A command line tool and library for creating Common Lisp language bindings from C header files.
Features:
- Generates CFFI bindings for function declarations, enums, variables, unions, and structures.
- Handles nested and anonymous structures, unions, and enums.
- Warns when it cannot produce a correct binding.
- Documentation comments from the C source files are lispified and included with the generated bindings when available.
- Provides a powerful way to customize how names are translated into lisp symbols.
cl-bindgen requires libclang
, which is not installed with the other Python
dependencies and not available on PyPi. It is recommended to install it first before installing
cl-bindgen. Use your distribution's package manager to install it.
Once libclang
is installed, you can then install cl-bindgen
from
source or from PyPI.
From PyPI:
pip install cl-bindgen
From source:
git clone --depth=1 https://github.com/sdilts/cl-bindgen
cd cl-bindgen
pip install --user .
To process individual files, use the f
command and specify one or
more files to process. By default, output will be printed to
stdout, but the output file can be specified with the -o
option. To see
a full list of options, run cl-bindgen f -h
.
# Process test.h and print the results to stdout:
cl-bindgen f test.h
# Process the files test1.h, test2.h, and place the output in output.lisp:
cl-bindgen f -o output.lisp test1.h test2.h
cl-bindgen can use a yaml file to process many header
files with a single invocation. Use the b
command
to specify one or more batch files to process:
cl-bindgen b my_library.yaml
Batch files use the YAML format. Multiple documents can be contained in each input file.
Required Fields:
output
: where to place the generated codefiles
: a list of files to process
Optional Fields:
package
: The name of the Common Lisp package of the generated filearguments
: Arguments to pass to clangforce
: Ignore errors while parsing. Valid values areTrue
orFalse
pkg-config
: A list of package names needed by the library. Adds the flags needed to compile the given header files as told bypkg-config --cflags
pointer_expansion
(experimental): Used to provide either a regex or a list of pointer types to expand or not expand in the output.
To see example batch files, look in the examples directory.
If you need to specify additional command line arguments to the clang
processor, you can use the -a
option, and list any clang arguments after.
cl-bindgen b batch_file.yaml -a -I include_dir1 -I include_dir2
# Use -- to stop collecting clang arguments:
# Note that instead of directly calling pkg-config when using a batch
# file, you can use the pkg-config option instead.
cl-bindgen f -a `pkg-config --cflags mylibrary` -- header.h
If a header file isn't found while processing the input files,
cl-bindgen will halt and produce no output. This is to avoid producing
incorrect bindings: while bindings can still be produced when header
files are missing, they are likely to be incorrect. To ignore missing
header files and other fatal errors, the -f
flag can be used:
cl-bindgen b -f batch_file.yaml
cl-bindgen f -f header.c
cl-bindgen attempts to provide a reasonable interface that is usable in most cases. However, if you need to customize how C names are converted into lisp names or embed cl-bindgen into another application, cl-bindgen is available as a library.
The cl_bindgen
package is broken up into modules: the processfile
,
mangler
, util
and macro_util
modules. The processfile
module provides the
functions to generate the lisp bindings, the mangler
module provides
functions to convert C names into lisp names, and the util
module
provides functions to use batch files and cl-bingen's command line
interface.
This module exports two functions: process_file
and process_files
,
which work on a single header file or many, respectively. Both
functions take two arguments: the file(s) to be processed and an
ProcessOptions
object.
The ProcessOptions
class is the way to specify how the
processing functions generate their output. It has the following
fields:
typedef_mangers
,enum_manglers
,type_manglers
,name_manglers
andconstant_manglers
: See the mangler module section for what these do.output
: The path of the file where the output is placed.":stdout"
or":stderr"
can be specified to use standard out or standard error.package
: If notNone
, this specifies the package the the generated output should be placed in.arguments
: The command line arguments that should be given to the clang processor.force
: If true, then ignore errors while parsing the input files.macro_detector
: The macro detctor function used to detect header macrosexpand_pointer_p
: A function that takes a typename and returns whether or not pointers of this type should be fully expanded or left as:pointer
.
cl-bindgen uses a set of classes called manglers to translate C
names so that they follow lisp naming conventions. Each mangler class
provides one or more transformations to a symbol. For example, the
UnderscoreMangler
class converts underscores (_
) into dashes
(-
). A series of manglers are applied to each C name to make it
follow lisp naming conventions.
To maximize customization, a list of manglers is associated with each type of name that can be converted. enums, variable names, typedefs, constants, and record types all use a different set of manglers.
Built-in manglers:
UnderscoreMangler
: Converts underscores to dashes.ConstantMangler
: Converts a string to follow Common Lisp's constant style recomendation.KeywordMangler
: Adds a:
to the beginning of a string to make it a symbol. Doesn't perform any action if the string has a package prefix.RegexSubMangler
: Substitutes the substring matched by a regex with the given string.
Mangler classes follow a simple interface:
can_mangle(string)
: returns true if the mangler can perform its operations on the given stringmangle(string)
: returns a string with the desired transformations applied.
The util
module provides two functions: process_batch_file
and
dispatch_from_arguments
.
process_batch_file(batch_file, options)
: Processes the given batch file usingoptions
as the default options.dispatch_from_arguments(arguments, options)
: Uses the provided command line arguments to perform the actions of cl-bindgen usingoptions
as the default options.
This module provides the macro_matches_file_path
function that is used
by default to check if a macro is a header guard, and the
convert_literal_token
that converts literal tokens into CL literals.
The macro_matches_file_path
is a macro detector function. Macro
detector functions are used to determine if a C macro is a header
guard. They take two arguments: the location of the file and the name
of the file as a string.
The best example of how to use cl-bindgen as a library is to look at its main
function found in
cl_bindgen/__main__.py.
In it, cl-bindgen's default options are set, then passed to dispatch_from_arguments
to run the utility.