I am learning about emscripten and trying to understand it better. As far as I understand the use-case it was mostly designed for is to port existing C/C++-code to a web client (browser) and calling C/C++ code from JavaScript.

But I am wondering whether it is possible to use C++ and Emscripten to web page (note: this is more out of curiosity - I know that there are not many good reasons to do that at the moment). I manage to call Javascript functions from C++ and pass arguments of types string, int, double etc to them. But what I am missing is: calling a Javascript function from C++ and passing a C or C++ function as a handle. So as a simple example: How would I write the following Javascript code ind pure C++?

var myfun = function() { /* do something meaningful here */ }


I wrote a library : js-bind which accepts any number of arguments to do that easily :

using namespace std::placeholders;
using emscripten::val;

// First find the HTML object to attach the event to
auto clickme_btn = val::global("document").call<val>("getElementById", string("clickme_btn"));

// Bind the event handler for click
auto onclick = [](val event){ cout << "hello world ! " << endl; };
clickme_btn.set("onclick", js::bind(onclick, _1));

This library is some Macro metaprogramming based on the explanation below.


You have different possibilites, like emscripten ccall, but what is easier to use in my opinion is Embind.

For example take binding event handlers of an XMLHttpRequest from within C++.

To enable it you have to compile with : --bind -s NO_EXIT_RUNTIME=1

Emscripten : bind freestanding functions

One could achieve it easily with freestanding functions and a singleton, as show here :

#include <iostream>

#include <emscripten.h>
#include <emscripten/bind.h>
#include <emscripten/val.h>

namespace xhr {

  inline emscripten::val& singleton() {
    using emscripten::val;
    static val instance = val::global("XMLHttpRequest").new_();
    return instance;

  void on_load(emscripten::val event) { 
    std::cout << "Successful Query " << std::endl;
    std::cout << "response is : " << singleton()["responseText"].as<std::string>() << std::endl;

  void on_error(emscripten::val event) {
    std::cout << "Error on query " << std::endl;

  void on_progress(emscripten::val event) {
    std::cout << "Progress on query " << std::endl;

    std::cout << event["lengthComputable"].as<bool>() << ": " << event["loaded"].as<unsigned int>() / event["total"].as<unsigned int>() << std::endl;

  using namespace emscripten;

    function("on_load", &on_load);
    function("on_error", &on_error);
    function("on_progress", &on_progress);


int main(int argc, char** argv) {

  using emscripten::val;

  xhr::singleton().call<val>("open", std::string("GET"), std::string(""), true);

  // Here I set the callback to &on_load function registered via the EMSCRIPTEN_BINDINGS macro.


  return 0;

Emscripten : bind member functions

Typically in C++ we are used to std::bind callbacks. This can also be achieved, taking the example of xhr in a cleaner way :

#include <iostream>
#include <functional>
#include <memory>

#include <emscripten.h>
#include <emscripten/bind.h>
#include <emscripten/val.h>

class MiniXhr : public std::enable_shared_from_this<MiniXhr> {
  using val = emscripten::val;
  using url_t = std::string;


    void set_url(const url_t& url) { url_ = url; }

    void GET();

     * The member function to be called from javascript.
    void on_readystate(val event) {
      std::cout << "ready " << std::endl;
      std::cout << "xxhr::on_readystate: " 
          << xhr["readyState"].as<size_t>() << " - " << url_ << " :: "
          << xhr["status"].as<size_t>() << ": " 
          << xhr["statusText"].as<std::string>() << std::endl;

    url_t url_;
    val xhr = val::global("XMLHttpRequest").new_();

using emscripten::class_;

   * Binding for the class.
    .function("on_readystate", &MiniXhr::on_readystate)

   * More generic binding to bind a functor with one argument (event handler get the event)
   * Here std::function call operator from C++ is bound to function opcall() in JS.
    .function("opcall", &std::function<void(emscripten::val)>::operator());


 * Finally the interesting part : binding the member function on_readystate to the readystatechange event of XMLHttpRequest.

 void MiniXhr::GET() { 

   * Here this lambda could be put as function in a library, to do an JS(std::bind), 
   * it should just be overloaded for different argument count. (Im on it).
  auto jsbind = [](val& target, const char* property, auto bind_expression ) {

    // Create an std::function from the bind expression
    std::function<void(emscripten::val)> functor = bind_expression;

    // We ensure the correct object will always be bound to the this of the function
    auto functor_adapter = val(functor)["opcall"].call<val>("bind", val(functor)); 

    // Finally we simply set the eventhandler
    target.set(property, functor_adapter);

  // Here we could bind as many member function as we want.

//    jsbind(xhr, "onload", std::bind(&MiniXhr::on_load, shared_from_this(), std::placeholders::_1));
//    jsbind(xhr, "onerror", std::bind(&MiniXhr::on_error, shared_from_this(), std::placeholders::_1));
//    jsbind(xhr, "onprogress", std::bind(&MiniXhr::on_progress, shared_from_this(), std::placeholders::_1));
  jsbind(xhr, "onreadystatechange", std::bind(&MiniXhr::on_readystate, shared_from_this(), std::placeholders::_1));

  // Note that we bind with shared_from_this(), as the scope where the class was instantiated may be dead
  // and only later our callback will come back.

 xhr.call<val>("open", std::string("GET"), url_, true);

int main(int argc, char** argv) {

  auto x = std::make_shared<MiniXhr>();

  return 0;

Here's something I used a long while back when tinkering w/ Emscripten in C code:

void myfun(void(*f)(void)) { (*f)() }

and then here would be the JavaScript:

var theparty = Runtime.addFunction(function() { print("Will there be confetti?") });
Module.ccall("myfun", "number", ["number"], [theparty]);
Runtime.removeFunction(theparty); // output => Will there be confetti?

I always remove a function that is no longer needed after its execution to preserve memory. This is a simple and seamless way to make code bits work together. You can obviously modify this to do whatever you want other than printing out information. :P


I'm not sure about emscripten, but to sum up, I understand that what you need to know is how to pass a C++ function as a handle to another C++ function. I hope I can help with that.

JavaScript, PHP, and other more flexible languages, allow a function object to be passed through. In C and C++, it is slightly different, you have to pass function pointers as arguments to other functions. In C, the name for this is a Callback, rather than a handle.

For instance:

/* This function takes a single callback as a parameter. */
//here we say that the parameter, that we name numberSource, is a function that receives no parameters itself (void), and return an int
void printNumber(int (*numberSource)(void)) {
    printf("%d", numberSource());

/* A possible callback */
int oneExampleFunction(void) {
    return 100;

/* Another possible callback. */
int otherExampleFunction(void) {
    return 200;

/* This is how we would call printNumber with three different callbacks. */

//with "&" we are referencing the memory address of the function, 
//since thats what printNumber is expecting
printNumber(&rand); //where are using rand(), a system function, that works as well. 

It is a common practice to create a custom type to the argument, so you don't need to use something as ugly as int (*numberSource)(void). It will be something like:

//Function pointer called CallbackType that takes a float
//and returns an int
typedef int (*NameYouWantForTheType)(void);  

So the printNumber function would be like this:

void printNumber(NameYouWantForTheType numberSource ) {
    printf("%d", numberSource());

So, in your case, if you want to translate this JS code

var myfun = function() { /* do something meaningful here */ }

to C, and you have a C object called "document" that receives a function that performs some other actions, your C code will be:

void myfun (void) {
  /* do something meaningful here */


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