Python for .NET is a package that gives Python programmers nearly seamless integration with the .NET Common Language Runtime (CLR) and provides a powerful application scripting tool for .NET developers. It allows Python code to interact with the CLR, and may also be used to embed Python into a .NET application.
Calling .NET code from Python
Python for .NET allows CLR namespaces to be treated essentially as Python packages.
importclrfromSystemimportStringfromSystem.Collectionsimport*
To load an assembly, use the "AddReference" function in the "clr" module:
importclrclr.AddReference("System.Windows.Forms")fromSystem.Windows.FormsimportFormEmbedding Python in .NET
- All calls to python should be inside a "using (Py.GIL()) {/* Your code here */}" block.
- Import python modules using dynamic mod = Py.Import("mod"), then you can call functions as normal, eg mod.func(args).
- Use mod.func(args, Py.kw("keywordargname", keywordargvalue)) to apply keyword arguments.
- All python objects should be declared as 'dynamic' type.
- Mathematical operations involving python and literal/managed types must have the python object first, eg np.pi2 works, 2np.pi doesn't
EG:
staticvoidMain(string[]args){using(Py.GIL()){dynamicnp=Py.Import("numpy");dynamicsin=np.sin;Console.WriteLine(np.cos(np.pi*2));Console.WriteLine(sin(5));doublec=np.cos(5)+sin(5);Console.WriteLine(c);/* this block is temporarily disabled due to regression dynamic a = np.array(new List<float> { 1, 2, 3 }); dynamic b = np.array(new List<float> { 6, 5, 4 }, Py.kw("dtype", np.int32)); Console.WriteLine(a.dtype); Console.WriteLine(b.dtype); Console.WriteLine(a * b); */Console.ReadKey();}}outputs:
1.0-0.958924274663-0.6752620892float64int32[ 6. 10. 12.]
