我正在学习 emscripten 并试图更好地理解它。据我了解,它主要用于将现有 C/C++ 代码移植到 Web 客户端(浏览器)并从 JavaScript 调用 C/C++ 代码的用例。
但我想知道是否可以将 C++ 和 Emscripten 用于网页(注意:这更多是出于好奇 - 我知道目前没有太多好的理由这样做)。我设法从 C++ 调用 Javascript 函数并将字符串、int、double 等类型的参数传递给它们。但我缺少的是:从 C++ 调用 Javascript 函数并将 C 或 C++ 函数作为句柄传递。举个简单的例子:我将如何在纯 C++ 中编写以下 Javascript 代码?
var myfun = function() { /* do something meaningful here */ }
document.onload(myfun);
TL;博士;
我写了一个库:js-bind,它接受任意数量的参数来轻松做到这一点:
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));
这个库是一些基于下面解释的宏元编程。
详细回答:
您有不同的可能性,例如 emscripten ccall,但我认为更容易使用的是 Embind。
例如,从 C++ 中获取 XMLHttpRequest 的绑定事件处理程序。
要启用它,您必须编译: --bind -s NO_EXIT_RUNTIME=1
可以使用独立函数和单例轻松实现它,如下所示:
#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;
EMSCRIPTEN_BINDINGS(xhr) {
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("http://127.0.0.1:8080/CMakeCache.txt"), true);
// Here I set the callback to &on_load function registered via the EMSCRIPTEN_BINDINGS macro.
xhr::singleton().set("onload",val::module_property("on_load"));
xhr::singleton().set("onprogress",val::module_property("on_progress"));
xhr::singleton().set("onerror",val::module_property("on_error"));
xhr::singleton().call<val>("send");
return 0;
}
通常在 C++ 中,我们习惯于 std::bind 回调。这也可以实现,以更简洁的方式以 xhr 为例:
#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;
public:
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;
}
private:
url_t url_;
val xhr = val::global("XMLHttpRequest").new_();
};
using emscripten::class_;
EMSCRIPTEN_BINDINGS(MiniXhr) {
/**
* Binding for the class.
*/
class_<MiniXhr>("MiniXhr")
.smart_ptr<std::shared_ptr<MiniXhr>>("shared_ptr<MiniXhr>")
.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.
*/
class_<std::function<void(emscripten::val)>>("VoidValFunctor")
.constructor<>()
.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);
xhr.call<val>("send");
}
int main(int argc, char** argv) {
auto x = std::make_shared<MiniXhr>();
x->set_url("notfound.json");
x->GET();
return 0;
}
这是我很久以前在 C 代码中使用 Emscripten 修补时使用的东西:
void myfun(void(*f)(void)) { (*f)() }
然后是 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?
我总是删除执行后不再需要的函数以保留内存。这是使代码位一起工作的简单且无缝的方法。除了打印信息之外,您显然可以修改它来做任何您想做的事情。:P
我不确定 emscripten,但总而言之,我知道您需要知道的是如何将 C++ 函数作为句柄传递给另一个 C++ 函数。我希望我能帮上忙。
JavaScript、PHP 和其他更灵活的语言允许传递函数对象。在 C 和 C++ 中,略有不同,您必须将函数指针作为参数传递给其他函数。在 C 中,它的名称是回调,而不是句柄。
例如:
/* 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(&oneExampleFunction);
printNumber(&otherExampleFunction);
printNumber(&rand); //where are using rand(), a system function, that works as well.
为参数创建自定义类型是一种常见的做法,因此您不需要使用像int (*numberSource)(void). 它会是这样的:
//Function pointer called CallbackType that takes a float
//and returns an int
typedef int (*NameYouWantForTheType)(void);
所以 printNumber 函数应该是这样的:
void printNumber(NameYouWantForTheType numberSource ) {
printf("%d", numberSource());
}
所以,在你的情况下, 如果你想翻译这个 JS 代码
var myfun = function() { /* do something meaningful here */ }
document.onload(myfun);
到 C,并且你有一个名为“document”的 C 对象,它接收一个执行其他操作的函数,你的 C 代码将是:
void myfun (void) {
/* do something meaningful here */
}
document.onload(&myfun);