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Rust OpenCV bindings

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Rust bindings for the popular OpenCV computer vision library.

The API is usable, but unstable and not very battle-tested; use at your own risk.

Changelog | Troubleshooting | Support the project

Quickstart

Make sure the supported OpenCV version (3.4 or 4.x) and Clang (part of LLVM, needed for automatic binding generation) are installed in your system.

Update your Cargo.toml

opencv = "0.93.3"

Import prelude

use opencv::prelude::*;

Getting OpenCV

See INSTALL.md for instructions on how to install required system dependencies.

Troubleshooting

See TROUBLESHOOTING.md for some common issues and their solutions.

Environment variables

The following variables must be set when building without pkg_config, cmake or vcpkg. You can set them on any platform, the specified values will override those automatically discovered.

The following variables are rarely used, but you might need them under some circumstances:

The following variables affect the building the of the opencv crate, but belong to external components:

Cargo features

API details

API Documentation is automatically translated from OpenCV's doxygen docs. Most likely you'll still want to refer to the official OpenCV C++ documentation as well.

OpenCV version support

The following OpenCV versions are supported at the moment:

Minimum rustc version (MSRV)

Currently, Rust version 1.66.0 or later is required. General policy is that rust version from 1 year ago is supported. Bumping versions older than that is not considered a breaking change.

Platform support

Currently, the main development and testing of the crate is performed on Linux, but other major platforms are also supported: macOS and Windows.

For some more details please refer to the CI build scripts: Linux OpenCV install, macOS OpenCV install as framework, macOS OpenCV install via brew, Windows OpenCV install via Chocolatey, Windows OpenCV install via vcpkg, Test runner script.

Functionality

Generally the crate tries to only wrap OpenCV API and provide some convenience functions to be able to use it in Rust easier. We try to avoid adding any functionality besides that.

Errors

Most functions return a Result to expose a potential C++ exception. Although some methods like property reads or functions that are marked CV_NOEXCEPT in the OpenCV headers are infallible and return a naked value.

CV_MAKETYPE

CV_MAKETYPE and related CV_MAT_DEPTH constant functions are available to replace the corresponding OpenCV macros. Yet it's usually easier to call ::opencv_type() function on the corresponding Rust type. E.g.:

let t = u16::opencv_type(); // equivalent to CV_MAKETYPE(CV_16U, 1)
let t = Vec2f::opencv_type(); // equivalent to CV_MAKETYPE(CV_32F, 2)

C++ operators

Some C++ operators are supported, they are converted to the corresponding functions on Rust side. Here is the list with the corresponding function name:

Class fields

Fields of OpenCV classes are accessible through setters and getters. Those functions are infallible, they return the value directly instead of Result.

Infallible functions

For infallible functions (like setters) that accept &str values the following logic applies: if a Rust string passed as argument contains null byte then this string will be truncated up to that null byte. So if for example you pass "123\0456" to the setter, the property will be set to "123".

Callbacks

Some API functions accept callbacks, e.g. set_mouse_callback. While currently it's possible to successfully use those functions there are some limitations to keep in mind. Current implementation of callback handling leaks the passed callback argument. That means that the closure used as a callback will never be freed during the lifetime of a program and moreover Drop will not be called for it. There is a plan to implement possibility to be able to free at least some closures.

Unsafety

Although the crate tries to provide an ergonomic Rust interface for OpenCV, don't expect Rust safety guarantees at this stage. It's especially true for the borrow-checking and the shared mutable ownership. Notable example would be Mat which is a reference counted object in its essence. You can own a seemingly separate Mat in Rust terms, but it's going to be a mutable reference to the other Mat under the hood. Treat safety of the crate's API as you would treat one of C++, use clone() when needed.

Contrib modules

To be able to use some modules you need to have opencv_contrib installed. You can find the full list of contrib modules here.

Missing modules and functions

While most of the API is covered, for various reasons (that might no longer hold) there are modules and functions that are not yet implemented. If a missing module/function is near and dear to you, please file an issue (or better, open a pull request!).

The binding strategy

This crate works similar to the model of python and java's OpenCV wrappers - it uses libclang to parse the OpenCV C++ headers, generates a C interface to the C++ API, and wraps the C interface in Rust.

All the major modules in the C++ API are merged together in a huge cv:: namespace. We instead made one rust module for each major OpenCV module. So, for example, C++ cv::Mat is opencv::core::Mat in this crate.

The methods and field names have been snake_cased. Methods arguments with default value lose these default values, but they are reported in the API documentation.

Overloaded methods have been mostly manually given different names or automatically renamed to *_1, *_2, etc.

Older OpenCV branches support

OpenCV 2

If you can't use OpenCV 3.x or higher, the (no longer maintained) 0.2.4 version of this crate is known to work with OpenCV 2.4.7.13 (and probably other 2.4 versions). Please refer to the README.md file for that version because the crate has gone through the considerable rewrite since.

OpenCV 3.2

The last version with confirmed OpenCV 3.2 support is 0.75.0, after that this branch of OpenCV is no longer tested and supported. It may still work though.

Contributor's Guide

The binding generator code lives in a separate crate under binding-generator. During the build phase it creates bindings from the header files and puts them into bindings directory. Those are then transferred to src for the consumption by the crate users.

The crate itself, as imported by users, consists of generated rust code in src committed to the repo. This way, users don't have to handle the code generation overhead in their builds. When developing this crate, you can test changes to the binding generation using cargo build -vv. When changing the binding-generator, be sure to push changes to the generated code!

If you're looking for things to improve be sure to search for todo and fixme labels in the project source, those usually carry the comment of what exactly needs to be fixed.

The license for the original work is MIT.

Special thanks to ttacon for yielding the crate name.