Suppose I have a simple Hello, World! file in C++ or C (whatever will help me use it easier in Node.js, preferably C) and want to run it from a Node.js file. What is the most efficient way considering that the file will be used to boost the performance (changing CPU intensive functions from Node.js to C/C++)?
I came across the addons, but it seems to me, that in order to use it, I'll have to convert a lot of code to bring it to that format. Is there an easier way?
I don't see why using child_process would be slower than other options.
I recommend:
// myCFile.c
#include <stdio.h>
int main(void){
// Processor-intensive computations
int x = 1+2+3;
// Send to node via standard output
printf("%d", x);
// Terminate the process
return 0;
}
Compile:
gcc -o myExecutable myCFile.c
And use child_process like this:
// File myNodeFile.js
const { exec } = require("child_process");
exec("./myExecutable", (error, stdout, stderr) => console.log(stdout));
For our image segmentation algorithm that I had written in C++, I needed to help the full-stack developer wrap the shared library for Node.js. As far as I can see, from a day of googling around and hacking into Node.js, which is a somewhat unfamiliar world for me, that there are two major options:
node-ffi, or,addons as you have already stated.For 1. above, you do not need to do much. You simply need to require the ffi, ref and ref-array packages/addons in node.js to be able to call the C API of your application code. There is some nice tutorial that I followed, which helped me get going in 15 minutes.
However, I needed to choose 2. above for our project in the end. This was due to the fact that our full-stack developer was relying on some other addons that needed the latest version of Node.js. Apparently, when we check the issue board of node-ffi, as of this answer's posting time, it does not support the v9.x family of node.js. Hence, I went the native addons way. It has taken me roughly 4 hours to understand and write the code. I am not sure if it is the most convenient/efficient way possible, but what I did was to
nan in Node.js that reinterpret_casts the char* buffer of Node.js and calls the very same C API of our shared library, and finally,binding.gyp.Apparently, Native Abstractions for Node.js (aka nan) is supposed to be used by users to avoid the need to handle breaking changes introduced in v8. There is another nice tutorial I have found, which helped me solve my problem easily.
Finally, Scott Frees' blog site seems to have a lot of self-contained articles/examples for those who would like to go deeper. He also argues in which situations you should be preferring one approach over the other (node-ffi over native addons, for instance). Basically, what I understand is that writing native addons will be more efficient, even though for our application it did not matter much. node-ffi gives satisfactory behaviour, too, as we were solving an image segmentation problem (which anyways takes more time than the call overhead).
So, in short,
I came across the addons but it seems to me, that in order to use it I'll have to convert a lot of code to bring it to that format.
Well, not necessarily! It depends on what you are willing to achieve. It can be as easy as compiling your C++ code for a specific C-API shared library, and then writing a 20-liner wrapper in nan, which basically does some reinterpret_cast for in-place memory operations, and finally linking against the library in binding.gyp.
Is there an easier way?
Yes, there is. node-ffi can help you solve the problem under half an hour. But then, it might not be the most efficient for your scenario, or it might not be a viable option for you, as it currently does not build with the v9.x family of Node.js.
Addon and the node-ffi before but the latter seemed like it compromised efficient for convenience and the former the opposite. After seeing your post and your articles though, it made me decide which one to use, and help go on my way, thank you.
Mar 5, 2018 at 19:05
There is an option to compile C/C++ with emscripten to WebAssembly and for quick execution on Node. Calling WebAssembly code from JavaScript is not trivial, but allows more flexibility for input and output parameters than communicating with child process.
