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138 lines
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3.9 KiB
Markdown
138 lines
No EOL
3.9 KiB
Markdown
---
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title: "C++ within Python with SWIG"
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date: 2020-10-27T23:49:54-04:00
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draft: false
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tags: ["Python", "C++"]
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---
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For performance reasons, it can be useful to write functions in C/C++ which can then be called within Python. This will be an introductory post, in where we will call a simple C++ function (with a dependency) within Python using [SWIG](http://swig.org/).
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First we need to install SWIG:
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```bash
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sudo apt install swig
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```
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We're going to use [GNU MP](https://gmplib.org/) in order to have arbitrary precision arithmetic for our factorial function.
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```bash
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sudo apt install libgmp-dev
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```
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## Source Setup
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Normally people use headers for larger C++ programs, though we're going to create one just so we can see how to include it later in SWIG. Let's called this file `factorial.hpp`
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```c++
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#ifndef FACTORIAL_H
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#define FACTORIAL_H
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std::string fact(unsigned int n);
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#endif
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```
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In order to get it the large number from C++ to Python. We are going to use `std::string` as the return of our `fact` function.
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Here is the source `factorial.cpp`
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```c++
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#include <gmpxx.h>
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#include "factorial.hpp"
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std::string fact(unsigned int n) {
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if (n == 0) {
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n = 1;
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}
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mpz_class result(n);
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while (n > 1) {
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n--;
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result *= n;
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}
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return result.get_str(10); // Base 10
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}
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```
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Now that we have our C++ code, we need to create a swig template file called `factorial.i`
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```
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%module factorial
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%{
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#include "factorial.hpp"
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%}
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%include <std_string.i>
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%include "factorial.hpp"
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```
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Since we're returning a `std::string` we need to tell SWIG what that is. We do this through the `<std_string.i>` include.
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We can now ask SWIG to write the C++ code that will interface with Python. This will create the files `factorial_wrap.cxx` and `factorial.py`.
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```bash
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swig -c++ -python factorial.i
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```
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## Compilation and Linkage
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Let's compile our C++ code.
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```bash
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g++ -O2 -fPIC -c factorial.cpp
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```
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| Flag | Description |
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| ----- | ------------------------------------------------------------ |
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| -O2 | Perform nearly all supported optimizations that don't involve a space-speed tradeoff. |
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| -fPIC | Create Position-Independent Code |
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| -c | Don't link at this time |
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To compile `factorial_wrap.cxx` we need to include the directory where `Python.h` lives. You can find this by issuing the command `locate Python.h`. Below is where it is located on my system.
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```bash
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g++ -O2 -fPIC -c factorial_wrap.cxx -I/home/user/.pyenv/versions/3.8.2/include/python3.8/
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```
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Finally let's create the needed shared object file by linking `factorial.o`, `factorial_wrap.o`, and the GNU MP libraries.
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```bash
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g++ -O2 -fPIC -shared factorial.o factorial_wrap.o -lgmpxx -lgmp -o _factorial.so
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```
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It is important that our final output is called `_` + module_name.so
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We should at this time be able to open up `python` and import our function.
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```python
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import factorial
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factorial.fact(5)
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```
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If you run into any errors, the [SWIG Documentation](http://www.swig.org/Doc3.0/Python.html#Python_nn3) is quite helpful.
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In order to not have to type out the compiling and linking commands every time, here is a Makefile
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```makefile
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CC=g++
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CFLAGS=-O2 -fPIC -Wall
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PYTHON_PATH=/home/user/.pyenv/versions/3.8.2/include/python3.8/
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all: _factorial.so
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_factorial.so: factorial.o factorial_wrap.o
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$(CC) $(CFLAGS) -shared factorial.o factorial_wrap.o -lgmpxx -lgmp -o _factorial.so
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factorial_wrap.o: factorial_wrap.cxx
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$(CC) $(CFLAGS) -c factorial_wrap.cxx -I$(PYTHON_PATH)
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factorial.o: factorial.cpp
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$(CC) $(CFLAGS) -c factorial.cpp
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factorial_wrap.cxx: factorial.i
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swig -c++ -python factorial.i
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clean:
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rm *.o *.so factorial_wrap.cxx factorial.py
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```
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Then you can call `make clean` to clean up everything and `make` to run all the individual compilation steps we did before. |