Another similar interface to Python is provided by PyCall.
On this page, we give some tips for migrating between the two modules and a comparison.
- You can use both PyCall and PythonCall in the same Julia session. This is platform-dependent:
- On Unix (Linux, Mac, etc.) the Python interpreter used by PythonCall and PyCall must be the same (see below).
- On Windows, it appears to be possible for PythonCall and PyCall to use different interpreters.
- To force PythonCall to use the same Python interpreter as PyCall, set the environment variable
"@PyCall". Note that this will opt out of automatic dependency management using CondaPkg.
- Alternatively, to force PyCall to use the same interpreter as PythonCall, set the environment variable
Pkg.build("PyCall"). You will need to do this each time you change project, because PythonCall by default uses a different Python for each project.
In PyCall you do
convert(T, x) to convert the Python object
x to a Julia
T. In PythonCall you similarly do
PythonCall supports far more combinations of types of
x. For example
convert(Vector, x) in PyCall requires
x to be a sequence, whereas in PythonCall
pyconvert(Vector, x) works if
x is an iterable, an object supporting the buffer protocol (such as
bytes) or an object supporting the numpy array interface (such as
pyconvert can be extended to support more types, whereas
convert(Vector, x) cannot support more Python types.
Both packages allow conversion of Julia values to Python:
PyObject(x) in PyCall,
Py(x) in PythonCall.
Whereas both packages convert numbers, booleans, tuples and strings to their Python counterparts, they differ in handling other types. For example PyCall converts
list whereas PythonCall converts
juliacall.VectorValue which is a sequence type directly wrapping the Julia value - this has the advantage that mutating the Python object also mutates the original Julia object.
Hence with PyCall the following does not mutate the original array
x = ["foo", "bar"] PyObject(x).append("baz") @show x # --> ["foo", "bar"]
whereas with PythonCall the following does mutate
x = ["foo", "bar"] Py(x).append("baz") @show x # --> ["foo", "bar", "baz"]
In fact, PythonCall has the policy that any mutable object will by default be wrapped in this way, which not only preserves mutability but makes conversion faster for large containers since it does not require taking a copy of all the data.
In PyCall, most function calls, attribute accesses, indexing, etc. of Python object by default automatically convert their result to a Julia object. This means that the following
pyimport("sys").modules["KEY"] = "VALUE"
does not actually modify the modules dict because it was copied to a new Julia
Dict. This was probably not intended, plus it wasted time copying the whole dictionary. Instead you must do
set!(pyimport(os)."environ", "KEY", "VALUE")
In PythonCall, we don't do any such automatic conversion: we always return
Py. This means that the first piece of code above does what you think.
PyCall uses some global installation of Python - typically the version of Python installed on the system or used by Conda.
PythonCall uses a separate Conda environment for each Julia environment/project/package and installs Python (and other Python packages) into that. This means that different Julia projects can maintain an isolated set of Python dependencies (including the Python version itself).
PyCall has the corresponding Python package PyJulia for calling Julia from Python, and PythonCall similarly has JuliaCall.
One difference is between them is their code size: PyJulia is a large package, whereas JuliaCall is very small, with most of the implementation being in PythonCall itself. The practical up-shot is that PythonCall/JuliaCall have very symmetric interfaces; for example they use identical conversion policies and have the same set of wrapper types available.
Note also that JuliaCall will use a separate Julia project for each virtual/conda environment. This means that different Python environments can maintain an isolated set of Julia dependencies, including the versions of Julia and PythonCall themselves.
PyCall supports Julia 0.7+ and Python 2.7+, whereas PythonCall supports Julia 1.6.1+ and Python 3.7+. PyCall requires numpy to be installed, PythonCall doesn't (it provides the same fast array access through the buffer protocol and array interface).