struct-mappings
Generate crystal classes mapping C structures.
Purpose
struct-mappings
exposes useful macros that can be used to convert a C struct into a Crystal class and vice versa.
The inner representation of the data is a NamedTuple which is very convenient to use.
Utility
Conversion from & to a C structure could be useful in the following scenarios:
- Persisting data that would get freed otherwise when calling an external library.
- Avoiding calling
.value
on nested structure pointers. - C structs are arguably less convenient to use compared to named tuples.
Features
- Supports nested structures.
- Automatically allocates & dereference structure pointers.
- C structures containing array pointers can be converted to an array wrapper class.
- Conversion can be customized.
Installation
- Add the dependency to your
shard.yml
:
`yaml
dependencies:
struct-mappings:
github: elbywan/struct-mappings
`
- Run
shards install
Usage
Require
require "struct-mappings"
Minimal use case
# Include the Mappings module
include Mappings
# Define a dummy structure.
lib C
struct Data
int: LibC::Int
end
end
# Map this structure to a crystal class.
struct_mapping Data, C::Data,
int : Int32
# The class can be instantiated from a named tuple containing the fields…
data = Data.new({int: 10})
# or directly from the C structure.
data_from_c = Data.new(
C::Data.new int: 10
)
# The two classes hold the same data.
pp data == data_from_c # => true
# And it can be converted back using the `to_unsafe` method.
pp data.to_unsafe # => C::Data(@int=10)
# For structures that represent arrays, it's also quite simple.
# Define a dummy array.
lib C
struct DataArray
data: Data*
size: LibC::Int
end
end
# Map the array to a crystal class.
# Generates a `DataArray` class which is a wrapper around
# an Array of `Data` classes, and mapping the `C::DataArray` struct.
struct_array_mapping DataArray, Data, C::DataArray
# Can be instantiated from a crystal array…
array_from_data = DataArray.new [
Data.new({int: 10}),
Data.new({int: 20}),
]
pp array_from_data # => [{int: 10}, {int: 20}]
# or a C structure representation.
array_from_c = DataArray.new C::DataArray.new(
size: 2,
data: [
C::Data.new(int: 10),
C::Data.new(int: 20),
].to_unsafe
)
pp array_from_c # => [{int: 10}, {int: 20}]
# The two classes hold the same data.
pp array_from_data == array_from_c # => true
# And it can be converted back using the `to_unsafe` method.
pp array_from_data.to_unsafe # => C::DataArray(@data=Pointer(C::Data)@0x10e1cfda0, @size=2)
Documentation
The exhaustive documentation is hosted here.
Development
TODO Write development instructions here
Contributing
- Fork it (<https://github.com/your-github-user/struct-mappings/fork>)
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create a new Pull Request
Contributors
- elbywan - creator and maintainer