This crate contains (mostly) safe high-level bindings for ecCodes library. Bindings can be considered safe mainly because all crate structures will take ownership of the data in memory before passing the raw pointer to ecCodes.
Currently only reading of GRIB files is supported.
Because of the ecCodes library API characteristics theses bindings are rather thick wrapper to make this crate safe and convenient to use.
This crate officially supports mainly Linux platforms same as the ecCodes library. But it is possible to install ecCodes on MacOS and this crate successfully compiles and all tests pass.
If you want to see more features released quicker do not hesitate to contribute and check out Github repository.
ecCodes is an open-source library for reading and writing GRIB and BUFR files developed by European Centre for Medium-Range Weather Forecasts.
This crate uses eccodes-sys with default options to link ecCodes.
Check eccodes-sys
website for more details on how it links the library.
The recommended way to install ecCodes on your computer is using your package manager.
For example, on Ubuntu you can use apt-get
:
sudo apt-get install libeccodes-dev
or brew
on MacOS:
brew install eccodes
Alternatively, you can install the library manually from source in suitable directory following this instructions.
Then add the lib/pkgconfig
directory from your ecCodes installation directory
to the PKG_CONFIG_PATH
environmental variable. If ecCodes have been compiled
as shared library you will also need to specify LD_LIBRARY_PATH
.
For example:
export PKG_CONFIG_PATH=<your_eccodes_path>/lib/pkgconfig
export LD_LIBRARY_PATH=<your_eccodes_path>/lib
To access a GRIB file you need to create CodesHandle
with one of provided constructors.
GRIB files consist of messages which represent data fields at specific time and level.
Messages are represented by the KeyedMessage
structure.
CodesHandle
implements FallibleStreamingIterator
which allows you to iterate over messages in the file. The iterator returns &KeyedMessage
which valid until next iteration.
KeyedMessage
implements several methods to access the data as needed, most of those can be called directly on &KeyedMessage
.
You can also use try_clone()
to clone the message and prolong its lifetime.
Data defining and contained by KeyedMessage
is represented by Key
s.
You can read them directly with read_key()
, use KeysIterator
to iterate over them or use CodesNearest
to get the values of four nearest gridpoints for given coordinates.
You can also modify the message with write_key()
and write it to a new file with write_to_file()
.
// We are reading the mean sea level pressure for 4 gridpoints
// nearest to Reykjavik (64.13N, -21.89E) for 1st June 2021 00:00 UTC
// from ERA5 Climate Reanalysis
use eccodes::{ProductKind, CodesHandle, KeyType};
use eccodes::FallibleStreamingIterator;
// Open the GRIB file and create the CodesHandle
let file_path = Path::new("./data/iceland.grib");
let product_kind = ProductKind::GRIB;
let mut handle = CodesHandle::new_from_file(file_path, product_kind)?;
// Use iterator to find a message with shortName "msl" and typeOfLevel "surface"
// We can use while let or for_each() to iterate over the messages
while let Some(msg) = handle.next()? {
if msg.read_key("shortName")?.value == KeyType::Str("msl".to_string())
&& msg.read_key("typeOfLevel")?.value == KeyType::Str("surface".to_string()) {
// Create CodesNearest for given message
let nearest_gridpoints = msg.codes_nearest()?
// Find the nearest gridpoints to Reykjavik
.find_nearest(64.13, -21.89)?;
// Print value and distance of the nearest gridpoint
println!("value: {}, distance: {}",
nearest_gridpoints[3].value,
nearest_gridpoints[3].distance);
}
}
The crate provides a basic support for setting KeyedMessage
keys
and writing GRIB files. The easiest (and safest) way to create a
new custom message is to copy existing one from other GRIB file,
modify the keys and write to new file.
You can find a detailed example of setting keys and writing message to file in the documentation.
This crate aims to return error whenever possible, even if the error is caused by implementation bug. As ecCodes is often used in scientific applications with long and extensive jobs, this allows the user to handle the error in the way that suits them best and not risk crashes.
All error descriptions are provided in the errors
module.
Destructors, which cannot panic, report errors through the log
crate.
None of the functions in this crate explicitly panics. However, users should not that dependencies might panic in some edge cases.
This crate aims to be as safe as possible and a lot of effort has been put into testing its safety. Moreover, pointers are always checked for null before being dereferenced.
That said, neither main developer nor contributors have expertise in unsafe Rust and bugs might have slipped through. We are also not responsible for bugs in the ecCodes library.
If you find a bug or have a suggestion, feel free to discuss it on Github.
-
message_ndarray
- enables support for convertingKeyedMessage
tondarray::Array
. This feature is enabled by default. It is currently tested only with simple lat-lon grids. -
experimental_index
- enables support for creating and using index files for GRIB files. This feature experimental and disabled by default. If you want to use it, please read the information provided incodes_index
documentation. -
docs
- builds the crate without linking ecCodes, particularly useful when building the documentation on docs.rs. For more details check documentation of eccodes-sys.
To build your own crate with this crate as dependency on docs.rs without linking ecCodes add following lines to your Cargo.toml
[package.metadata.docs.rs]
features = ["eccodes/docs"]
The ecCodes library and these bindings are licensed under the Apache License Version 2.0