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author | Valentin Popov <valentin@popov.link> | 2024-07-19 15:37:58 +0300 |
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committer | Valentin Popov <valentin@popov.link> | 2024-07-19 15:37:58 +0300 |
commit | a990de90fe41456a23e58bd087d2f107d321f3a1 (patch) | |
tree | 15afc392522a9e85dc3332235e311b7d39352ea9 /vendor/tiff | |
parent | 3d48cd3f81164bbfc1a755dc1d4a9a02f98c8ddd (diff) | |
download | fparkan-a990de90fe41456a23e58bd087d2f107d321f3a1.tar.xz fparkan-a990de90fe41456a23e58bd087d2f107d321f3a1.zip |
Deleted vendor folder
Diffstat (limited to 'vendor/tiff')
34 files changed, 0 insertions, 7353 deletions
diff --git a/vendor/tiff/.cargo-checksum.json b/vendor/tiff/.cargo-checksum.json deleted file mode 100644 index 2809616..0000000 --- a/vendor/tiff/.cargo-checksum.json +++ /dev/null @@ -1 +0,0 @@ -{"files":{"CHANGES.md":"f9bd3690a3ce0c64595af40b6baacc64aabd10d34468bc307d5d67250045063d","Cargo.toml":"519d88ebdcbce493d4cec3bf0b5c7add95529e9b6e462493f71109ae19519839","LICENSE":"20c097d0de27e2adc179140a3d542091951a030699c7e1c78655f2a2d08d4e3e","README.md":"1c17af2aab3dcd95685672aecc5e5b7d1d608d41be9a8b22d327d06ebad0b72a","benches/lzw.rs":"ae9bd8a35ad6826ac204bb03bc6c07fc6070eb69c8f1baf20ed3222e515ca0a5","src/bytecast.rs":"fe162944a473d48d2502eab08f2fdb56e5b546d11cb25833454dd8d6395396ae","src/decoder/ifd.rs":"688e32504179ff53ac28cc5951e114d77a8771f276ec9c5007a861fbe07a77a3","src/decoder/image.rs":"2e22caf9401c84768e2527753fa9d9813886aea158daf4dd53fdf5c142672d1a","src/decoder/mod.rs":"e7cd83c9f5fec43036b9f576748adb76d654fdda42eb0fa64b7e0dce1a907575","src/decoder/stream.rs":"538dca03462c5a8351b558509766e8b9581d9de06571df1dd1fa95ce45918952","src/decoder/tag_reader.rs":"e95db23244da757588f0d885ebce18e189fafc52ac841682fb39371197b6f9d3","src/encoder/colortype.rs":"801eb6111d5c9fece5537a171b4aa3300d3d3f0f6242610ee819595146ea6928","src/encoder/compression/deflate.rs":"634692eb4290659a38f69c8a3635619333779d308d4f1583b0cb9e5974901bc0","src/encoder/compression/lzw.rs":"73076a9f332b9a48be65d19bcb16d25089d1a2812a2bcfe197223f805c34ef5d","src/encoder/compression/mod.rs":"817aceeb78331464e41713d3da97e9b7aabd7f34b34fb8173e2942d7ee039e5b","src/encoder/compression/packbits.rs":"a3b2e93b18ab69d82011ed78c17da050a2271e2253ee6903ec34b0b196577824","src/encoder/compression/uncompressed.rs":"296b865315b9fb0a8927a2862bdff64fcd01f92b38f7120795c2f68e92187f29","src/encoder/mod.rs":"83f91088019d1318edae70d594dae288edbf7e2f1cd4e48d8bffc22ea1f786a7","src/encoder/tiff_value.rs":"df212aa92b53c2e8bdbe0638bce6e0ac477ade8d8b3494f287aceb4dda621ff1","src/encoder/writer.rs":"b9abdc9095ffb5160ac758534e5ff282d90c801fe4a6f4e157c081d646894ee6","src/error.rs":"c7a021b3d30930abfb03e021734f04acb43dc003d817d9301c03e9954875f0d3","src/lib.rs":"6ec15b1e8f824b346520ec94dddb0604ee1a636c20dd96ece326f31351fd0c3c","src/tags.rs":"847cdb026212b7e45d42840b26eb43713f1579d32f51fe3e22140a352e5f1758","tests/benches/README.md":"61c5580a4c667cfe0cb2e63597f84b84e34a3424202d6e3e53954d4c273189f7","tests/benches/Transparency-lzw.tif":"b15297094106a33374672a6971ed1aaa5d2fbf3f3731c61af1107ba3e88af156","tests/benches/kodim02-lzw.tif":"9a9e3cf1c53e13a38f9d6409b0aae3fe214fea1b004ac3e848766b08bde38f66","tests/benches/kodim07-lzw.tif":"068beb46a3d186ed2fa65d5afbdbf1b34a02287b8d6c9e9c858728295ab277eb","tests/decode_bigtiff_images.rs":"5460b4c0be1588a6281c00a23ec1cb2a9b4cf3a5df5434da464ec30b888f6cd2","tests/decode_images.rs":"c1f673e844d43c5a1be3159a1523308b2a665126478ae78ffa7c1313fe81b9ef","tests/decodedata-rgb-3c-8b.tiff":"88fb7908c4562ad3f3a1180c02115da71efc34a6d3b4f0573360113385cef33c","tests/encode_images.rs":"30e49f5aa2169fcb1ec59ffda95bcff4dd567ebb33eff3d81fae606d147cee59","tests/encode_images_with_compression.rs":"0a351c0096ee1db74214d12f1b1669b73419ddd915d4850400774ce2598c53cd","tests/fuzz_tests.rs":"742f4283cdc6c3f5d1ccf320ea6c0eb7f3f517cc831de801206c077a0518ec99"},"package":"6d172b0f4d3fba17ba89811858b9d3d97f928aece846475bbda076ca46736211"}
\ No newline at end of file diff --git a/vendor/tiff/CHANGES.md b/vendor/tiff/CHANGES.md deleted file mode 100644 index fa0b993..0000000 --- a/vendor/tiff/CHANGES.md +++ /dev/null @@ -1,196 +0,0 @@ -# Version 0.9.0 - -New features: -* Added support for photometric interpretation `YCbCr` and added related - `ColorType`. - -Fixes: -* Decoding tiled images calculates padding correctly when image width or height - is a multiple of tile size. It could previously corrupt the last tile per row - by skipping over data. - -# Version 0.8.1 - -Changes: -* The jpeg decoder gained to ability to utilize the Photometric Interpretation - directly instead of relying on a custom APP segment. - -Fixes: -* A spurious error within the PackBits decoder lead to the incorrect results - (wrong bits or errors), based on the maximum size of reads from the - underlying reader. -* Removed a panic path in jpeg decoding, when a feature such as photometric - interpretation is not supported. An error is returned instead. - -# Version 0.8.0 - -Changes: -* The minimum supported rust version is now indicated in `Cargo.toml`. -* The enums `TiffFormatError` and `TiffUnsupportedError` are now - marked with the `#[non_exhaustive]` attribute. -* Additionally, tag related enums `Value`, `Tags`, `Type`, `CompressionMethod`, - `PhotometricInterpretation`, `PlanarConfiguration`, `Predictor`, - `ResolutionUnit`, `SampleFormat` are also changed. - -Removals: -* Removed deprecated methods of `Decoder`: `init`, `read_jpeg`, - `read_strip_to_buffer`, `read_strip`, `read_tile`. The implicit chunk (row or - tile) index order could not be easily tracked by the caller. New separate - utility interfaces may be introduced at a later point, for now callers are - obligated to choose their own. - -Fixes: -* Update to `jpeg_decoder = 0.3`. - -# Version 0.7.4 - -New features: -* Creating an encoder for invalid, zero-sized images is now rejected. - -Fixes: -* Fix panic, in a case where decoding jpeg encoded images did not expect the - jpeg decoder to return an error. -* Fix panic by validating `rows_per_strip` better, fixing a division-by-zero. - -# Version 0.7.3 - -New features: -* Allow decoder to access specific tiles by index. -* Add support for floating point predictor. -* Tiled jpeg file support. - -Changes: -* Various refactoring and performance improvements. - -# Version 0.7.2 - -New features: -* Encoding with `ImageEncoder` now takes an optional compressor argument, - allowing compressed encoding. See the methods - `TiffEncoder::{new_image,write_image}_with_compression`. -* `jpeg_decoder` has been upgraded, now supports lossless JPEG. - -Changes: -* Decoding now more consistently reads and interprets the initial IFD, instead - of performing _some_ interpretation lazily. (This change prepares fully lazy - and backwards seeking.) - -# Version 0.7.1 - -New features: -* Encoding signed integer formats is now supported. -* Extensive fuzzing with `cargo fuzz`. - -Changes: -* Tile decoding should be a little faster, requires one less intermediate buffer. -* Images whose IFDs form a cycle due to their offsets will now raise an error - when the cycle would be entered (jumping back should still be supported). - -Fixes: -* Fixed a regression that caused conflict between strips and tile images, - causing errors in decoding some images. -* Use checked integer arithmetic in limit calculations, fixes overflows. -* IFD Tags are now always cleared between images. -* Found by fuzzing: Several memory limit overflows; JPEG now correctly - validates offsets and a minimum size of its table; Check upper limit of strip - byte size correctly; - -Notes: -Our CI has warned that this version no longer builds on `1.34.2` out of the -box. We're still committed to the MSRV on this major version yet one -dependency—`flate2`—has already bumped it in a SemVer compatible version of its -own. This is out-of-our-control (cargo's dependency resolution does not allow -us to address this in a reasonable manner). - -This can be address this by pinning the version of `flate2` to `1.0.21` in your -own files. However, you should understand that this puts you in considerable -maintenance debt as you will no longer receive any updates for this dependency -and any package that _requires_ a new version of the `1.0` series would be -incompatible with this requirement (cargo might yell at you very loudly). - -# Version 0.7.0 - -New features: -* Support for encoding BigTiff ([#122](https://github.com/image-rs/image-tiff/pull/122)) - * _Breaking:_ Encoder types now have a generic parameter to differentiate BigTiff and standard Tiff encoding. Defaults to standard Tiff. -* Basic tile decoding ([#125](https://github.com/image-rs/image-tiff/pull/125)) - * _Breaking:_ There is a new `TiffError::UsageError` variant. -* Support for datatypes `Int8` and `Int16` ([#114](https://github.com/image-rs/image-tiff/pull/114)) - * _Breaking:_ `DecodingResult` and `DecodingBuffer` have the two new variants `I8` and `I16`. -* Support for `i32` arrays ([#118](https://github.com/image-rs/image-tiff/pull/118/files)) - * _Breaking:_ `DecodingResult` and `DecodingBuffer` have a new `I32` variant. -* Support for `Ifd` and `IfdBig` tag types and `I64` data type ([#119](https://github.com/image-rs/image-tiff/pull/119)) - * _Breaking:_ `DecodingResult` and `DecodingBuffer` have a new `I64` variant. -* Add `SMinSampleValue` and `SMaxSampleValue` ([#123](https://github.com/image-rs/image-tiff/pull/123)) - -Changes: -* Improve deflate support ([#132](https://github.com/image-rs/image-tiff/pull/132)) - * Switch to streaming decompression via `flate2`. Aside from performance improvements and lower RAM consumption, this fixes a bug where `max_uncompressed_length` was precalculated for a single tile but then used as a hard limit on the whole data, failing to decompress any tiled images. - * Add support for new `Deflate` tag in addition to `OldDeflate`. -* _Breaking:_ Remove `InflateError`, which is no longer needed with `flate2` ([#134](https://github.com/image-rs/image-tiff/pull/134)) -* _Breaking:_ Support for `MinIsWhite` is restricted to unsigned and floating - point values. This is expected to be be re-added once some contradictory - interpretation regarding semantics for signed values is resolved. - -Fixes: -* Validate that ASCII tags are valid ASCII and end with a null byte ([#121](https://github.com/image-rs/image-tiff/pull/121)) - -Internal: -* Simplify decompression logic ([#126](https://github.com/image-rs/image-tiff/pull/126)) -* Simplify `expand_strip` ([#128](https://github.com/image-rs/image-tiff/pull/128)) - -# Version 0.6.1 - -New features: -* Support for reading `u16` and ascii string tags. -* Added `Limits::unlimited` for disabling all limits. -* Added `ImageEncoder::rows_per_strip` to overwrite the default. - -Changes: -* The default strip size for chunked encoding is now 1MB, up from 8KB. This - should lead to more efficient decoding and compression. - -Fixes: -* Fixed a bug where LZW compressed strips could not be decoded, instead - returning an error `Inconsistent sizes encountered`. -* Reading a tag with a complex type and a single value returns the proper Value - variant, instead of a vector with one entry. - -# Version 0.6.0 - -New features: -* Support for decoding BigTIFF with 64-bit offsets -* The value types byte, `f32`, `f64` are now recognized -* Support for Modern JPEG encoded images - -Improvements: -* Better support for adding auxiliary tags before encoding image data -* Switched to lzw decoder library `weezl` for performance -* The `ColorType` trait now supports `SAMPLE_ENCODING` hints - -Fixes: -* Fixed decoding of inline ASCII in tags -* Fixed handling after null terminator in ASCII data -* Recognize tile and sample format tags - -# Version 0.5.0 - -* Added support for 32-bit and 64-bit decoded values. -* Added CMYK(16|32|64) color type support. -* Check many internal integer conversions to increase stability. This should - only lead to images being reported as faulty that would previously silently - break platform limits. If there are any false positives, please report them. -* Remove an erroneous check of decoded length in lzw compressed images. - -# Version 0.4.0 - -* Several enumerations are now non_exhaustive for future extensions. - These are `Tag`, `Type`, `Value`, `PhotometricInterpretation`, - `CompressionMethod`, `Predictor`. -* Enums gained a dedicated method to convert to their TIFF variant value with - the specified type. Performing these conversions by casting the discriminant - with `as` is not guaranteed to be stable, except where documented explicitly. -* Removed the num-derive and num dependencies. -* Added support for decoding `deflate` compressed images. -* Make the decoder `Limits` customizable by exposing members. -* Fixed multi-page TIFF encoding writing incorrect offsets. diff --git a/vendor/tiff/Cargo.toml b/vendor/tiff/Cargo.toml deleted file mode 100644 index 7d7ed50..0000000 --- a/vendor/tiff/Cargo.toml +++ /dev/null @@ -1,48 +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 = "1.61.0" -name = "tiff" -version = "0.9.0" -authors = ["The image-rs Developers"] -exclude = [ - "tests/images/*", - "tests/fuzz_images/*", -] -description = "TIFF decoding and encoding library in pure Rust" -readme = "README.md" -categories = [ - "multimedia::images", - "multimedia::encoding", -] -license = "MIT" -repository = "https://github.com/image-rs/image-tiff" -resolver = "2" - -[[bench]] -name = "lzw" -harness = false - -[dependencies.flate2] -version = "1.0.20" - -[dependencies.jpeg] -version = "0.3.0" -default-features = false -package = "jpeg-decoder" - -[dependencies.weezl] -version = "0.1.0" - -[dev-dependencies.criterion] -version = "0.3.1" diff --git a/vendor/tiff/LICENSE b/vendor/tiff/LICENSE deleted file mode 100644 index ad4dc76..0000000 --- a/vendor/tiff/LICENSE +++ /dev/null @@ -1,21 +0,0 @@ -MIT License - -Copyright (c) 2018 PistonDevelopers - -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/tiff/README.md b/vendor/tiff/README.md deleted file mode 100644 index f494a50..0000000 --- a/vendor/tiff/README.md +++ /dev/null @@ -1,54 +0,0 @@ -# image-tiff -[![Build Status](https://github.com/image-rs/image-tiff/workflows/Rust%20CI/badge.svg)](https://github.com/image-rs/image-tiff/actions) -[![Documentation](https://docs.rs/tiff/badge.svg)](https://docs.rs/tiff) -[![Further crate info](https://img.shields.io/crates/v/tiff.svg)](https://crates.io/crates/tiff) - -TIFF decoding and encoding library in pure Rust - -## Supported - -### Features -- Baseline spec (other than formats and tags listed below as not supported) -- Multipage -- BigTIFF -- Incremental decoding - -### Formats -This table lists photometric interpretations and sample formats which are supported for encoding and decoding. The entries are `ColorType` variants for which sample bit depths are supported. Only samples where all bit depths are equal are currently supported. For example, `RGB(8)` means that the bit depth [8, 8, 8] is supported and will be interpreted as an 8 bit per channel RGB color type. - -| `PhotometricInterpretation` | UINT Format | IEEEFP Format | -| --------------------------- | --------------------------------------- | ------------------------- | -| `WhiteIsZero` | Gray(8\|16\|32\|64) | Gray(32\|64) | -| `BlackIsZero` | Gray(8\|16\|32\|64) | Gray(32\|64) | -| `RGB` | RGB(8\|16\|32\|64), RGBA(8\|16\|32\|64) | RGB(32\|64), RGBA(32\|64) | -| `RGBPalette` | | | -| `Mask` | | | -| `CMYK` | CMYK(8\|16\|32\|64) | CMYK(32\|64) | -| `YCbCr` | | | -| `CIELab` | | | - -### Compressions - -| | Decoding | Encoding | -| -------- | -------- | -------- | -| None | ✓ | ✓ | -| LZW | ✓ | ✓ | -| Deflate | ✓ | ✓ | -| PackBits | ✓ | ✓ | - - -## Not yet supported - -Formats and interpretations not listed above or with empty entries are unsupported. - -- Baseline tags - - `ExtraSamples` -- Extension tags - -## Fuzzing - -This crate uses [cargo-fuzz](https://github.com/rust-fuzz/cargo-fuzz) in order to test the image parser. - -After installing it with `cargo install cargo-fuzz` on a nightly rustc, the -fuzzing harness can be run with recommended settings using -`cargo fuzz run decode_image -snone -- -timeout=5`. diff --git a/vendor/tiff/benches/lzw.rs b/vendor/tiff/benches/lzw.rs deleted file mode 100644 index 47f513b..0000000 --- a/vendor/tiff/benches/lzw.rs +++ /dev/null @@ -1,82 +0,0 @@ -extern crate criterion; -extern crate tiff; - -use criterion::{ - black_box, measurement::Measurement, BenchmarkGroup, BenchmarkId, Criterion, Throughput, -}; -use tiff::decoder::Decoder; - -fn read_image(image: &[u8]) { - let image = std::io::Cursor::new(image); - let decoder = Decoder::new(black_box(image)); - let mut reader = decoder.unwrap(); - - while { - reader.read_image().unwrap(); - reader.more_images() - } {} -} - -fn main() { - struct BenchDef { - data: &'static [u8], - id: &'static str, - sample_size: usize, - } - - fn run_bench_def<M: Measurement>(group: &mut BenchmarkGroup<M>, def: BenchDef) { - group - .sample_size(def.sample_size) - .throughput(Throughput::Bytes(def.data.len() as u64)) - .bench_with_input( - BenchmarkId::new(def.id, def.data.len()), - def.data, - |b, input| b.iter(|| read_image(input)), - ); - } - - let mut c = Criterion::default().configure_from_args(); - let mut group = c.benchmark_group("tiff-lzw"); - - macro_rules! data_file { - ($name:literal) => { - include_bytes!(concat!(env!("CARGO_MANIFEST_DIR"), $name)) - }; - } - - run_bench_def( - &mut group, - BenchDef { - data: data_file!("/tests/images/issue_69_lzw.tiff"), - id: "issue-69-lzw.tif", - sample_size: 500, - }, - ); - - run_bench_def( - &mut group, - BenchDef { - data: data_file!("/tests/benches/kodim02-lzw.tif"), - id: "kodim02-lzw.tif", - sample_size: 20, - }, - ); - - run_bench_def( - &mut group, - BenchDef { - data: data_file!("/tests/benches/kodim07-lzw.tif"), - id: "kodim07-lzw.tif", - sample_size: 20, - }, - ); - - run_bench_def( - &mut group, - BenchDef { - data: data_file!("/tests/benches/Transparency-lzw.tif"), - id: "Transparency-lzw.tif", - sample_size: 20, - }, - ); -} diff --git a/vendor/tiff/src/bytecast.rs b/vendor/tiff/src/bytecast.rs deleted file mode 100644 index 6e9d762..0000000 --- a/vendor/tiff/src/bytecast.rs +++ /dev/null @@ -1,34 +0,0 @@ -//! Trivial, internal byte transmutation. -//! -//! A dependency like bytemuck would give us extra assurance of the safety but overall would not -//! reduce the amount of total unsafety. We don't use it in the interface where the traits would -//! really become useful. -//! -//! SAFETY: These are benign casts as we apply them to fixed size integer types only. All of them -//! are naturally aligned, valid for all bit patterns and their alignment is surely at most their -//! size (we assert the latter fact since it is 'implementation defined' if following the letter of -//! the unsafe code guidelines). -//! -//! TODO: Would like to use std-lib here. -use std::{mem, slice}; - -macro_rules! integral_slice_as_bytes{($int:ty, $const:ident $(,$mut:ident)*) => { - pub(crate) fn $const(slice: &[$int]) -> &[u8] { - assert!(mem::align_of::<$int>() <= mem::size_of::<$int>()); - unsafe { slice::from_raw_parts(slice.as_ptr() as *const u8, mem::size_of_val(slice)) } - } - $(pub(crate) fn $mut(slice: &mut [$int]) -> &mut [u8] { - assert!(mem::align_of::<$int>() <= mem::size_of::<$int>()); - unsafe { slice::from_raw_parts_mut(slice.as_mut_ptr() as *mut u8, mem::size_of_val(slice)) } - })* -}} - -integral_slice_as_bytes!(i8, i8_as_ne_bytes, i8_as_ne_mut_bytes); -integral_slice_as_bytes!(u16, u16_as_ne_bytes, u16_as_ne_mut_bytes); -integral_slice_as_bytes!(i16, i16_as_ne_bytes, i16_as_ne_mut_bytes); -integral_slice_as_bytes!(u32, u32_as_ne_bytes, u32_as_ne_mut_bytes); -integral_slice_as_bytes!(i32, i32_as_ne_bytes, i32_as_ne_mut_bytes); -integral_slice_as_bytes!(u64, u64_as_ne_bytes, u64_as_ne_mut_bytes); -integral_slice_as_bytes!(i64, i64_as_ne_bytes, i64_as_ne_mut_bytes); -integral_slice_as_bytes!(f32, f32_as_ne_bytes, f32_as_ne_mut_bytes); -integral_slice_as_bytes!(f64, f64_as_ne_bytes, f64_as_ne_mut_bytes); diff --git a/vendor/tiff/src/decoder/ifd.rs b/vendor/tiff/src/decoder/ifd.rs deleted file mode 100644 index b05513d..0000000 --- a/vendor/tiff/src/decoder/ifd.rs +++ /dev/null @@ -1,670 +0,0 @@ -//! Function for reading TIFF tags - -use std::collections::HashMap; -use std::convert::{TryFrom, TryInto}; -use std::io::{self, Read, Seek}; -use std::mem; -use std::str; - -use super::stream::{ByteOrder, EndianReader, SmartReader}; -use crate::tags::{Tag, Type}; -use crate::{TiffError, TiffFormatError, TiffResult}; - -use self::Value::{ - Ascii, Byte, Double, Float, Ifd, IfdBig, List, Rational, RationalBig, SRational, SRationalBig, - Short, Signed, SignedBig, Unsigned, UnsignedBig, -}; - -#[allow(unused_qualifications)] -#[derive(Debug, Clone, PartialEq)] -#[non_exhaustive] -pub enum Value { - Byte(u8), - Short(u16), - Signed(i32), - SignedBig(i64), - Unsigned(u32), - UnsignedBig(u64), - Float(f32), - Double(f64), - List(Vec<Value>), - Rational(u32, u32), - RationalBig(u64, u64), - SRational(i32, i32), - SRationalBig(i64, i64), - Ascii(String), - Ifd(u32), - IfdBig(u64), -} - -impl Value { - pub fn into_u8(self) -> TiffResult<u8> { - match self { - Byte(val) => Ok(val), - val => Err(TiffError::FormatError(TiffFormatError::ByteExpected(val))), - } - } - - pub fn into_u16(self) -> TiffResult<u16> { - match self { - Short(val) => Ok(val), - Unsigned(val) => Ok(u16::try_from(val)?), - UnsignedBig(val) => Ok(u16::try_from(val)?), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_u32(self) -> TiffResult<u32> { - match self { - Short(val) => Ok(val.into()), - Unsigned(val) => Ok(val), - UnsignedBig(val) => Ok(u32::try_from(val)?), - Ifd(val) => Ok(val), - IfdBig(val) => Ok(u32::try_from(val)?), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_i32(self) -> TiffResult<i32> { - match self { - Signed(val) => Ok(val), - SignedBig(val) => Ok(i32::try_from(val)?), - val => Err(TiffError::FormatError( - TiffFormatError::SignedIntegerExpected(val), - )), - } - } - - pub fn into_u64(self) -> TiffResult<u64> { - match self { - Short(val) => Ok(val.into()), - Unsigned(val) => Ok(val.into()), - UnsignedBig(val) => Ok(val), - Ifd(val) => Ok(val.into()), - IfdBig(val) => Ok(val), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_i64(self) -> TiffResult<i64> { - match self { - Signed(val) => Ok(val.into()), - SignedBig(val) => Ok(val), - val => Err(TiffError::FormatError( - TiffFormatError::SignedIntegerExpected(val), - )), - } - } - - pub fn into_f32(self) -> TiffResult<f32> { - match self { - Float(val) => Ok(val), - val => Err(TiffError::FormatError( - TiffFormatError::SignedIntegerExpected(val), - )), - } - } - - pub fn into_f64(self) -> TiffResult<f64> { - match self { - Double(val) => Ok(val), - val => Err(TiffError::FormatError( - TiffFormatError::SignedIntegerExpected(val), - )), - } - } - - pub fn into_string(self) -> TiffResult<String> { - match self { - Ascii(val) => Ok(val), - val => Err(TiffError::FormatError( - TiffFormatError::SignedIntegerExpected(val), - )), - } - } - - pub fn into_u32_vec(self) -> TiffResult<Vec<u32>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - new_vec.push(v.into_u32()?) - } - Ok(new_vec) - } - Unsigned(val) => Ok(vec![val]), - UnsignedBig(val) => Ok(vec![u32::try_from(val)?]), - Rational(numerator, denominator) => Ok(vec![numerator, denominator]), - RationalBig(numerator, denominator) => { - Ok(vec![u32::try_from(numerator)?, u32::try_from(denominator)?]) - } - Ifd(val) => Ok(vec![val]), - IfdBig(val) => Ok(vec![u32::try_from(val)?]), - Ascii(val) => Ok(val.chars().map(u32::from).collect()), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_u8_vec(self) -> TiffResult<Vec<u8>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - new_vec.push(v.into_u8()?) - } - Ok(new_vec) - } - Byte(val) => Ok(vec![val]), - - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_u16_vec(self) -> TiffResult<Vec<u16>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - new_vec.push(v.into_u16()?) - } - Ok(new_vec) - } - Short(val) => Ok(vec![val]), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_i32_vec(self) -> TiffResult<Vec<i32>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - match v { - SRational(numerator, denominator) => { - new_vec.push(numerator); - new_vec.push(denominator); - } - SRationalBig(numerator, denominator) => { - new_vec.push(i32::try_from(numerator)?); - new_vec.push(i32::try_from(denominator)?); - } - _ => new_vec.push(v.into_i32()?), - } - } - Ok(new_vec) - } - Signed(val) => Ok(vec![val]), - SignedBig(val) => Ok(vec![i32::try_from(val)?]), - SRational(numerator, denominator) => Ok(vec![numerator, denominator]), - SRationalBig(numerator, denominator) => { - Ok(vec![i32::try_from(numerator)?, i32::try_from(denominator)?]) - } - val => Err(TiffError::FormatError( - TiffFormatError::SignedIntegerExpected(val), - )), - } - } - - pub fn into_f32_vec(self) -> TiffResult<Vec<f32>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - new_vec.push(v.into_f32()?) - } - Ok(new_vec) - } - Float(val) => Ok(vec![val]), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_f64_vec(self) -> TiffResult<Vec<f64>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - new_vec.push(v.into_f64()?) - } - Ok(new_vec) - } - Double(val) => Ok(vec![val]), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_u64_vec(self) -> TiffResult<Vec<u64>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - new_vec.push(v.into_u64()?) - } - Ok(new_vec) - } - Unsigned(val) => Ok(vec![val.into()]), - UnsignedBig(val) => Ok(vec![val]), - Rational(numerator, denominator) => Ok(vec![numerator.into(), denominator.into()]), - RationalBig(numerator, denominator) => Ok(vec![numerator, denominator]), - Ifd(val) => Ok(vec![val.into()]), - IfdBig(val) => Ok(vec![val]), - Ascii(val) => Ok(val.chars().map(u32::from).map(u64::from).collect()), - val => Err(TiffError::FormatError( - TiffFormatError::UnsignedIntegerExpected(val), - )), - } - } - - pub fn into_i64_vec(self) -> TiffResult<Vec<i64>> { - match self { - List(vec) => { - let mut new_vec = Vec::with_capacity(vec.len()); - for v in vec { - match v { - SRational(numerator, denominator) => { - new_vec.push(numerator.into()); - new_vec.push(denominator.into()); - } - SRationalBig(numerator, denominator) => { - new_vec.push(numerator); - new_vec.push(denominator); - } - _ => new_vec.push(v.into_i64()?), - } - } - Ok(new_vec) - } - Signed(val) => Ok(vec![val.into()]), - SignedBig(val) => Ok(vec![val]), - SRational(numerator, denominator) => Ok(vec![numerator.into(), denominator.into()]), - SRationalBig(numerator, denominator) => Ok(vec![numerator, denominator]), - val => Err(TiffError::FormatError( - TiffFormatError::SignedIntegerExpected(val), - )), - } - } -} - -#[derive(Clone)] -pub struct Entry { - type_: Type, - count: u64, - offset: [u8; 8], -} - -impl ::std::fmt::Debug for Entry { - fn fmt(&self, fmt: &mut ::std::fmt::Formatter) -> Result<(), ::std::fmt::Error> { - fmt.write_str(&format!( - "Entry {{ type_: {:?}, count: {:?}, offset: {:?} }}", - self.type_, self.count, &self.offset - )) - } -} - -impl Entry { - pub fn new(type_: Type, count: u32, offset: [u8; 4]) -> Entry { - let mut offset = offset.to_vec(); - offset.append(&mut vec![0; 4]); - Entry::new_u64(type_, count.into(), offset[..].try_into().unwrap()) - } - - pub fn new_u64(type_: Type, count: u64, offset: [u8; 8]) -> Entry { - Entry { - type_, - count, - offset, - } - } - - /// Returns a mem_reader for the offset/value field - fn r(&self, byte_order: ByteOrder) -> SmartReader<io::Cursor<Vec<u8>>> { - SmartReader::wrap(io::Cursor::new(self.offset.to_vec()), byte_order) - } - - pub fn val<R: Read + Seek>( - &self, - limits: &super::Limits, - bigtiff: bool, - reader: &mut SmartReader<R>, - ) -> TiffResult<Value> { - // Case 1: there are no values so we can return immediately. - if self.count == 0 { - return Ok(List(Vec::new())); - } - - let bo = reader.byte_order(); - - let tag_size = match self.type_ { - Type::BYTE | Type::SBYTE | Type::ASCII | Type::UNDEFINED => 1, - Type::SHORT | Type::SSHORT => 2, - Type::LONG | Type::SLONG | Type::FLOAT | Type::IFD => 4, - Type::LONG8 - | Type::SLONG8 - | Type::DOUBLE - | Type::RATIONAL - | Type::SRATIONAL - | Type::IFD8 => 8, - }; - - let value_bytes = match self.count.checked_mul(tag_size) { - Some(n) => n, - None => { - return Err(TiffError::LimitsExceeded); - } - }; - - // Case 2: there is one value. - if self.count == 1 { - // 2a: the value is 5-8 bytes and we're in BigTiff mode. - if bigtiff && value_bytes > 4 && value_bytes <= 8 { - return Ok(match self.type_ { - Type::LONG8 => UnsignedBig(self.r(bo).read_u64()?), - Type::SLONG8 => SignedBig(self.r(bo).read_i64()?), - Type::DOUBLE => Double(self.r(bo).read_f64()?), - Type::RATIONAL => { - let mut r = self.r(bo); - Rational(r.read_u32()?, r.read_u32()?) - } - Type::SRATIONAL => { - let mut r = self.r(bo); - SRational(r.read_i32()?, r.read_i32()?) - } - Type::IFD8 => IfdBig(self.r(bo).read_u64()?), - Type::BYTE - | Type::SBYTE - | Type::ASCII - | Type::UNDEFINED - | Type::SHORT - | Type::SSHORT - | Type::LONG - | Type::SLONG - | Type::FLOAT - | Type::IFD => unreachable!(), - }); - } - - // 2b: the value is at most 4 bytes or doesn't fit in the offset field. - return Ok(match self.type_ { - Type::BYTE => Unsigned(u32::from(self.offset[0])), - Type::SBYTE => Signed(i32::from(self.offset[0] as i8)), - Type::UNDEFINED => Byte(self.offset[0]), - Type::SHORT => Unsigned(u32::from(self.r(bo).read_u16()?)), - Type::SSHORT => Signed(i32::from(self.r(bo).read_i16()?)), - Type::LONG => Unsigned(self.r(bo).read_u32()?), - Type::SLONG => Signed(self.r(bo).read_i32()?), - Type::FLOAT => Float(self.r(bo).read_f32()?), - Type::ASCII => { - if self.offset[0] == 0 { - Ascii("".to_string()) - } else { - return Err(TiffError::FormatError(TiffFormatError::InvalidTag)); - } - } - Type::LONG8 => { - reader.goto_offset(self.r(bo).read_u32()?.into())?; - UnsignedBig(reader.read_u64()?) - } - Type::SLONG8 => { - reader.goto_offset(self.r(bo).read_u32()?.into())?; - SignedBig(reader.read_i64()?) - } - Type::DOUBLE => { - reader.goto_offset(self.r(bo).read_u32()?.into())?; - Double(reader.read_f64()?) - } - Type::RATIONAL => { - reader.goto_offset(self.r(bo).read_u32()?.into())?; - Rational(reader.read_u32()?, reader.read_u32()?) - } - Type::SRATIONAL => { - reader.goto_offset(self.r(bo).read_u32()?.into())?; - SRational(reader.read_i32()?, reader.read_i32()?) - } - Type::IFD => Ifd(self.r(bo).read_u32()?), - Type::IFD8 => { - reader.goto_offset(self.r(bo).read_u32()?.into())?; - IfdBig(reader.read_u64()?) - } - }); - } - - // Case 3: There is more than one value, but it fits in the offset field. - if value_bytes <= 4 || bigtiff && value_bytes <= 8 { - match self.type_ { - Type::BYTE => return offset_to_bytes(self.count as usize, self), - Type::SBYTE => return offset_to_sbytes(self.count as usize, self), - Type::ASCII => { - let mut buf = vec![0; self.count as usize]; - self.r(bo).read_exact(&mut buf)?; - if buf.is_ascii() && buf.ends_with(&[0]) { - let v = str::from_utf8(&buf)?; - let v = v.trim_matches(char::from(0)); - return Ok(Ascii(v.into())); - } else { - return Err(TiffError::FormatError(TiffFormatError::InvalidTag)); - } - } - Type::UNDEFINED => { - return Ok(List( - self.offset[0..self.count as usize] - .iter() - .map(|&b| Byte(b)) - .collect(), - )); - } - Type::SHORT => { - let mut r = self.r(bo); - let mut v = Vec::new(); - for _ in 0..self.count { - v.push(Short(r.read_u16()?)); - } - return Ok(List(v)); - } - Type::SSHORT => { - let mut r = self.r(bo); - let mut v = Vec::new(); - for _ in 0..self.count { - v.push(Signed(i32::from(r.read_i16()?))); - } - return Ok(List(v)); - } - Type::LONG => { - let mut r = self.r(bo); - let mut v = Vec::new(); - for _ in 0..self.count { - v.push(Unsigned(r.read_u32()?)); - } - return Ok(List(v)); - } - Type::SLONG => { - let mut r = self.r(bo); - let mut v = Vec::new(); - for _ in 0..self.count { - v.push(Signed(r.read_i32()?)); - } - return Ok(List(v)); - } - Type::FLOAT => { - let mut r = self.r(bo); - let mut v = Vec::new(); - for _ in 0..self.count { - v.push(Float(r.read_f32()?)); - } - return Ok(List(v)); - } - Type::IFD => { - let mut r = self.r(bo); - let mut v = Vec::new(); - for _ in 0..self.count { - v.push(Ifd(r.read_u32()?)); - } - return Ok(List(v)); - } - Type::LONG8 - | Type::SLONG8 - | Type::RATIONAL - | Type::SRATIONAL - | Type::DOUBLE - | Type::IFD8 => { - unreachable!() - } - } - } - - // Case 4: there is more than one value, and it doesn't fit in the offset field. - match self.type_ { - // TODO check if this could give wrong results - // at a different endianess of file/computer. - Type::BYTE => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - let mut buf = [0; 1]; - reader.read_exact(&mut buf)?; - Ok(UnsignedBig(u64::from(buf[0]))) - }), - Type::SBYTE => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(SignedBig(i64::from(reader.read_i8()? as i8))) - }), - Type::SHORT => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(UnsignedBig(u64::from(reader.read_u16()?))) - }), - Type::SSHORT => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(SignedBig(i64::from(reader.read_i16()?))) - }), - Type::LONG => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(Unsigned(reader.read_u32()?)) - }), - Type::SLONG => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(Signed(reader.read_i32()?)) - }), - Type::FLOAT => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(Float(reader.read_f32()?)) - }), - Type::DOUBLE => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(Double(reader.read_f64()?)) - }), - Type::RATIONAL => { - self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(Rational(reader.read_u32()?, reader.read_u32()?)) - }) - } - Type::SRATIONAL => { - self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(SRational(reader.read_i32()?, reader.read_i32()?)) - }) - } - Type::LONG8 => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(UnsignedBig(reader.read_u64()?)) - }), - Type::SLONG8 => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(SignedBig(reader.read_i64()?)) - }), - Type::IFD => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(Ifd(reader.read_u32()?)) - }), - Type::IFD8 => self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - Ok(IfdBig(reader.read_u64()?)) - }), - Type::UNDEFINED => { - self.decode_offset(self.count, bo, bigtiff, limits, reader, |reader| { - let mut buf = [0; 1]; - reader.read_exact(&mut buf)?; - Ok(Byte(buf[0])) - }) - } - Type::ASCII => { - let n = usize::try_from(self.count)?; - if n > limits.decoding_buffer_size { - return Err(TiffError::LimitsExceeded); - } - - if bigtiff { - reader.goto_offset(self.r(bo).read_u64()?)? - } else { - reader.goto_offset(self.r(bo).read_u32()?.into())? - } - - let mut out = vec![0; n]; - reader.read_exact(&mut out)?; - // Strings may be null-terminated, so we trim anything downstream of the null byte - if let Some(first) = out.iter().position(|&b| b == 0) { - out.truncate(first); - } - Ok(Ascii(String::from_utf8(out)?)) - } - } - } - - #[inline] - fn decode_offset<R, F>( - &self, - value_count: u64, - bo: ByteOrder, - bigtiff: bool, - limits: &super::Limits, - reader: &mut SmartReader<R>, - decode_fn: F, - ) -> TiffResult<Value> - where - R: Read + Seek, - F: Fn(&mut SmartReader<R>) -> TiffResult<Value>, - { - let value_count = usize::try_from(value_count)?; - if value_count > limits.decoding_buffer_size / mem::size_of::<Value>() { - return Err(TiffError::LimitsExceeded); - } - - let mut v = Vec::with_capacity(value_count); - - let offset = if bigtiff { - self.r(bo).read_u64()? - } else { - self.r(bo).read_u32()?.into() - }; - reader.goto_offset(offset)?; - - for _ in 0..value_count { - v.push(decode_fn(reader)?) - } - Ok(List(v)) - } -} - -/// Extracts a list of BYTE tags stored in an offset -#[inline] -fn offset_to_bytes(n: usize, entry: &Entry) -> TiffResult<Value> { - Ok(List( - entry.offset[0..n] - .iter() - .map(|&e| Unsigned(u32::from(e))) - .collect(), - )) -} - -/// Extracts a list of SBYTE tags stored in an offset -#[inline] -fn offset_to_sbytes(n: usize, entry: &Entry) -> TiffResult<Value> { - Ok(List( - entry.offset[0..n] - .iter() - .map(|&e| Signed(i32::from(e as i8))) - .collect(), - )) -} - -/// Type representing an Image File Directory -pub type Directory = HashMap<Tag, Entry>; diff --git a/vendor/tiff/src/decoder/image.rs b/vendor/tiff/src/decoder/image.rs deleted file mode 100644 index c037e31..0000000 --- a/vendor/tiff/src/decoder/image.rs +++ /dev/null @@ -1,601 +0,0 @@ -use super::ifd::{Directory, Value}; -use super::stream::{ByteOrder, DeflateReader, JpegReader, LZWReader, PackBitsReader}; -use super::tag_reader::TagReader; -use super::{fp_predict_f32, fp_predict_f64, DecodingBuffer, Limits}; -use super::{stream::SmartReader, ChunkType}; -use crate::tags::{CompressionMethod, PhotometricInterpretation, Predictor, SampleFormat, Tag}; -use crate::{ColorType, TiffError, TiffFormatError, TiffResult, TiffUnsupportedError, UsageError}; -use std::convert::{TryFrom, TryInto}; -use std::io::{self, Cursor, Read, Seek}; -use std::sync::Arc; - -#[derive(Debug)] -pub(crate) struct StripDecodeState { - pub rows_per_strip: u32, -} - -#[derive(Debug)] -/// Computed values useful for tile decoding -pub(crate) struct TileAttributes { - pub image_width: usize, - pub image_height: usize, - - pub tile_width: usize, - pub tile_length: usize, -} - -impl TileAttributes { - pub fn tiles_across(&self) -> usize { - (self.image_width + self.tile_width - 1) / self.tile_width - } - pub fn tiles_down(&self) -> usize { - (self.image_height + self.tile_length - 1) / self.tile_length - } - fn padding_right(&self) -> usize { - (self.tile_width - self.image_width % self.tile_width) % self.tile_width - } - fn padding_down(&self) -> usize { - (self.tile_length - self.image_height % self.tile_length) % self.tile_length - } - pub fn get_padding(&self, tile: usize) -> (usize, usize) { - let row = tile / self.tiles_across(); - let column = tile % self.tiles_across(); - - let padding_right = if column == self.tiles_across() - 1 { - self.padding_right() - } else { - 0 - }; - - let padding_down = if row == self.tiles_down() - 1 { - self.padding_down() - } else { - 0 - }; - - (padding_right, padding_down) - } -} - -#[derive(Debug)] -pub(crate) struct Image { - pub ifd: Option<Directory>, - pub width: u32, - pub height: u32, - pub bits_per_sample: Vec<u8>, - #[allow(unused)] - pub samples: u8, - pub sample_format: Vec<SampleFormat>, - pub photometric_interpretation: PhotometricInterpretation, - pub compression_method: CompressionMethod, - pub predictor: Predictor, - pub jpeg_tables: Option<Arc<Vec<u8>>>, - pub chunk_type: ChunkType, - pub strip_decoder: Option<StripDecodeState>, - pub tile_attributes: Option<TileAttributes>, - pub chunk_offsets: Vec<u64>, - pub chunk_bytes: Vec<u64>, -} - -impl Image { - pub fn from_reader<R: Read + Seek>( - reader: &mut SmartReader<R>, - ifd: Directory, - limits: &Limits, - bigtiff: bool, - ) -> TiffResult<Image> { - let mut tag_reader = TagReader { - reader, - limits, - ifd: &ifd, - bigtiff, - }; - - let width = tag_reader.require_tag(Tag::ImageWidth)?.into_u32()?; - let height = tag_reader.require_tag(Tag::ImageLength)?.into_u32()?; - if width == 0 || height == 0 { - return Err(TiffError::FormatError(TiffFormatError::InvalidDimensions( - width, height, - ))); - } - - let photometric_interpretation = tag_reader - .find_tag(Tag::PhotometricInterpretation)? - .map(Value::into_u16) - .transpose()? - .and_then(PhotometricInterpretation::from_u16) - .ok_or(TiffUnsupportedError::UnknownInterpretation)?; - - // Try to parse both the compression method and the number, format, and bits of the included samples. - // If they are not explicitly specified, those tags are reset to their default values and not carried from previous images. - let compression_method = match tag_reader.find_tag(Tag::Compression)? { - Some(val) => CompressionMethod::from_u16(val.into_u16()?) - .ok_or(TiffUnsupportedError::UnknownCompressionMethod)?, - None => CompressionMethod::None, - }; - - let jpeg_tables = if compression_method == CompressionMethod::ModernJPEG - && ifd.contains_key(&Tag::JPEGTables) - { - let vec = tag_reader - .find_tag(Tag::JPEGTables)? - .unwrap() - .into_u8_vec()?; - if vec.len() < 2 { - return Err(TiffError::FormatError( - TiffFormatError::InvalidTagValueType(Tag::JPEGTables), - )); - } - - Some(Arc::new(vec)) - } else { - None - }; - - let samples = tag_reader - .find_tag(Tag::SamplesPerPixel)? - .map(Value::into_u16) - .transpose()? - .unwrap_or(1) - .try_into()?; - - let sample_format = match tag_reader.find_tag_uint_vec(Tag::SampleFormat)? { - Some(vals) => { - let sample_format: Vec<_> = vals - .into_iter() - .map(SampleFormat::from_u16_exhaustive) - .collect(); - - // TODO: for now, only homogenous formats across samples are supported. - if !sample_format.windows(2).all(|s| s[0] == s[1]) { - return Err(TiffUnsupportedError::UnsupportedSampleFormat(sample_format).into()); - } - - sample_format - } - None => vec![SampleFormat::Uint], - }; - - let bits_per_sample = match samples { - 1 | 3 | 4 => tag_reader - .find_tag_uint_vec(Tag::BitsPerSample)? - .unwrap_or_else(|| vec![1]), - _ => return Err(TiffUnsupportedError::UnsupportedSampleDepth(samples).into()), - }; - - let predictor = tag_reader - .find_tag(Tag::Predictor)? - .map(Value::into_u16) - .transpose()? - .map(|p| { - Predictor::from_u16(p) - .ok_or(TiffError::FormatError(TiffFormatError::UnknownPredictor(p))) - }) - .transpose()? - .unwrap_or(Predictor::None); - - let chunk_type; - let chunk_offsets; - let chunk_bytes; - let strip_decoder; - let tile_attributes; - match ( - ifd.contains_key(&Tag::StripByteCounts), - ifd.contains_key(&Tag::StripOffsets), - ifd.contains_key(&Tag::TileByteCounts), - ifd.contains_key(&Tag::TileOffsets), - ) { - (true, true, false, false) => { - chunk_type = ChunkType::Strip; - - chunk_offsets = tag_reader - .find_tag(Tag::StripOffsets)? - .unwrap() - .into_u64_vec()?; - chunk_bytes = tag_reader - .find_tag(Tag::StripByteCounts)? - .unwrap() - .into_u64_vec()?; - let rows_per_strip = tag_reader - .find_tag(Tag::RowsPerStrip)? - .map(Value::into_u32) - .transpose()? - .unwrap_or(height); - strip_decoder = Some(StripDecodeState { rows_per_strip }); - tile_attributes = None; - - if chunk_offsets.len() != chunk_bytes.len() - || rows_per_strip == 0 - || u32::try_from(chunk_offsets.len())? - != height.saturating_sub(1) / rows_per_strip + 1 - { - return Err(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - )); - } - } - (false, false, true, true) => { - chunk_type = ChunkType::Tile; - - let tile_width = - usize::try_from(tag_reader.require_tag(Tag::TileWidth)?.into_u32()?)?; - let tile_length = - usize::try_from(tag_reader.require_tag(Tag::TileLength)?.into_u32()?)?; - - if tile_width == 0 { - return Err(TiffFormatError::InvalidTagValueType(Tag::TileWidth).into()); - } else if tile_length == 0 { - return Err(TiffFormatError::InvalidTagValueType(Tag::TileLength).into()); - } - - strip_decoder = None; - tile_attributes = Some(TileAttributes { - image_width: usize::try_from(width)?, - image_height: usize::try_from(height)?, - tile_width, - tile_length, - }); - chunk_offsets = tag_reader - .find_tag(Tag::TileOffsets)? - .unwrap() - .into_u64_vec()?; - chunk_bytes = tag_reader - .find_tag(Tag::TileByteCounts)? - .unwrap() - .into_u64_vec()?; - - let tile = tile_attributes.as_ref().unwrap(); - if chunk_offsets.len() != chunk_bytes.len() - || chunk_offsets.len() != tile.tiles_down() * tile.tiles_across() - { - return Err(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - )); - } - } - (_, _, _, _) => { - return Err(TiffError::FormatError( - TiffFormatError::StripTileTagConflict, - )) - } - }; - - Ok(Image { - ifd: Some(ifd), - width, - height, - bits_per_sample, - samples, - sample_format, - photometric_interpretation, - compression_method, - jpeg_tables, - predictor, - chunk_type, - strip_decoder, - tile_attributes, - chunk_offsets, - chunk_bytes, - }) - } - - pub(crate) fn colortype(&self) -> TiffResult<ColorType> { - match self.photometric_interpretation { - PhotometricInterpretation::RGB => match self.bits_per_sample[..] { - [r, g, b] if [r, r] == [g, b] => Ok(ColorType::RGB(r)), - [r, g, b, a] if [r, r, r] == [g, b, a] => Ok(ColorType::RGBA(r)), - // FIXME: We should _ignore_ other components. In particular: - // > Beware of extra components. Some TIFF files may have more components per pixel - // than you think. A Baseline TIFF reader must skip over them gracefully,using the - // values of the SamplesPerPixel and BitsPerSample fields. - // > -- TIFF 6.0 Specification, Section 7, Additional Baseline requirements. - _ => Err(TiffError::UnsupportedError( - TiffUnsupportedError::InterpretationWithBits( - self.photometric_interpretation, - self.bits_per_sample.clone(), - ), - )), - }, - PhotometricInterpretation::CMYK => match self.bits_per_sample[..] { - [c, m, y, k] if [c, c, c] == [m, y, k] => Ok(ColorType::CMYK(c)), - _ => Err(TiffError::UnsupportedError( - TiffUnsupportedError::InterpretationWithBits( - self.photometric_interpretation, - self.bits_per_sample.clone(), - ), - )), - }, - PhotometricInterpretation::YCbCr => match self.bits_per_sample[..] { - [y, cb, cr] if [y, y] == [cb, cr] => Ok(ColorType::YCbCr(y)), - _ => Err(TiffError::UnsupportedError( - TiffUnsupportedError::InterpretationWithBits( - self.photometric_interpretation, - self.bits_per_sample.clone(), - ), - )), - }, - PhotometricInterpretation::BlackIsZero | PhotometricInterpretation::WhiteIsZero - if self.bits_per_sample.len() == 1 => - { - Ok(ColorType::Gray(self.bits_per_sample[0])) - } - - // TODO: this is bad we should not fail at this point - _ => Err(TiffError::UnsupportedError( - TiffUnsupportedError::InterpretationWithBits( - self.photometric_interpretation, - self.bits_per_sample.clone(), - ), - )), - } - } - - fn create_reader<'r, R: 'r + Read>( - reader: R, - photometric_interpretation: PhotometricInterpretation, - compression_method: CompressionMethod, - compressed_length: u64, - jpeg_tables: Option<Arc<Vec<u8>>>, - ) -> TiffResult<Box<dyn Read + 'r>> { - Ok(match compression_method { - CompressionMethod::None => Box::new(reader), - CompressionMethod::LZW => { - Box::new(LZWReader::new(reader, usize::try_from(compressed_length)?)) - } - CompressionMethod::PackBits => Box::new(PackBitsReader::new(reader, compressed_length)), - CompressionMethod::Deflate | CompressionMethod::OldDeflate => { - Box::new(DeflateReader::new(reader)) - } - CompressionMethod::ModernJPEG => { - if jpeg_tables.is_some() && compressed_length < 2 { - return Err(TiffError::FormatError( - TiffFormatError::InvalidTagValueType(Tag::JPEGTables), - )); - } - - let jpeg_reader = JpegReader::new(reader, compressed_length, jpeg_tables)?; - let mut decoder = jpeg::Decoder::new(jpeg_reader); - - match photometric_interpretation { - PhotometricInterpretation::RGB => { - decoder.set_color_transform(jpeg::ColorTransform::RGB) - } - PhotometricInterpretation::WhiteIsZero => { - decoder.set_color_transform(jpeg::ColorTransform::None) - } - PhotometricInterpretation::BlackIsZero => { - decoder.set_color_transform(jpeg::ColorTransform::None) - } - PhotometricInterpretation::TransparencyMask => { - decoder.set_color_transform(jpeg::ColorTransform::None) - } - PhotometricInterpretation::CMYK => { - decoder.set_color_transform(jpeg::ColorTransform::CMYK) - } - PhotometricInterpretation::YCbCr => { - decoder.set_color_transform(jpeg::ColorTransform::YCbCr) - } - photometric_interpretation => { - return Err(TiffError::UnsupportedError( - TiffUnsupportedError::UnsupportedInterpretation( - photometric_interpretation, - ), - )); - } - } - - let data = decoder.decode()?; - - Box::new(Cursor::new(data)) - } - method => { - return Err(TiffError::UnsupportedError( - TiffUnsupportedError::UnsupportedCompressionMethod(method), - )) - } - }) - } - - pub(crate) fn chunk_file_range(&self, chunk: u32) -> TiffResult<(u64, u64)> { - let file_offset = self - .chunk_offsets - .get(chunk as usize) - .ok_or(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - ))?; - - let compressed_bytes = - self.chunk_bytes - .get(chunk as usize) - .ok_or(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - ))?; - - Ok((*file_offset, *compressed_bytes)) - } - - pub(crate) fn chunk_dimensions(&self) -> TiffResult<(u32, u32)> { - match self.chunk_type { - ChunkType::Strip => { - let strip_attrs = self.strip_decoder.as_ref().unwrap(); - Ok((self.width, strip_attrs.rows_per_strip)) - } - ChunkType::Tile => { - let tile_attrs = self.tile_attributes.as_ref().unwrap(); - Ok(( - u32::try_from(tile_attrs.tile_width)?, - u32::try_from(tile_attrs.tile_length)?, - )) - } - } - } - - pub(crate) fn chunk_data_dimensions(&self, chunk_index: u32) -> TiffResult<(u32, u32)> { - let dims = self.chunk_dimensions()?; - - match self.chunk_type { - ChunkType::Strip => { - let strip_height_without_padding = chunk_index - .checked_mul(dims.1) - .and_then(|x| self.height.checked_sub(x)) - .ok_or(TiffError::UsageError(UsageError::InvalidChunkIndex( - chunk_index, - )))?; - - // Ignore potential vertical padding on the bottommost strip - let strip_height = dims.1.min(strip_height_without_padding); - - Ok((dims.0, strip_height)) - } - ChunkType::Tile => { - let tile_attrs = self.tile_attributes.as_ref().unwrap(); - let (padding_right, padding_down) = tile_attrs.get_padding(chunk_index as usize); - - let tile_width = tile_attrs.tile_width - padding_right; - let tile_length = tile_attrs.tile_length - padding_down; - - Ok((u32::try_from(tile_width)?, u32::try_from(tile_length)?)) - } - } - } - - pub(crate) fn expand_chunk( - &self, - reader: impl Read, - mut buffer: DecodingBuffer, - output_width: usize, - byte_order: ByteOrder, - chunk_index: u32, - ) -> TiffResult<()> { - // Validate that the provided buffer is of the expected type. - let color_type = self.colortype()?; - match (color_type, &buffer) { - (ColorType::RGB(n), _) - | (ColorType::RGBA(n), _) - | (ColorType::CMYK(n), _) - | (ColorType::YCbCr(n), _) - | (ColorType::Gray(n), _) - if usize::from(n) == buffer.byte_len() * 8 => {} - (ColorType::Gray(n), DecodingBuffer::U8(_)) if n < 8 => match self.predictor { - Predictor::None => {} - Predictor::Horizontal => { - return Err(TiffError::UnsupportedError( - TiffUnsupportedError::HorizontalPredictor(color_type), - )) - } - Predictor::FloatingPoint => { - return Err(TiffError::UnsupportedError( - TiffUnsupportedError::FloatingPointPredictor(color_type), - )); - } - }, - (type_, _) => { - return Err(TiffError::UnsupportedError( - TiffUnsupportedError::UnsupportedColorType(type_), - )) - } - } - - // Validate that the predictor is supported for the sample type. - match (self.predictor, &buffer) { - (Predictor::Horizontal, DecodingBuffer::F32(_)) - | (Predictor::Horizontal, DecodingBuffer::F64(_)) => { - return Err(TiffError::UnsupportedError( - TiffUnsupportedError::HorizontalPredictor(color_type), - )); - } - (Predictor::FloatingPoint, DecodingBuffer::F32(_)) - | (Predictor::FloatingPoint, DecodingBuffer::F64(_)) => {} - (Predictor::FloatingPoint, _) => { - return Err(TiffError::UnsupportedError( - TiffUnsupportedError::FloatingPointPredictor(color_type), - )); - } - _ => {} - } - - let compressed_bytes = - self.chunk_bytes - .get(chunk_index as usize) - .ok_or(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - ))?; - - let byte_len = buffer.byte_len(); - let compression_method = self.compression_method; - let photometric_interpretation = self.photometric_interpretation; - let predictor = self.predictor; - let samples = self.bits_per_sample.len(); - - let chunk_dims = self.chunk_dimensions()?; - let data_dims = self.chunk_data_dimensions(chunk_index)?; - - let padding_right = chunk_dims.0 - data_dims.0; - - let jpeg_tables = self.jpeg_tables.clone(); - let mut reader = Self::create_reader( - reader, - photometric_interpretation, - compression_method, - *compressed_bytes, - jpeg_tables, - )?; - - if output_width == data_dims.0 as usize && padding_right == 0 { - let total_samples = data_dims.0 as usize * data_dims.1 as usize * samples; - let tile = &mut buffer.as_bytes_mut()[..total_samples * byte_len]; - reader.read_exact(tile)?; - - for row in 0..data_dims.1 as usize { - let row_start = row as usize * output_width as usize * samples; - let row_end = (row + 1) * output_width as usize * samples; - let row = buffer.subrange(row_start..row_end); - super::fix_endianness_and_predict(row, samples, byte_order, predictor); - } - if photometric_interpretation == PhotometricInterpretation::WhiteIsZero { - super::invert_colors(&mut buffer.subrange(0..total_samples), color_type); - } - } else if padding_right > 0 && self.predictor == Predictor::FloatingPoint { - // The floating point predictor shuffles the padding bytes into the encoded output, so - // this case is handled specially when needed. - let mut encoded = vec![0u8; chunk_dims.0 as usize * samples * byte_len]; - - for row in 0..data_dims.1 as usize { - let row_start = row * output_width as usize * samples; - let row_end = row_start + data_dims.0 as usize * samples; - - reader.read_exact(&mut encoded)?; - match buffer.subrange(row_start..row_end) { - DecodingBuffer::F32(buf) => fp_predict_f32(&mut encoded, buf, samples), - DecodingBuffer::F64(buf) => fp_predict_f64(&mut encoded, buf, samples), - _ => unreachable!(), - } - if photometric_interpretation == PhotometricInterpretation::WhiteIsZero { - super::invert_colors(&mut buffer.subrange(row_start..row_end), color_type); - } - } - } else { - for row in 0..data_dims.1 as usize { - let row_start = row * output_width as usize * samples; - let row_end = row_start + data_dims.0 as usize * samples; - - let row = &mut buffer.as_bytes_mut()[(row_start * byte_len)..(row_end * byte_len)]; - reader.read_exact(row)?; - - // Skip horizontal padding - if padding_right > 0 { - let len = u64::try_from(padding_right as usize * samples * byte_len)?; - io::copy(&mut reader.by_ref().take(len), &mut io::sink())?; - } - - let mut row = buffer.subrange(row_start..row_end); - super::fix_endianness_and_predict(row.copy(), samples, byte_order, predictor); - if photometric_interpretation == PhotometricInterpretation::WhiteIsZero { - super::invert_colors(&mut row, color_type); - } - } - } - - Ok(()) - } -} diff --git a/vendor/tiff/src/decoder/mod.rs b/vendor/tiff/src/decoder/mod.rs deleted file mode 100644 index 5fa1812..0000000 --- a/vendor/tiff/src/decoder/mod.rs +++ /dev/null @@ -1,1176 +0,0 @@ -use std::collections::{HashMap, HashSet}; -use std::convert::TryFrom; -use std::io::{self, Read, Seek}; -use std::ops::Range; - -use crate::{ - bytecast, ColorType, TiffError, TiffFormatError, TiffResult, TiffUnsupportedError, UsageError, -}; - -use self::ifd::Directory; -use self::image::Image; -use crate::tags::{ - CompressionMethod, PhotometricInterpretation, Predictor, SampleFormat, Tag, Type, -}; - -use self::stream::{ByteOrder, EndianReader, SmartReader}; - -pub mod ifd; -mod image; -mod stream; -mod tag_reader; - -/// Result of a decoding process -#[derive(Debug)] -pub enum DecodingResult { - /// A vector of unsigned bytes - U8(Vec<u8>), - /// A vector of unsigned words - U16(Vec<u16>), - /// A vector of 32 bit unsigned ints - U32(Vec<u32>), - /// A vector of 64 bit unsigned ints - U64(Vec<u64>), - /// A vector of 32 bit IEEE floats - F32(Vec<f32>), - /// A vector of 64 bit IEEE floats - F64(Vec<f64>), - /// A vector of 8 bit signed ints - I8(Vec<i8>), - /// A vector of 16 bit signed ints - I16(Vec<i16>), - /// A vector of 32 bit signed ints - I32(Vec<i32>), - /// A vector of 64 bit signed ints - I64(Vec<i64>), -} - -impl DecodingResult { - fn new_u8(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::U8(vec![0; size])) - } - } - - fn new_u16(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / 2 { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::U16(vec![0; size])) - } - } - - fn new_u32(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / 4 { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::U32(vec![0; size])) - } - } - - fn new_u64(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / 8 { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::U64(vec![0; size])) - } - } - - fn new_f32(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / std::mem::size_of::<f32>() { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::F32(vec![0.0; size])) - } - } - - fn new_f64(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / std::mem::size_of::<f64>() { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::F64(vec![0.0; size])) - } - } - - fn new_i8(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / std::mem::size_of::<i8>() { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::I8(vec![0; size])) - } - } - - fn new_i16(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / 2 { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::I16(vec![0; size])) - } - } - - fn new_i32(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / 4 { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::I32(vec![0; size])) - } - } - - fn new_i64(size: usize, limits: &Limits) -> TiffResult<DecodingResult> { - if size > limits.decoding_buffer_size / 8 { - Err(TiffError::LimitsExceeded) - } else { - Ok(DecodingResult::I64(vec![0; size])) - } - } - - pub fn as_buffer(&mut self, start: usize) -> DecodingBuffer { - match *self { - DecodingResult::U8(ref mut buf) => DecodingBuffer::U8(&mut buf[start..]), - DecodingResult::U16(ref mut buf) => DecodingBuffer::U16(&mut buf[start..]), - DecodingResult::U32(ref mut buf) => DecodingBuffer::U32(&mut buf[start..]), - DecodingResult::U64(ref mut buf) => DecodingBuffer::U64(&mut buf[start..]), - DecodingResult::F32(ref mut buf) => DecodingBuffer::F32(&mut buf[start..]), - DecodingResult::F64(ref mut buf) => DecodingBuffer::F64(&mut buf[start..]), - DecodingResult::I8(ref mut buf) => DecodingBuffer::I8(&mut buf[start..]), - DecodingResult::I16(ref mut buf) => DecodingBuffer::I16(&mut buf[start..]), - DecodingResult::I32(ref mut buf) => DecodingBuffer::I32(&mut buf[start..]), - DecodingResult::I64(ref mut buf) => DecodingBuffer::I64(&mut buf[start..]), - } - } -} - -// A buffer for image decoding -pub enum DecodingBuffer<'a> { - /// A slice of unsigned bytes - U8(&'a mut [u8]), - /// A slice of unsigned words - U16(&'a mut [u16]), - /// A slice of 32 bit unsigned ints - U32(&'a mut [u32]), - /// A slice of 64 bit unsigned ints - U64(&'a mut [u64]), - /// A slice of 32 bit IEEE floats - F32(&'a mut [f32]), - /// A slice of 64 bit IEEE floats - F64(&'a mut [f64]), - /// A slice of 8 bits signed ints - I8(&'a mut [i8]), - /// A slice of 16 bits signed ints - I16(&'a mut [i16]), - /// A slice of 32 bits signed ints - I32(&'a mut [i32]), - /// A slice of 64 bits signed ints - I64(&'a mut [i64]), -} - -impl<'a> DecodingBuffer<'a> { - fn byte_len(&self) -> usize { - match *self { - DecodingBuffer::U8(_) => 1, - DecodingBuffer::U16(_) => 2, - DecodingBuffer::U32(_) => 4, - DecodingBuffer::U64(_) => 8, - DecodingBuffer::F32(_) => 4, - DecodingBuffer::F64(_) => 8, - DecodingBuffer::I8(_) => 1, - DecodingBuffer::I16(_) => 2, - DecodingBuffer::I32(_) => 4, - DecodingBuffer::I64(_) => 8, - } - } - - fn copy<'b>(&'b mut self) -> DecodingBuffer<'b> - where - 'a: 'b, - { - match *self { - DecodingBuffer::U8(ref mut buf) => DecodingBuffer::U8(buf), - DecodingBuffer::U16(ref mut buf) => DecodingBuffer::U16(buf), - DecodingBuffer::U32(ref mut buf) => DecodingBuffer::U32(buf), - DecodingBuffer::U64(ref mut buf) => DecodingBuffer::U64(buf), - DecodingBuffer::F32(ref mut buf) => DecodingBuffer::F32(buf), - DecodingBuffer::F64(ref mut buf) => DecodingBuffer::F64(buf), - DecodingBuffer::I8(ref mut buf) => DecodingBuffer::I8(buf), - DecodingBuffer::I16(ref mut buf) => DecodingBuffer::I16(buf), - DecodingBuffer::I32(ref mut buf) => DecodingBuffer::I32(buf), - DecodingBuffer::I64(ref mut buf) => DecodingBuffer::I64(buf), - } - } - - fn subrange<'b>(&'b mut self, range: Range<usize>) -> DecodingBuffer<'b> - where - 'a: 'b, - { - match *self { - DecodingBuffer::U8(ref mut buf) => DecodingBuffer::U8(&mut buf[range]), - DecodingBuffer::U16(ref mut buf) => DecodingBuffer::U16(&mut buf[range]), - DecodingBuffer::U32(ref mut buf) => DecodingBuffer::U32(&mut buf[range]), - DecodingBuffer::U64(ref mut buf) => DecodingBuffer::U64(&mut buf[range]), - DecodingBuffer::F32(ref mut buf) => DecodingBuffer::F32(&mut buf[range]), - DecodingBuffer::F64(ref mut buf) => DecodingBuffer::F64(&mut buf[range]), - DecodingBuffer::I8(ref mut buf) => DecodingBuffer::I8(&mut buf[range]), - DecodingBuffer::I16(ref mut buf) => DecodingBuffer::I16(&mut buf[range]), - DecodingBuffer::I32(ref mut buf) => DecodingBuffer::I32(&mut buf[range]), - DecodingBuffer::I64(ref mut buf) => DecodingBuffer::I64(&mut buf[range]), - } - } - - fn as_bytes_mut(&mut self) -> &mut [u8] { - match self { - DecodingBuffer::U8(buf) => &mut *buf, - DecodingBuffer::I8(buf) => bytecast::i8_as_ne_mut_bytes(buf), - DecodingBuffer::U16(buf) => bytecast::u16_as_ne_mut_bytes(buf), - DecodingBuffer::I16(buf) => bytecast::i16_as_ne_mut_bytes(buf), - DecodingBuffer::U32(buf) => bytecast::u32_as_ne_mut_bytes(buf), - DecodingBuffer::I32(buf) => bytecast::i32_as_ne_mut_bytes(buf), - DecodingBuffer::U64(buf) => bytecast::u64_as_ne_mut_bytes(buf), - DecodingBuffer::I64(buf) => bytecast::i64_as_ne_mut_bytes(buf), - DecodingBuffer::F32(buf) => bytecast::f32_as_ne_mut_bytes(buf), - DecodingBuffer::F64(buf) => bytecast::f64_as_ne_mut_bytes(buf), - } - } -} - -#[derive(Debug, Copy, Clone, PartialEq)] -/// Chunk type of the internal representation -pub enum ChunkType { - Strip, - Tile, -} - -/// Decoding limits -#[derive(Clone, Debug)] -pub struct Limits { - /// The maximum size of any `DecodingResult` in bytes, the default is - /// 256MiB. If the entire image is decoded at once, then this will - /// be the maximum size of the image. If it is decoded one strip at a - /// time, this will be the maximum size of a strip. - pub decoding_buffer_size: usize, - /// The maximum size of any ifd value in bytes, the default is - /// 1MiB. - pub ifd_value_size: usize, - /// Maximum size for intermediate buffer which may be used to limit the amount of data read per - /// segment even if the entire image is decoded at once. - pub intermediate_buffer_size: usize, - /// The purpose of this is to prevent all the fields of the struct from - /// being public, as this would make adding new fields a major version - /// bump. - _non_exhaustive: (), -} - -impl Limits { - /// A configuration that does not impose any limits. - /// - /// This is a good start if the caller only wants to impose selective limits, contrary to the - /// default limits which allows selectively disabling limits. - /// - /// Note that this configuration is likely to crash on excessively large images since, - /// naturally, the machine running the program does not have infinite memory. - pub fn unlimited() -> Limits { - Limits { - decoding_buffer_size: usize::max_value(), - ifd_value_size: usize::max_value(), - intermediate_buffer_size: usize::max_value(), - _non_exhaustive: (), - } - } -} - -impl Default for Limits { - fn default() -> Limits { - Limits { - decoding_buffer_size: 256 * 1024 * 1024, - intermediate_buffer_size: 128 * 1024 * 1024, - ifd_value_size: 1024 * 1024, - _non_exhaustive: (), - } - } -} - -/// The representation of a TIFF decoder -/// -/// Currently does not support decoding of interlaced images -#[derive(Debug)] -pub struct Decoder<R> -where - R: Read + Seek, -{ - reader: SmartReader<R>, - bigtiff: bool, - limits: Limits, - next_ifd: Option<u64>, - ifd_offsets: Vec<u64>, - seen_ifds: HashSet<u64>, - image: Image, -} - -trait Wrapping { - fn wrapping_add(&self, other: Self) -> Self; -} - -impl Wrapping for u8 { - fn wrapping_add(&self, other: Self) -> Self { - u8::wrapping_add(*self, other) - } -} - -impl Wrapping for u16 { - fn wrapping_add(&self, other: Self) -> Self { - u16::wrapping_add(*self, other) - } -} - -impl Wrapping for u32 { - fn wrapping_add(&self, other: Self) -> Self { - u32::wrapping_add(*self, other) - } -} - -impl Wrapping for u64 { - fn wrapping_add(&self, other: Self) -> Self { - u64::wrapping_add(*self, other) - } -} - -impl Wrapping for i8 { - fn wrapping_add(&self, other: Self) -> Self { - i8::wrapping_add(*self, other) - } -} - -impl Wrapping for i16 { - fn wrapping_add(&self, other: Self) -> Self { - i16::wrapping_add(*self, other) - } -} - -impl Wrapping for i32 { - fn wrapping_add(&self, other: Self) -> Self { - i32::wrapping_add(*self, other) - } -} - -impl Wrapping for i64 { - fn wrapping_add(&self, other: Self) -> Self { - i64::wrapping_add(*self, other) - } -} - -fn rev_hpredict_nsamp<T: Copy + Wrapping>(image: &mut [T], samples: usize) { - for col in samples..image.len() { - image[col] = image[col].wrapping_add(image[col - samples]); - } -} - -pub fn fp_predict_f32(input: &mut [u8], output: &mut [f32], samples: usize) { - rev_hpredict_nsamp(input, samples); - for i in 0..output.len() { - // TODO: use f32::from_be_bytes() when we can (version 1.40) - output[i] = f32::from_bits(u32::from_be_bytes([ - input[input.len() / 4 * 0 + i], - input[input.len() / 4 * 1 + i], - input[input.len() / 4 * 2 + i], - input[input.len() / 4 * 3 + i], - ])); - } -} - -pub fn fp_predict_f64(input: &mut [u8], output: &mut [f64], samples: usize) { - rev_hpredict_nsamp(input, samples); - for i in 0..output.len() { - // TODO: use f64::from_be_bytes() when we can (version 1.40) - output[i] = f64::from_bits(u64::from_be_bytes([ - input[input.len() / 8 * 0 + i], - input[input.len() / 8 * 1 + i], - input[input.len() / 8 * 2 + i], - input[input.len() / 8 * 3 + i], - input[input.len() / 8 * 4 + i], - input[input.len() / 8 * 5 + i], - input[input.len() / 8 * 6 + i], - input[input.len() / 8 * 7 + i], - ])); - } -} - -fn fix_endianness_and_predict( - mut image: DecodingBuffer, - samples: usize, - byte_order: ByteOrder, - predictor: Predictor, -) { - match predictor { - Predictor::None => { - fix_endianness(&mut image, byte_order); - } - Predictor::Horizontal => { - fix_endianness(&mut image, byte_order); - match image { - DecodingBuffer::U8(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::U16(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::U32(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::U64(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::I8(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::I16(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::I32(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::I64(buf) => rev_hpredict_nsamp(buf, samples), - DecodingBuffer::F32(_) | DecodingBuffer::F64(_) => { - unreachable!("Caller should have validated arguments. Please file a bug.") - } - } - } - Predictor::FloatingPoint => { - let mut buffer_copy = image.as_bytes_mut().to_vec(); - match image { - DecodingBuffer::F32(buf) => fp_predict_f32(&mut buffer_copy, buf, samples), - DecodingBuffer::F64(buf) => fp_predict_f64(&mut buffer_copy, buf, samples), - _ => unreachable!("Caller should have validated arguments. Please file a bug."), - } - } - } -} - -fn invert_colors_unsigned<T>(buffer: &mut [T], max: T) -where - T: std::ops::Sub<T> + std::ops::Sub<Output = T> + Copy, -{ - for datum in buffer.iter_mut() { - *datum = max - *datum - } -} - -fn invert_colors_fp<T>(buffer: &mut [T], max: T) -where - T: std::ops::Sub<T> + std::ops::Sub<Output = T> + Copy, -{ - for datum in buffer.iter_mut() { - // FIXME: assumes [0, 1) range for floats - *datum = max - *datum - } -} - -fn invert_colors(buf: &mut DecodingBuffer, color_type: ColorType) { - match (color_type, buf) { - (ColorType::Gray(64), DecodingBuffer::U64(ref mut buffer)) => { - invert_colors_unsigned(buffer, 0xffff_ffff_ffff_ffff); - } - (ColorType::Gray(32), DecodingBuffer::U32(ref mut buffer)) => { - invert_colors_unsigned(buffer, 0xffff_ffff); - } - (ColorType::Gray(16), DecodingBuffer::U16(ref mut buffer)) => { - invert_colors_unsigned(buffer, 0xffff); - } - (ColorType::Gray(n), DecodingBuffer::U8(ref mut buffer)) if n <= 8 => { - invert_colors_unsigned(buffer, 0xff); - } - (ColorType::Gray(32), DecodingBuffer::F32(ref mut buffer)) => { - invert_colors_fp(buffer, 1.0); - } - (ColorType::Gray(64), DecodingBuffer::F64(ref mut buffer)) => { - invert_colors_fp(buffer, 1.0); - } - _ => {} - } -} - -/// Fix endianness. If `byte_order` matches the host, then conversion is a no-op. -fn fix_endianness(buf: &mut DecodingBuffer, byte_order: ByteOrder) { - match byte_order { - ByteOrder::LittleEndian => match buf { - DecodingBuffer::U8(_) | DecodingBuffer::I8(_) => {} - DecodingBuffer::U16(b) => b.iter_mut().for_each(|v| *v = u16::from_le(*v)), - DecodingBuffer::I16(b) => b.iter_mut().for_each(|v| *v = i16::from_le(*v)), - DecodingBuffer::U32(b) => b.iter_mut().for_each(|v| *v = u32::from_le(*v)), - DecodingBuffer::I32(b) => b.iter_mut().for_each(|v| *v = i32::from_le(*v)), - DecodingBuffer::U64(b) => b.iter_mut().for_each(|v| *v = u64::from_le(*v)), - DecodingBuffer::I64(b) => b.iter_mut().for_each(|v| *v = i64::from_le(*v)), - DecodingBuffer::F32(b) => b - .iter_mut() - .for_each(|v| *v = f32::from_bits(u32::from_le(v.to_bits()))), - DecodingBuffer::F64(b) => b - .iter_mut() - .for_each(|v| *v = f64::from_bits(u64::from_le(v.to_bits()))), - }, - ByteOrder::BigEndian => match buf { - DecodingBuffer::U8(_) | DecodingBuffer::I8(_) => {} - DecodingBuffer::U16(b) => b.iter_mut().for_each(|v| *v = u16::from_be(*v)), - DecodingBuffer::I16(b) => b.iter_mut().for_each(|v| *v = i16::from_be(*v)), - DecodingBuffer::U32(b) => b.iter_mut().for_each(|v| *v = u32::from_be(*v)), - DecodingBuffer::I32(b) => b.iter_mut().for_each(|v| *v = i32::from_be(*v)), - DecodingBuffer::U64(b) => b.iter_mut().for_each(|v| *v = u64::from_be(*v)), - DecodingBuffer::I64(b) => b.iter_mut().for_each(|v| *v = i64::from_be(*v)), - DecodingBuffer::F32(b) => b - .iter_mut() - .for_each(|v| *v = f32::from_bits(u32::from_be(v.to_bits()))), - DecodingBuffer::F64(b) => b - .iter_mut() - .for_each(|v| *v = f64::from_bits(u64::from_be(v.to_bits()))), - }, - }; -} - -impl<R: Read + Seek> Decoder<R> { - /// Create a new decoder that decodes from the stream ```r``` - pub fn new(mut r: R) -> TiffResult<Decoder<R>> { - let mut endianess = Vec::with_capacity(2); - (&mut r).take(2).read_to_end(&mut endianess)?; - let byte_order = match &*endianess { - b"II" => ByteOrder::LittleEndian, - b"MM" => ByteOrder::BigEndian, - _ => { - return Err(TiffError::FormatError( - TiffFormatError::TiffSignatureNotFound, - )) - } - }; - let mut reader = SmartReader::wrap(r, byte_order); - - let bigtiff = match reader.read_u16()? { - 42 => false, - 43 => { - // Read bytesize of offsets (in bigtiff it's alway 8 but provide a way to move to 16 some day) - if reader.read_u16()? != 8 { - return Err(TiffError::FormatError( - TiffFormatError::TiffSignatureNotFound, - )); - } - // This constant should always be 0 - if reader.read_u16()? != 0 { - return Err(TiffError::FormatError( - TiffFormatError::TiffSignatureNotFound, - )); - } - true - } - _ => { - return Err(TiffError::FormatError( - TiffFormatError::TiffSignatureInvalid, - )) - } - }; - let next_ifd = if bigtiff { - Some(reader.read_u64()?) - } else { - Some(u64::from(reader.read_u32()?)) - }; - - let mut seen_ifds = HashSet::new(); - seen_ifds.insert(*next_ifd.as_ref().unwrap()); - let ifd_offsets = vec![*next_ifd.as_ref().unwrap()]; - - let mut decoder = Decoder { - reader, - bigtiff, - limits: Default::default(), - next_ifd, - ifd_offsets, - seen_ifds, - image: Image { - ifd: None, - width: 0, - height: 0, - bits_per_sample: vec![1], - samples: 1, - sample_format: vec![SampleFormat::Uint], - photometric_interpretation: PhotometricInterpretation::BlackIsZero, - compression_method: CompressionMethod::None, - jpeg_tables: None, - predictor: Predictor::None, - chunk_type: ChunkType::Strip, - strip_decoder: None, - tile_attributes: None, - chunk_offsets: Vec::new(), - chunk_bytes: Vec::new(), - }, - }; - decoder.next_image()?; - Ok(decoder) - } - - pub fn with_limits(mut self, limits: Limits) -> Decoder<R> { - self.limits = limits; - self - } - - pub fn dimensions(&mut self) -> TiffResult<(u32, u32)> { - Ok((self.image().width, self.image().height)) - } - - pub fn colortype(&mut self) -> TiffResult<ColorType> { - self.image().colortype() - } - - fn image(&self) -> &Image { - &self.image - } - - /// Loads the IFD at the specified index in the list, if one exists - pub fn seek_to_image(&mut self, ifd_index: usize) -> TiffResult<()> { - // Check whether we have seen this IFD before, if so then the index will be less than the length of the list of ifd offsets - if ifd_index >= self.ifd_offsets.len() { - // We possibly need to load in the next IFD - if self.next_ifd.is_none() { - return Err(TiffError::FormatError( - TiffFormatError::ImageFileDirectoryNotFound, - )); - } - - loop { - // Follow the list until we find the one we want, or we reach the end, whichever happens first - let (_ifd, next_ifd) = self.next_ifd()?; - - if next_ifd.is_none() { - break; - } - - if ifd_index < self.ifd_offsets.len() { - break; - } - } - } - - // If the index is within the list of ifds then we can load the selected image/IFD - if let Some(ifd_offset) = self.ifd_offsets.get(ifd_index) { - let (ifd, _next_ifd) = Self::read_ifd(&mut self.reader, self.bigtiff, *ifd_offset)?; - - self.image = Image::from_reader(&mut self.reader, ifd, &self.limits, self.bigtiff)?; - - Ok(()) - } else { - Err(TiffError::FormatError( - TiffFormatError::ImageFileDirectoryNotFound, - )) - } - } - - fn next_ifd(&mut self) -> TiffResult<(Directory, Option<u64>)> { - if self.next_ifd.is_none() { - return Err(TiffError::FormatError( - TiffFormatError::ImageFileDirectoryNotFound, - )); - } - - let (ifd, next_ifd) = Self::read_ifd( - &mut self.reader, - self.bigtiff, - self.next_ifd.take().unwrap(), - )?; - - if let Some(next) = next_ifd { - if !self.seen_ifds.insert(next) { - return Err(TiffError::FormatError(TiffFormatError::CycleInOffsets)); - } - self.next_ifd = Some(next); - self.ifd_offsets.push(next); - } - - Ok((ifd, next_ifd)) - } - - /// Reads in the next image. - /// If there is no further image in the TIFF file a format error is returned. - /// To determine whether there are more images call `TIFFDecoder::more_images` instead. - pub fn next_image(&mut self) -> TiffResult<()> { - let (ifd, _next_ifd) = self.next_ifd()?; - - self.image = Image::from_reader(&mut self.reader, ifd, &self.limits, self.bigtiff)?; - Ok(()) - } - - /// Returns `true` if there is at least one more image available. - pub fn more_images(&self) -> bool { - self.next_ifd.is_some() - } - - /// Returns the byte_order - pub fn byte_order(&self) -> ByteOrder { - self.reader.byte_order - } - - #[inline] - pub fn read_ifd_offset(&mut self) -> Result<u64, io::Error> { - if self.bigtiff { - self.read_long8() - } else { - self.read_long().map(u64::from) - } - } - - /// Reads a TIFF byte value - #[inline] - pub fn read_byte(&mut self) -> Result<u8, io::Error> { - let mut buf = [0; 1]; - self.reader.read_exact(&mut buf)?; - Ok(buf[0]) - } - - /// Reads a TIFF short value - #[inline] - pub fn read_short(&mut self) -> Result<u16, io::Error> { - self.reader.read_u16() - } - - /// Reads a TIFF sshort value - #[inline] - pub fn read_sshort(&mut self) -> Result<i16, io::Error> { - self.reader.read_i16() - } - - /// Reads a TIFF long value - #[inline] - pub fn read_long(&mut self) -> Result<u32, io::Error> { - self.reader.read_u32() - } - - /// Reads a TIFF slong value - #[inline] - pub fn read_slong(&mut self) -> Result<i32, io::Error> { - self.reader.read_i32() - } - - /// Reads a TIFF float value - #[inline] - pub fn read_float(&mut self) -> Result<f32, io::Error> { - self.reader.read_f32() - } - - /// Reads a TIFF double value - #[inline] - pub fn read_double(&mut self) -> Result<f64, io::Error> { - self.reader.read_f64() - } - - #[inline] - pub fn read_long8(&mut self) -> Result<u64, io::Error> { - self.reader.read_u64() - } - - #[inline] - pub fn read_slong8(&mut self) -> Result<i64, io::Error> { - self.reader.read_i64() - } - - /// Reads a string - #[inline] - pub fn read_string(&mut self, length: usize) -> TiffResult<String> { - let mut out = vec![0; length]; - self.reader.read_exact(&mut out)?; - // Strings may be null-terminated, so we trim anything downstream of the null byte - if let Some(first) = out.iter().position(|&b| b == 0) { - out.truncate(first); - } - Ok(String::from_utf8(out)?) - } - - /// Reads a TIFF IFA offset/value field - #[inline] - pub fn read_offset(&mut self) -> TiffResult<[u8; 4]> { - if self.bigtiff { - return Err(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - )); - } - let mut val = [0; 4]; - self.reader.read_exact(&mut val)?; - Ok(val) - } - - /// Reads a TIFF IFA offset/value field - #[inline] - pub fn read_offset_u64(&mut self) -> Result<[u8; 8], io::Error> { - let mut val = [0; 8]; - self.reader.read_exact(&mut val)?; - Ok(val) - } - - /// Moves the cursor to the specified offset - #[inline] - pub fn goto_offset(&mut self, offset: u32) -> io::Result<()> { - self.goto_offset_u64(offset.into()) - } - - #[inline] - pub fn goto_offset_u64(&mut self, offset: u64) -> io::Result<()> { - self.reader.seek(io::SeekFrom::Start(offset)).map(|_| ()) - } - - /// Reads a IFD entry. - // An IFD entry has four fields: - // - // Tag 2 bytes - // Type 2 bytes - // Count 4 bytes - // Value 4 bytes either a pointer the value itself - fn read_entry( - reader: &mut SmartReader<R>, - bigtiff: bool, - ) -> TiffResult<Option<(Tag, ifd::Entry)>> { - let tag = Tag::from_u16_exhaustive(reader.read_u16()?); - let type_ = match Type::from_u16(reader.read_u16()?) { - Some(t) => t, - None => { - // Unknown type. Skip this entry according to spec. - reader.read_u32()?; - reader.read_u32()?; - return Ok(None); - } - }; - let entry = if bigtiff { - let mut offset = [0; 8]; - - let count = reader.read_u64()?; - reader.read_exact(&mut offset)?; - ifd::Entry::new_u64(type_, count, offset) - } else { - let mut offset = [0; 4]; - - let count = reader.read_u32()?; - reader.read_exact(&mut offset)?; - ifd::Entry::new(type_, count, offset) - }; - Ok(Some((tag, entry))) - } - - /// Reads the IFD starting at the indicated location. - fn read_ifd( - reader: &mut SmartReader<R>, - bigtiff: bool, - ifd_location: u64, - ) -> TiffResult<(Directory, Option<u64>)> { - reader.goto_offset(ifd_location)?; - - let mut dir: Directory = HashMap::new(); - - let num_tags = if bigtiff { - reader.read_u64()? - } else { - reader.read_u16()?.into() - }; - for _ in 0..num_tags { - let (tag, entry) = match Self::read_entry(reader, bigtiff)? { - Some(val) => val, - None => { - continue; - } // Unknown data type in tag, skip - }; - dir.insert(tag, entry); - } - - let next_ifd = if bigtiff { - reader.read_u64()? - } else { - reader.read_u32()?.into() - }; - - let next_ifd = match next_ifd { - 0 => None, - _ => Some(next_ifd), - }; - - Ok((dir, next_ifd)) - } - - /// Tries to retrieve a tag. - /// Return `Ok(None)` if the tag is not present. - pub fn find_tag(&mut self, tag: Tag) -> TiffResult<Option<ifd::Value>> { - let entry = match self.image().ifd.as_ref().unwrap().get(&tag) { - None => return Ok(None), - Some(entry) => entry.clone(), - }; - - Ok(Some(entry.val( - &self.limits, - self.bigtiff, - &mut self.reader, - )?)) - } - - /// Tries to retrieve a tag and convert it to the desired unsigned type. - pub fn find_tag_unsigned<T: TryFrom<u64>>(&mut self, tag: Tag) -> TiffResult<Option<T>> { - self.find_tag(tag)? - .map(|v| v.into_u64()) - .transpose()? - .map(|value| { - T::try_from(value).map_err(|_| TiffFormatError::InvalidTagValueType(tag).into()) - }) - .transpose() - } - - /// Tries to retrieve a vector of all a tag's values and convert them to - /// the desired unsigned type. - pub fn find_tag_unsigned_vec<T: TryFrom<u64>>( - &mut self, - tag: Tag, - ) -> TiffResult<Option<Vec<T>>> { - self.find_tag(tag)? - .map(|v| v.into_u64_vec()) - .transpose()? - .map(|v| { - v.into_iter() - .map(|u| { - T::try_from(u).map_err(|_| TiffFormatError::InvalidTagValueType(tag).into()) - }) - .collect() - }) - .transpose() - } - - /// Tries to retrieve a tag and convert it to the desired unsigned type. - /// Returns an error if the tag is not present. - pub fn get_tag_unsigned<T: TryFrom<u64>>(&mut self, tag: Tag) -> TiffResult<T> { - self.find_tag_unsigned(tag)? - .ok_or_else(|| TiffFormatError::RequiredTagNotFound(tag).into()) - } - - /// Tries to retrieve a tag. - /// Returns an error if the tag is not present - pub fn get_tag(&mut self, tag: Tag) -> TiffResult<ifd::Value> { - match self.find_tag(tag)? { - Some(val) => Ok(val), - None => Err(TiffError::FormatError( - TiffFormatError::RequiredTagNotFound(tag), - )), - } - } - - /// Tries to retrieve a tag and convert it to the desired type. - pub fn get_tag_u32(&mut self, tag: Tag) -> TiffResult<u32> { - self.get_tag(tag)?.into_u32() - } - pub fn get_tag_u64(&mut self, tag: Tag) -> TiffResult<u64> { - self.get_tag(tag)?.into_u64() - } - - /// Tries to retrieve a tag and convert it to the desired type. - pub fn get_tag_f32(&mut self, tag: Tag) -> TiffResult<f32> { - self.get_tag(tag)?.into_f32() - } - - /// Tries to retrieve a tag and convert it to the desired type. - pub fn get_tag_f64(&mut self, tag: Tag) -> TiffResult<f64> { - self.get_tag(tag)?.into_f64() - } - - /// Tries to retrieve a tag and convert it to the desired type. - pub fn get_tag_u32_vec(&mut self, tag: Tag) -> TiffResult<Vec<u32>> { - self.get_tag(tag)?.into_u32_vec() - } - - pub fn get_tag_u16_vec(&mut self, tag: Tag) -> TiffResult<Vec<u16>> { - self.get_tag(tag)?.into_u16_vec() - } - pub fn get_tag_u64_vec(&mut self, tag: Tag) -> TiffResult<Vec<u64>> { - self.get_tag(tag)?.into_u64_vec() - } - - /// Tries to retrieve a tag and convert it to the desired type. - pub fn get_tag_f32_vec(&mut self, tag: Tag) -> TiffResult<Vec<f32>> { - self.get_tag(tag)?.into_f32_vec() - } - - /// Tries to retrieve a tag and convert it to the desired type. - pub fn get_tag_f64_vec(&mut self, tag: Tag) -> TiffResult<Vec<f64>> { - self.get_tag(tag)?.into_f64_vec() - } - - /// Tries to retrieve a tag and convert it to a 8bit vector. - pub fn get_tag_u8_vec(&mut self, tag: Tag) -> TiffResult<Vec<u8>> { - self.get_tag(tag)?.into_u8_vec() - } - - /// Tries to retrieve a tag and convert it to a ascii vector. - pub fn get_tag_ascii_string(&mut self, tag: Tag) -> TiffResult<String> { - self.get_tag(tag)?.into_string() - } - - fn check_chunk_type(&self, expected: ChunkType) -> TiffResult<()> { - if expected != self.image().chunk_type { - return Err(TiffError::UsageError(UsageError::InvalidChunkType( - expected, - self.image().chunk_type, - ))); - } - - Ok(()) - } - - /// The chunk type (Strips / Tiles) of the image - pub fn get_chunk_type(&self) -> ChunkType { - self.image().chunk_type - } - - /// Number of strips in image - pub fn strip_count(&mut self) -> TiffResult<u32> { - self.check_chunk_type(ChunkType::Strip)?; - let rows_per_strip = self.image().strip_decoder.as_ref().unwrap().rows_per_strip; - - if rows_per_strip == 0 { - return Ok(0); - } - - // rows_per_strip - 1 can never fail since we know it's at least 1 - let height = match self.image().height.checked_add(rows_per_strip - 1) { - Some(h) => h, - None => return Err(TiffError::IntSizeError), - }; - - Ok(height / rows_per_strip) - } - - /// Number of tiles in image - pub fn tile_count(&mut self) -> TiffResult<u32> { - self.check_chunk_type(ChunkType::Tile)?; - Ok(u32::try_from(self.image().chunk_offsets.len())?) - } - - pub fn read_chunk_to_buffer( - &mut self, - mut buffer: DecodingBuffer, - chunk_index: u32, - output_width: usize, - ) -> TiffResult<()> { - let offset = self.image.chunk_file_range(chunk_index)?.0; - self.goto_offset_u64(offset)?; - - let byte_order = self.reader.byte_order; - - self.image.expand_chunk( - &mut self.reader, - buffer.copy(), - output_width, - byte_order, - chunk_index, - )?; - - Ok(()) - } - - fn result_buffer(&self, width: usize, height: usize) -> TiffResult<DecodingResult> { - let buffer_size = match width - .checked_mul(height) - .and_then(|x| x.checked_mul(self.image().bits_per_sample.len())) - { - Some(s) => s, - None => return Err(TiffError::LimitsExceeded), - }; - - let max_sample_bits = self - .image() - .bits_per_sample - .iter() - .cloned() - .max() - .unwrap_or(8); - match self - .image() - .sample_format - .first() - .unwrap_or(&SampleFormat::Uint) - { - SampleFormat::Uint => match max_sample_bits { - n if n <= 8 => DecodingResult::new_u8(buffer_size, &self.limits), - n if n <= 16 => DecodingResult::new_u16(buffer_size, &self.limits), - n if n <= 32 => DecodingResult::new_u32(buffer_size, &self.limits), - n if n <= 64 => DecodingResult::new_u64(buffer_size, &self.limits), - n => Err(TiffError::UnsupportedError( - TiffUnsupportedError::UnsupportedBitsPerChannel(n), - )), - }, - SampleFormat::IEEEFP => match max_sample_bits { - 32 => DecodingResult::new_f32(buffer_size, &self.limits), - 64 => DecodingResult::new_f64(buffer_size, &self.limits), - n => Err(TiffError::UnsupportedError( - TiffUnsupportedError::UnsupportedBitsPerChannel(n), - )), - }, - SampleFormat::Int => match max_sample_bits { - n if n <= 8 => DecodingResult::new_i8(buffer_size, &self.limits), - n if n <= 16 => DecodingResult::new_i16(buffer_size, &self.limits), - n if n <= 32 => DecodingResult::new_i32(buffer_size, &self.limits), - n if n <= 64 => DecodingResult::new_i64(buffer_size, &self.limits), - n => Err(TiffError::UnsupportedError( - TiffUnsupportedError::UnsupportedBitsPerChannel(n), - )), - }, - format => { - Err(TiffUnsupportedError::UnsupportedSampleFormat(vec![format.clone()]).into()) - } - } - } - - /// Read the specified chunk (at index `chunk_index`) and return the binary data as a Vector. - pub fn read_chunk(&mut self, chunk_index: u32) -> TiffResult<DecodingResult> { - let data_dims = self.image().chunk_data_dimensions(chunk_index)?; - - let mut result = self.result_buffer(data_dims.0 as usize, data_dims.1 as usize)?; - - self.read_chunk_to_buffer(result.as_buffer(0), chunk_index, data_dims.0 as usize)?; - - Ok(result) - } - - /// Returns the default chunk size for the current image. Any given chunk in the image is at most as large as - /// the value returned here. For the size of the data (chunk minus padding), use `chunk_data_dimensions`. - pub fn chunk_dimensions(&self) -> (u32, u32) { - self.image().chunk_dimensions().unwrap() - } - - /// Returns the size of the data in the chunk with the specified index. This is the default size of the chunk, - /// minus any padding. - pub fn chunk_data_dimensions(&self, chunk_index: u32) -> (u32, u32) { - self.image() - .chunk_data_dimensions(chunk_index) - .expect("invalid chunk_index") - } - - /// Decodes the entire image and return it as a Vector - pub fn read_image(&mut self) -> TiffResult<DecodingResult> { - let width = self.image().width; - let height = self.image().height; - let mut result = self.result_buffer(width as usize, height as usize)?; - if width == 0 || height == 0 { - return Ok(result); - } - - let chunk_dimensions = self.image().chunk_dimensions()?; - let chunk_dimensions = ( - chunk_dimensions.0.min(width), - chunk_dimensions.1.min(height), - ); - if chunk_dimensions.0 == 0 || chunk_dimensions.1 == 0 { - return Err(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - )); - } - - let samples = self.image().bits_per_sample.len(); - if samples == 0 { - return Err(TiffError::FormatError( - TiffFormatError::InconsistentSizesEncountered, - )); - } - - let chunks_across = ((width - 1) / chunk_dimensions.0 + 1) as usize; - let strip_samples = width as usize * chunk_dimensions.1 as usize * samples; - - for chunk in 0..self.image().chunk_offsets.len() { - self.goto_offset_u64(self.image().chunk_offsets[chunk])?; - - let x = chunk % chunks_across; - let y = chunk / chunks_across; - let buffer_offset = y * strip_samples + x * chunk_dimensions.0 as usize * samples; - let byte_order = self.reader.byte_order; - self.image.expand_chunk( - &mut self.reader, - result.as_buffer(buffer_offset).copy(), - width as usize, - byte_order, - chunk as u32, - )?; - } - - Ok(result) - } -} diff --git a/vendor/tiff/src/decoder/stream.rs b/vendor/tiff/src/decoder/stream.rs deleted file mode 100644 index e0323c2..0000000 --- a/vendor/tiff/src/decoder/stream.rs +++ /dev/null @@ -1,435 +0,0 @@ -//! All IO functionality needed for TIFF decoding - -use std::convert::TryFrom; -use std::io::{self, BufRead, BufReader, Read, Seek, SeekFrom, Take}; -use std::sync::Arc; - -/// Byte order of the TIFF file. -#[derive(Clone, Copy, Debug)] -pub enum ByteOrder { - /// little endian byte order - LittleEndian, - /// big endian byte order - BigEndian, -} - -/// Reader that is aware of the byte order. -pub trait EndianReader: Read { - /// Byte order that should be adhered to - fn byte_order(&self) -> ByteOrder; - - /// Reads an u16 - #[inline(always)] - fn read_u16(&mut self) -> Result<u16, io::Error> { - let mut n = [0u8; 2]; - self.read_exact(&mut n)?; - Ok(match self.byte_order() { - ByteOrder::LittleEndian => u16::from_le_bytes(n), - ByteOrder::BigEndian => u16::from_be_bytes(n), - }) - } - - /// Reads an i8 - #[inline(always)] - fn read_i8(&mut self) -> Result<i8, io::Error> { - let mut n = [0u8; 1]; - self.read_exact(&mut n)?; - Ok(match self.byte_order() { - ByteOrder::LittleEndian => i8::from_le_bytes(n), - ByteOrder::BigEndian => i8::from_be_bytes(n), - }) - } - - /// Reads an i16 - #[inline(always)] - fn read_i16(&mut self) -> Result<i16, io::Error> { - let mut n = [0u8; 2]; - self.read_exact(&mut n)?; - Ok(match self.byte_order() { - ByteOrder::LittleEndian => i16::from_le_bytes(n), - ByteOrder::BigEndian => i16::from_be_bytes(n), - }) - } - - /// Reads an u32 - #[inline(always)] - fn read_u32(&mut self) -> Result<u32, io::Error> { - let mut n = [0u8; 4]; - self.read_exact(&mut n)?; - Ok(match self.byte_order() { - ByteOrder::LittleEndian => u32::from_le_bytes(n), - ByteOrder::BigEndian => u32::from_be_bytes(n), - }) - } - - /// Reads an i32 - #[inline(always)] - fn read_i32(&mut self) -> Result<i32, io::Error> { - let mut n = [0u8; 4]; - self.read_exact(&mut n)?; - Ok(match self.byte_order() { - ByteOrder::LittleEndian => i32::from_le_bytes(n), - ByteOrder::BigEndian => i32::from_be_bytes(n), - }) - } - - /// Reads an u64 - #[inline(always)] - fn read_u64(&mut self) -> Result<u64, io::Error> { - let mut n = [0u8; 8]; - self.read_exact(&mut n)?; - Ok(match self.byte_order() { - ByteOrder::LittleEndian => u64::from_le_bytes(n), - ByteOrder::BigEndian => u64::from_be_bytes(n), - }) - } - - /// Reads an i64 - #[inline(always)] - fn read_i64(&mut self) -> Result<i64, io::Error> { - let mut n = [0u8; 8]; - self.read_exact(&mut n)?; - Ok(match self.byte_order() { - ByteOrder::LittleEndian => i64::from_le_bytes(n), - ByteOrder::BigEndian => i64::from_be_bytes(n), - }) - } - - /// Reads an f32 - #[inline(always)] - fn read_f32(&mut self) -> Result<f32, io::Error> { - let mut n = [0u8; 4]; - self.read_exact(&mut n)?; - Ok(f32::from_bits(match self.byte_order() { - ByteOrder::LittleEndian => u32::from_le_bytes(n), - ByteOrder::BigEndian => u32::from_be_bytes(n), - })) - } - - /// Reads an f64 - #[inline(always)] - fn read_f64(&mut self) -> Result<f64, io::Error> { - let mut n = [0u8; 8]; - self.read_exact(&mut n)?; - Ok(f64::from_bits(match self.byte_order() { - ByteOrder::LittleEndian => u64::from_le_bytes(n), - ByteOrder::BigEndian => u64::from_be_bytes(n), - })) - } -} - -/// -/// # READERS -/// - -/// -/// ## Deflate Reader -/// - -pub type DeflateReader<R> = flate2::read::ZlibDecoder<R>; - -/// -/// ## LZW Reader -/// - -/// Reader that decompresses LZW streams -pub struct LZWReader<R: Read> { - reader: BufReader<Take<R>>, - decoder: weezl::decode::Decoder, -} - -impl<R: Read> LZWReader<R> { - /// Wraps a reader - pub fn new(reader: R, compressed_length: usize) -> LZWReader<R> { - Self { - reader: BufReader::with_capacity( - (32 * 1024).min(compressed_length), - reader.take(u64::try_from(compressed_length).unwrap()), - ), - decoder: weezl::decode::Decoder::with_tiff_size_switch(weezl::BitOrder::Msb, 8), - } - } -} - -impl<R: Read> Read for LZWReader<R> { - fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> { - loop { - let result = self.decoder.decode_bytes(self.reader.fill_buf()?, buf); - self.reader.consume(result.consumed_in); - - match result.status { - Ok(weezl::LzwStatus::Ok) => { - if result.consumed_out == 0 { - continue; - } else { - return Ok(result.consumed_out); - } - } - Ok(weezl::LzwStatus::NoProgress) => { - assert_eq!(result.consumed_in, 0); - assert_eq!(result.consumed_out, 0); - assert!(self.reader.buffer().is_empty()); - return Err(io::Error::new( - io::ErrorKind::UnexpectedEof, - "no lzw end code found", - )); - } - Ok(weezl::LzwStatus::Done) => { - return Ok(result.consumed_out); - } - Err(err) => return Err(io::Error::new(io::ErrorKind::InvalidData, err)), - } - } - } -} - -/// -/// ## JPEG Reader (for "new-style" JPEG format (TIFF compression tag 7)) -/// - -pub(crate) struct JpegReader { - jpeg_tables: Option<Arc<Vec<u8>>>, - - buffer: io::Cursor<Vec<u8>>, - - offset: usize, -} - -impl JpegReader { - /// Constructs new JpegReader wrapping a SmartReader. - /// Because JPEG compression in TIFF allows to save quantization and/or huffman tables in one - /// central location, the constructor accepts this data as `jpeg_tables` here containing either - /// or both. - /// These `jpeg_tables` are simply prepended to the remaining jpeg image data. - /// Because these `jpeg_tables` start with a `SOI` (HEX: `0xFFD8`) or __start of image__ marker - /// which is also at the beginning of the remaining JPEG image data and would - /// confuse the JPEG renderer, one of these has to be taken off. In this case the first two - /// bytes of the remaining JPEG data is removed because it follows `jpeg_tables`. - /// Similary, `jpeg_tables` ends with a `EOI` (HEX: `0xFFD9`) or __end of image__ marker, - /// this has to be removed as well (last two bytes of `jpeg_tables`). - pub fn new<R: Read>( - mut reader: R, - length: u64, - jpeg_tables: Option<Arc<Vec<u8>>>, - ) -> io::Result<JpegReader> { - // Read jpeg image data - let mut segment = vec![0; length as usize]; - - reader.read_exact(&mut segment[..])?; - - match jpeg_tables { - Some(jpeg_tables) => { - assert!( - jpeg_tables.len() >= 2, - "jpeg_tables, if given, must be at least 2 bytes long. Got {:?}", - jpeg_tables - ); - - assert!( - length >= 2, - "if jpeg_tables is given, length must be at least 2 bytes long, got {}", - length - ); - - let mut buffer = io::Cursor::new(segment); - // Skip the first two bytes (marker bytes) - buffer.seek(SeekFrom::Start(2))?; - - Ok(JpegReader { - buffer, - jpeg_tables: Some(jpeg_tables), - offset: 0, - }) - } - None => Ok(JpegReader { - buffer: io::Cursor::new(segment), - jpeg_tables: None, - offset: 0, - }), - } - } -} - -impl Read for JpegReader { - // #[inline] - fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> { - let mut start = 0; - - if let Some(jpeg_tables) = &self.jpeg_tables { - if jpeg_tables.len() - 2 > self.offset { - // Read (rest of) jpeg_tables to buf (without the last two bytes) - let size_remaining = jpeg_tables.len() - self.offset - 2; - let to_copy = size_remaining.min(buf.len()); - - buf[start..start + to_copy] - .copy_from_slice(&jpeg_tables[self.offset..self.offset + to_copy]); - - self.offset += to_copy; - - if to_copy == buf.len() { - return Ok(to_copy); - } - - start += to_copy; - } - } - - let read = self.buffer.read(&mut buf[start..])?; - self.offset += read; - - Ok(read + start) - } -} - -/// -/// ## PackBits Reader -/// - -enum PackBitsReaderState { - Header, - Literal, - Repeat { value: u8 }, -} - -/// Reader that unpacks Apple's `PackBits` format -pub struct PackBitsReader<R: Read> { - reader: Take<R>, - state: PackBitsReaderState, - count: usize, -} - -impl<R: Read> PackBitsReader<R> { - /// Wraps a reader - pub fn new(reader: R, length: u64) -> Self { - Self { - reader: reader.take(length), - state: PackBitsReaderState::Header, - count: 0, - } - } -} - -impl<R: Read> Read for PackBitsReader<R> { - fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> { - while let PackBitsReaderState::Header = self.state { - if self.reader.limit() == 0 { - return Ok(0); - } - let mut header: [u8; 1] = [0]; - self.reader.read_exact(&mut header)?; - let h = header[0] as i8; - if h >= -127 && h <= -1 { - let mut data: [u8; 1] = [0]; - self.reader.read_exact(&mut data)?; - self.state = PackBitsReaderState::Repeat { value: data[0] }; - self.count = (1 - h as isize) as usize; - } else if h >= 0 { - self.state = PackBitsReaderState::Literal; - self.count = h as usize + 1; - } else { - // h = -128 is a no-op. - } - } - - let length = buf.len().min(self.count); - let actual = match self.state { - PackBitsReaderState::Literal => self.reader.read(&mut buf[..length])?, - PackBitsReaderState::Repeat { value } => { - for b in &mut buf[..length] { - *b = value; - } - - length - } - PackBitsReaderState::Header => unreachable!(), - }; - - self.count -= actual; - if self.count == 0 { - self.state = PackBitsReaderState::Header; - } - return Ok(actual); - } -} - -/// -/// ## SmartReader Reader -/// - -/// Reader that is aware of the byte order. -#[derive(Debug)] -pub struct SmartReader<R> -where - R: Read, -{ - reader: R, - pub byte_order: ByteOrder, -} - -impl<R> SmartReader<R> -where - R: Read, -{ - /// Wraps a reader - pub fn wrap(reader: R, byte_order: ByteOrder) -> SmartReader<R> { - SmartReader { reader, byte_order } - } - pub fn into_inner(self) -> R { - self.reader - } -} -impl<R: Read + Seek> SmartReader<R> { - pub fn goto_offset(&mut self, offset: u64) -> io::Result<()> { - self.seek(io::SeekFrom::Start(offset)).map(|_| ()) - } -} - -impl<R> EndianReader for SmartReader<R> -where - R: Read, -{ - #[inline(always)] - fn byte_order(&self) -> ByteOrder { - self.byte_order - } -} - -impl<R: Read> Read for SmartReader<R> { - #[inline] - fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> { - self.reader.read(buf) - } -} - -impl<R: Read + Seek> Seek for SmartReader<R> { - #[inline] - fn seek(&mut self, pos: io::SeekFrom) -> io::Result<u64> { - self.reader.seek(pos) - } -} - -#[cfg(test)] -mod test { - use super::*; - - #[test] - fn test_packbits() { - let encoded = vec![ - 0xFE, 0xAA, 0x02, 0x80, 0x00, 0x2A, 0xFD, 0xAA, 0x03, 0x80, 0x00, 0x2A, 0x22, 0xF7, - 0xAA, - ]; - let encoded_len = encoded.len(); - - let buff = io::Cursor::new(encoded); - let mut decoder = PackBitsReader::new(buff, encoded_len as u64); - - let mut decoded = Vec::new(); - decoder.read_to_end(&mut decoded).unwrap(); - - let expected = vec![ - 0xAA, 0xAA, 0xAA, 0x80, 0x00, 0x2A, 0xAA, 0xAA, 0xAA, 0xAA, 0x80, 0x00, 0x2A, 0x22, - 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, 0xAA, - ]; - assert_eq!(decoded, expected); - } -} diff --git a/vendor/tiff/src/decoder/tag_reader.rs b/vendor/tiff/src/decoder/tag_reader.rs deleted file mode 100644 index 837da40..0000000 --- a/vendor/tiff/src/decoder/tag_reader.rs +++ /dev/null @@ -1,45 +0,0 @@ -use std::convert::TryFrom; -use std::io::{Read, Seek}; - -use crate::tags::Tag; -use crate::{TiffError, TiffFormatError, TiffResult}; - -use super::ifd::{Directory, Value}; -use super::stream::SmartReader; -use super::Limits; - -pub(crate) struct TagReader<'a, R: Read + Seek> { - pub reader: &'a mut SmartReader<R>, - pub ifd: &'a Directory, - pub limits: &'a Limits, - pub bigtiff: bool, -} -impl<'a, R: Read + Seek> TagReader<'a, R> { - pub(crate) fn find_tag(&mut self, tag: Tag) -> TiffResult<Option<Value>> { - Ok(match self.ifd.get(&tag) { - Some(entry) => Some(entry.clone().val(self.limits, self.bigtiff, self.reader)?), - None => None, - }) - } - pub(crate) fn require_tag(&mut self, tag: Tag) -> TiffResult<Value> { - match self.find_tag(tag)? { - Some(val) => Ok(val), - None => Err(TiffError::FormatError( - TiffFormatError::RequiredTagNotFound(tag), - )), - } - } - pub fn find_tag_uint_vec<T: TryFrom<u64>>(&mut self, tag: Tag) -> TiffResult<Option<Vec<T>>> { - self.find_tag(tag)? - .map(|v| v.into_u64_vec()) - .transpose()? - .map(|v| { - v.into_iter() - .map(|u| { - T::try_from(u).map_err(|_| TiffFormatError::InvalidTagValueType(tag).into()) - }) - .collect() - }) - .transpose() - } -} diff --git a/vendor/tiff/src/encoder/colortype.rs b/vendor/tiff/src/encoder/colortype.rs deleted file mode 100644 index 1946daf..0000000 --- a/vendor/tiff/src/encoder/colortype.rs +++ /dev/null @@ -1,245 +0,0 @@ -use crate::tags::{PhotometricInterpretation, SampleFormat}; - -/// Trait for different colortypes that can be encoded. -pub trait ColorType { - /// The type of each sample of this colortype - type Inner: super::TiffValue; - /// The value of the tiff tag `PhotometricInterpretation` - const TIFF_VALUE: PhotometricInterpretation; - /// The value of the tiff tag `BitsPerSample` - const BITS_PER_SAMPLE: &'static [u16]; - /// The value of the tiff tag `SampleFormat` - const SAMPLE_FORMAT: &'static [SampleFormat]; -} - -pub struct Gray8; -impl ColorType for Gray8 { - type Inner = u8; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[8]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint]; -} - -pub struct GrayI8; -impl ColorType for GrayI8 { - type Inner = i8; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[8]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Int]; -} - -pub struct Gray16; -impl ColorType for Gray16 { - type Inner = u16; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[16]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint]; -} - -pub struct GrayI16; -impl ColorType for GrayI16 { - type Inner = i16; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[16]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Int]; -} - -pub struct Gray32; -impl ColorType for Gray32 { - type Inner = u32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint]; -} - -pub struct GrayI32; -impl ColorType for GrayI32 { - type Inner = i32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Int]; -} - -pub struct Gray32Float; -impl ColorType for Gray32Float { - type Inner = f32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP]; -} - -pub struct Gray64; -impl ColorType for Gray64 { - type Inner = u64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint]; -} - -pub struct GrayI64; -impl ColorType for GrayI64 { - type Inner = i64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Int]; -} - -pub struct Gray64Float; -impl ColorType for Gray64Float { - type Inner = f64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::BlackIsZero; - const BITS_PER_SAMPLE: &'static [u16] = &[64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP]; -} - -pub struct RGB8; -impl ColorType for RGB8 { - type Inner = u8; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[8, 8, 8]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 3]; -} - -pub struct RGB16; -impl ColorType for RGB16 { - type Inner = u16; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[16, 16, 16]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 3]; -} - -pub struct RGB32; -impl ColorType for RGB32 { - type Inner = u32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[32, 32, 32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 3]; -} - -pub struct RGB32Float; -impl ColorType for RGB32Float { - type Inner = f32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[32, 32, 32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP; 3]; -} - -pub struct RGB64; -impl ColorType for RGB64 { - type Inner = u64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[64, 64, 64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 3]; -} - -pub struct RGB64Float; -impl ColorType for RGB64Float { - type Inner = f64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[64, 64, 64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP; 3]; -} - -pub struct RGBA8; -impl ColorType for RGBA8 { - type Inner = u8; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[8, 8, 8, 8]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct RGBA16; -impl ColorType for RGBA16 { - type Inner = u16; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[16, 16, 16, 16]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct RGBA32; -impl ColorType for RGBA32 { - type Inner = u32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[32, 32, 32, 32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct RGBA32Float; -impl ColorType for RGBA32Float { - type Inner = f32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[32, 32, 32, 32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP; 4]; -} - -pub struct RGBA64; -impl ColorType for RGBA64 { - type Inner = u64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[64, 64, 64, 64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct RGBA64Float; -impl ColorType for RGBA64Float { - type Inner = f64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::RGB; - const BITS_PER_SAMPLE: &'static [u16] = &[64, 64, 64, 64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP; 4]; -} - -pub struct CMYK8; -impl ColorType for CMYK8 { - type Inner = u8; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::CMYK; - const BITS_PER_SAMPLE: &'static [u16] = &[8, 8, 8, 8]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct CMYK16; -impl ColorType for CMYK16 { - type Inner = u16; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::CMYK; - const BITS_PER_SAMPLE: &'static [u16] = &[16, 16, 16, 16]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct CMYK32; -impl ColorType for CMYK32 { - type Inner = u32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::CMYK; - const BITS_PER_SAMPLE: &'static [u16] = &[32, 32, 32, 32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct CMYK32Float; -impl ColorType for CMYK32Float { - type Inner = f32; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::CMYK; - const BITS_PER_SAMPLE: &'static [u16] = &[32, 32, 32, 32]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP; 4]; -} - -pub struct CMYK64; -impl ColorType for CMYK64 { - type Inner = u64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::CMYK; - const BITS_PER_SAMPLE: &'static [u16] = &[64, 64, 64, 64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 4]; -} - -pub struct CMYK64Float; -impl ColorType for CMYK64Float { - type Inner = f64; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::CMYK; - const BITS_PER_SAMPLE: &'static [u16] = &[64, 64, 64, 64]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::IEEEFP; 4]; -} - -pub struct YCbCr8; -impl ColorType for YCbCr8 { - type Inner = u8; - const TIFF_VALUE: PhotometricInterpretation = PhotometricInterpretation::YCbCr; - const BITS_PER_SAMPLE: &'static [u16] = &[8, 8, 8]; - const SAMPLE_FORMAT: &'static [SampleFormat] = &[SampleFormat::Uint; 3]; -} diff --git a/vendor/tiff/src/encoder/compression/deflate.rs b/vendor/tiff/src/encoder/compression/deflate.rs deleted file mode 100644 index 5e7a261..0000000 --- a/vendor/tiff/src/encoder/compression/deflate.rs +++ /dev/null @@ -1,83 +0,0 @@ -use crate::{encoder::compression::*, tags::CompressionMethod}; -use flate2::{write::ZlibEncoder, Compression as FlateCompression}; -use std::io::Write; - -/// The Deflate algorithm used to compress image data in TIFF files. -#[derive(Debug, Clone, Copy)] -pub struct Deflate { - level: FlateCompression, -} - -/// The level of compression used by the Deflate algorithm. -/// It allows trading compression ratio for compression speed. -#[derive(Debug, Clone, Copy, PartialEq, Eq, PartialOrd, Ord)] -#[non_exhaustive] -pub enum DeflateLevel { - /// The fastest possible compression mode. - Fast = 1, - /// The conserative choice between speed and ratio. - Balanced = 6, - /// The best compression available with Deflate. - Best = 9, -} - -impl Default for DeflateLevel { - fn default() -> Self { - DeflateLevel::Balanced - } -} - -impl Deflate { - /// Create a new deflate compressor with a specific level of compression. - pub fn with_level(level: DeflateLevel) -> Self { - Self { - level: FlateCompression::new(level as u32), - } - } -} - -impl Default for Deflate { - fn default() -> Self { - Self::with_level(DeflateLevel::default()) - } -} - -impl Compression for Deflate { - const COMPRESSION_METHOD: CompressionMethod = CompressionMethod::Deflate; - - fn get_algorithm(&self) -> Compressor { - Compressor::Deflate(self.clone()) - } -} - -impl CompressionAlgorithm for Deflate { - fn write_to<W: Write>(&mut self, writer: &mut W, bytes: &[u8]) -> Result<u64, io::Error> { - let mut encoder = ZlibEncoder::new(writer, self.level); - encoder.write_all(bytes)?; - encoder.try_finish()?; - Ok(encoder.total_out()) - } -} - -#[cfg(test)] -mod tests { - use super::*; - use crate::encoder::compression::tests::TEST_DATA; - use std::io::Cursor; - - #[test] - fn test_deflate() { - const EXPECTED_COMPRESSED_DATA: [u8; 64] = [ - 0x78, 0x9C, 0x15, 0xC7, 0xD1, 0x0D, 0x80, 0x20, 0x0C, 0x04, 0xD0, 0x55, 0x6E, 0x02, - 0xA7, 0x71, 0x81, 0xA6, 0x41, 0xDA, 0x28, 0xD4, 0xF4, 0xD0, 0xF9, 0x81, 0xE4, 0xFD, - 0xBC, 0xD3, 0x9C, 0x58, 0x04, 0x1C, 0xE9, 0xBD, 0xE2, 0x8A, 0x84, 0x5A, 0xD1, 0x7B, - 0xE7, 0x97, 0xF4, 0xF8, 0x08, 0x8D, 0xF6, 0x66, 0x21, 0x3D, 0x3A, 0xE4, 0xA9, 0x91, - 0x3E, 0xAC, 0xF1, 0x98, 0xB9, 0x70, 0x17, 0x13, - ]; - - let mut compressed_data = Vec::<u8>::new(); - let mut writer = Cursor::new(&mut compressed_data); - Deflate::default().write_to(&mut writer, TEST_DATA).unwrap(); - assert_eq!(EXPECTED_COMPRESSED_DATA, compressed_data.as_slice()); - } -} diff --git a/vendor/tiff/src/encoder/compression/lzw.rs b/vendor/tiff/src/encoder/compression/lzw.rs deleted file mode 100644 index 0e0f2aa..0000000 --- a/vendor/tiff/src/encoder/compression/lzw.rs +++ /dev/null @@ -1,47 +0,0 @@ -use crate::{encoder::compression::*, tags::CompressionMethod}; -use std::io::Write; -use weezl::encode::Encoder as LZWEncoder; - -/// The LZW algorithm used to compress image data in TIFF files. -#[derive(Debug, Clone, Copy, PartialEq, Eq, Default)] -pub struct Lzw; - -impl Compression for Lzw { - const COMPRESSION_METHOD: CompressionMethod = CompressionMethod::LZW; - - fn get_algorithm(&self) -> Compressor { - Compressor::Lzw(*self) - } -} - -impl CompressionAlgorithm for Lzw { - fn write_to<W: Write>(&mut self, writer: &mut W, bytes: &[u8]) -> Result<u64, io::Error> { - let mut encoder = LZWEncoder::with_tiff_size_switch(weezl::BitOrder::Msb, 8); - let result = encoder.into_stream(writer).encode_all(bytes); - let byte_count = result.bytes_written as u64; - result.status.map(|_| byte_count) - } -} - -#[cfg(test)] -mod tests { - use super::*; - use crate::encoder::compression::tests::TEST_DATA; - use std::io::Cursor; - - #[test] - fn test_lzw() { - const EXPECTED_COMPRESSED_DATA: [u8; 63] = [ - 0x80, 0x15, 0x0D, 0x06, 0x93, 0x98, 0x82, 0x08, 0x20, 0x30, 0x88, 0x0E, 0x67, 0x43, - 0x91, 0xA4, 0xDC, 0x67, 0x10, 0x19, 0x8D, 0xE7, 0x21, 0x01, 0x8C, 0xD0, 0x65, 0x31, - 0x9A, 0xE1, 0xD1, 0x03, 0xB1, 0x86, 0x1A, 0x6F, 0x3A, 0xC1, 0x4C, 0x66, 0xF3, 0x69, - 0xC0, 0xE4, 0x65, 0x39, 0x9C, 0xCD, 0x26, 0xF3, 0x74, 0x20, 0xD8, 0x67, 0x89, 0x9A, - 0x4E, 0x86, 0x83, 0x69, 0xCC, 0x5D, 0x01, - ]; - - let mut compressed_data = Vec::<u8>::new(); - let mut writer = Cursor::new(&mut compressed_data); - Lzw::default().write_to(&mut writer, TEST_DATA).unwrap(); - assert_eq!(EXPECTED_COMPRESSED_DATA, compressed_data.as_slice()); - } -} diff --git a/vendor/tiff/src/encoder/compression/mod.rs b/vendor/tiff/src/encoder/compression/mod.rs deleted file mode 100644 index 04baef3..0000000 --- a/vendor/tiff/src/encoder/compression/mod.rs +++ /dev/null @@ -1,60 +0,0 @@ -use crate::tags::CompressionMethod; -use std::io::{self, Write}; - -mod deflate; -mod lzw; -mod packbits; -mod uncompressed; - -pub use self::deflate::{Deflate, DeflateLevel}; -pub use self::lzw::Lzw; -pub use self::packbits::Packbits; -pub use self::uncompressed::Uncompressed; - -/// An algorithm used for compression -pub trait CompressionAlgorithm { - /// The algorithm writes data directly into the writer. - /// It returns the total number of bytes written. - fn write_to<W: Write>(&mut self, writer: &mut W, bytes: &[u8]) -> Result<u64, io::Error>; -} - -/// An algorithm used for compression with associated enums and optional configurations. -pub trait Compression: CompressionAlgorithm { - /// The corresponding tag to the algorithm. - const COMPRESSION_METHOD: CompressionMethod; - - /// Method to optain a type that can store each variant of comression algorithm. - fn get_algorithm(&self) -> Compressor; -} - -/// An enum to store each compression algorithm. -pub enum Compressor { - Uncompressed(Uncompressed), - Lzw(Lzw), - Deflate(Deflate), - Packbits(Packbits), -} - -impl Default for Compressor { - /// The default compression strategy does not apply any compression. - fn default() -> Self { - Compressor::Uncompressed(Uncompressed::default()) - } -} - -impl CompressionAlgorithm for Compressor { - fn write_to<W: Write>(&mut self, writer: &mut W, bytes: &[u8]) -> Result<u64, io::Error> { - match self { - Compressor::Uncompressed(algorithm) => algorithm.write_to(writer, bytes), - Compressor::Lzw(algorithm) => algorithm.write_to(writer, bytes), - Compressor::Deflate(algorithm) => algorithm.write_to(writer, bytes), - Compressor::Packbits(algorithm) => algorithm.write_to(writer, bytes), - } - } -} - -#[cfg(test)] -mod tests { - pub const TEST_DATA: &'static [u8] = - b"This is a string for checking various compression algorithms."; -} diff --git a/vendor/tiff/src/encoder/compression/packbits.rs b/vendor/tiff/src/encoder/compression/packbits.rs deleted file mode 100644 index 7ba3833..0000000 --- a/vendor/tiff/src/encoder/compression/packbits.rs +++ /dev/null @@ -1,214 +0,0 @@ -use crate::{encoder::compression::*, tags::CompressionMethod}; -use std::io::{BufWriter, Error, ErrorKind, Write}; - -/// Compressor that uses the Packbits[^note] algorithm to compress bytes. -/// -/// [^note]: PackBits is often ineffective on continuous tone images, -/// including many grayscale images. In such cases, it is better -/// to leave the image uncompressed. -#[derive(Debug, Clone, Copy, PartialEq, Eq, Default)] -pub struct Packbits; - -impl Compression for Packbits { - const COMPRESSION_METHOD: CompressionMethod = CompressionMethod::PackBits; - - fn get_algorithm(&self) -> Compressor { - Compressor::Packbits(*self) - } -} - -impl CompressionAlgorithm for Packbits { - fn write_to<W: Write>(&mut self, writer: &mut W, bytes: &[u8]) -> Result<u64, io::Error> { - // Inspired by https://github.com/skirridsystems/packbits - - const MIN_REPT: u8 = 3; // Minimum run to compress between differ blocks - const MAX_BYTES: u8 = 128; // Maximum number of bytes that can be encoded in a header byte - - // Encoding for header byte based on number of bytes represented. - fn encode_diff(n: u8) -> u8 { - n - 1 - } - fn encode_rept(n: u8) -> u8 { - let var = 256 - (n - 1) as u16; - var as u8 - } - - fn write_u8<W: Write>(writer: &mut W, byte: u8) -> Result<u64, Error> { - writer.write(&[byte]).map(|byte_count| byte_count as u64) - } - - let mut bufwriter = BufWriter::new(writer); - let mut bytes_written = 0u64; // The number of bytes written into the writer - let mut offset: Option<u64> = None; // The index of the first byte written into the writer - - let mut src_index: usize = 0; // Index of the current byte - let mut src_count = bytes.len(); //The number of bytes remaining to be compressed - - let mut in_run = false; // Indication whether counting of similar bytes is performed - let mut run_index = 0u8; // Distance into pending bytes that a run starts - - let mut bytes_pending = 0u8; // Bytes looked at but not yet output - let mut pending_index = 0usize; // Index of the first pending byte - - let mut curr_byte: u8; // Byte currently being considered - let mut last_byte: u8; // Previous byte - - // Need at least one byte to compress - if src_count == 0 { - return Err(Error::new(ErrorKind::WriteZero, "write zero")); - } - - // Prime compressor with first character. - last_byte = bytes[src_index]; - src_index += 1; - bytes_pending += 1; - - while src_count - 1 != 0 { - src_count -= 1; - curr_byte = bytes[src_index]; - src_index += 1; - bytes_pending += 1; - - if in_run { - if (curr_byte != last_byte) || (bytes_pending > MAX_BYTES) { - offset.get_or_insert(write_u8(&mut bufwriter, encode_rept(bytes_pending - 1))?); - write_u8(&mut bufwriter, last_byte)?; - bytes_written += 2; - - bytes_pending = 1; - pending_index = src_index - 1; - run_index = 0; - in_run = false; - } - } else { - if bytes_pending > MAX_BYTES { - // We have as much differing data as we can output in one chunk. - // Output MAX_BYTES leaving one byte. - offset.get_or_insert(write_u8(&mut bufwriter, encode_diff(MAX_BYTES))?); - bufwriter.write(&bytes[pending_index..pending_index + MAX_BYTES as usize])?; - bytes_written += 1 + MAX_BYTES as u64; - - pending_index += MAX_BYTES as usize; - bytes_pending -= MAX_BYTES; - run_index = bytes_pending - 1; // A run could start here - } else if curr_byte == last_byte { - if (bytes_pending - run_index >= MIN_REPT) || (run_index == 0) { - // This is a worthwhile run - if run_index != 0 { - // Flush differing data out of input buffer - offset.get_or_insert(write_u8(&mut bufwriter, encode_diff(run_index))?); - bufwriter - .write(&bytes[pending_index..pending_index + run_index as usize])?; - bytes_written += 1 + run_index as u64; - } - bytes_pending -= run_index; // Length of run - in_run = true; - } - } else { - run_index = bytes_pending - 1; // A run could start here - } - } - last_byte = curr_byte; - } - - // Output the remainder - if in_run { - bytes_written += 2; - offset.get_or_insert(write_u8(&mut bufwriter, encode_rept(bytes_pending))?); - write_u8(&mut bufwriter, last_byte)?; - } else { - bytes_written += 1 + bytes_pending as u64; - offset.get_or_insert(write_u8(&mut bufwriter, encode_diff(bytes_pending))?); - bufwriter.write(&bytes[pending_index..pending_index + bytes_pending as usize])?; - } - - bufwriter.flush()?; - Ok(bytes_written) - } -} - -#[cfg(test)] -mod tests { - use super::*; - use crate::encoder::compression::tests::TEST_DATA; - use std::io::Cursor; - - #[test] - fn test_packbits_single_byte() { - // compress single byte - const UNCOMPRESSED_DATA: [u8; 1] = [0x3F]; - const EXPECTED_COMPRESSED_DATA: [u8; 2] = [0x00, 0x3F]; - - let mut compressed_data = Vec::<u8>::new(); - let mut writer = Cursor::new(&mut compressed_data); - Packbits::default() - .write_to(&mut writer, &UNCOMPRESSED_DATA) - .unwrap(); - assert_eq!(compressed_data, EXPECTED_COMPRESSED_DATA); - } - - #[test] - fn test_packbits_rept() { - // compress buffer with repetitive sequence - const UNCOMPRESSED_DATA: &'static [u8] = - b"This strrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrrring hangs."; - const EXPECTED_COMPRESSED_DATA: &'static [u8] = b"\x06This st\xD1r\x09ing hangs."; - - let mut compressed_data = Vec::<u8>::new(); - let mut writer = Cursor::new(&mut compressed_data); - Packbits::default() - .write_to(&mut writer, UNCOMPRESSED_DATA) - .unwrap(); - assert_eq!(compressed_data, EXPECTED_COMPRESSED_DATA); - } - - #[test] - fn test_packbits_large_rept_nonrept() { - // compress buffer with large repetitive and non-repetitive sequence - let mut data = b"This st".to_vec(); - for _i in 0..158 { - data.push(b'r'); - } - data.extend_from_slice(b"ing hangs."); - for i in 0..158 { - data.push(i); - } - - const EXPECTED_COMPRESSED_DATA: [u8; 182] = [ - 0x06, 0x54, 0x68, 0x69, 0x73, 0x20, 0x73, 0x74, 0x81, 0x72, 0xE3, 0x72, 0x7F, 0x69, - 0x6E, 0x67, 0x20, 0x68, 0x61, 0x6E, 0x67, 0x73, 0x2E, 0x00, 0x01, 0x02, 0x03, 0x04, - 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F, 0x10, 0x11, 0x12, - 0x13, 0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1A, 0x1B, 0x1C, 0x1D, 0x1E, 0x1F, 0x20, - 0x21, 0x22, 0x23, 0x24, 0x25, 0x26, 0x27, 0x28, 0x29, 0x2A, 0x2B, 0x2C, 0x2D, 0x2E, - 0x2F, 0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37, 0x38, 0x39, 0x3A, 0x3B, 0x3C, - 0x3D, 0x3E, 0x3F, 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46, 0x47, 0x48, 0x49, 0x4A, - 0x4B, 0x4C, 0x4D, 0x4E, 0x4F, 0x50, 0x51, 0x52, 0x53, 0x54, 0x55, 0x56, 0x57, 0x58, - 0x59, 0x5A, 0x5B, 0x5C, 0x5D, 0x5E, 0x5F, 0x60, 0x61, 0x62, 0x63, 0x64, 0x65, 0x66, - 0x67, 0x68, 0x69, 0x6A, 0x6B, 0x6C, 0x6D, 0x6E, 0x6F, 0x70, 0x71, 0x72, 0x73, 0x74, - 0x75, 0x27, 0x76, 0x77, 0x78, 0x79, 0x7A, 0x7B, 0x7C, 0x7D, 0x7E, 0x7F, 0x80, 0x81, - 0x82, 0x83, 0x84, 0x85, 0x86, 0x87, 0x88, 0x89, 0x8A, 0x8B, 0x8C, 0x8D, 0x8E, 0x8F, - 0x90, 0x91, 0x92, 0x93, 0x94, 0x95, 0x96, 0x97, 0x98, 0x99, 0x9A, 0x9B, 0x9C, 0x9D, - ]; - - let mut compressed_data = Vec::<u8>::new(); - let mut writer = Cursor::new(&mut compressed_data); - Packbits::default() - .write_to(&mut writer, data.as_slice()) - .unwrap(); - assert_eq!(compressed_data, EXPECTED_COMPRESSED_DATA); - } - - #[test] - fn test_packbits() { - // compress teststring - const EXPECTED_COMPRESSED_DATA: &'static [u8] = - b"\x3CThis is a string for checking various compression algorithms."; - - let mut compressed_data = Vec::<u8>::new(); - let mut writer = Cursor::new(&mut compressed_data); - Packbits::default() - .write_to(&mut writer, TEST_DATA) - .unwrap(); - assert_eq!(compressed_data, EXPECTED_COMPRESSED_DATA); - } -} diff --git a/vendor/tiff/src/encoder/compression/uncompressed.rs b/vendor/tiff/src/encoder/compression/uncompressed.rs deleted file mode 100644 index 900426f..0000000 --- a/vendor/tiff/src/encoder/compression/uncompressed.rs +++ /dev/null @@ -1,37 +0,0 @@ -use crate::{encoder::compression::*, tags::CompressionMethod}; -use std::io::Write; - -/// The default algorithm which does not compress at all. -#[derive(Debug, Clone, Copy, PartialEq, Eq, Default)] -pub struct Uncompressed; - -impl Compression for Uncompressed { - const COMPRESSION_METHOD: CompressionMethod = CompressionMethod::None; - - fn get_algorithm(&self) -> Compressor { - Compressor::Uncompressed(*self) - } -} - -impl CompressionAlgorithm for Uncompressed { - fn write_to<W: Write>(&mut self, writer: &mut W, bytes: &[u8]) -> Result<u64, io::Error> { - writer.write(bytes).map(|byte_count| byte_count as u64) - } -} - -#[cfg(test)] -mod tests { - use super::*; - use crate::encoder::compression::tests::TEST_DATA; - use std::io::Cursor; - - #[test] - fn test_no_compression() { - let mut compressed_data = Vec::<u8>::new(); - let mut writer = Cursor::new(&mut compressed_data); - Uncompressed::default() - .write_to(&mut writer, TEST_DATA) - .unwrap(); - assert_eq!(TEST_DATA, compressed_data); - } -} diff --git a/vendor/tiff/src/encoder/mod.rs b/vendor/tiff/src/encoder/mod.rs deleted file mode 100644 index 6e39c93..0000000 --- a/vendor/tiff/src/encoder/mod.rs +++ /dev/null @@ -1,681 +0,0 @@ -pub use tiff_value::*; - -use std::{ - cmp, - collections::BTreeMap, - convert::{TryFrom, TryInto}, - io::{self, Seek, Write}, - marker::PhantomData, - mem, - num::TryFromIntError, -}; - -use crate::{ - error::TiffResult, - tags::{CompressionMethod, ResolutionUnit, Tag}, - TiffError, TiffFormatError, -}; - -pub mod colortype; -pub mod compression; -mod tiff_value; -mod writer; - -use self::colortype::*; -use self::compression::*; -use self::writer::*; - -/// Encoder for Tiff and BigTiff files. -/// -/// With this type you can get a `DirectoryEncoder` or a `ImageEncoder` -/// to encode Tiff/BigTiff ifd directories with images. -/// -/// See `DirectoryEncoder` and `ImageEncoder`. -/// -/// # Examples -/// ``` -/// # extern crate tiff; -/// # fn main() { -/// # let mut file = std::io::Cursor::new(Vec::new()); -/// # let image_data = vec![0; 100*100*3]; -/// use tiff::encoder::*; -/// -/// // create a standard Tiff file -/// let mut tiff = TiffEncoder::new(&mut file).unwrap(); -/// tiff.write_image::<colortype::RGB8>(100, 100, &image_data).unwrap(); -/// -/// // create a BigTiff file -/// let mut bigtiff = TiffEncoder::new_big(&mut file).unwrap(); -/// bigtiff.write_image::<colortype::RGB8>(100, 100, &image_data).unwrap(); -/// -/// # } -/// ``` -pub struct TiffEncoder<W, K: TiffKind = TiffKindStandard> { - writer: TiffWriter<W>, - kind: PhantomData<K>, -} - -/// Constructor functions to create standard Tiff files. -impl<W: Write + Seek> TiffEncoder<W> { - /// Creates a new encoder for standard Tiff files. - /// - /// To create BigTiff files, use [`new_big`][TiffEncoder::new_big] or - /// [`new_generic`][TiffEncoder::new_generic]. - pub fn new(writer: W) -> TiffResult<TiffEncoder<W, TiffKindStandard>> { - TiffEncoder::new_generic(writer) - } -} - -/// Constructor functions to create BigTiff files. -impl<W: Write + Seek> TiffEncoder<W, TiffKindBig> { - /// Creates a new encoder for BigTiff files. - /// - /// To create standard Tiff files, use [`new`][TiffEncoder::new] or - /// [`new_generic`][TiffEncoder::new_generic]. - pub fn new_big(writer: W) -> TiffResult<Self> { - TiffEncoder::new_generic(writer) - } -} - -/// Generic functions that are available for both Tiff and BigTiff encoders. -impl<W: Write + Seek, K: TiffKind> TiffEncoder<W, K> { - /// Creates a new Tiff or BigTiff encoder, inferred from the return type. - pub fn new_generic(writer: W) -> TiffResult<Self> { - let mut encoder = TiffEncoder { - writer: TiffWriter::new(writer), - kind: PhantomData, - }; - - K::write_header(&mut encoder.writer)?; - - Ok(encoder) - } - - /// Create a [`DirectoryEncoder`] to encode an ifd directory. - pub fn new_directory(&mut self) -> TiffResult<DirectoryEncoder<W, K>> { - DirectoryEncoder::new(&mut self.writer) - } - - /// Create an [`ImageEncoder`] to encode an image one slice at a time. - pub fn new_image<C: ColorType>( - &mut self, - width: u32, - height: u32, - ) -> TiffResult<ImageEncoder<W, C, K, Uncompressed>> { - let encoder = DirectoryEncoder::new(&mut self.writer)?; - ImageEncoder::new(encoder, width, height) - } - - /// Create an [`ImageEncoder`] to encode an image one slice at a time. - pub fn new_image_with_compression<C: ColorType, D: Compression>( - &mut self, - width: u32, - height: u32, - compression: D, - ) -> TiffResult<ImageEncoder<W, C, K, D>> { - let encoder = DirectoryEncoder::new(&mut self.writer)?; - ImageEncoder::with_compression(encoder, width, height, compression) - } - - /// Convenience function to write an entire image from memory. - pub fn write_image<C: ColorType>( - &mut self, - width: u32, - height: u32, - data: &[C::Inner], - ) -> TiffResult<()> - where - [C::Inner]: TiffValue, - { - let encoder = DirectoryEncoder::new(&mut self.writer)?; - let image: ImageEncoder<W, C, K> = ImageEncoder::new(encoder, width, height)?; - image.write_data(data) - } - - /// Convenience function to write an entire image from memory with a given compression. - pub fn write_image_with_compression<C: ColorType, D: Compression>( - &mut self, - width: u32, - height: u32, - compression: D, - data: &[C::Inner], - ) -> TiffResult<()> - where - [C::Inner]: TiffValue, - { - let encoder = DirectoryEncoder::new(&mut self.writer)?; - let image: ImageEncoder<W, C, K, D> = - ImageEncoder::with_compression(encoder, width, height, compression)?; - image.write_data(data) - } -} - -/// Low level interface to encode ifd directories. -/// -/// You should call `finish` on this when you are finished with it. -/// Encoding can silently fail while this is dropping. -pub struct DirectoryEncoder<'a, W: 'a + Write + Seek, K: TiffKind> { - writer: &'a mut TiffWriter<W>, - dropped: bool, - // We use BTreeMap to make sure tags are written in correct order - ifd_pointer_pos: u64, - ifd: BTreeMap<u16, DirectoryEntry<K::OffsetType>>, -} - -impl<'a, W: 'a + Write + Seek, K: TiffKind> DirectoryEncoder<'a, W, K> { - fn new(writer: &'a mut TiffWriter<W>) -> TiffResult<Self> { - // the previous word is the IFD offset position - let ifd_pointer_pos = writer.offset() - mem::size_of::<K::OffsetType>() as u64; - writer.pad_word_boundary()?; // TODO: Do we need to adjust this for BigTiff? - Ok(DirectoryEncoder { - writer, - dropped: false, - ifd_pointer_pos, - ifd: BTreeMap::new(), - }) - } - - /// Write a single ifd tag. - pub fn write_tag<T: TiffValue>(&mut self, tag: Tag, value: T) -> TiffResult<()> { - let mut bytes = Vec::with_capacity(value.bytes()); - { - let mut writer = TiffWriter::new(&mut bytes); - value.write(&mut writer)?; - } - - self.ifd.insert( - tag.to_u16(), - DirectoryEntry { - data_type: <T>::FIELD_TYPE.to_u16(), - count: value.count().try_into()?, - data: bytes, - }, - ); - - Ok(()) - } - - fn write_directory(&mut self) -> TiffResult<u64> { - // Start by writing out all values - for &mut DirectoryEntry { - data: ref mut bytes, - .. - } in self.ifd.values_mut() - { - let data_bytes = mem::size_of::<K::OffsetType>(); - - if bytes.len() > data_bytes { - let offset = self.writer.offset(); - self.writer.write_bytes(bytes)?; - *bytes = vec![0; data_bytes]; - let mut writer = TiffWriter::new(bytes as &mut [u8]); - K::write_offset(&mut writer, offset)?; - } else { - while bytes.len() < data_bytes { - bytes.push(0); - } - } - } - - let offset = self.writer.offset(); - - K::write_entry_count(&mut self.writer, self.ifd.len())?; - for ( - tag, - &DirectoryEntry { - data_type: ref field_type, - ref count, - data: ref offset, - }, - ) in self.ifd.iter() - { - self.writer.write_u16(*tag)?; - self.writer.write_u16(*field_type)?; - (*count).write(&mut self.writer)?; - self.writer.write_bytes(offset)?; - } - - Ok(offset) - } - - /// Write some data to the tiff file, the offset of the data is returned. - /// - /// This could be used to write tiff strips. - pub fn write_data<T: TiffValue>(&mut self, value: T) -> TiffResult<u64> { - let offset = self.writer.offset(); - value.write(&mut self.writer)?; - Ok(offset) - } - - /// Provides the number of bytes written by the underlying TiffWriter during the last call. - fn last_written(&self) -> u64 { - self.writer.last_written() - } - - fn finish_internal(&mut self) -> TiffResult<()> { - let ifd_pointer = self.write_directory()?; - let curr_pos = self.writer.offset(); - - self.writer.goto_offset(self.ifd_pointer_pos)?; - K::write_offset(&mut self.writer, ifd_pointer)?; - self.writer.goto_offset(curr_pos)?; - K::write_offset(&mut self.writer, 0)?; - - self.dropped = true; - - Ok(()) - } - - /// Write out the ifd directory. - pub fn finish(mut self) -> TiffResult<()> { - self.finish_internal() - } -} - -impl<'a, W: Write + Seek, K: TiffKind> Drop for DirectoryEncoder<'a, W, K> { - fn drop(&mut self) { - if !self.dropped { - let _ = self.finish_internal(); - } - } -} - -/// Type to encode images strip by strip. -/// -/// You should call `finish` on this when you are finished with it. -/// Encoding can silently fail while this is dropping. -/// -/// # Examples -/// ``` -/// # extern crate tiff; -/// # fn main() { -/// # let mut file = std::io::Cursor::new(Vec::new()); -/// # let image_data = vec![0; 100*100*3]; -/// use tiff::encoder::*; -/// use tiff::tags::Tag; -/// -/// let mut tiff = TiffEncoder::new(&mut file).unwrap(); -/// let mut image = tiff.new_image::<colortype::RGB8>(100, 100).unwrap(); -/// -/// // You can encode tags here -/// image.encoder().write_tag(Tag::Artist, "Image-tiff").unwrap(); -/// -/// // Strip size can be configured before writing data -/// image.rows_per_strip(2).unwrap(); -/// -/// let mut idx = 0; -/// while image.next_strip_sample_count() > 0 { -/// let sample_count = image.next_strip_sample_count() as usize; -/// image.write_strip(&image_data[idx..idx+sample_count]).unwrap(); -/// idx += sample_count; -/// } -/// image.finish().unwrap(); -/// # } -/// ``` -/// You can also call write_data function wich will encode by strip and finish -pub struct ImageEncoder< - 'a, - W: 'a + Write + Seek, - C: ColorType, - K: TiffKind, - D: Compression = Uncompressed, -> { - encoder: DirectoryEncoder<'a, W, K>, - strip_idx: u64, - strip_count: u64, - row_samples: u64, - width: u32, - height: u32, - rows_per_strip: u64, - strip_offsets: Vec<K::OffsetType>, - strip_byte_count: Vec<K::OffsetType>, - dropped: bool, - compression: D, - _phantom: ::std::marker::PhantomData<C>, -} - -impl<'a, W: 'a + Write + Seek, T: ColorType, K: TiffKind, D: Compression> - ImageEncoder<'a, W, T, K, D> -{ - fn new(encoder: DirectoryEncoder<'a, W, K>, width: u32, height: u32) -> TiffResult<Self> - where - D: Default, - { - Self::with_compression(encoder, width, height, D::default()) - } - - fn with_compression( - mut encoder: DirectoryEncoder<'a, W, K>, - width: u32, - height: u32, - compression: D, - ) -> TiffResult<Self> { - if width == 0 || height == 0 { - return Err(TiffError::FormatError(TiffFormatError::InvalidDimensions( - width, height, - ))); - } - - let row_samples = u64::from(width) * u64::try_from(<T>::BITS_PER_SAMPLE.len())?; - let row_bytes = row_samples * u64::from(<T::Inner>::BYTE_LEN); - - // Limit the strip size to prevent potential memory and security issues. - // Also keep the multiple strip handling 'oiled' - let rows_per_strip = { - match D::COMPRESSION_METHOD { - CompressionMethod::PackBits => 1, // Each row must be packed separately. Do not compress across row boundaries - _ => (1_000_000 + row_bytes - 1) / row_bytes, - } - }; - - let strip_count = (u64::from(height) + rows_per_strip - 1) / rows_per_strip; - - encoder.write_tag(Tag::ImageWidth, width)?; - encoder.write_tag(Tag::ImageLength, height)?; - encoder.write_tag(Tag::Compression, D::COMPRESSION_METHOD.to_u16())?; - - encoder.write_tag(Tag::BitsPerSample, <T>::BITS_PER_SAMPLE)?; - let sample_format: Vec<_> = <T>::SAMPLE_FORMAT.iter().map(|s| s.to_u16()).collect(); - encoder.write_tag(Tag::SampleFormat, &sample_format[..])?; - encoder.write_tag(Tag::PhotometricInterpretation, <T>::TIFF_VALUE.to_u16())?; - - encoder.write_tag(Tag::RowsPerStrip, u32::try_from(rows_per_strip)?)?; - - encoder.write_tag( - Tag::SamplesPerPixel, - u16::try_from(<T>::BITS_PER_SAMPLE.len())?, - )?; - encoder.write_tag(Tag::XResolution, Rational { n: 1, d: 1 })?; - encoder.write_tag(Tag::YResolution, Rational { n: 1, d: 1 })?; - encoder.write_tag(Tag::ResolutionUnit, ResolutionUnit::None.to_u16())?; - - Ok(ImageEncoder { - encoder, - strip_count, - strip_idx: 0, - row_samples, - rows_per_strip, - width, - height, - strip_offsets: Vec::new(), - strip_byte_count: Vec::new(), - dropped: false, - compression: compression, - _phantom: ::std::marker::PhantomData, - }) - } - - /// Number of samples the next strip should have. - pub fn next_strip_sample_count(&self) -> u64 { - if self.strip_idx >= self.strip_count { - return 0; - } - - let raw_start_row = self.strip_idx * self.rows_per_strip; - let start_row = cmp::min(u64::from(self.height), raw_start_row); - let end_row = cmp::min(u64::from(self.height), raw_start_row + self.rows_per_strip); - - (end_row - start_row) * self.row_samples - } - - /// Write a single strip. - pub fn write_strip(&mut self, value: &[T::Inner]) -> TiffResult<()> - where - [T::Inner]: TiffValue, - { - let samples = self.next_strip_sample_count(); - if u64::try_from(value.len())? != samples { - return Err(io::Error::new( - io::ErrorKind::InvalidData, - "Slice is wrong size for strip", - ) - .into()); - } - - // Write the (possible compressed) data to the encoder. - let offset = self.encoder.write_data(value)?; - let byte_count = self.encoder.last_written() as usize; - - self.strip_offsets.push(K::convert_offset(offset)?); - self.strip_byte_count.push(byte_count.try_into()?); - - self.strip_idx += 1; - Ok(()) - } - - /// Write strips from data - pub fn write_data(mut self, data: &[T::Inner]) -> TiffResult<()> - where - [T::Inner]: TiffValue, - { - let num_pix = usize::try_from(self.width)? - .checked_mul(usize::try_from(self.height)?) - .ok_or_else(|| { - io::Error::new( - io::ErrorKind::InvalidInput, - "Image width * height exceeds usize", - ) - })?; - if data.len() < num_pix { - return Err(io::Error::new( - io::ErrorKind::InvalidData, - "Input data slice is undersized for provided dimensions", - ) - .into()); - } - - self.encoder - .writer - .set_compression(self.compression.get_algorithm()); - - let mut idx = 0; - while self.next_strip_sample_count() > 0 { - let sample_count = usize::try_from(self.next_strip_sample_count())?; - self.write_strip(&data[idx..idx + sample_count])?; - idx += sample_count; - } - - self.encoder.writer.reset_compression(); - self.finish()?; - Ok(()) - } - - /// Set image resolution - pub fn resolution(&mut self, unit: ResolutionUnit, value: Rational) { - self.encoder - .write_tag(Tag::ResolutionUnit, unit.to_u16()) - .unwrap(); - self.encoder - .write_tag(Tag::XResolution, value.clone()) - .unwrap(); - self.encoder.write_tag(Tag::YResolution, value).unwrap(); - } - - /// Set image resolution unit - pub fn resolution_unit(&mut self, unit: ResolutionUnit) { - self.encoder - .write_tag(Tag::ResolutionUnit, unit.to_u16()) - .unwrap(); - } - - /// Set image x-resolution - pub fn x_resolution(&mut self, value: Rational) { - self.encoder.write_tag(Tag::XResolution, value).unwrap(); - } - - /// Set image y-resolution - pub fn y_resolution(&mut self, value: Rational) { - self.encoder.write_tag(Tag::YResolution, value).unwrap(); - } - - /// Set image number of lines per strip - /// - /// This function needs to be called before any calls to `write_data` or - /// `write_strip` and will return an error otherwise. - pub fn rows_per_strip(&mut self, value: u32) -> TiffResult<()> { - if self.strip_idx != 0 { - return Err(io::Error::new( - io::ErrorKind::InvalidInput, - "Cannot change strip size after data was written", - ) - .into()); - } - // Write tag as 32 bits - self.encoder.write_tag(Tag::RowsPerStrip, value)?; - - let value: u64 = value as u64; - self.strip_count = (self.height as u64 + value - 1) / value; - self.rows_per_strip = value; - - Ok(()) - } - - fn finish_internal(&mut self) -> TiffResult<()> { - self.encoder - .write_tag(Tag::StripOffsets, K::convert_slice(&self.strip_offsets))?; - self.encoder.write_tag( - Tag::StripByteCounts, - K::convert_slice(&self.strip_byte_count), - )?; - self.dropped = true; - - self.encoder.finish_internal() - } - - /// Get a reference of the underlying `DirectoryEncoder` - pub fn encoder(&mut self) -> &mut DirectoryEncoder<'a, W, K> { - &mut self.encoder - } - - /// Write out image and ifd directory. - pub fn finish(mut self) -> TiffResult<()> { - self.finish_internal() - } -} - -impl<'a, W: Write + Seek, C: ColorType, K: TiffKind, D: Compression> Drop - for ImageEncoder<'a, W, C, K, D> -{ - fn drop(&mut self) { - if !self.dropped { - let _ = self.finish_internal(); - } - } -} - -struct DirectoryEntry<S> { - data_type: u16, - count: S, - data: Vec<u8>, -} - -/// Trait to abstract over Tiff/BigTiff differences. -/// -/// Implemented for [`TiffKindStandard`] and [`TiffKindBig`]. -pub trait TiffKind { - /// The type of offset fields, `u32` for normal Tiff, `u64` for BigTiff. - type OffsetType: TryFrom<usize, Error = TryFromIntError> + Into<u64> + TiffValue; - - /// Needed for the `convert_slice` method. - type OffsetArrayType: ?Sized + TiffValue; - - /// Write the (Big)Tiff header. - fn write_header<W: Write>(writer: &mut TiffWriter<W>) -> TiffResult<()>; - - /// Convert a file offset to `Self::OffsetType`. - /// - /// This returns an error for normal Tiff if the offset is larger than `u32::MAX`. - fn convert_offset(offset: u64) -> TiffResult<Self::OffsetType>; - - /// Write an offset value to the given writer. - /// - /// Like `convert_offset`, this errors if `offset > u32::MAX` for normal Tiff. - fn write_offset<W: Write>(writer: &mut TiffWriter<W>, offset: u64) -> TiffResult<()>; - - /// Write the IFD entry count field with the given `count` value. - /// - /// The entry count field is an `u16` for normal Tiff and `u64` for BigTiff. Errors - /// if the given `usize` is larger than the representable values. - fn write_entry_count<W: Write>(writer: &mut TiffWriter<W>, count: usize) -> TiffResult<()>; - - /// Internal helper method for satisfying Rust's type checker. - /// - /// The `TiffValue` trait is implemented for both primitive values (e.g. `u8`, `u32`) and - /// slices of primitive values (e.g. `[u8]`, `[u32]`). However, this is not represented in - /// the type system, so there is no guarantee that that for all `T: TiffValue` there is also - /// an implementation of `TiffValue` for `[T]`. This method works around that problem by - /// providing a conversion from `[T]` to some value that implements `TiffValue`, thereby - /// making all slices of `OffsetType` usable with `write_tag` and similar methods. - /// - /// Implementations of this trait should always set `OffsetArrayType` to `[OffsetType]`. - fn convert_slice(slice: &[Self::OffsetType]) -> &Self::OffsetArrayType; -} - -/// Create a standard Tiff file. -pub struct TiffKindStandard; - -impl TiffKind for TiffKindStandard { - type OffsetType = u32; - type OffsetArrayType = [u32]; - - fn write_header<W: Write>(writer: &mut TiffWriter<W>) -> TiffResult<()> { - write_tiff_header(writer)?; - // blank the IFD offset location - writer.write_u32(0)?; - - Ok(()) - } - - fn convert_offset(offset: u64) -> TiffResult<Self::OffsetType> { - Ok(Self::OffsetType::try_from(offset)?) - } - - fn write_offset<W: Write>(writer: &mut TiffWriter<W>, offset: u64) -> TiffResult<()> { - writer.write_u32(u32::try_from(offset)?)?; - Ok(()) - } - - fn write_entry_count<W: Write>(writer: &mut TiffWriter<W>, count: usize) -> TiffResult<()> { - writer.write_u16(u16::try_from(count)?)?; - - Ok(()) - } - - fn convert_slice(slice: &[Self::OffsetType]) -> &Self::OffsetArrayType { - slice - } -} - -/// Create a BigTiff file. -pub struct TiffKindBig; - -impl TiffKind for TiffKindBig { - type OffsetType = u64; - type OffsetArrayType = [u64]; - - fn write_header<W: Write>(writer: &mut TiffWriter<W>) -> TiffResult<()> { - write_bigtiff_header(writer)?; - // blank the IFD offset location - writer.write_u64(0)?; - - Ok(()) - } - - fn convert_offset(offset: u64) -> TiffResult<Self::OffsetType> { - Ok(offset) - } - - fn write_offset<W: Write>(writer: &mut TiffWriter<W>, offset: u64) -> TiffResult<()> { - writer.write_u64(offset)?; - Ok(()) - } - - fn write_entry_count<W: Write>(writer: &mut TiffWriter<W>, count: usize) -> TiffResult<()> { - writer.write_u64(u64::try_from(count)?)?; - Ok(()) - } - - fn convert_slice(slice: &[Self::OffsetType]) -> &Self::OffsetArrayType { - slice - } -} diff --git a/vendor/tiff/src/encoder/tiff_value.rs b/vendor/tiff/src/encoder/tiff_value.rs deleted file mode 100644 index 43653f4..0000000 --- a/vendor/tiff/src/encoder/tiff_value.rs +++ /dev/null @@ -1,523 +0,0 @@ -use std::{borrow::Cow, io::Write, slice::from_ref}; - -use crate::{bytecast, tags::Type, TiffError, TiffFormatError, TiffResult}; - -use super::writer::TiffWriter; - -/// Trait for types that can be encoded in a tiff file -pub trait TiffValue { - const BYTE_LEN: u8; - const FIELD_TYPE: Type; - fn count(&self) -> usize; - fn bytes(&self) -> usize { - self.count() * usize::from(Self::BYTE_LEN) - } - - /// Access this value as an contiguous sequence of bytes. - /// If their is no trivial representation, allocate it on the heap. - fn data(&self) -> Cow<[u8]>; - - /// Write this value to a TiffWriter. - /// While the default implementation will work in all cases, it may require unnecessary allocations. - /// The written bytes of any custom implementation MUST be the same as yielded by `self.data()`. - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_bytes(&self.data())?; - Ok(()) - } -} - -impl TiffValue for [u8] { - const BYTE_LEN: u8 = 1; - const FIELD_TYPE: Type = Type::BYTE; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(self) - } -} - -impl TiffValue for [i8] { - const BYTE_LEN: u8 = 1; - const FIELD_TYPE: Type = Type::SBYTE; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i8_as_ne_bytes(self)) - } -} - -impl TiffValue for [u16] { - const BYTE_LEN: u8 = 2; - const FIELD_TYPE: Type = Type::SHORT; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u16_as_ne_bytes(self)) - } -} - -impl TiffValue for [i16] { - const BYTE_LEN: u8 = 2; - const FIELD_TYPE: Type = Type::SSHORT; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i16_as_ne_bytes(self)) - } -} - -impl TiffValue for [u32] { - const BYTE_LEN: u8 = 4; - const FIELD_TYPE: Type = Type::LONG; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u32_as_ne_bytes(self)) - } -} - -impl TiffValue for [i32] { - const BYTE_LEN: u8 = 4; - const FIELD_TYPE: Type = Type::SLONG; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i32_as_ne_bytes(self)) - } -} - -impl TiffValue for [u64] { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::LONG8; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u64_as_ne_bytes(self)) - } -} - -impl TiffValue for [i64] { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::SLONG8; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i64_as_ne_bytes(self)) - } -} - -impl TiffValue for [f32] { - const BYTE_LEN: u8 = 4; - const FIELD_TYPE: Type = Type::FLOAT; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - // We write using native endian so this should be safe - Cow::Borrowed(bytecast::f32_as_ne_bytes(self)) - } -} - -impl TiffValue for [f64] { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::DOUBLE; - - fn count(&self) -> usize { - self.len() - } - - fn data(&self) -> Cow<[u8]> { - // We write using native endian so this should be safe - Cow::Borrowed(bytecast::f64_as_ne_bytes(self)) - } -} - -impl TiffValue for u8 { - const BYTE_LEN: u8 = 1; - const FIELD_TYPE: Type = Type::BYTE; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_u8(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(from_ref(self)) - } -} - -impl TiffValue for i8 { - const BYTE_LEN: u8 = 1; - const FIELD_TYPE: Type = Type::SBYTE; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_i8(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i8_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for u16 { - const BYTE_LEN: u8 = 2; - const FIELD_TYPE: Type = Type::SHORT; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_u16(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u16_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for i16 { - const BYTE_LEN: u8 = 2; - const FIELD_TYPE: Type = Type::SSHORT; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_i16(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i16_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for u32 { - const BYTE_LEN: u8 = 4; - const FIELD_TYPE: Type = Type::LONG; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_u32(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u32_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for i32 { - const BYTE_LEN: u8 = 4; - const FIELD_TYPE: Type = Type::SLONG; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_i32(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i32_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for u64 { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::LONG8; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_u64(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u64_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for i64 { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::SLONG8; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_i64(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::i64_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for f32 { - const BYTE_LEN: u8 = 4; - const FIELD_TYPE: Type = Type::FLOAT; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_f32(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::f32_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for f64 { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::DOUBLE; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_f64(*self)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::f64_as_ne_bytes(from_ref(self))) - } -} - -impl TiffValue for Ifd { - const BYTE_LEN: u8 = 4; - const FIELD_TYPE: Type = Type::IFD; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_u32(self.0)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u32_as_ne_bytes(from_ref(&self.0))) - } -} - -impl TiffValue for Ifd8 { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::IFD8; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_u64(self.0)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Borrowed(bytecast::u64_as_ne_bytes(from_ref(&self.0))) - } -} - -impl TiffValue for Rational { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::RATIONAL; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_u32(self.n)?; - writer.write_u32(self.d)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Owned({ - let first_dword = bytecast::u32_as_ne_bytes(from_ref(&self.n)); - let second_dword = bytecast::u32_as_ne_bytes(from_ref(&self.d)); - [first_dword, second_dword].concat() - }) - } -} - -impl TiffValue for SRational { - const BYTE_LEN: u8 = 8; - const FIELD_TYPE: Type = Type::SRATIONAL; - - fn count(&self) -> usize { - 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - writer.write_i32(self.n)?; - writer.write_i32(self.d)?; - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - Cow::Owned({ - let first_dword = bytecast::i32_as_ne_bytes(from_ref(&self.n)); - let second_dword = bytecast::i32_as_ne_bytes(from_ref(&self.d)); - [first_dword, second_dword].concat() - }) - } -} - -impl TiffValue for str { - const BYTE_LEN: u8 = 1; - const FIELD_TYPE: Type = Type::ASCII; - - fn count(&self) -> usize { - self.len() + 1 - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - if self.is_ascii() && !self.bytes().any(|b| b == 0) { - writer.write_bytes(self.as_bytes())?; - writer.write_u8(0)?; - Ok(()) - } else { - Err(TiffError::FormatError(TiffFormatError::InvalidTag)) - } - } - - fn data(&self) -> Cow<[u8]> { - Cow::Owned({ - if self.is_ascii() && !self.bytes().any(|b| b == 0) { - let bytes: &[u8] = self.as_bytes(); - [bytes, &[0]].concat() - } else { - vec![] - } - }) - } -} - -impl<'a, T: TiffValue + ?Sized> TiffValue for &'a T { - const BYTE_LEN: u8 = T::BYTE_LEN; - const FIELD_TYPE: Type = T::FIELD_TYPE; - - fn count(&self) -> usize { - (*self).count() - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - (*self).write(writer) - } - - fn data(&self) -> Cow<[u8]> { - T::data(self) - } -} - -macro_rules! impl_tiff_value_for_contiguous_sequence { - ($inner_type:ty; $bytes:expr; $field_type:expr) => { - impl $crate::encoder::TiffValue for [$inner_type] { - const BYTE_LEN: u8 = $bytes; - const FIELD_TYPE: Type = $field_type; - - fn count(&self) -> usize { - self.len() - } - - fn write<W: Write>(&self, writer: &mut TiffWriter<W>) -> TiffResult<()> { - for x in self { - x.write(writer)?; - } - Ok(()) - } - - fn data(&self) -> Cow<[u8]> { - let mut buf: Vec<u8> = Vec::with_capacity(Self::BYTE_LEN as usize * self.len()); - for x in self { - buf.extend_from_slice(&x.data()); - } - Cow::Owned(buf) - } - } - }; -} - -impl_tiff_value_for_contiguous_sequence!(Ifd; 4; Type::IFD); -impl_tiff_value_for_contiguous_sequence!(Ifd8; 8; Type::IFD8); -impl_tiff_value_for_contiguous_sequence!(Rational; 8; Type::RATIONAL); -impl_tiff_value_for_contiguous_sequence!(SRational; 8; Type::SRATIONAL); - -/// Type to represent tiff values of type `IFD` -#[derive(Clone)] -pub struct Ifd(pub u32); - -/// Type to represent tiff values of type `IFD8` -#[derive(Clone)] -pub struct Ifd8(pub u64); - -/// Type to represent tiff values of type `RATIONAL` -#[derive(Clone)] -pub struct Rational { - pub n: u32, - pub d: u32, -} - -/// Type to represent tiff values of type `SRATIONAL` -#[derive(Clone)] -pub struct SRational { - pub n: i32, - pub d: i32, -} diff --git a/vendor/tiff/src/encoder/writer.rs b/vendor/tiff/src/encoder/writer.rs deleted file mode 100644 index c5139e9..0000000 --- a/vendor/tiff/src/encoder/writer.rs +++ /dev/null @@ -1,188 +0,0 @@ -use crate::encoder::compression::*; -use crate::error::TiffResult; -use std::io::{self, Seek, SeekFrom, Write}; - -pub fn write_tiff_header<W: Write>(writer: &mut TiffWriter<W>) -> TiffResult<()> { - #[cfg(target_endian = "little")] - let boi: u8 = 0x49; - #[cfg(not(target_endian = "little"))] - let boi: u8 = 0x4d; - - writer.writer.write_all(&[boi, boi])?; - writer.writer.write_all(&42u16.to_ne_bytes())?; - writer.offset += 4; - - Ok(()) -} - -/// Writes a BigTiff header, excluding the IFD offset field. -/// -/// Writes the byte order, version number, offset byte size, and zero constant fields. Does -// _not_ write the offset to the first IFD, this should be done by the caller. -pub fn write_bigtiff_header<W: Write>(writer: &mut TiffWriter<W>) -> TiffResult<()> { - #[cfg(target_endian = "little")] - let boi: u8 = 0x49; - #[cfg(not(target_endian = "little"))] - let boi: u8 = 0x4d; - - // byte order indication - writer.writer.write_all(&[boi, boi])?; - // version number - writer.writer.write_all(&43u16.to_ne_bytes())?; - // bytesize of offsets (pointer size) - writer.writer.write_all(&8u16.to_ne_bytes())?; - // always 0 - writer.writer.write_all(&0u16.to_ne_bytes())?; - - // we wrote 8 bytes, so set the internal offset accordingly - writer.offset += 8; - - Ok(()) -} - -pub struct TiffWriter<W> { - writer: W, - offset: u64, - byte_count: u64, - compressor: Compressor, -} - -impl<W: Write> TiffWriter<W> { - pub fn new(writer: W) -> Self { - Self { - writer, - offset: 0, - byte_count: 0, - compressor: Compressor::default(), - } - } - - pub fn set_compression(&mut self, compressor: Compressor) { - self.compressor = compressor; - } - - pub fn reset_compression(&mut self) { - self.compressor = Compressor::default(); - } - - pub fn offset(&self) -> u64 { - self.offset - } - - pub fn last_written(&self) -> u64 { - self.byte_count - } - - pub fn write_bytes(&mut self, bytes: &[u8]) -> Result<(), io::Error> { - self.byte_count = self.compressor.write_to(&mut self.writer, bytes)?; - self.offset += self.byte_count; - Ok(()) - } - - pub fn write_u8(&mut self, n: u8) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - Ok(()) - } - - pub fn write_i8(&mut self, n: i8) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - Ok(()) - } - - pub fn write_u16(&mut self, n: u16) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn write_i16(&mut self, n: i16) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn write_u32(&mut self, n: u32) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn write_i32(&mut self, n: i32) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn write_u64(&mut self, n: u64) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn write_i64(&mut self, n: i64) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &n.to_ne_bytes())?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn write_f32(&mut self, n: f32) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &u32::to_ne_bytes(n.to_bits()))?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn write_f64(&mut self, n: f64) -> Result<(), io::Error> { - self.byte_count = self - .compressor - .write_to(&mut self.writer, &u64::to_ne_bytes(n.to_bits()))?; - self.offset += self.byte_count; - - Ok(()) - } - - pub fn pad_word_boundary(&mut self) -> Result<(), io::Error> { - if self.offset % 4 != 0 { - let padding = [0, 0, 0]; - let padd_len = 4 - (self.offset % 4); - self.writer.write_all(&padding[..padd_len as usize])?; - self.offset += padd_len; - } - - Ok(()) - } -} - -impl<W: Seek> TiffWriter<W> { - pub fn goto_offset(&mut self, offset: u64) -> Result<(), io::Error> { - self.offset = offset; - self.writer.seek(SeekFrom::Start(offset as u64))?; - Ok(()) - } -} diff --git a/vendor/tiff/src/error.rs b/vendor/tiff/src/error.rs deleted file mode 100644 index a401c6f..0000000 --- a/vendor/tiff/src/error.rs +++ /dev/null @@ -1,369 +0,0 @@ -use std::error::Error; -use std::fmt; -use std::fmt::Display; -use std::io; -use std::str; -use std::string; -use std::sync::Arc; - -use jpeg::UnsupportedFeature; - -use crate::decoder::{ifd::Value, ChunkType}; -use crate::tags::{ - CompressionMethod, PhotometricInterpretation, PlanarConfiguration, SampleFormat, Tag, -}; -use crate::ColorType; - -use crate::weezl::LzwError; - -/// Tiff error kinds. -#[derive(Debug)] -pub enum TiffError { - /// The Image is not formatted properly. - FormatError(TiffFormatError), - - /// The Decoder does not support features required by the image. - UnsupportedError(TiffUnsupportedError), - - /// An I/O Error occurred while decoding the image. - IoError(io::Error), - - /// The Limits of the Decoder is exceeded. - LimitsExceeded, - - /// An integer conversion to or from a platform size failed, either due to - /// limits of the platform size or limits of the format. - IntSizeError, - - /// The image does not support the requested operation - UsageError(UsageError), -} - -/// The image is not formatted properly. -/// -/// This indicates that the encoder producing the image might behave incorrectly or that the input -/// file has been corrupted. -/// -/// The list of variants may grow to incorporate errors of future features. Matching against this -/// exhaustively is not covered by interface stability guarantees. -#[derive(Debug, Clone, PartialEq)] -#[non_exhaustive] -pub enum TiffFormatError { - TiffSignatureNotFound, - TiffSignatureInvalid, - ImageFileDirectoryNotFound, - InconsistentSizesEncountered, - UnexpectedCompressedData { - actual_bytes: usize, - required_bytes: usize, - }, - InconsistentStripSamples { - actual_samples: usize, - required_samples: usize, - }, - InvalidDimensions(u32, u32), - InvalidTag, - InvalidTagValueType(Tag), - RequiredTagNotFound(Tag), - UnknownPredictor(u16), - ByteExpected(Value), - UnsignedIntegerExpected(Value), - SignedIntegerExpected(Value), - Format(String), - RequiredTagEmpty(Tag), - StripTileTagConflict, - CycleInOffsets, - JpegDecoder(JpegDecoderError), -} - -impl fmt::Display for TiffFormatError { - fn fmt(&self, fmt: &mut fmt::Formatter) -> Result<(), fmt::Error> { - use self::TiffFormatError::*; - match *self { - TiffSignatureNotFound => write!(fmt, "TIFF signature not found."), - TiffSignatureInvalid => write!(fmt, "TIFF signature invalid."), - ImageFileDirectoryNotFound => write!(fmt, "Image file directory not found."), - InconsistentSizesEncountered => write!(fmt, "Inconsistent sizes encountered."), - UnexpectedCompressedData { - actual_bytes, - required_bytes, - } => { - write!( - fmt, - "Decompression returned different amount of bytes than expected: got {}, expected {}.", - actual_bytes, required_bytes - ) - } - InconsistentStripSamples { - actual_samples, - required_samples, - } => { - write!( - fmt, - "Inconsistent elements in strip: got {}, expected {}.", - actual_samples, required_samples - ) - } - InvalidDimensions(width, height) => write!(fmt, "Invalid dimensions: {}x{}.", width, height), - InvalidTag => write!(fmt, "Image contains invalid tag."), - InvalidTagValueType(ref tag) => { - write!(fmt, "Tag `{:?}` did not have the expected value type.", tag) - } - RequiredTagNotFound(ref tag) => write!(fmt, "Required tag `{:?}` not found.", tag), - UnknownPredictor(ref predictor) => { - write!(fmt, "Unknown predictor “{}” encountered", predictor) - } - ByteExpected(ref val) => write!(fmt, "Expected byte, {:?} found.", val), - UnsignedIntegerExpected(ref val) => { - write!(fmt, "Expected unsigned integer, {:?} found.", val) - } - SignedIntegerExpected(ref val) => { - write!(fmt, "Expected signed integer, {:?} found.", val) - } - Format(ref val) => write!(fmt, "Invalid format: {:?}.", val), - RequiredTagEmpty(ref val) => write!(fmt, "Required tag {:?} was empty.", val), - StripTileTagConflict => write!(fmt, "File should contain either (StripByteCounts and StripOffsets) or (TileByteCounts and TileOffsets), other combination was found."), - CycleInOffsets => write!(fmt, "File contained a cycle in the list of IFDs"), - JpegDecoder(ref error) => write!(fmt, "{}", error), - } - } -} - -/// The Decoder does not support features required by the image. -/// -/// This only captures known failures for which the standard either does not require support or an -/// implementation has been planned but not yet completed. Some variants may become unused over -/// time and will then get deprecated before being removed. -/// -/// The list of variants may grow. Matching against this exhaustively is not covered by interface -/// stability guarantees. -#[derive(Debug, Clone, PartialEq, Eq, Hash)] -#[non_exhaustive] -pub enum TiffUnsupportedError { - FloatingPointPredictor(ColorType), - HorizontalPredictor(ColorType), - InterpretationWithBits(PhotometricInterpretation, Vec<u8>), - UnknownInterpretation, - UnknownCompressionMethod, - UnsupportedCompressionMethod(CompressionMethod), - UnsupportedSampleDepth(u8), - UnsupportedSampleFormat(Vec<SampleFormat>), - UnsupportedColorType(ColorType), - UnsupportedBitsPerChannel(u8), - UnsupportedPlanarConfig(Option<PlanarConfiguration>), - UnsupportedDataType, - UnsupportedInterpretation(PhotometricInterpretation), - UnsupportedJpegFeature(UnsupportedFeature), -} - -impl fmt::Display for TiffUnsupportedError { - fn fmt(&self, fmt: &mut fmt::Formatter) -> Result<(), fmt::Error> { - use self::TiffUnsupportedError::*; - match *self { - FloatingPointPredictor(color_type) => write!( - fmt, - "Floating point predictor for {:?} is unsupported.", - color_type - ), - HorizontalPredictor(color_type) => write!( - fmt, - "Horizontal predictor for {:?} is unsupported.", - color_type - ), - InterpretationWithBits(ref photometric_interpretation, ref bits_per_sample) => write!( - fmt, - "{:?} with {:?} bits per sample is unsupported", - photometric_interpretation, bits_per_sample - ), - UnknownInterpretation => write!( - fmt, - "The image is using an unknown photometric interpretation." - ), - UnknownCompressionMethod => write!(fmt, "Unknown compression method."), - UnsupportedCompressionMethod(method) => { - write!(fmt, "Compression method {:?} is unsupported", method) - } - UnsupportedSampleDepth(samples) => { - write!(fmt, "{} samples per pixel is unsupported.", samples) - } - UnsupportedSampleFormat(ref formats) => { - write!(fmt, "Sample format {:?} is unsupported.", formats) - } - UnsupportedColorType(color_type) => { - write!(fmt, "Color type {:?} is unsupported", color_type) - } - UnsupportedBitsPerChannel(bits) => { - write!(fmt, "{} bits per channel not supported", bits) - } - UnsupportedPlanarConfig(config) => { - write!(fmt, "Unsupported planar configuration “{:?}”.", config) - } - UnsupportedDataType => write!(fmt, "Unsupported data type."), - UnsupportedInterpretation(interpretation) => { - write!( - fmt, - "Unsupported photometric interpretation \"{:?}\".", - interpretation - ) - } - UnsupportedJpegFeature(ref unsupported_feature) => { - write!(fmt, "Unsupported JPEG feature {:?}", unsupported_feature) - } - } - } -} - -/// User attempted to use the Decoder in a way that is incompatible with a specific image. -/// -/// For example: attempting to read a tile from a stripped image. -#[derive(Debug)] -pub enum UsageError { - InvalidChunkType(ChunkType, ChunkType), - InvalidChunkIndex(u32), -} - -impl fmt::Display for UsageError { - fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { - use self::UsageError::*; - match *self { - InvalidChunkType(expected, actual) => { - write!( - fmt, - "Requested operation is only valid for images with chunk encoding of type: {:?}, got {:?}.", - expected, actual - ) - } - InvalidChunkIndex(index) => write!(fmt, "Image chunk index ({}) requested.", index), - } - } -} - -impl fmt::Display for TiffError { - fn fmt(&self, fmt: &mut fmt::Formatter) -> Result<(), fmt::Error> { - match *self { - TiffError::FormatError(ref e) => write!(fmt, "Format error: {}", e), - TiffError::UnsupportedError(ref f) => write!( - fmt, - "The Decoder does not support the \ - image format `{}`", - f - ), - TiffError::IoError(ref e) => e.fmt(fmt), - TiffError::LimitsExceeded => write!(fmt, "The Decoder limits are exceeded"), - TiffError::IntSizeError => write!(fmt, "Platform or format size limits exceeded"), - TiffError::UsageError(ref e) => write!(fmt, "Usage error: {}", e), - } - } -} - -impl Error for TiffError { - fn description(&self) -> &str { - match *self { - TiffError::FormatError(..) => "Format error", - TiffError::UnsupportedError(..) => "Unsupported error", - TiffError::IoError(..) => "IO error", - TiffError::LimitsExceeded => "Decoder limits exceeded", - TiffError::IntSizeError => "Platform or format size limits exceeded", - TiffError::UsageError(..) => "Invalid usage", - } - } - - fn cause(&self) -> Option<&dyn Error> { - match *self { - TiffError::IoError(ref e) => Some(e), - _ => None, - } - } -} - -impl From<io::Error> for TiffError { - fn from(err: io::Error) -> TiffError { - TiffError::IoError(err) - } -} - -impl From<str::Utf8Error> for TiffError { - fn from(_err: str::Utf8Error) -> TiffError { - TiffError::FormatError(TiffFormatError::InvalidTag) - } -} - -impl From<string::FromUtf8Error> for TiffError { - fn from(_err: string::FromUtf8Error) -> TiffError { - TiffError::FormatError(TiffFormatError::InvalidTag) - } -} - -impl From<TiffFormatError> for TiffError { - fn from(err: TiffFormatError) -> TiffError { - TiffError::FormatError(err) - } -} - -impl From<TiffUnsupportedError> for TiffError { - fn from(err: TiffUnsupportedError) -> TiffError { - TiffError::UnsupportedError(err) - } -} - -impl From<UsageError> for TiffError { - fn from(err: UsageError) -> TiffError { - TiffError::UsageError(err) - } -} - -impl From<std::num::TryFromIntError> for TiffError { - fn from(_err: std::num::TryFromIntError) -> TiffError { - TiffError::IntSizeError - } -} - -impl From<LzwError> for TiffError { - fn from(err: LzwError) -> TiffError { - match err { - LzwError::InvalidCode => TiffError::FormatError(TiffFormatError::Format(String::from( - "LZW compressed data corrupted", - ))), - } - } -} - -#[derive(Debug, Clone)] -pub struct JpegDecoderError { - inner: Arc<jpeg::Error>, -} - -impl JpegDecoderError { - fn new(error: jpeg::Error) -> Self { - Self { - inner: Arc::new(error), - } - } -} - -impl PartialEq for JpegDecoderError { - fn eq(&self, other: &Self) -> bool { - Arc::ptr_eq(&self.inner, &other.inner) - } -} - -impl Display for JpegDecoderError { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - self.inner.fmt(f) - } -} - -impl From<JpegDecoderError> for TiffError { - fn from(error: JpegDecoderError) -> Self { - TiffError::FormatError(TiffFormatError::JpegDecoder(error)) - } -} - -impl From<jpeg::Error> for TiffError { - fn from(error: jpeg::Error) -> Self { - JpegDecoderError::new(error).into() - } -} - -/// Result of an image decoding/encoding process -pub type TiffResult<T> = Result<T, TiffError>; diff --git a/vendor/tiff/src/lib.rs b/vendor/tiff/src/lib.rs deleted file mode 100644 index 8f23f35..0000000 --- a/vendor/tiff/src/lib.rs +++ /dev/null @@ -1,43 +0,0 @@ -//! Decoding and Encoding of TIFF Images -//! -//! TIFF (Tagged Image File Format) is a versatile image format that supports -//! lossless and lossy compression. -//! -//! # Related Links -//! * <https://web.archive.org/web/20210108073850/https://www.adobe.io/open/standards/TIFF.html> - The TIFF specification - -extern crate jpeg; -extern crate weezl; - -mod bytecast; -pub mod decoder; -pub mod encoder; -mod error; -pub mod tags; - -pub use self::error::{TiffError, TiffFormatError, TiffResult, TiffUnsupportedError, UsageError}; - -/// An enumeration over supported color types and their bit depths -#[derive(Copy, PartialEq, Eq, Debug, Clone, Hash)] -pub enum ColorType { - /// Pixel is grayscale - Gray(u8), - - /// Pixel contains R, G and B channels - RGB(u8), - - /// Pixel is an index into a color palette - Palette(u8), - - /// Pixel is grayscale with an alpha channel - GrayA(u8), - - /// Pixel is RGB with an alpha channel - RGBA(u8), - - /// Pixel is CMYK - CMYK(u8), - - /// Pixel is YCbCr - YCbCr(u8), -} diff --git a/vendor/tiff/src/tags.rs b/vendor/tiff/src/tags.rs deleted file mode 100644 index cbf7472..0000000 --- a/vendor/tiff/src/tags.rs +++ /dev/null @@ -1,234 +0,0 @@ -macro_rules! tags { - { - // Permit arbitrary meta items, which include documentation. - $( #[$enum_attr:meta] )* - $vis:vis enum $name:ident($ty:tt) $(unknown($unknown_doc:literal))* { - // Each of the `Name = Val,` permitting documentation. - $($(#[$ident_attr:meta])* $tag:ident = $val:expr,)* - } - } => { - $( #[$enum_attr] )* - #[derive(Clone, Copy, PartialEq, Eq, Debug, Hash)] - #[non_exhaustive] - pub enum $name { - $($(#[$ident_attr])* $tag,)* - $( - #[doc = $unknown_doc] - Unknown($ty), - )* - } - - impl $name { - #[inline(always)] - fn __from_inner_type(n: $ty) -> Result<Self, $ty> { - match n { - $( $val => Ok($name::$tag), )* - n => Err(n), - } - } - - #[inline(always)] - fn __to_inner_type(&self) -> $ty { - match *self { - $( $name::$tag => $val, )* - $( $name::Unknown(n) => { $unknown_doc; n }, )* - } - } - } - - tags!($name, $ty, $($unknown_doc)*); - }; - // For u16 tags, provide direct inherent primitive conversion methods. - ($name:tt, u16, $($unknown_doc:literal)*) => { - impl $name { - #[inline(always)] - pub fn from_u16(val: u16) -> Option<Self> { - Self::__from_inner_type(val).ok() - } - - $( - #[inline(always)] - pub fn from_u16_exhaustive(val: u16) -> Self { - $unknown_doc; - Self::__from_inner_type(val).unwrap_or_else(|_| $name::Unknown(val)) - } - )* - - #[inline(always)] - pub fn to_u16(&self) -> u16 { - Self::__to_inner_type(self) - } - } - }; - // For other tag types, do nothing for now. With concat_idents one could - // provide inherent conversion methods for all types. - ($name:tt, $ty:tt, $($unknown_doc:literal)*) => {}; -} - -// Note: These tags appear in the order they are mentioned in the TIFF reference -tags! { -/// TIFF tags -pub enum Tag(u16) unknown("A private or extension tag") { - // Baseline tags: - Artist = 315, - // grayscale images PhotometricInterpretation 1 or 3 - BitsPerSample = 258, - CellLength = 265, // TODO add support - CellWidth = 264, // TODO add support - // palette-color images (PhotometricInterpretation 3) - ColorMap = 320, // TODO add support - Compression = 259, // TODO add support for 2 and 32773 - Copyright = 33_432, - DateTime = 306, - ExtraSamples = 338, // TODO add support - FillOrder = 266, // TODO add support - FreeByteCounts = 289, // TODO add support - FreeOffsets = 288, // TODO add support - GrayResponseCurve = 291, // TODO add support - GrayResponseUnit = 290, // TODO add support - HostComputer = 316, - ImageDescription = 270, - ImageLength = 257, - ImageWidth = 256, - Make = 271, - MaxSampleValue = 281, // TODO add support - MinSampleValue = 280, // TODO add support - Model = 272, - NewSubfileType = 254, // TODO add support - Orientation = 274, // TODO add support - PhotometricInterpretation = 262, - PlanarConfiguration = 284, - ResolutionUnit = 296, // TODO add support - RowsPerStrip = 278, - SamplesPerPixel = 277, - Software = 305, - StripByteCounts = 279, - StripOffsets = 273, - SubfileType = 255, // TODO add support - Threshholding = 263, // TODO add support - XResolution = 282, - YResolution = 283, - // Advanced tags - Predictor = 317, - TileWidth = 322, - TileLength = 323, - TileOffsets = 324, - TileByteCounts = 325, - // Data Sample Format - SampleFormat = 339, - SMinSampleValue = 340, // TODO add support - SMaxSampleValue = 341, // TODO add support - // JPEG - JPEGTables = 347, - // GeoTIFF - ModelPixelScaleTag = 33550, // (SoftDesk) - ModelTransformationTag = 34264, // (JPL Carto Group) - ModelTiepointTag = 33922, // (Intergraph) - GeoKeyDirectoryTag = 34735, // (SPOT) - GeoDoubleParamsTag = 34736, // (SPOT) - GeoAsciiParamsTag = 34737, // (SPOT) - GdalNodata = 42113, // Contains areas with missing data -} -} - -tags! { -/// The type of an IFD entry (a 2 byte field). -pub enum Type(u16) { - /// 8-bit unsigned integer - BYTE = 1, - /// 8-bit byte that contains a 7-bit ASCII code; the last byte must be zero - ASCII = 2, - /// 16-bit unsigned integer - SHORT = 3, - /// 32-bit unsigned integer - LONG = 4, - /// Fraction stored as two 32-bit unsigned integers - RATIONAL = 5, - /// 8-bit signed integer - SBYTE = 6, - /// 8-bit byte that may contain anything, depending on the field - UNDEFINED = 7, - /// 16-bit signed integer - SSHORT = 8, - /// 32-bit signed integer - SLONG = 9, - /// Fraction stored as two 32-bit signed integers - SRATIONAL = 10, - /// 32-bit IEEE floating point - FLOAT = 11, - /// 64-bit IEEE floating point - DOUBLE = 12, - /// 32-bit unsigned integer (offset) - IFD = 13, - /// BigTIFF 64-bit unsigned integer - LONG8 = 16, - /// BigTIFF 64-bit signed integer - SLONG8 = 17, - /// BigTIFF 64-bit unsigned integer (offset) - IFD8 = 18, -} -} - -tags! { -/// See [TIFF compression tags](https://www.awaresystems.be/imaging/tiff/tifftags/compression.html) -/// for reference. -pub enum CompressionMethod(u16) { - None = 1, - Huffman = 2, - Fax3 = 3, - Fax4 = 4, - LZW = 5, - JPEG = 6, - // "Extended JPEG" or "new JPEG" style - ModernJPEG = 7, - Deflate = 8, - OldDeflate = 0x80B2, - PackBits = 0x8005, -} -} - -tags! { -pub enum PhotometricInterpretation(u16) { - WhiteIsZero = 0, - BlackIsZero = 1, - RGB = 2, - RGBPalette = 3, - TransparencyMask = 4, - CMYK = 5, - YCbCr = 6, - CIELab = 8, -} -} - -tags! { -pub enum PlanarConfiguration(u16) { - Chunky = 1, - Planar = 2, -} -} - -tags! { -pub enum Predictor(u16) { - None = 1, - Horizontal = 2, - FloatingPoint = 3, -} -} - -tags! { -/// Type to represent resolution units -pub enum ResolutionUnit(u16) { - None = 1, - Inch = 2, - Centimeter = 3, -} -} - -tags! { -pub enum SampleFormat(u16) unknown("An unknown extension sample format") { - Uint = 1, - Int = 2, - IEEEFP = 3, - Void = 4, -} -} diff --git a/vendor/tiff/tests/benches/README.md b/vendor/tiff/tests/benches/README.md deleted file mode 100644 index 616292c..0000000 --- a/vendor/tiff/tests/benches/README.md +++ /dev/null @@ -1,4 +0,0 @@ -Copyrights: - -kodim*.png: Eastman Kodak Company, released for unrestricted use -Transparency.png: Public Domain, according to Wikimedia diff --git a/vendor/tiff/tests/benches/Transparency-lzw.tif b/vendor/tiff/tests/benches/Transparency-lzw.tif Binary files differdeleted file mode 100644 index a7a26a9..0000000 --- a/vendor/tiff/tests/benches/Transparency-lzw.tif +++ /dev/null diff --git a/vendor/tiff/tests/benches/kodim02-lzw.tif b/vendor/tiff/tests/benches/kodim02-lzw.tif Binary files differdeleted file mode 100644 index a1aabfb..0000000 --- a/vendor/tiff/tests/benches/kodim02-lzw.tif +++ /dev/null diff --git a/vendor/tiff/tests/benches/kodim07-lzw.tif b/vendor/tiff/tests/benches/kodim07-lzw.tif Binary files differdeleted file mode 100644 index f8d543d..0000000 --- a/vendor/tiff/tests/benches/kodim07-lzw.tif +++ /dev/null diff --git a/vendor/tiff/tests/decode_bigtiff_images.rs b/vendor/tiff/tests/decode_bigtiff_images.rs deleted file mode 100644 index 9113f42..0000000 --- a/vendor/tiff/tests/decode_bigtiff_images.rs +++ /dev/null @@ -1,46 +0,0 @@ -extern crate tiff; - -use tiff::decoder::Decoder; -use tiff::tags::Tag; -use tiff::ColorType; - -use std::fs::File; -use std::path::PathBuf; - -const TEST_IMAGE_DIR: &str = "./tests/images/bigtiff"; - -#[test] -fn test_big_tiff() { - let filenames = ["BigTIFF.tif", "BigTIFFMotorola.tif", "BigTIFFLong.tif"]; - for filename in filenames.iter() { - let path = PathBuf::from(TEST_IMAGE_DIR).join(filename); - let img_file = File::open(path).expect("Cannot find test image!"); - let mut decoder = Decoder::new(img_file).expect("Cannot create decoder"); - assert_eq!( - decoder.dimensions().expect("Cannot get dimensions"), - (64, 64) - ); - assert_eq!( - decoder.colortype().expect("Cannot get colortype"), - ColorType::RGB(8) - ); - assert_eq!( - decoder - .get_tag_u64(Tag::StripOffsets) - .expect("Cannot get StripOffsets"), - 16 - ); - assert_eq!( - decoder - .get_tag_u64(Tag::RowsPerStrip) - .expect("Cannot get RowsPerStrip"), - 64 - ); - assert_eq!( - decoder - .get_tag_u64(Tag::StripByteCounts) - .expect("Cannot get StripByteCounts"), - 12288 - ) - } -} diff --git a/vendor/tiff/tests/decode_images.rs b/vendor/tiff/tests/decode_images.rs deleted file mode 100644 index 9d5b809..0000000 --- a/vendor/tiff/tests/decode_images.rs +++ /dev/null @@ -1,479 +0,0 @@ -extern crate tiff; - -use tiff::decoder::{ifd, Decoder, DecodingResult}; -use tiff::ColorType; - -use std::fs::File; -use std::path::PathBuf; - -const TEST_IMAGE_DIR: &str = "./tests/images/"; - -macro_rules! test_image_sum { - ($name:ident, $buffer:ident, $sum_ty:ty) => { - fn $name(file: &str, expected_type: ColorType, expected_sum: $sum_ty) { - let path = PathBuf::from(TEST_IMAGE_DIR).join(file); - let img_file = File::open(path).expect("Cannot find test image!"); - let mut decoder = Decoder::new(img_file).expect("Cannot create decoder"); - assert_eq!(decoder.colortype().unwrap(), expected_type); - let img_res = decoder.read_image().unwrap(); - - match img_res { - DecodingResult::$buffer(res) => { - let sum: $sum_ty = res.into_iter().map(<$sum_ty>::from).sum(); - assert_eq!(sum, expected_sum); - } - _ => panic!("Wrong bit depth"), - } - } - }; -} - -test_image_sum!(test_image_sum_u8, U8, u64); -test_image_sum!(test_image_sum_i8, I8, i64); -test_image_sum!(test_image_sum_u16, U16, u64); -test_image_sum!(test_image_sum_i16, I16, i64); -test_image_sum!(test_image_sum_u32, U32, u64); -test_image_sum!(test_image_sum_u64, U64, u64); -test_image_sum!(test_image_sum_f32, F32, f32); -test_image_sum!(test_image_sum_f64, F64, f64); - -/// Tests that a decoder can be constructed for an image and the color type -/// read from the IFD and is of the appropriate type, but the type is -/// unsupported. -fn test_image_color_type_unsupported(file: &str, expected_type: ColorType) { - let path = PathBuf::from(TEST_IMAGE_DIR).join(file); - let img_file = File::open(path).expect("Cannot find test image!"); - let mut decoder = Decoder::new(img_file).expect("Cannot create decoder"); - assert_eq!(decoder.colortype().unwrap(), expected_type); - assert!(match decoder.read_image() { - Err(tiff::TiffError::UnsupportedError( - tiff::TiffUnsupportedError::UnsupportedColorType(_), - )) => true, - _ => false, - }); -} - -#[test] -fn test_cmyk_u8() { - test_image_sum_u8("cmyk-3c-8b.tiff", ColorType::CMYK(8), 8522658); -} - -#[test] -fn test_cmyk_u16() { - test_image_sum_u16("cmyk-3c-16b.tiff", ColorType::CMYK(16), 2181426827); -} - -#[test] -fn test_cmyk_f32() { - test_image_sum_f32("cmyk-3c-32b-float.tiff", ColorType::CMYK(32), 496.0405); -} - -#[test] -fn test_gray_u8() { - test_image_sum_u8("minisblack-1c-8b.tiff", ColorType::Gray(8), 2840893); -} - -#[test] -fn test_gray_u12() { - test_image_color_type_unsupported("12bit.cropped.tiff", ColorType::Gray(12)); -} - -#[test] -fn test_gray_u16() { - test_image_sum_u16("minisblack-1c-16b.tiff", ColorType::Gray(16), 733126239); -} - -#[test] -fn test_gray_u32() { - test_image_sum_u32("gradient-1c-32b.tiff", ColorType::Gray(32), 549892913787); -} - -#[test] -fn test_gray_u64() { - test_image_sum_u64("gradient-1c-64b.tiff", ColorType::Gray(64), 549892913787); -} - -#[test] -fn test_gray_f32() { - test_image_sum_f32("gradient-1c-32b-float.tiff", ColorType::Gray(32), 128.03194); -} - -#[test] -fn test_gray_f64() { - test_image_sum_f64( - "gradient-1c-64b-float.tiff", - ColorType::Gray(64), - 128.0319210877642, - ); -} - -#[test] -fn test_rgb_u8() { - test_image_sum_u8("rgb-3c-8b.tiff", ColorType::RGB(8), 7842108); -} - -#[test] -fn test_rgb_u12() { - test_image_color_type_unsupported("12bit.cropped.rgb.tiff", ColorType::RGB(12)); -} - -#[test] -fn test_rgb_u16() { - test_image_sum_u16("rgb-3c-16b.tiff", ColorType::RGB(16), 2024349944); -} - -#[test] -fn test_rgb_u32() { - test_image_sum_u32("gradient-3c-32b.tiff", ColorType::RGB(32), 2030834111716); -} - -#[test] -fn test_rgb_u64() { - test_image_sum_u64("gradient-3c-64b.tiff", ColorType::RGB(64), 2030834111716); -} - -#[test] -fn test_rgb_f32() { - test_image_sum_f32("gradient-3c-32b-float.tiff", ColorType::RGB(32), 472.8405); -} - -#[test] -fn test_int8() { - test_image_sum_i8("int8.tif", ColorType::Gray(8), 3111) -} - -#[test] -fn test_int8_rgb() { - test_image_sum_i8("int8_rgb.tif", ColorType::RGB(8), -10344) -} - -#[test] -fn test_int16() { - test_image_sum_i16("int16.tif", ColorType::Gray(16), 354396); -} - -#[test] -fn test_int16_rgb() { - test_image_sum_i16("int16_rgb.tif", ColorType::RGB(16), 1063188); -} - -#[test] -fn test_string_tags() { - // these files have null-terminated strings for their Software tag. One has extra bytes after - // the null byte, so we check both to ensure that we're truncating properly - let filenames = ["minisblack-1c-16b.tiff", "rgb-3c-16b.tiff"]; - for filename in filenames.iter() { - let path = PathBuf::from(TEST_IMAGE_DIR).join(filename); - let img_file = File::open(path).expect("Cannot find test image!"); - let mut decoder = Decoder::new(img_file).expect("Cannot create decoder"); - let software = decoder.get_tag(tiff::tags::Tag::Software).unwrap(); - match software { - ifd::Value::Ascii(s) => assert_eq!( - &s, - "GraphicsMagick 1.2 unreleased Q16 http://www.GraphicsMagick.org/" - ), - _ => assert!(false), - }; - } -} - -#[test] -fn test_decode_data() { - let mut image_data = Vec::new(); - for x in 0..100 { - for y in 0..100u8 { - let val = x + y; - image_data.push(val); - image_data.push(val); - image_data.push(val); - } - } - let file = File::open("./tests/decodedata-rgb-3c-8b.tiff").unwrap(); - let mut decoder = Decoder::new(file).unwrap(); - assert_eq!(decoder.colortype().unwrap(), ColorType::RGB(8)); - assert_eq!(decoder.dimensions().unwrap(), (100, 100)); - if let DecodingResult::U8(img_res) = decoder.read_image().unwrap() { - assert_eq!(image_data, img_res); - } else { - panic!("Wrong data type"); - } -} - -#[test] -fn issue_69() { - test_image_sum_u16("issue_69_lzw.tiff", ColorType::Gray(16), 1015486); - test_image_sum_u16("issue_69_packbits.tiff", ColorType::Gray(16), 1015486); -} - -// TODO: GrayA support -//#[test] -//fn test_gray_alpha_u8() -//{ -//let img_file = File::open("./tests/images/minisblack-2c-8b-alpha.tiff").expect("Cannot find test image!"); -//let mut decoder = Decoder::new(img_file).expect("Cannot create decoder"); -//assert_eq!(decoder.colortype().unwrap(), ColorType::GrayA(8)); -//let img_res = decoder.read_image(); -//assert!(img_res.is_ok()); -//} - -#[test] -fn test_tiled_rgb_u8() { - test_image_sum_u8("tiled-rgb-u8.tif", ColorType::RGB(8), 39528948); -} - -#[test] -fn test_tiled_rect_rgb_u8() { - test_image_sum_u8("tiled-rect-rgb-u8.tif", ColorType::RGB(8), 62081032); -} - -/* #[test] -fn test_tiled_jpeg_rgb_u8() { - test_image_sum_u8("tiled-jpeg-rgb-u8.tif", ColorType::RGB(8), 93031606); -} */ - -#[test] -fn test_tiled_oversize_gray_i8() { - test_image_sum_i8("tiled-oversize-gray-i8.tif", ColorType::Gray(8), 1214996); -} - -#[test] -fn test_tiled_cmyk_i8() { - test_image_sum_i8("tiled-cmyk-i8.tif", ColorType::CMYK(8), 1759101); -} - -#[test] -fn test_tiled_incremental() { - let file = "tiled-rgb-u8.tif"; - let expected_type = ColorType::RGB(8); - let sums = [ - 188760, 195639, 108148, 81986, 665088, 366140, 705317, 423366, 172033, 324455, 244102, - 81853, 181258, 247971, 129486, 55600, 565625, 422102, 730888, 379271, 232142, 292549, - 244045, 86866, 188141, 115036, 150785, 84389, 353170, 459325, 719619, 329594, 278663, - 220474, 243048, 113563, 189152, 109684, 179391, 122188, 279651, 622093, 724682, 302459, - 268428, 204499, 224255, 124674, 170668, 121868, 192768, 183367, 378029, 585651, 657712, - 296790, 241444, 197083, 198429, 134869, 182318, 86034, 203655, 182338, 297255, 601284, - 633813, 242531, 228578, 206441, 193552, 125412, 181527, 165439, 202531, 159538, 268388, - 565790, 611382, 272967, 236497, 215154, 158881, 90806, 106114, 182342, 191824, 186138, - 215174, 393193, 701228, 198866, 227944, 193830, 166330, 49008, 55719, 122820, 197316, - 161969, 203152, 170986, 624427, 188605, 186187, 111064, 115192, 39538, 48626, 163929, - 144682, 135796, 194141, 154198, 584125, 180255, 153524, 121433, 132641, 35743, 47798, - 152343, 162874, 167664, 160175, 133038, 659882, 138339, 166470, 124173, 118929, 51317, - 45267, 155776, 161331, 161006, 130052, 137618, 337291, 106481, 161999, 127343, 87724, - 59540, 63907, 155677, 140668, 141523, 108061, 168657, 186482, 98599, 147614, 139963, 90444, - 56602, 92547, 125644, 134212, 126569, 144153, 179800, 174516, 133969, 129399, 117681, - 83305, 55075, 110737, 115108, 128572, 128911, 130922, 179986, 143288, 145884, 155856, - 96683, 94057, 56238, 79649, 71651, 70182, 75010, 77009, 98855, 78979, 74341, 83482, 53403, - 59842, 30305, - ]; - - let path = PathBuf::from(TEST_IMAGE_DIR).join(file); - let img_file = File::open(path).expect("Cannot find test image!"); - let mut decoder = Decoder::new(img_file).expect("Cannot create decoder"); - assert_eq!(decoder.colortype().unwrap(), expected_type); - - let tiles = decoder.tile_count().unwrap(); - assert_eq!(tiles as usize, sums.len()); - - for tile in 0..tiles { - match decoder.read_chunk(tile).unwrap() { - DecodingResult::U8(res) => { - let sum: u64 = res.into_iter().map(<u64>::from).sum(); - assert_eq!(sum, sums[tile as usize]); - } - _ => panic!("Wrong bit depth"), - } - } -} - -#[test] -fn test_div_zero() { - use tiff::{TiffError, TiffFormatError}; - - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 40, 1, 0, 0, - 0, 158, 0, 0, 251, 3, 1, 3, 0, 1, 0, 0, 0, 1, 0, 0, 39, 6, 1, 3, 0, 1, 0, 0, 0, 0, 0, 0, 0, - 17, 1, 4, 0, 1, 0, 0, 0, 0, 0, 0, 0, 1, 1, 3, 0, 1, 0, 0, 0, 158, 0, 0, 251, 67, 1, 3, 0, - 1, 0, 0, 0, 40, 0, 0, 0, 66, 1, 4, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 48, 178, 178, 178, 178, - 178, 178, 178, - ]; - - let err = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); - - match err { - TiffError::FormatError(TiffFormatError::StripTileTagConflict) => {} - unexpected => panic!("Unexpected error {}", unexpected), - } -} - -#[test] -fn test_too_many_value_bytes() { - let image = [ - 73, 73, 43, 0, 8, 0, 0, 0, 8, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 255, 0, 8, 0, 0, 0, - 23, 0, 12, 0, 0, 65, 4, 0, 1, 6, 0, 0, 1, 16, 0, 1, 0, 0, 0, 0, 0, 0, 128, 0, 0, 0, 0, 0, - 0, 0, 3, 0, 1, 0, 0, 0, 1, 0, 0, 0, 59, 73, 84, 186, 202, 83, 240, 66, 1, 53, 22, 56, 47, - 0, 0, 0, 0, 0, 0, 1, 222, 4, 0, 58, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 1, 1, 4, 0, 0, 100, 0, - 0, 89, 89, 89, 89, 89, 89, 89, 89, 96, 1, 20, 89, 89, 89, 89, 18, - ]; - - let error = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); - - match error { - tiff::TiffError::LimitsExceeded => {} - unexpected => panic!("Unexpected error {}", unexpected), - } -} - -#[test] -fn fuzzer_testcase5() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 100, 0, 0, 0, 1, 1, 4, 0, 1, 0, 0, - 0, 158, 0, 0, 251, 3, 1, 3, 0, 1, 0, 0, 0, 1, 0, 0, 0, 6, 1, 3, 0, 1, 0, 0, 0, 0, 0, 0, 0, - 17, 1, 4, 0, 1, 0, 0, 0, 0, 0, 0, 0, 2, 1, 3, 0, 0, 0, 0, 0, 246, 16, 0, 0, 22, 1, 4, 0, 1, - 0, 0, 0, 40, 0, 251, 255, 23, 1, 4, 0, 1, 0, 0, 0, 48, 178, 178, 178, 178, 178, 178, 178, - 178, 178, 178, - ]; - - let mut decoder = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap(); - - let _ = decoder.read_image().unwrap_err(); -} - -#[test] -fn fuzzer_testcase1() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 99, 255, 255, 254, 1, 1, 4, 0, 1, - 0, 0, 0, 158, 0, 0, 251, 3, 1, 3, 255, 254, 255, 255, 0, 1, 0, 0, 0, 6, 1, 3, 0, 1, 0, 0, - 0, 0, 0, 0, 0, 17, 1, 4, 0, 9, 0, 0, 0, 0, 0, 0, 0, 2, 1, 3, 0, 2, 0, 0, 0, 63, 0, 0, 0, - 22, 1, 4, 0, 1, 0, 0, 0, 44, 0, 0, 0, 23, 1, 4, 0, 0, 0, 0, 0, 0, 0, 2, 1, 3, 1, 0, 178, - 178, - ]; - - let _ = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); -} - -#[test] -fn test_stripped_image_overflow() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 100, 0, 0, 148, 1, 1, 4, 0, 1, 0, - 0, 0, 158, 0, 0, 251, 3, 1, 3, 255, 254, 255, 255, 0, 1, 0, 0, 0, 6, 1, 3, 0, 1, 0, 0, 0, - 0, 0, 0, 0, 17, 1, 4, 0, 1, 0, 0, 0, 0, 0, 0, 0, 2, 1, 3, 0, 2, 0, 0, 0, 63, 0, 0, 0, 22, - 1, 4, 0, 1, 0, 0, 0, 44, 0, 248, 255, 23, 1, 4, 0, 1, 0, 0, 0, 178, 178, 178, 0, 1, 178, - 178, 178, - ]; - - let mut decoder = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap(); - - let err = decoder.read_image().unwrap_err(); - - match err { - tiff::TiffError::LimitsExceeded => {} - unexpected => panic!("Unexpected error {}", unexpected), - } -} - -#[test] -fn oom() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 4, 0, 0, 0, 0, 0, 0, 40, 1, 0, 0, - 0, 158, 0, 0, 251, 3, 1, 3, 0, 1, 0, 0, 0, 7, 0, 0, 0, 6, 1, 3, 0, 1, 0, 0, 0, 2, 0, 0, 0, - 17, 1, 4, 0, 1, 0, 0, 0, 3, 77, 0, 0, 1, 1, 3, 0, 1, 0, 0, 0, 3, 128, 0, 0, 22, 1, 4, 0, 1, - 0, 0, 0, 40, 0, 0, 0, 23, 1, 4, 0, 1, 0, 0, 0, 178, 48, 178, 178, 178, 178, 162, 178, - ]; - - let _ = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); -} - -#[test] -fn fuzzer_testcase4() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 4, 0, 0, 0, 0, 0, 0, 40, 1, 0, 0, - 0, 158, 0, 0, 251, 3, 1, 3, 0, 1, 0, 0, 0, 5, 0, 0, 0, 6, 1, 3, 0, 1, 0, 0, 0, 0, 0, 0, 0, - 17, 1, 4, 0, 1, 0, 0, 0, 0, 0, 0, 0, 1, 1, 3, 0, 1, 0, 0, 0, 3, 128, 0, 0, 22, 1, 4, 0, 1, - 0, 0, 0, 40, 0, 0, 0, 23, 1, 4, 0, 1, 0, 0, 0, 48, 178, 178, 178, 0, 1, 0, 13, 13, - ]; - - let _ = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); -} - -#[test] -fn fuzzer_testcase2() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 15, 0, 0, 254, 44, 1, 0, 0, 0, 0, 0, 32, 0, 0, 0, 1, 4, 0, 1, 0, - 0, 0, 0, 1, 0, 0, 91, 1, 1, 0, 0, 0, 0, 0, 242, 4, 0, 0, 0, 22, 0, 56, 77, 0, 77, 1, 0, 0, - 73, 42, 0, 1, 4, 0, 1, 0, 0, 0, 4, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 158, 0, 0, 251, 3, 1, - 3, 0, 1, 0, 0, 0, 7, 0, 0, 0, 6, 1, 3, 0, 1, 0, 0, 0, 2, 0, 0, 0, 17, 1, 4, 0, 1, 0, 0, 0, - 0, 0, 0, 0, 1, 1, 3, 0, 1, 0, 0, 0, 0, 0, 0, 4, 61, 1, 18, 0, 1, 0, 0, 0, 202, 0, 0, 0, 17, - 1, 100, 0, 129, 0, 0, 0, 0, 0, 0, 0, 232, 254, 252, 255, 254, 255, 255, 255, 1, 29, 0, 0, - 22, 1, 3, 0, 1, 0, 0, 0, 16, 0, 0, 0, 23, 1, 1, 0, 1, 0, 0, 0, 0, 0, 0, 123, 73, 254, 0, - 73, - ]; - - let _ = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); -} - -#[test] -fn invalid_jpeg_tag_2() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 16, 0, 254, 0, 4, 0, 1, 0, 0, 0, 0, 0, 0, 242, 0, 1, 4, 0, 1, 0, - 0, 0, 0, 129, 16, 0, 1, 1, 4, 0, 1, 0, 0, 0, 214, 0, 0, 248, 253, 1, 3, 0, 1, 0, 0, 0, 64, - 0, 0, 0, 3, 1, 3, 0, 1, 0, 0, 0, 7, 0, 0, 0, 6, 1, 3, 0, 1, 0, 0, 0, 1, 0, 0, 64, 14, 1, 0, - 2, 0, 0, 148, 0, 206, 0, 0, 0, 17, 1, 4, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, - 1, 0, 0, 0, 22, 1, 4, 0, 17, 0, 0, 201, 1, 0, 0, 0, 23, 1, 2, 0, 20, 0, 0, 0, 194, 0, 0, 0, - 91, 1, 7, 0, 5, 0, 0, 0, 64, 0, 0, 0, 237, 254, 65, 255, 255, 255, 255, 255, 1, 0, 0, 0, - 22, 1, 4, 0, 1, 0, 0, 0, 42, 0, 0, 0, 23, 1, 255, 255, 255, 255, 255, 36, 36, 0, 0, 0, 0, - 0, 0, 0, 1, 0, 0, 0, 1, 0, 0, 36, 73, 73, 0, 42, 36, 36, 36, 36, 0, 0, 8, 0, - ]; - - let _ = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); -} - -#[test] -fn fuzzer_testcase3() { - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 2, 0, 0, 0, 61, 1, 9, 0, 46, 22, - 128, 0, 0, 0, 0, 1, 6, 1, 3, 0, 1, 0, 0, 0, 0, 0, 0, 0, 17, 1, 4, 0, 27, 0, 0, 0, 0, 0, 0, - 0, 1, 1, 3, 0, 1, 0, 0, 0, 17, 1, 0, 231, 22, 1, 1, 0, 1, 0, 0, 0, 130, 0, 0, 0, 23, 1, 4, - 0, 14, 0, 0, 0, 0, 0, 0, 0, 133, 133, 133, 77, 77, 77, 0, 0, 22, 128, 0, 255, 255, 255, - 255, 255, - ]; - - let _ = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); -} - -#[test] -fn timeout() { - use tiff::{TiffError, TiffFormatError}; - - let image = [ - 73, 73, 42, 0, 8, 0, 0, 0, 16, 0, 254, 0, 4, 0, 1, 68, 0, 0, 0, 2, 0, 32, 254, 252, 0, 109, - 0, 129, 0, 0, 0, 32, 0, 58, 0, 1, 4, 0, 1, 0, 6, 0, 0, 0, 8, 0, 0, 1, 73, 73, 42, 0, 8, 0, - 0, 0, 8, 0, 0, 1, 4, 0, 1, 0, 0, 0, 21, 0, 0, 0, 61, 1, 255, 128, 9, 0, 0, 8, 0, 1, 113, 2, - 3, 1, 3, 0, 1, 0, 0, 0, 5, 0, 65, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 8, 112, 0, 0, 36, 0, 0, - 0, 112, 56, 200, 0, 5, 0, 0, 64, 0, 0, 1, 0, 4, 0, 0, 0, 2, 0, 6, 1, 3, 0, 1, 0, 0, 0, 0, - 0, 0, 4, 17, 1, 1, 0, 93, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 1, 0, 0, 0, 3, 6, 0, 231, 22, 1, - 1, 0, 1, 0, 0, 0, 2, 64, 118, 36, 23, 1, 1, 0, 43, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 4, 0, 8, - 0, 0, 73, 73, 42, 0, 8, 0, 0, 0, 0, 0, 32, - ]; - - let error = tiff::decoder::Decoder::new(std::io::Cursor::new(&image)).unwrap_err(); - - match error { - TiffError::FormatError(TiffFormatError::CycleInOffsets) => {} - e => panic!("Unexpected error {:?}", e), - } -} - -#[test] -fn test_no_rows_per_strip() { - test_image_sum_u8("no_rows_per_strip.tiff", ColorType::RGB(8), 99448840); -} - -#[test] -fn test_predictor_3_rgb_f32() { - test_image_sum_f32("predictor-3-rgb-f32.tif", ColorType::RGB(32), 54004.33); -} - -#[test] -fn test_predictor_3_gray_f32() { - test_image_sum_f32("predictor-3-gray-f32.tif", ColorType::Gray(32), 20008.275); -} diff --git a/vendor/tiff/tests/decodedata-rgb-3c-8b.tiff b/vendor/tiff/tests/decodedata-rgb-3c-8b.tiff Binary files differdeleted file mode 100644 index ad80292..0000000 --- a/vendor/tiff/tests/decodedata-rgb-3c-8b.tiff +++ /dev/null diff --git a/vendor/tiff/tests/encode_images.rs b/vendor/tiff/tests/encode_images.rs deleted file mode 100644 index 57c569f..0000000 --- a/vendor/tiff/tests/encode_images.rs +++ /dev/null @@ -1,529 +0,0 @@ -extern crate tiff; - -use tiff::decoder::{ifd, Decoder, DecodingResult}; -use tiff::encoder::{colortype, Ifd, Ifd8, SRational, TiffEncoder}; -use tiff::tags::Tag; -use tiff::ColorType; - -use std::fs::File; -use std::io::{Cursor, Seek, SeekFrom}; -use std::path::PathBuf; - -#[test] -fn encode_decode() { - let mut image_data = Vec::new(); - for x in 0..100 { - for y in 0..100u8 { - let val = x + y; - image_data.push(val); - image_data.push(val); - image_data.push(val); - } - } - let mut file = Cursor::new(Vec::new()); - { - let mut tiff = TiffEncoder::new(&mut file).unwrap(); - - let mut image = tiff.new_image::<colortype::RGB8>(100, 100).unwrap(); - image - .encoder() - .write_tag(Tag::Artist, "Image-tiff") - .unwrap(); - image.write_data(&image_data).unwrap(); - } - { - file.seek(SeekFrom::Start(0)).unwrap(); - let mut decoder = Decoder::new(&mut file).unwrap(); - assert_eq!(decoder.colortype().unwrap(), ColorType::RGB(8)); - assert_eq!(decoder.dimensions().unwrap(), (100, 100)); - assert_eq!( - decoder.get_tag(Tag::Artist).unwrap(), - ifd::Value::Ascii("Image-tiff".into()) - ); - if let DecodingResult::U8(img_res) = decoder.read_image().unwrap() { - assert_eq!(image_data, img_res); - } else { - panic!("Wrong data type"); - } - } -} - -#[test] -fn encode_decode_big() { - let mut image_data = Vec::new(); - for x in 0..100 { - for y in 0..100u8 { - let val = x + y; - image_data.push(val); - image_data.push(val); - image_data.push(val); - } - } - let mut file = Cursor::new(Vec::new()); - { - let mut tiff = TiffEncoder::new_big(&mut file).unwrap(); - - let mut image = tiff.new_image::<colortype::RGB8>(100, 100).unwrap(); - image - .encoder() - .write_tag(Tag::Artist, "Image-tiff") - .unwrap(); - image.write_data(&image_data).unwrap(); - } - { - file.seek(SeekFrom::Start(0)).unwrap(); - let mut decoder = Decoder::new(&mut file).unwrap(); - assert_eq!(decoder.colortype().unwrap(), ColorType::RGB(8)); - assert_eq!(decoder.dimensions().unwrap(), (100, 100)); - assert_eq!( - decoder.get_tag(Tag::Artist).unwrap(), - ifd::Value::Ascii("Image-tiff".into()) - ); - if let DecodingResult::U8(img_res) = decoder.read_image().unwrap() { - assert_eq!(image_data, img_res); - } else { - panic!("Wrong data type"); - } - } -} - -#[test] -fn test_encode_ifd() { - let mut data = Cursor::new(Vec::new()); - - { - let mut tiff = TiffEncoder::new(&mut data).unwrap(); - let mut image_encoder = tiff.new_image::<colortype::Gray8>(1, 1).unwrap(); - image_encoder.write_strip(&[1]).unwrap(); - let encoder = image_encoder.encoder(); - - // Use the "reusable" tags section as per the TIFF6 spec - encoder.write_tag(Tag::Unknown(65000), Ifd(42u32)).unwrap(); - encoder - .write_tag(Tag::Unknown(65001), &[Ifd(100u32)][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65002), &[Ifd(1u32), Ifd(2u32), Ifd(3u32)][..]) - .unwrap(); - - encoder.write_tag(Tag::Unknown(65010), Ifd8(43u64)).unwrap(); - encoder - .write_tag(Tag::Unknown(65011), &[Ifd8(100u64)][..]) - .unwrap(); - encoder - .write_tag( - Tag::Unknown(65012), - &[Ifd8(1u64), Ifd8(2u64), Ifd8(3u64)][..], - ) - .unwrap(); - } - - // Rewind the cursor for reading - data.set_position(0); - { - let mut decoder = Decoder::new(&mut data).unwrap(); - - assert_eq!(decoder.assert_tag_u32(65000), 42); - assert_eq!(decoder.assert_tag_u32_vec(65000), [42]); - assert_eq!(decoder.assert_tag_u32_vec(65001), [100]); - assert_eq!(decoder.assert_tag_u32_vec(65002), [1, 2, 3]); - - assert_eq!(decoder.assert_tag_u64(65010), 43); - assert_eq!(decoder.assert_tag_u64_vec(65010), [43]); - assert_eq!(decoder.assert_tag_u64_vec(65011), [100]); - assert_eq!(decoder.assert_tag_u64_vec(65012), [1, 2, 3]); - } -} - -#[test] -/// Test that attempting to encode when the input buffer is undersized returns -/// an error rather than panicking. -/// See: https://github.com/PistonDevelopers/image-tiff/issues/35 -fn test_encode_undersized_buffer() { - let input_data = vec![1, 2, 3]; - let output = Vec::new(); - let mut output_stream = Cursor::new(output); - if let Ok(mut tiff) = TiffEncoder::new(&mut output_stream) { - let res = tiff.write_image::<colortype::RGB8>(50, 50, &input_data); - assert!(res.is_err()); - } -} - -const TEST_IMAGE_DIR: &str = "./tests/images/"; - -macro_rules! test_roundtrip { - ($name:ident, $buffer:ident, $buffer_ty:ty) => { - fn $name<C: colortype::ColorType<Inner = $buffer_ty>>( - file: &str, - expected_type: ColorType, - ) { - let path = PathBuf::from(TEST_IMAGE_DIR).join(file); - let img_file = File::open(path).expect("Cannot find test image!"); - let mut decoder = Decoder::new(img_file).expect("Cannot create decoder"); - assert_eq!(decoder.colortype().unwrap(), expected_type); - - let image_data = match decoder.read_image().unwrap() { - DecodingResult::$buffer(res) => res, - _ => panic!("Wrong data type"), - }; - - let mut file = Cursor::new(Vec::new()); - { - let mut tiff = TiffEncoder::new(&mut file).unwrap(); - - let (width, height) = decoder.dimensions().unwrap(); - tiff.write_image::<C>(width, height, &image_data).unwrap(); - } - file.seek(SeekFrom::Start(0)).unwrap(); - { - let mut decoder = Decoder::new(&mut file).unwrap(); - if let DecodingResult::$buffer(img_res) = decoder.read_image().unwrap() { - assert_eq!(image_data, img_res); - } else { - panic!("Wrong data type"); - } - } - } - }; -} - -test_roundtrip!(test_u8_roundtrip, U8, u8); -test_roundtrip!(test_u16_roundtrip, U16, u16); -test_roundtrip!(test_u32_roundtrip, U32, u32); -test_roundtrip!(test_u64_roundtrip, U64, u64); -test_roundtrip!(test_f32_roundtrip, F32, f32); -test_roundtrip!(test_f64_roundtrip, F64, f64); - -#[test] -fn test_gray_u8_roundtrip() { - test_u8_roundtrip::<colortype::Gray8>("minisblack-1c-8b.tiff", ColorType::Gray(8)); -} - -#[test] -fn test_rgb_u8_roundtrip() { - test_u8_roundtrip::<colortype::RGB8>("rgb-3c-8b.tiff", ColorType::RGB(8)); -} - -#[test] -fn test_cmyk_u8_roundtrip() { - test_u8_roundtrip::<colortype::CMYK8>("cmyk-3c-8b.tiff", ColorType::CMYK(8)); -} - -#[test] -fn test_gray_u16_roundtrip() { - test_u16_roundtrip::<colortype::Gray16>("minisblack-1c-16b.tiff", ColorType::Gray(16)); -} - -#[test] -fn test_rgb_u16_roundtrip() { - test_u16_roundtrip::<colortype::RGB16>("rgb-3c-16b.tiff", ColorType::RGB(16)); -} - -#[test] -fn test_cmyk_u16_roundtrip() { - test_u16_roundtrip::<colortype::CMYK16>("cmyk-3c-16b.tiff", ColorType::CMYK(16)); -} - -#[test] -fn test_gray_u32_roundtrip() { - test_u32_roundtrip::<colortype::Gray32>("gradient-1c-32b.tiff", ColorType::Gray(32)); -} - -#[test] -fn test_rgb_u32_roundtrip() { - test_u32_roundtrip::<colortype::RGB32>("gradient-3c-32b.tiff", ColorType::RGB(32)); -} - -#[test] -fn test_gray_u64_roundtrip() { - test_u64_roundtrip::<colortype::Gray64>("gradient-1c-64b.tiff", ColorType::Gray(64)); -} - -#[test] -fn test_rgb_u64_roundtrip() { - test_u64_roundtrip::<colortype::RGB64>("gradient-3c-64b.tiff", ColorType::RGB(64)); -} - -#[test] -fn test_gray_f32_roundtrip() { - test_f32_roundtrip::<colortype::Gray32Float>("gradient-1c-32b-float.tiff", ColorType::Gray(32)); -} - -#[test] -fn test_rgb_f32_roundtrip() { - test_f32_roundtrip::<colortype::RGB32Float>("gradient-3c-32b-float.tiff", ColorType::RGB(32)); -} - -#[test] -fn test_cmyk_f32_roundtrip() { - test_f32_roundtrip::<colortype::CMYK32Float>("cmyk-3c-32b-float.tiff", ColorType::CMYK(32)); -} - -#[test] -fn test_gray_f64_roundtrip() { - test_f64_roundtrip::<colortype::Gray64Float>("gradient-1c-64b-float.tiff", ColorType::Gray(64)); -} - -#[test] -fn test_ycbcr_u8_roundtrip() { - test_u8_roundtrip::<colortype::YCbCr8>("tiled-jpeg-ycbcr.tif", ColorType::YCbCr(8)); -} - -trait AssertDecode { - fn assert_tag_u32(&mut self, tag: u16) -> u32; - fn assert_tag_u32_vec(&mut self, tag: u16) -> Vec<u32>; - fn assert_tag_i32(&mut self, tag: u16) -> i32; - fn assert_tag_i32_vec(&mut self, tag: u16) -> Vec<i32>; - fn assert_tag_u64(&mut self, tag: u16) -> u64; - fn assert_tag_u64_vec(&mut self, tag: u16) -> Vec<u64>; - fn assert_tag_i64(&mut self, tag: u16) -> i64; - fn assert_tag_i64_vec(&mut self, tag: u16) -> Vec<i64>; -} - -impl<R: std::io::Read + std::io::Seek> AssertDecode for Decoder<R> { - fn assert_tag_u32(&mut self, tag: u16) -> u32 { - self.get_tag(Tag::Unknown(tag)).unwrap().into_u32().unwrap() - } - fn assert_tag_u32_vec(&mut self, tag: u16) -> Vec<u32> { - self.get_tag(Tag::Unknown(tag)) - .unwrap() - .into_u32_vec() - .unwrap() - } - fn assert_tag_i32(&mut self, tag: u16) -> i32 { - self.get_tag(Tag::Unknown(tag)).unwrap().into_i32().unwrap() - } - fn assert_tag_i32_vec(&mut self, tag: u16) -> Vec<i32> { - self.get_tag(Tag::Unknown(tag)) - .unwrap() - .into_i32_vec() - .unwrap() - } - fn assert_tag_u64(&mut self, tag: u16) -> u64 { - self.get_tag(Tag::Unknown(tag)).unwrap().into_u64().unwrap() - } - fn assert_tag_u64_vec(&mut self, tag: u16) -> Vec<u64> { - self.get_tag(Tag::Unknown(tag)) - .unwrap() - .into_u64_vec() - .unwrap() - } - fn assert_tag_i64(&mut self, tag: u16) -> i64 { - self.get_tag(Tag::Unknown(tag)).unwrap().into_i64().unwrap() - } - fn assert_tag_i64_vec(&mut self, tag: u16) -> Vec<i64> { - self.get_tag(Tag::Unknown(tag)) - .unwrap() - .into_i64_vec() - .unwrap() - } -} - -#[test] -fn test_multiple_byte() { - let mut data = Cursor::new(Vec::new()); - - { - let mut tiff = TiffEncoder::new(&mut data).unwrap(); - let mut image_encoder = tiff.new_image::<colortype::Gray8>(1, 1).unwrap(); - image_encoder.write_strip(&[1]).unwrap(); - let encoder = image_encoder.encoder(); - - encoder.write_tag(Tag::Unknown(65000), &[1_u8][..]).unwrap(); - encoder - .write_tag(Tag::Unknown(65001), &[1_u8, 2][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65002), &[1_u8, 2, 3][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65003), &[1_u8, 2, 3, 4][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65004), &[1_u8, 2, 3, 4, 5][..]) - .unwrap(); - } - - data.set_position(0); - { - let mut decoder = Decoder::new(&mut data).unwrap(); - - assert_eq!(decoder.assert_tag_u32_vec(65000), [1]); - assert_eq!(decoder.assert_tag_u32_vec(65001), [1, 2]); - assert_eq!(decoder.assert_tag_u32_vec(65002), [1, 2, 3]); - assert_eq!(decoder.assert_tag_u32_vec(65003), [1, 2, 3, 4]); - assert_eq!(decoder.assert_tag_u32_vec(65004), [1, 2, 3, 4, 5]); - } -} - -#[test] -/// Test writing signed tags from TIFF 6.0 -fn test_signed() { - let mut data = Cursor::new(Vec::new()); - fn make_srational(i: i32) -> SRational { - SRational { n: i, d: 100 } - } - - { - let mut tiff = TiffEncoder::new(&mut data).unwrap(); - let mut image_encoder = tiff.new_image::<colortype::Gray8>(1, 1).unwrap(); - image_encoder.write_strip(&[1]).unwrap(); - let encoder = image_encoder.encoder(); - - //Use the "reusable" tags section as per the TIFF6 spec - encoder.write_tag(Tag::Unknown(65000), -1_i8).unwrap(); - encoder - .write_tag(Tag::Unknown(65001), &[-1_i8][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65002), &[-1_i8, 2][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65003), &[-1_i8, 2, -3][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65004), &[-1_i8, 2, -3, 4][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65005), &[-1_i8, 2, -3, 4, -5][..]) - .unwrap(); - - encoder.write_tag(Tag::Unknown(65010), -1_i16).unwrap(); - encoder.write_tag(Tag::Unknown(65011), -1_i16).unwrap(); - encoder - .write_tag(Tag::Unknown(65012), &[-1_i16, 2][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65013), &[-1_i16, 2, -3][..]) - .unwrap(); - - encoder.write_tag(Tag::Unknown(65020), -1_i32).unwrap(); - encoder - .write_tag(Tag::Unknown(65021), &[-1_i32][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65022), &[-1_i32, 2][..]) - .unwrap(); - - encoder.write_tag(Tag::Unknown(65030), -1_i64).unwrap(); - encoder - .write_tag(Tag::Unknown(65031), &[-1_i64][..]) - .unwrap(); - encoder - .write_tag(Tag::Unknown(65032), &[-1_i64, 2][..]) - .unwrap(); - - encoder - .write_tag(Tag::Unknown(65040), make_srational(-1)) - .unwrap(); - encoder - .write_tag( - Tag::Unknown(65041), - &[make_srational(-1), make_srational(2)][..], - ) - .unwrap(); - } - - //Rewind the cursor for reading - data.set_position(0); - { - let mut decoder = Decoder::new(&mut data).unwrap(); - - assert_eq!(decoder.assert_tag_i32(65000), -1); - assert_eq!(decoder.assert_tag_i32_vec(65001), [-1]); - assert_eq!(decoder.assert_tag_i32_vec(65002), [-1, 2]); - assert_eq!(decoder.assert_tag_i32_vec(65003), [-1, 2, -3]); - assert_eq!(decoder.assert_tag_i32_vec(65004), [-1, 2, -3, 4]); - assert_eq!(decoder.assert_tag_i32_vec(65005), [-1, 2, -3, 4, -5],); - - assert_eq!(decoder.assert_tag_i32(65010), -1); - assert_eq!(decoder.assert_tag_i32_vec(65011), [-1]); - assert_eq!(decoder.assert_tag_i32_vec(65012), [-1, 2]); - assert_eq!(decoder.assert_tag_i32_vec(65013), [-1, 2, -3]); - - assert_eq!(decoder.assert_tag_i32(65020), -1); - assert_eq!(decoder.assert_tag_i32_vec(65021), [-1]); - assert_eq!(decoder.assert_tag_i32_vec(65022), [-1, 2]); - - assert_eq!(decoder.assert_tag_i64(65030), -1); - assert_eq!(decoder.assert_tag_i64_vec(65031), [-1]); - assert_eq!(decoder.assert_tag_i64_vec(65032), [-1, 2]); - - assert_eq!(decoder.assert_tag_i32_vec(65040), [-1, 100]); - assert_eq!(decoder.assert_tag_i32_vec(65041), [-1_i32, 100, 2, 100]); - } -} - -#[test] -/// check multipage image handling -fn test_multipage_image() { - let mut img_file = Cursor::new(Vec::new()); - - { - // first create a multipage image with 2 images - let mut img_encoder = TiffEncoder::new(&mut img_file).unwrap(); - - // write first grayscale image (2x2 16-bit) - let img1: Vec<u16> = [1, 2, 3, 4].to_vec(); - img_encoder - .write_image::<colortype::Gray16>(2, 2, &img1[..]) - .unwrap(); - // write second grayscale image (3x3 8-bit) - let img2: Vec<u8> = [9, 8, 7, 6, 5, 4, 3, 2, 1].to_vec(); - img_encoder - .write_image::<colortype::Gray8>(3, 3, &img2[..]) - .unwrap(); - } - - // seek to the beginning of the file, so that it can be decoded - img_file.seek(SeekFrom::Start(0)).unwrap(); - - { - let mut img_decoder = Decoder::new(&mut img_file).unwrap(); - - // check the dimensions of the image in the first page - assert_eq!(img_decoder.dimensions().unwrap(), (2, 2)); - img_decoder.next_image().unwrap(); - // check the dimensions of the image in the second page - assert_eq!(img_decoder.dimensions().unwrap(), (3, 3)); - } -} - -#[test] -/// verify rows per strip setting -fn test_rows_per_strip() { - let mut file = Cursor::new(Vec::new()); - { - let mut img_encoder = TiffEncoder::new(&mut file).unwrap(); - - let mut image = img_encoder.new_image::<colortype::Gray8>(100, 100).unwrap(); - assert_eq!(image.next_strip_sample_count(), 100 * 100); - image.rows_per_strip(2).unwrap(); - assert_eq!(image.next_strip_sample_count(), 2 * 100); - - let img2: Vec<u8> = vec![0; 2 * 100]; - image.write_strip(&img2[..]).unwrap(); - assert!(image.rows_per_strip(5).is_err()); - for i in 1..50 { - let img2: Vec<u8> = vec![i; 2 * 100]; - image.write_strip(&img2[..]).unwrap(); - } - assert!(image.write_strip(&img2[..]).is_err()); - image.finish().unwrap(); - } - - file.seek(SeekFrom::Start(0)).unwrap(); - { - let mut decoder = Decoder::new(&mut file).unwrap(); - assert_eq!(decoder.get_tag_u64(Tag::RowsPerStrip).unwrap(), 2); - assert_eq!(decoder.strip_count().unwrap(), 50); - - for i in 0..50 { - let img2 = [i; 2 * 100]; - match decoder.read_chunk(i as u32).unwrap() { - DecodingResult::U8(data) => assert_eq!(&img2[..], &data[..]), - other => panic!("Incorrect strip type {:?}", other), - } - } - } -} diff --git a/vendor/tiff/tests/encode_images_with_compression.rs b/vendor/tiff/tests/encode_images_with_compression.rs deleted file mode 100644 index 1cf178f..0000000 --- a/vendor/tiff/tests/encode_images_with_compression.rs +++ /dev/null @@ -1,157 +0,0 @@ -extern crate tiff; - -use std::io::{Cursor, Seek, Write}; -use tiff::{ - decoder::{Decoder, DecodingResult}, - encoder::{ - colortype::{self, ColorType}, - compression::*, - TiffEncoder, TiffValue, - }, -}; - -trait TestImage<const NUM_CHANNELS: usize>: From<Vec<<Self::Color as ColorType>::Inner>> { - const WIDTH: u32; - const HEIGHT: u32; - type Color: ColorType; - - fn reference_data(&self) -> &[<Self::Color as ColorType>::Inner]; - fn generate_pixel(x: u32, y: u32) -> [<Self::Color as ColorType>::Inner; NUM_CHANNELS]; - - fn compress<C: Compression, W: Write + Seek>( - &self, - encoder: &mut TiffEncoder<W>, - compression: C, - ) where - [<Self::Color as ColorType>::Inner]: TiffValue, - { - let image = encoder - .new_image_with_compression::<Self::Color, C>(Self::WIDTH, Self::HEIGHT, compression) - .unwrap(); - image.write_data(self.reference_data()).unwrap(); - } - - fn generate() -> Self { - assert_eq!( - Self::Color::BITS_PER_SAMPLE.len(), - NUM_CHANNELS, - "Incompatible color type" - ); - - let mut data = Vec::with_capacity((Self::WIDTH * Self::HEIGHT) as usize * NUM_CHANNELS); - for x in 0..Self::WIDTH { - for y in 0..Self::HEIGHT { - data.extend(IntoIterator::into_iter(Self::generate_pixel(x, y))); - } - } - Self::from(data) - } -} - -struct TestImageColor(Vec<u16>); - -impl From<Vec<u16>> for TestImageColor { - fn from(value: Vec<u16>) -> Self { - Self(value) - } -} - -impl TestImage<3> for TestImageColor { - const WIDTH: u32 = 1; - const HEIGHT: u32 = 7; - type Color = colortype::RGB16; - - fn reference_data(&self) -> &[u16] { - &self.0 - } - - fn generate_pixel(x: u32, y: u32) -> [<Self::Color as ColorType>::Inner; 3] { - let val = (x + y) % <Self::Color as ColorType>::Inner::MAX as u32; - [val as <Self::Color as ColorType>::Inner; 3] - } -} - -struct TestImageGrayscale(Vec<u8>); - -impl From<Vec<u8>> for TestImageGrayscale { - fn from(value: Vec<u8>) -> Self { - Self(value) - } -} - -impl TestImage<1> for TestImageGrayscale { - const WIDTH: u32 = 21; - const HEIGHT: u32 = 10; - type Color = colortype::Gray8; - - fn reference_data(&self) -> &[u8] { - &self.0 - } - - fn generate_pixel(x: u32, y: u32) -> [<Self::Color as ColorType>::Inner; 1] { - let val = (x + y) % <Self::Color as ColorType>::Inner::MAX as u32; - [val as <Self::Color as ColorType>::Inner] - } -} - -fn encode_decode_with_compression<C: Compression + Clone>(compression: C) { - let mut data = Cursor::new(Vec::new()); - - let image_rgb = TestImageColor::generate(); - let image_grayscale = TestImageGrayscale::generate(); - - // Encode tiff with compression - { - // Create a multipage image with 2 images - let mut encoder = TiffEncoder::new(&mut data).unwrap(); - image_rgb.compress(&mut encoder, compression.clone()); - image_grayscale.compress(&mut encoder, compression); - } - - // Decode tiff - data.set_position(0); - { - let mut decoder = Decoder::new(data).unwrap(); - - // Check the RGB image - assert_eq!( - match decoder.read_image() { - Ok(DecodingResult::U16(image_data)) => image_data, - unexpected => panic!("Descoding RGB failed: {:?}", unexpected), - }, - image_rgb.reference_data() - ); - - // Check the grayscale image - decoder.next_image().unwrap(); - assert_eq!( - match decoder.read_image() { - Ok(DecodingResult::U8(image_data)) => image_data, - unexpected => panic!("Decoding grayscale failed: {:?}", unexpected), - }, - image_grayscale.reference_data() - ); - } -} - -#[test] -fn encode_decode_without_compression() { - encode_decode_with_compression(Uncompressed::default()); -} - -#[test] -fn encode_decode_with_lzw() { - encode_decode_with_compression(Lzw::default()); -} - -#[test] -fn encode_decode_with_deflate() { - encode_decode_with_compression(Deflate::with_level(DeflateLevel::Fast)); - encode_decode_with_compression(Deflate::with_level(DeflateLevel::Balanced)); - encode_decode_with_compression(Deflate::with_level(DeflateLevel::Best)); -} - -#[test] -fn encode_decode_with_packbits() { - encode_decode_with_compression(Packbits::default()); -} diff --git a/vendor/tiff/tests/fuzz_tests.rs b/vendor/tiff/tests/fuzz_tests.rs deleted file mode 100644 index 446d6bd..0000000 --- a/vendor/tiff/tests/fuzz_tests.rs +++ /dev/null @@ -1,51 +0,0 @@ -extern crate tiff; - -use tiff::decoder::Decoder; -use tiff::TiffResult; - -use std::fs::File; - -fn test_directory<F: Fn(File) -> bool>(path: &str, f: F) { - for entry in std::fs::read_dir(path).unwrap() { - let file = File::open(entry.unwrap().path()).unwrap(); - assert!(f(file)); - } -} - -fn decode_tiff(file: File) -> TiffResult<()> { - let mut decoder = Decoder::new(file)?; - decoder.read_image()?; - Ok(()) -} - -#[test] -fn oor_panic() { - test_directory("./tests/fuzz_images/oor_panic", |file| { - let _ = decode_tiff(file); - true - }); -} - -#[test] -fn oom_crash() { - test_directory("./tests/fuzz_images/oom_crash", |file| { - decode_tiff(file).is_err() - }); -} - -#[test] -fn inf_loop() { - test_directory("./tests/fuzz_images/inf_loop", |file| { - let _ = decode_tiff(file); - true - }); -} - -// https://github.com/image-rs/image-tiff/issues/33 -#[test] -fn divide_by_zero() { - test_directory("./tests/fuzz_images/divide_by_zero", |file| { - let _ = decode_tiff(file); - true - }); -} |