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choc_MessageLoop.h
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choc_MessageLoop.h
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//
// ██████ ██ ██ ██████ ██████
// ██ ██ ██ ██ ██ ██ ** Classy Header-Only Classes **
// ██ ███████ ██ ██ ██
// ██ ██ ██ ██ ██ ██ https://github.com/Tracktion/choc
// ██████ ██ ██ ██████ ██████
//
// CHOC is (C)2022 Tracktion Corporation, and is offered under the terms of the ISC license:
//
// Permission to use, copy, modify, and/or distribute this software for any purpose with or
// without fee is hereby granted, provided that the above copyright notice and this permission
// notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
// WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
// AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR
// CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
// WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
// CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
#ifndef CHOC_MESSAGELOOP_HEADER_INCLUDED
#define CHOC_MESSAGELOOP_HEADER_INCLUDED
#include <memory>
#include <string>
#include <functional>
#include <mutex>
#include <chrono>
#include "../platform/choc_Platform.h"
#include "../platform/choc_Assert.h"
//==============================================================================
/**
This namespace provides some bare-minimum event loop and message dispatch
functions.
Note that on Linux this uses GTK, so to build it you'll need to:
1. Install the libgtk-3-dev package.
2. Link the gtk+3.0 library in your build.
You might want to have a look inside choc/tests/CMakeLists.txt for
an example of how to add this packages to your build without too
much fuss.
*/
namespace choc::messageloop
{
/// On some platforms (yep, I mean Windows), it's only possible to send
/// messages after some initialisation has been run on the message thread
/// itself.
/// If you call choc::messageloop::run(), then that will automatically
/// set things up correctly and you don't need to call this function.
/// But if you're running in a program where there's a 3rd-party event
/// loop, you'll need to manually call choc::messageloop::initialise() on
/// your application's message thread at the start of your program to make
/// sure that any threaded calls to postMessage() work correctly.
void initialise();
/// Synchronously runs the system message loop.
void run();
/// Posts a message to make the message loop exit and terminate the app.
void stop();
/// Posts a function be invoked asynchronously by the message thread.
///
/// Tip: if you might need to cancel the callback after posting it,
/// you could use a `choc::threading::ThreadSafeFunctor` to wrap your
/// target function, which lets you safely nullify it.
void postMessage (std::function<void()>&&);
/// Returns true if the current thread is the message thread.
bool callerIsOnMessageThread();
//==============================================================================
/// Manages a periodic timer whose callbacks happen on the message loop.
///
/// You can create a Timer with a callback function and interval, and the
/// function will be repeatedly called (on the message thread) until the Timer
/// is deleted, or clear() is called, or the callback function returns false.
///
struct Timer
{
Timer() = default;
Timer (const Timer&) = delete;
Timer (Timer&&) = default;
Timer& operator= (Timer&&) = default;
~Timer() = default;
/// The callback function should return true to keep the
/// timer running, or false to stop it.
using Callback = std::function<bool()>;
/// Creates and starts a Timer for a particular interval (in
/// milliseconds) and a callback.
/// The callback will continue to be called at this interval
/// until either the Timer object is deleted, or clear() is
/// called, or the callback returns `false`.
Timer (uint32_t intervalMillisecs,
Callback&& callbackFunction);
/// Stops and clears the timer. (You can also clear a Timer
/// by assigning an empty Timer to it).
void clear() { pimpl.reset(); }
/// Returns true if the Timer has been initialised with
/// a callback, or false if it's just an empty object.
operator bool() const { return pimpl != nullptr; }
private:
struct Pimpl;
std::unique_ptr<Pimpl> pimpl;
};
}
//==============================================================================
// _ _ _ _
// __| | ___ | |_ __ _ (_)| | ___
// / _` | / _ \| __| / _` || || |/ __|
// | (_| || __/| |_ | (_| || || |\__ \ _ _ _
// \__,_| \___| \__| \__,_||_||_||___/(_)(_)(_)
//
// Code beyond this point is implementation detail...
//
//==============================================================================
#if CHOC_LINUX
#include <thread>
#include "../platform/choc_DisableAllWarnings.h"
#include <gtk/gtk.h>
#include "../platform/choc_ReenableAllWarnings.h"
namespace choc::messageloop
{
inline std::thread::id& getMainThreadIDRef()
{
static std::thread::id i;
return i;
}
inline void initialise()
{
getMainThreadIDRef() = std::this_thread::get_id();
}
inline void run()
{
initialise();
gtk_main();
}
inline void stop()
{
gtk_main_quit();
}
inline void postMessage (std::function<void()>&& fn)
{
g_idle_add_full (G_PRIORITY_HIGH_IDLE,
(GSourceFunc) ([](void* f) -> int
{
(*static_cast<std::function<void()>*>(f))();
return G_SOURCE_REMOVE;
}),
new std::function<void()> (std::move (fn)),
[] (void* f) { delete static_cast<std::function<void()>*>(f); });
}
inline bool callerIsOnMessageThread()
{
return getMainThreadIDRef() == std::this_thread::get_id();
}
struct Timer::Pimpl
{
Pimpl (Callback&& c, uint32_t interval)
{
sharedState = std::make_shared<SharedState>();
sharedState->callback = std::move (c);
handle = g_timeout_add (interval, staticCallback, this);
}
~Pimpl()
{
if (sharedState->isInCallback)
sharedState->isRunning = false;
else if (sharedState->isRunning)
g_source_remove (handle);
}
static gboolean staticCallback (gpointer context)
{
auto state = static_cast<Pimpl*> (context)->sharedState; // keep a local shared_ptr
return state->handleCallback();
}
struct SharedState : public std::enable_shared_from_this<SharedState>
{
Callback callback;
bool isInCallback = false, isRunning = true;
bool handleCallback()
{
isInCallback = true;
bool result = callback();
isInCallback = false;
if (! result)
isRunning = false;
return isRunning;
}
};
std::shared_ptr<SharedState> sharedState;
guint handle;
};
//==============================================================================
#elif CHOC_APPLE
#include <thread>
#include <unordered_set>
#include <objc/runtime.h>
#include <objc/message.h>
#include <dispatch/dispatch.h>
#include <type_traits>
namespace choc::objc
{
static inline id getClass (const char* s) { return (id) objc_getClass (s); }
template <typename ReturnType, typename... Args>
static ReturnType call (id target, const char* selector, Args... args)
{
constexpr const auto msgSend = ([]
{
#if defined (__x86_64__)
if constexpr (std::is_void_v<ReturnType>)
return objc_msgSend;
else if constexpr (sizeof (ReturnType) > 16)
return objc_msgSend_stret;
else
return objc_msgSend;
#elif defined (__arm64__)
return objc_msgSend;
#else
#error "Unknown or unsupported architecture!"
#endif
})();
return reinterpret_cast<ReturnType(*)(id, SEL, Args...)> (msgSend) (target, sel_registerName (selector), args...);
}
static inline std::string getString (id nsString) { return std::string (call<const char*> (nsString, "UTF8String")); }
static inline id getNSString (const char* s) { return call<id> (getClass ("NSString"), "stringWithUTF8String:", s); }
static inline id getNSString (const std::string& s) { return getNSString (s.c_str()); }
static inline id getNSNumberBool (bool b) { return call<id> (getClass ("NSNumber"), "numberWithBool:", (BOOL) b); }
static inline id getSharedNSApplication() { return call<id> (getClass ("NSApplication"), "sharedApplication"); }
static inline Class createDelegateClass (const char* baseClass, const char* root)
{
auto time = std::chrono::high_resolution_clock::now().time_since_epoch();
auto micros = std::chrono::duration_cast<std::chrono::microseconds> (time).count();
auto uniqueDelegateName = root + std::to_string (static_cast<uint32_t> (micros));
auto c = objc_allocateClassPair (objc_getClass (baseClass), uniqueDelegateName.c_str(), 0);
CHOC_ASSERT (c);
return c;
}
#if __has_feature(objc_arc)
#define CHOC_AUTORELEASE_BEGIN @autoreleasepool {
#define CHOC_AUTORELEASE_END }
#define CHOC_OBJC_CAST_BRIDGED __bridge
#else
struct AutoReleasePool
{
AutoReleasePool() { pool = call<id> (getClass ("NSAutoreleasePool"), "new"); }
~AutoReleasePool() { call<void> (pool, "release"); }
id pool;
};
#define CHOC_MAKE_AR_NAME2(line) autoreleasePool_ ## line
#define CHOC_MAKE_AR_NAME1(line) CHOC_MAKE_AR_NAME2(line)
#define CHOC_AUTORELEASE_BEGIN { choc::objc::AutoReleasePool CHOC_MAKE_AR_NAME1(__LINE__);
#define CHOC_AUTORELEASE_END }
#define CHOC_OBJC_CAST_BRIDGED
#endif
}
namespace choc::messageloop
{
inline std::thread::id& getMainThreadIDRef()
{
static std::thread::id i;
return i;
}
inline void initialise()
{
getMainThreadIDRef() = std::this_thread::get_id();
}
inline void run()
{
CHOC_AUTORELEASE_BEGIN
initialise();
objc::call<void> (objc::getSharedNSApplication(), "run");
CHOC_AUTORELEASE_END
}
inline void stop()
{
postMessage ([]
{
using namespace choc::objc;
static constexpr long NSEventTypeApplicationDefined = 15;
CHOC_AUTORELEASE_BEGIN
call<void> (getSharedNSApplication(), "stop:", (id) nullptr);
// After sending the stop message, we need to post a dummy event to
// kick the message loop, otherwise it can just sit there and hang
struct NSPoint { double x = 0, y = 0; };
id dummyEvent = call<id> (getClass ("NSEvent"), "otherEventWithType:location:modifierFlags:timestamp:windowNumber:context:subtype:data1:data2:",
NSEventTypeApplicationDefined, NSPoint(), 0, 0, 0, nullptr, (short) 0, 0, 0);
call<void> (getSharedNSApplication(), "postEvent:atStart:", dummyEvent, YES);
CHOC_AUTORELEASE_END
});
}
inline void postMessage (std::function<void()>&& fn)
{
dispatch_async_f (dispatch_get_main_queue(),
new std::function<void()> (std::move (fn)),
(dispatch_function_t) (+[](void* arg)
{
CHOC_AUTORELEASE_BEGIN
std::unique_ptr<std::function<void()>> f (static_cast<std::function<void()>*> (arg));
(*f)();
CHOC_AUTORELEASE_END
}));
}
inline bool callerIsOnMessageThread()
{
return getMainThreadIDRef() == std::this_thread::get_id();
}
struct Timer::Pimpl
{
Pimpl (Callback&& c, uint32_t i) : callback (std::move (c)), interval (i)
{
getList().add (this);
dispatch();
}
~Pimpl()
{
getList().remove (this);
}
static void staticCallback (void* context)
{
if (getList().invokeIfStillAlive (static_cast<Pimpl*> (context)))
{
CHOC_AUTORELEASE_BEGIN
static_cast<Pimpl*> (context)->dispatch();
CHOC_AUTORELEASE_END
}
}
void dispatch()
{
dispatch_after_f (dispatch_time (DISPATCH_TIME_NOW, interval * 1000000),
dispatch_get_main_queue(), this, staticCallback);
}
Callback callback;
const int64_t interval;
struct TimerList
{
std::recursive_mutex lock;
std::unordered_set<Pimpl*> timers;
bool invokeIfStillAlive (Pimpl* p)
{
std::scoped_lock l (lock);
// must check before AND after the call because the Pimpl
// may be deleted during the callback
return timers.find (p) != timers.end()
&& p->callback()
&& timers.find (p) != timers.end();
}
void add (Pimpl* p)
{
std::scoped_lock l (lock);
timers.insert (p);
}
void remove (Pimpl* p)
{
std::scoped_lock l (lock);
timers.erase (p);
}
};
static TimerList& getList()
{
static TimerList list;
return list;
}
};
//==============================================================================
#elif CHOC_WINDOWS
#undef WIN32_LEAN_AND_MEAN
#define WIN32_LEAN_AND_MEAN
#undef NOMINMAX
#define NOMINMAX
#define Rectangle Rectangle_renamed_to_avoid_name_collisions
#include <windows.h>
#undef Rectangle
namespace choc::messageloop
{
struct MessageWindow
{
MessageWindow()
{
className = "choc_" + std::to_string (rand());
WNDCLASSEXA wc = {};
wc.cbSize = sizeof (wc);
wc.hInstance = GetModuleHandleA (nullptr);
wc.lpszClassName = className.c_str();
wc.lpfnWndProc = windowProc;
RegisterClassExA (std::addressof (wc));
hwnd = CreateWindowA (className.c_str(), "choc", 0, 0, 0, 0, 0,
nullptr, nullptr, wc.hInstance, nullptr);
}
~MessageWindow()
{
DestroyWindow (hwnd);
UnregisterClassA (className.c_str(), nullptr);
}
static LRESULT CALLBACK windowProc (HWND h, UINT message, WPARAM wParam, LPARAM lParam)
{
if (message == WM_APP && wParam == magicWParam)
{
std::unique_ptr<std::function<void()>> f (reinterpret_cast<std::function<void()>*> (lParam));
(*f)();
}
return DefWindowProc (h, message, wParam, lParam);
}
static inline constexpr WPARAM magicWParam = 0xc40cc40c;
HWND hwnd;
std::string className;
DWORD threadID = GetCurrentThreadId();
};
struct LockedMessageWindow
{
MessageWindow& window;
std::unique_lock<std::mutex> lock;
};
inline LockedMessageWindow getSharedMessageWindow (bool recreateIfWrongThread = false)
{
static std::unique_ptr<MessageWindow> window;
static std::mutex lock;
std::unique_lock<std::mutex> l (lock);
if (window == nullptr || (recreateIfWrongThread && window->threadID != GetCurrentThreadId()))
window = std::make_unique<MessageWindow>();
return LockedMessageWindow { *window, std::move (l) };
}
inline void initialise()
{
getSharedMessageWindow (true);
}
inline void run()
{
initialise();
for (;;)
{
MSG msg;
if (GetMessage (std::addressof (msg), nullptr, 0, 0) == -1)
break;
if (msg.message == WM_QUIT)
break;
if (msg.hwnd)
{
TranslateMessage (std::addressof (msg));
DispatchMessage (std::addressof (msg));
}
}
}
inline void stop()
{
postMessage ([] { PostQuitMessage (0); });
}
inline void postMessage (std::function<void()>&& fn)
{
PostMessageA (getSharedMessageWindow().window.hwnd, WM_APP, MessageWindow::magicWParam,
(LPARAM) new std::function<void()> (std::move (fn)));
}
inline bool callerIsOnMessageThread()
{
return getSharedMessageWindow().window.threadID == GetCurrentThreadId();
}
struct Timer::Pimpl
{
Pimpl (Callback&& c, uint32_t interval)
{
sharedState = std::make_shared<SharedState>();
sharedState->callback = std::move (c);
sharedState->timerID = SetTimer (getSharedMessageWindow().window.hwnd, reinterpret_cast<UINT_PTR> (this),
interval, (TIMERPROC) staticCallback);
}
static void staticCallback (HWND, UINT, UINT_PTR p, DWORD) noexcept
{
auto state = reinterpret_cast<Pimpl*>(p)->sharedState; // keep a local shared_ptr
return state->handleCallback();
}
struct SharedState : public std::enable_shared_from_this<SharedState>
{
~SharedState()
{
killTimer();
}
void killTimer()
{
if (timerID != 0)
{
KillTimer (getSharedMessageWindow().window.hwnd, timerID);
timerID = 0;
}
}
void handleCallback()
{
if (! callback())
killTimer();
}
Callback callback;
UINT_PTR timerID = 0;
};
std::shared_ptr<SharedState> sharedState;
};
#else
#error "choc::messageloop only supports OSX, Windows or Linux!"
#endif
inline Timer::Timer (uint32_t interval, Callback&& cb)
{
CHOC_ASSERT (cb != nullptr); // The callback must be a valid function!
pimpl = std::make_unique<Pimpl> (std::move (cb), interval);
}
} // namespace choc::messageloop
#endif // CHOC_MESSAGELOOP_HEADER_INCLUDED