_chunk.png"])).unwrap();
-//! # let ref mut w = BufWriter::new(file);
-//! let mut encoder = png::Encoder::new(w, 2, 1); // Width is 2 pixels and height is 1.
-//! encoder.set_color(png::ColorType::Rgba);
-//! encoder.set_depth(png::BitDepth::Eight);
-//! // Adding text chunks to the header
-//! encoder
-//! .add_text_chunk(
-//! "Testing tEXt".to_string(),
-//! "This is a tEXt chunk that will appear before the IDAT chunks.".to_string(),
-//! )
-//! .unwrap();
-//! encoder
-//! .add_ztxt_chunk(
-//! "Testing zTXt".to_string(),
-//! "This is a zTXt chunk that is compressed in the png file.".to_string(),
-//! )
-//! .unwrap();
-//! encoder
-//! .add_itxt_chunk(
-//! "Testing iTXt".to_string(),
-//! "iTXt chunks support all of UTF8. Example: हिंदी.".to_string(),
-//! )
-//! .unwrap();
-//!
-//! let mut writer = encoder.write_header().unwrap();
-//!
-//! let data = [255, 0, 0, 255, 0, 0, 0, 255]; // An array containing a RGBA sequence. First pixel is red and second pixel is black.
-//! writer.write_image_data(&data).unwrap(); // Save
-//!
-//! // We can add a tEXt/zTXt/iTXt at any point before the encoder is dropped from scope. These chunks will be at the end of the png file.
-//! let tail_ztxt_chunk = ZTXtChunk::new("Comment".to_string(), "A zTXt chunk after the image data.".to_string());
-//! writer.write_text_chunk(&tail_ztxt_chunk).unwrap();
-//!
-//! // The fields of the text chunk are public, so they can be mutated before being written to the file.
-//! let mut tail_itxt_chunk = ITXtChunk::new("Author".to_string(), "सायंतन खान".to_string());
-//! tail_itxt_chunk.compressed = true;
-//! tail_itxt_chunk.language_tag = "hi".to_string();
-//! tail_itxt_chunk.translated_keyword = "लेखक".to_string();
-//! writer.write_text_chunk(&tail_itxt_chunk).unwrap();
-//! ```
-
-#![warn(missing_docs)]
-
-use crate::{chunk, encoder, DecodingError, EncodingError};
-use flate2::write::ZlibEncoder;
-use flate2::Compression;
-use miniz_oxide::inflate::{decompress_to_vec_zlib, decompress_to_vec_zlib_with_limit};
-use std::{convert::TryFrom, io::Write};
-
-/// Default decompression limit for compressed text chunks.
-pub const DECOMPRESSION_LIMIT: usize = 2097152; // 2 MiB
-
-/// Text encoding errors that is wrapped by the standard EncodingError type
-#[derive(Debug, Clone, Copy)]
-pub(crate) enum TextEncodingError {
- /// Unrepresentable characters in string
- Unrepresentable,
- /// Keyword longer than 79 bytes or empty
- InvalidKeywordSize,
- /// Error encountered while compressing text
- CompressionError,
-}
-
-/// Text decoding error that is wrapped by the standard DecodingError type
-#[derive(Debug, Clone, Copy)]
-pub(crate) enum TextDecodingError {
- /// Unrepresentable characters in string
- Unrepresentable,
- /// Keyword longer than 79 bytes or empty
- InvalidKeywordSize,
- /// Missing null separator
- MissingNullSeparator,
- /// Compressed text cannot be uncompressed
- InflationError,
- /// Needs more space to decompress
- OutOfDecompressionSpace,
- /// Using an unspecified value for the compression method
- InvalidCompressionMethod,
- /// Using a byte that is not 0 or 255 as compression flag in iTXt chunk
- InvalidCompressionFlag,
- /// Missing the compression flag
- MissingCompressionFlag,
-}
-
-/// A generalized text chunk trait
-pub trait EncodableTextChunk {
- /// Encode text chunk as Vec<u8> to a `Write`
- fn encode<W: Write>(&self, w: &mut W) -> Result<(), EncodingError>;
-}
-
-/// Struct representing a tEXt chunk
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub struct TEXtChunk {
- /// Keyword field of the tEXt chunk. Needs to be between 1-79 bytes when encoded as Latin-1.
- pub keyword: String,
- /// Text field of tEXt chunk. Can be at most 2GB.
- pub text: String,
-}
-
-fn decode_iso_8859_1(text: &[u8]) -> String {
- text.iter().map(|&b| b as char).collect()
-}
-
-fn encode_iso_8859_1(text: &str) -> Result<Vec<u8>, TextEncodingError> {
- encode_iso_8859_1_iter(text).collect()
-}
-
-fn encode_iso_8859_1_into(buf: &mut Vec<u8>, text: &str) -> Result<(), TextEncodingError> {
- for b in encode_iso_8859_1_iter(text) {
- buf.push(b?);
- }
- Ok(())
-}
-
-fn encode_iso_8859_1_iter(text: &str) -> impl Iterator<Item = Result<u8, TextEncodingError>> + '_ {
- text.chars()
- .map(|c| u8::try_from(c as u32).map_err(|_| TextEncodingError::Unrepresentable))
-}
-
-fn decode_ascii(text: &[u8]) -> Result<&str, TextDecodingError> {
- if text.is_ascii() {
- // `from_utf8` cannot panic because we're already checked that `text` is ASCII-7.
- // And this is the only safe way to get ASCII-7 string from `&[u8]`.
- Ok(std::str::from_utf8(text).expect("unreachable"))
- } else {
- Err(TextDecodingError::Unrepresentable)
- }
-}
-
-impl TEXtChunk {
- /// Constructs a new TEXtChunk.
- /// Not sure whether it should take &str or String.
- pub fn new(keyword: impl Into<String>, text: impl Into<String>) -> Self {
- Self {
- keyword: keyword.into(),
- text: text.into(),
- }
- }
-
- /// Decodes a slice of bytes to a String using Latin-1 decoding.
- /// The decoder runs in strict mode, and any decoding errors are passed along to the caller.
- pub(crate) fn decode(
- keyword_slice: &[u8],
- text_slice: &[u8],
- ) -> Result<Self, TextDecodingError> {
- if keyword_slice.is_empty() || keyword_slice.len() > 79 {
- return Err(TextDecodingError::InvalidKeywordSize);
- }
-
- Ok(Self {
- keyword: decode_iso_8859_1(keyword_slice),
- text: decode_iso_8859_1(text_slice),
- })
- }
-}
-
-impl EncodableTextChunk for TEXtChunk {
- /// Encodes TEXtChunk to a Writer. The keyword and text are separated by a byte of zeroes.
- fn encode<W: Write>(&self, w: &mut W) -> Result<(), EncodingError> {
- let mut data = encode_iso_8859_1(&self.keyword)?;
-
- if data.is_empty() || data.len() > 79 {
- return Err(TextEncodingError::InvalidKeywordSize.into());
- }
-
- data.push(0);
-
- encode_iso_8859_1_into(&mut data, &self.text)?;
-
- encoder::write_chunk(w, chunk::tEXt, &data)
- }
-}
-
-/// Struct representing a zTXt chunk
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub struct ZTXtChunk {
- /// Keyword field of the tEXt chunk. Needs to be between 1-79 bytes when encoded as Latin-1.
- pub keyword: String,
- /// Text field of zTXt chunk. It is compressed by default, but can be uncompressed if necessary.
- text: OptCompressed,
-}
-
-/// Private enum encoding the compressed and uncompressed states of zTXt/iTXt text field.
-#[derive(Clone, Debug, PartialEq, Eq)]
-enum OptCompressed {
- /// Compressed version of text field. Can be at most 2GB.
- Compressed(Vec<u8>),
- /// Uncompressed text field.
- Uncompressed(String),
-}
-
-impl ZTXtChunk {
- /// Creates a new ZTXt chunk.
- pub fn new(keyword: impl Into<String>, text: impl Into<String>) -> Self {
- Self {
- keyword: keyword.into(),
- text: OptCompressed::Uncompressed(text.into()),
- }
- }
-
- pub(crate) fn decode(
- keyword_slice: &[u8],
- compression_method: u8,
- text_slice: &[u8],
- ) -> Result<Self, TextDecodingError> {
- if keyword_slice.is_empty() || keyword_slice.len() > 79 {
- return Err(TextDecodingError::InvalidKeywordSize);
- }
-
- if compression_method != 0 {
- return Err(TextDecodingError::InvalidCompressionMethod);
- }
-
- Ok(Self {
- keyword: decode_iso_8859_1(keyword_slice),
- text: OptCompressed::Compressed(text_slice.to_vec()),
- })
- }
-
- /// Decompresses the inner text, mutating its own state. Can only handle decompressed text up to `DECOMPRESSION_LIMIT` bytes.
- pub fn decompress_text(&mut self) -> Result<(), DecodingError> {
- self.decompress_text_with_limit(DECOMPRESSION_LIMIT)
- }
-
- /// Decompresses the inner text, mutating its own state. Can only handle decompressed text up to `limit` bytes.
- pub fn decompress_text_with_limit(&mut self, limit: usize) -> Result<(), DecodingError> {
- match &self.text {
- OptCompressed::Compressed(v) => {
- let uncompressed_raw = match decompress_to_vec_zlib_with_limit(&v[..], limit) {
- Ok(s) => s,
- Err(err) if err.status == miniz_oxide::inflate::TINFLStatus::HasMoreOutput => {
- return Err(DecodingError::from(
- TextDecodingError::OutOfDecompressionSpace,
- ));
- }
- Err(_) => {
- return Err(DecodingError::from(TextDecodingError::InflationError));
- }
- };
- self.text = OptCompressed::Uncompressed(decode_iso_8859_1(&uncompressed_raw));
- }
- OptCompressed::Uncompressed(_) => {}
- };
- Ok(())
- }
-
- /// Decompresses the inner text, and returns it as a `String`.
- /// If decompression uses more the 2MiB, first call decompress with limit, and then this method.
- pub fn get_text(&self) -> Result<String, DecodingError> {
- match &self.text {
- OptCompressed::Compressed(v) => {
- let uncompressed_raw = decompress_to_vec_zlib(&v[..])
- .map_err(|_| DecodingError::from(TextDecodingError::InflationError))?;
- Ok(decode_iso_8859_1(&uncompressed_raw))
- }
- OptCompressed::Uncompressed(s) => Ok(s.clone()),
- }
- }
-
- /// Compresses the inner text, mutating its own state.
- pub fn compress_text(&mut self) -> Result<(), EncodingError> {
- match &self.text {
- OptCompressed::Uncompressed(s) => {
- let uncompressed_raw = encode_iso_8859_1(s)?;
- let mut encoder = ZlibEncoder::new(Vec::new(), Compression::fast());
- encoder
- .write_all(&uncompressed_raw)
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?;
- self.text = OptCompressed::Compressed(
- encoder
- .finish()
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?,
- );
- }
- OptCompressed::Compressed(_) => {}
- }
-
- Ok(())
- }
-}
-
-impl EncodableTextChunk for ZTXtChunk {
- fn encode<W: Write>(&self, w: &mut W) -> Result<(), EncodingError> {
- let mut data = encode_iso_8859_1(&self.keyword)?;
-
- if data.is_empty() || data.len() > 79 {
- return Err(TextEncodingError::InvalidKeywordSize.into());
- }
-
- // Null separator
- data.push(0);
-
- // Compression method: the only valid value is 0, as of 2021.
- data.push(0);
-
- match &self.text {
- OptCompressed::Compressed(v) => {
- data.extend_from_slice(&v[..]);
- }
- OptCompressed::Uncompressed(s) => {
- // This code may have a bug. Check for correctness.
- let uncompressed_raw = encode_iso_8859_1(s)?;
- let mut encoder = ZlibEncoder::new(data, Compression::fast());
- encoder
- .write_all(&uncompressed_raw)
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?;
- data = encoder
- .finish()
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?;
- }
- };
-
- encoder::write_chunk(w, chunk::zTXt, &data)
- }
-}
-
-/// Struct encoding an iTXt chunk
-#[derive(Clone, Debug, PartialEq, Eq)]
-pub struct ITXtChunk {
- /// The keyword field. This needs to be between 1-79 bytes when encoded as Latin-1.
- pub keyword: String,
- /// Indicates whether the text will be (or was) compressed in the PNG.
- pub compressed: bool,
- /// A hyphen separated list of languages that the keyword is translated to. This is ASCII-7 encoded.
- pub language_tag: String,
- /// Translated keyword. This is UTF-8 encoded.
- pub translated_keyword: String,
- /// Text field of iTXt chunk. It is compressed by default, but can be uncompressed if necessary.
- text: OptCompressed,
-}
-
-impl ITXtChunk {
- /// Constructs a new iTXt chunk. Leaves all but keyword and text to default values.
- pub fn new(keyword: impl Into<String>, text: impl Into<String>) -> Self {
- Self {
- keyword: keyword.into(),
- compressed: false,
- language_tag: "".to_string(),
- translated_keyword: "".to_string(),
- text: OptCompressed::Uncompressed(text.into()),
- }
- }
-
- pub(crate) fn decode(
- keyword_slice: &[u8],
- compression_flag: u8,
- compression_method: u8,
- language_tag_slice: &[u8],
- translated_keyword_slice: &[u8],
- text_slice: &[u8],
- ) -> Result<Self, TextDecodingError> {
- if keyword_slice.is_empty() || keyword_slice.len() > 79 {
- return Err(TextDecodingError::InvalidKeywordSize);
- }
- let keyword = decode_iso_8859_1(keyword_slice);
-
- let compressed = match compression_flag {
- 0 => false,
- 1 => true,
- _ => return Err(TextDecodingError::InvalidCompressionFlag),
- };
-
- if compressed && compression_method != 0 {
- return Err(TextDecodingError::InvalidCompressionMethod);
- }
-
- let language_tag = decode_ascii(language_tag_slice)?.to_owned();
-
- let translated_keyword = std::str::from_utf8(translated_keyword_slice)
- .map_err(|_| TextDecodingError::Unrepresentable)?
- .to_string();
- let text = if compressed {
- OptCompressed::Compressed(text_slice.to_vec())
- } else {
- OptCompressed::Uncompressed(
- String::from_utf8(text_slice.to_vec())
- .map_err(|_| TextDecodingError::Unrepresentable)?,
- )
- };
-
- Ok(Self {
- keyword,
- compressed,
- language_tag,
- translated_keyword,
- text,
- })
- }
-
- /// Decompresses the inner text, mutating its own state. Can only handle decompressed text up to `DECOMPRESSION_LIMIT` bytes.
- pub fn decompress_text(&mut self) -> Result<(), DecodingError> {
- self.decompress_text_with_limit(DECOMPRESSION_LIMIT)
- }
-
- /// Decompresses the inner text, mutating its own state. Can only handle decompressed text up to `limit` bytes.
- pub fn decompress_text_with_limit(&mut self, limit: usize) -> Result<(), DecodingError> {
- match &self.text {
- OptCompressed::Compressed(v) => {
- let uncompressed_raw = match decompress_to_vec_zlib_with_limit(&v[..], limit) {
- Ok(s) => s,
- Err(err) if err.status == miniz_oxide::inflate::TINFLStatus::HasMoreOutput => {
- return Err(DecodingError::from(
- TextDecodingError::OutOfDecompressionSpace,
- ));
- }
- Err(_) => {
- return Err(DecodingError::from(TextDecodingError::InflationError));
- }
- };
- self.text = OptCompressed::Uncompressed(
- String::from_utf8(uncompressed_raw)
- .map_err(|_| TextDecodingError::Unrepresentable)?,
- );
- }
- OptCompressed::Uncompressed(_) => {}
- };
- Ok(())
- }
-
- /// Decompresses the inner text, and returns it as a `String`.
- /// If decompression takes more than 2 MiB, try `decompress_text_with_limit` followed by this method.
- pub fn get_text(&self) -> Result<String, DecodingError> {
- match &self.text {
- OptCompressed::Compressed(v) => {
- let uncompressed_raw = decompress_to_vec_zlib(&v[..])
- .map_err(|_| DecodingError::from(TextDecodingError::InflationError))?;
- String::from_utf8(uncompressed_raw)
- .map_err(|_| TextDecodingError::Unrepresentable.into())
- }
- OptCompressed::Uncompressed(s) => Ok(s.clone()),
- }
- }
-
- /// Compresses the inner text, mutating its own state.
- pub fn compress_text(&mut self) -> Result<(), EncodingError> {
- match &self.text {
- OptCompressed::Uncompressed(s) => {
- let uncompressed_raw = s.as_bytes();
- let mut encoder = ZlibEncoder::new(Vec::new(), Compression::fast());
- encoder
- .write_all(uncompressed_raw)
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?;
- self.text = OptCompressed::Compressed(
- encoder
- .finish()
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?,
- );
- }
- OptCompressed::Compressed(_) => {}
- }
-
- Ok(())
- }
-}
-
-impl EncodableTextChunk for ITXtChunk {
- fn encode<W: Write>(&self, w: &mut W) -> Result<(), EncodingError> {
- // Keyword
- let mut data = encode_iso_8859_1(&self.keyword)?;
-
- if data.is_empty() || data.len() > 79 {
- return Err(TextEncodingError::InvalidKeywordSize.into());
- }
-
- // Null separator
- data.push(0);
-
- // Compression flag
- if self.compressed {
- data.push(1);
- } else {
- data.push(0);
- }
-
- // Compression method
- data.push(0);
-
- // Language tag
- if !self.language_tag.is_ascii() {
- return Err(EncodingError::from(TextEncodingError::Unrepresentable));
- }
- data.extend(self.language_tag.as_bytes());
-
- // Null separator
- data.push(0);
-
- // Translated keyword
- data.extend_from_slice(self.translated_keyword.as_bytes());
-
- // Null separator
- data.push(0);
-
- // Text
- if self.compressed {
- match &self.text {
- OptCompressed::Compressed(v) => {
- data.extend_from_slice(&v[..]);
- }
- OptCompressed::Uncompressed(s) => {
- let uncompressed_raw = s.as_bytes();
- let mut encoder = ZlibEncoder::new(data, Compression::fast());
- encoder
- .write_all(uncompressed_raw)
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?;
- data = encoder
- .finish()
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?;
- }
- }
- } else {
- match &self.text {
- OptCompressed::Compressed(v) => {
- let uncompressed_raw = decompress_to_vec_zlib(&v[..])
- .map_err(|_| EncodingError::from(TextEncodingError::CompressionError))?;
- data.extend_from_slice(&uncompressed_raw[..]);
- }
- OptCompressed::Uncompressed(s) => {
- data.extend_from_slice(s.as_bytes());
- }
- }
- }
-
- encoder::write_chunk(w, chunk::iTXt, &data)
- }
-}
diff --git a/vendor/png/src/traits.rs b/vendor/png/src/traits.rs
deleted file mode 100644
index ffc10e7..0000000
--- a/vendor/png/src/traits.rs
+++ /dev/null
@@ -1,43 +0,0 @@
-use std::io;
-
-macro_rules! read_bytes_ext {
- ($output_type:ty) => {
- impl<W: io::Read + ?Sized> ReadBytesExt<$output_type> for W {
- #[inline]
- fn read_be(&mut self) -> io::Result<$output_type> {
- let mut bytes = [0u8; std::mem::size_of::<$output_type>()];
- self.read_exact(&mut bytes)?;
- Ok(<$output_type>::from_be_bytes(bytes))
- }
- }
- };
-}
-
-macro_rules! write_bytes_ext {
- ($input_type:ty) => {
- impl<W: io::Write + ?Sized> WriteBytesExt<$input_type> for W {
- #[inline]
- fn write_be(&mut self, n: $input_type) -> io::Result<()> {
- self.write_all(&n.to_be_bytes())
- }
- }
- };
-}
-
-/// Read extension to read big endian data
-pub trait ReadBytesExt<T>: io::Read {
- /// Read `T` from a bytes stream. Most significant byte first.
- fn read_be(&mut self) -> io::Result<T>;
-}
-
-/// Write extension to write big endian data
-pub trait WriteBytesExt<T>: io::Write {
- /// Writes `T` to a bytes stream. Most significant byte first.
- fn write_be(&mut self, _: T) -> io::Result<()>;
-}
-
-read_bytes_ext!(u8);
-read_bytes_ext!(u16);
-read_bytes_ext!(u32);
-
-write_bytes_ext!(u32);
diff --git a/vendor/png/src/utils.rs b/vendor/png/src/utils.rs
deleted file mode 100644
index d43753b..0000000
--- a/vendor/png/src/utils.rs
+++ /dev/null
@@ -1,463 +0,0 @@
-//! Utility functions
-use std::iter::{repeat, StepBy};
-use std::ops::Range;
-
-#[inline(always)]
-pub fn unpack_bits<F>(buf: &mut [u8], channels: usize, bit_depth: u8, func: F)
-where
- F: Fn(u8, &mut [u8]),
-{
- // Return early if empty. This enables to subtract `channels` later without overflow.
- if buf.len() < channels {
- return;
- }
-
- let bits = buf.len() / channels * bit_depth as usize;
- let extra_bits = bits % 8;
- let entries = bits / 8
- + match extra_bits {
- 0 => 0,
- _ => 1,
- };
- let skip = match extra_bits {
- 0 => 0,
- n => (8 - n) / bit_depth as usize,
- };
- let mask = ((1u16 << bit_depth) - 1) as u8;
- let i = (0..entries)
- .rev() // reverse iterator
- .flat_map(|idx|
- // this has to be reversed too
- (0..8).step_by(bit_depth.into())
- .zip(repeat(idx)))
- .skip(skip);
- let j = (0..=buf.len() - channels).rev().step_by(channels);
- for ((shift, i), j) in i.zip(j) {
- let pixel = (buf[i] & (mask << shift)) >> shift;
- func(pixel, &mut buf[j..(j + channels)])
- }
-}
-
-pub fn expand_trns_line(input: &[u8], output: &mut [u8], trns: Option<&[u8]>, channels: usize) {
- for (input, output) in input
- .chunks_exact(channels)
- .zip(output.chunks_exact_mut(channels + 1))
- {
- output[..channels].copy_from_slice(input);
- output[channels] = if Some(input) == trns { 0 } else { 0xFF };
- }
-}
-
-pub fn expand_trns_line16(input: &[u8], output: &mut [u8], trns: Option<&[u8]>, channels: usize) {
- for (input, output) in input
- .chunks_exact(channels * 2)
- .zip(output.chunks_exact_mut(channels * 2 + 2))
- {
- output[..channels * 2].copy_from_slice(input);
- if Some(input) == trns {
- output[channels * 2] = 0;
- output[channels * 2 + 1] = 0
- } else {
- output[channels * 2] = 0xFF;
- output[channels * 2 + 1] = 0xFF
- };
- }
-}
-
-pub fn expand_trns_and_strip_line16(
- input: &[u8],
- output: &mut [u8],
- trns: Option<&[u8]>,
- channels: usize,
-) {
- for (input, output) in input
- .chunks_exact(channels * 2)
- .zip(output.chunks_exact_mut(channels + 1))
- {
- for i in 0..channels {
- output[i] = input[i * 2];
- }
- output[channels] = if Some(input) == trns { 0 } else { 0xFF };
- }
-}
-
-/// This iterator iterates over the different passes of an image Adam7 encoded
-/// PNG image
-/// The pattern is:
-/// 16462646
-/// 77777777
-/// 56565656
-/// 77777777
-/// 36463646
-/// 77777777
-/// 56565656
-/// 77777777
-///
-#[derive(Clone)]
-pub(crate) struct Adam7Iterator {
- line: u32,
- lines: u32,
- line_width: u32,
- current_pass: u8,
- width: u32,
- height: u32,
-}
-
-impl Adam7Iterator {
- pub fn new(width: u32, height: u32) -> Adam7Iterator {
- let mut this = Adam7Iterator {
- line: 0,
- lines: 0,
- line_width: 0,
- current_pass: 1,
- width,
- height,
- };
- this.init_pass();
- this
- }
-
- /// Calculates the bounds of the current pass
- fn init_pass(&mut self) {
- let w = f64::from(self.width);
- let h = f64::from(self.height);
- let (line_width, lines) = match self.current_pass {
- 1 => (w / 8.0, h / 8.0),
- 2 => ((w - 4.0) / 8.0, h / 8.0),
- 3 => (w / 4.0, (h - 4.0) / 8.0),
- 4 => ((w - 2.0) / 4.0, h / 4.0),
- 5 => (w / 2.0, (h - 2.0) / 4.0),
- 6 => ((w - 1.0) / 2.0, h / 2.0),
- 7 => (w, (h - 1.0) / 2.0),
- _ => unreachable!(),
- };
- self.line_width = line_width.ceil() as u32;
- self.lines = lines.ceil() as u32;
- self.line = 0;
- }
-
- /// The current pass#.
- pub fn current_pass(&self) -> u8 {
- self.current_pass
- }
-}
-
-/// Iterates over the (passes, lines, widths)
-impl Iterator for Adam7Iterator {
- type Item = (u8, u32, u32);
- fn next(&mut self) -> Option<Self::Item> {
- if self.line < self.lines && self.line_width > 0 {
- let this_line = self.line;
- self.line += 1;
- Some((self.current_pass, this_line, self.line_width))
- } else if self.current_pass < 7 {
- self.current_pass += 1;
- self.init_pass();
- self.next()
- } else {
- None
- }
- }
-}
-
-fn subbyte_pixels(scanline: &[u8], bits_pp: usize) -> impl Iterator<Item = u8> + '_ {
- (0..scanline.len() * 8)
- .step_by(bits_pp)
- .map(move |bit_idx| {
- let byte_idx = bit_idx / 8;
-
- // sub-byte samples start in the high-order bits
- let rem = 8 - bit_idx % 8 - bits_pp;
-
- match bits_pp {
- // evenly divides bytes
- 1 => (scanline[byte_idx] >> rem) & 1,
- 2 => (scanline[byte_idx] >> rem) & 3,
- 4 => (scanline[byte_idx] >> rem) & 15,
- _ => unreachable!(),
- }
- })
-}
-
-/// Given pass, image width, and line number, produce an iterator of bit positions of pixels to copy
-/// from the input scanline to the image buffer.
-fn expand_adam7_bits(
- pass: u8,
- width: usize,
- line_no: usize,
- bits_pp: usize,
-) -> StepBy<Range<usize>> {
- let (line_mul, line_off, samp_mul, samp_off) = match pass {
- 1 => (8, 0, 8, 0),
- 2 => (8, 0, 8, 4),
- 3 => (8, 4, 4, 0),
- 4 => (4, 0, 4, 2),
- 5 => (4, 2, 2, 0),
- 6 => (2, 0, 2, 1),
- 7 => (2, 1, 1, 0),
- _ => panic!("Adam7 pass out of range: {}", pass),
- };
-
- // the equivalent line number in progressive scan
- let prog_line = line_mul * line_no + line_off;
- // line width is rounded up to the next byte
- let line_width = (width * bits_pp + 7) & !7;
- let line_start = prog_line * line_width;
- let start = line_start + (samp_off * bits_pp);
- let stop = line_start + (width * bits_pp);
-
- (start..stop).step_by(bits_pp * samp_mul)
-}
-
-/// Expands an Adam 7 pass
-pub fn expand_pass(
- img: &mut [u8],
- width: u32,
- scanline: &[u8],
- pass: u8,
- line_no: u32,
- bits_pp: u8,
-) {
- let width = width as usize;
- let line_no = line_no as usize;
- let bits_pp = bits_pp as usize;
-
- // pass is out of range but don't blow up
- if pass == 0 || pass > 7 {
- return;
- }
-
- let bit_indices = expand_adam7_bits(pass, width, line_no, bits_pp);
-
- if bits_pp < 8 {
- for (pos, px) in bit_indices.zip(subbyte_pixels(scanline, bits_pp)) {
- let rem = 8 - pos % 8 - bits_pp;
- img[pos / 8] |= px << rem as u8;
- }
- } else {
- let bytes_pp = bits_pp / 8;
-
- for (bitpos, px) in bit_indices.zip(scanline.chunks(bytes_pp)) {
- for (offset, val) in px.iter().enumerate() {
- img[bitpos / 8 + offset] = *val;
- }
- }
- }
-}
-
-#[test]
-fn test_adam7() {
- /*
- 1646
- 7777
- 5656
- 7777
- */
- let it = Adam7Iterator::new(4, 4);
- let passes: Vec<_> = it.collect();
- assert_eq!(
- &*passes,
- &[
- (1, 0, 1),
- (4, 0, 1),
- (5, 0, 2),
- (6, 0, 2),
- (6, 1, 2),
- (7, 0, 4),
- (7, 1, 4)
- ]
- );
-}
-
-#[test]
-fn test_subbyte_pixels() {
- let scanline = &[0b10101010, 0b10101010];
-
- let pixels = subbyte_pixels(scanline, 1).collect::<Vec<_>>();
- assert_eq!(pixels.len(), 16);
- assert_eq!(pixels, [1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0]);
-}
-
-#[test]
-fn test_expand_adam7_bits() {
- let width = 32;
- let bits_pp = 1;
-
- let expected = |offset: usize, step: usize, count: usize| {
- (0..count)
- .map(move |i| step * i + offset)
- .collect::<Vec<_>>()
- };
-
- for line_no in 0..8 {
- let start = 8 * line_no * width;
-
- assert_eq!(
- expand_adam7_bits(1, width, line_no, bits_pp).collect::<Vec<_>>(),
- expected(start, 8, 4)
- );
-
- let start = start + 4;
-
- assert_eq!(
- expand_adam7_bits(2, width, line_no, bits_pp).collect::<Vec<_>>(),
- expected(start, 8, 4)
- );
-
- let start = (8 * line_no + 4) as usize * width as usize;
-
- assert_eq!(
- expand_adam7_bits(3, width, line_no, bits_pp).collect::<Vec<_>>(),
- expected(start, 4, 8)
- );
- }
-
- for line_no in 0..16 {
- let start = 4 * line_no * width + 2;
-
- assert_eq!(
- expand_adam7_bits(4, width, line_no, bits_pp).collect::<Vec<_>>(),
- expected(start, 4, 8)
- );
-
- let start = (4 * line_no + 2) * width;
-
- assert_eq!(
- expand_adam7_bits(5, width, line_no, bits_pp).collect::<Vec<_>>(),
- expected(start, 2, 16)
- )
- }
-
- for line_no in 0..32 {
- let start = 2 * line_no * width + 1;
-
- assert_eq!(
- expand_adam7_bits(6, width, line_no, bits_pp).collect::<Vec<_>>(),
- expected(start, 2, 16),
- "line_no: {}",
- line_no
- );
-
- let start = (2 * line_no + 1) * width;
-
- assert_eq!(
- expand_adam7_bits(7, width, line_no, bits_pp).collect::<Vec<_>>(),
- expected(start, 1, 32)
- );
- }
-}
-
-#[test]
-fn test_expand_pass_subbyte() {
- let mut img = [0u8; 8];
- let width = 8;
- let bits_pp = 1;
-
- expand_pass(&mut img, width, &[0b10000000], 1, 0, bits_pp);
- assert_eq!(img, [0b10000000u8, 0, 0, 0, 0, 0, 0, 0]);
-
- expand_pass(&mut img, width, &[0b10000000], 2, 0, bits_pp);
- assert_eq!(img, [0b10001000u8, 0, 0, 0, 0, 0, 0, 0]);
-
- expand_pass(&mut img, width, &[0b11000000], 3, 0, bits_pp);
- assert_eq!(img, [0b10001000u8, 0, 0, 0, 0b10001000, 0, 0, 0]);
-
- expand_pass(&mut img, width, &[0b11000000], 4, 0, bits_pp);
- assert_eq!(img, [0b10101010u8, 0, 0, 0, 0b10001000, 0, 0, 0]);
-
- expand_pass(&mut img, width, &[0b11000000], 4, 1, bits_pp);
- assert_eq!(img, [0b10101010u8, 0, 0, 0, 0b10101010, 0, 0, 0]);
-
- expand_pass(&mut img, width, &[0b11110000], 5, 0, bits_pp);
- assert_eq!(img, [0b10101010u8, 0, 0b10101010, 0, 0b10101010, 0, 0, 0]);
-
- expand_pass(&mut img, width, &[0b11110000], 5, 1, bits_pp);
- assert_eq!(
- img,
- [0b10101010u8, 0, 0b10101010, 0, 0b10101010, 0, 0b10101010, 0]
- );
-
- expand_pass(&mut img, width, &[0b11110000], 6, 0, bits_pp);
- assert_eq!(
- img,
- [0b11111111u8, 0, 0b10101010, 0, 0b10101010, 0, 0b10101010, 0]
- );
-
- expand_pass(&mut img, width, &[0b11110000], 6, 1, bits_pp);
- assert_eq!(
- img,
- [0b11111111u8, 0, 0b11111111, 0, 0b10101010, 0, 0b10101010, 0]
- );
-
- expand_pass(&mut img, width, &[0b11110000], 6, 2, bits_pp);
- assert_eq!(
- img,
- [0b11111111u8, 0, 0b11111111, 0, 0b11111111, 0, 0b10101010, 0]
- );
-
- expand_pass(&mut img, width, &[0b11110000], 6, 3, bits_pp);
- assert_eq!(
- [0b11111111u8, 0, 0b11111111, 0, 0b11111111, 0, 0b11111111, 0],
- img
- );
-
- expand_pass(&mut img, width, &[0b11111111], 7, 0, bits_pp);
- assert_eq!(
- [
- 0b11111111u8,
- 0b11111111,
- 0b11111111,
- 0,
- 0b11111111,
- 0,
- 0b11111111,
- 0
- ],
- img
- );
-
- expand_pass(&mut img, width, &[0b11111111], 7, 1, bits_pp);
- assert_eq!(
- [
- 0b11111111u8,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0,
- 0b11111111,
- 0
- ],
- img
- );
-
- expand_pass(&mut img, width, &[0b11111111], 7, 2, bits_pp);
- assert_eq!(
- [
- 0b11111111u8,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0
- ],
- img
- );
-
- expand_pass(&mut img, width, &[0b11111111], 7, 3, bits_pp);
- assert_eq!(
- [
- 0b11111111u8,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111,
- 0b11111111
- ],
- img
- );
-}