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#pragma once
#include "../Resource.hpp"
#include "Base.hpp"
#include "cru/common/Base.hpp"
#include <chrono>
#include <functional>
#include <memory>
#include <vector>
namespace cru::platform::native {
// The entry point of a ui application.
struct IUiApplication : public virtual INativeResource {
public:
static IUiApplication* GetInstance() { return instance; }
private:
static IUiApplication* instance;
protected:
IUiApplication();
public:
~IUiApplication() override;
// Block current thread and run the message loop. Return the exit code when
// message loop gets a quit message (possibly posted by method RequestQuit).
virtual int Run() = 0;
// Post a quit message with given quit code.
virtual void RequestQuit(int quit_code) = 0;
virtual void AddOnQuitHandler(std::function<void()> handler) = 0;
// Timer id should always be positive (not 0) and never the same. So it's ok
// to use negative value (or 0) to represent no timer.
virtual long long SetImmediate(std::function<void()> action) = 0;
virtual long long SetTimeout(std::chrono::milliseconds milliseconds,
std::function<void()> action) = 0;
virtual long long SetInterval(std::chrono::milliseconds milliseconds,
std::function<void()> action) = 0;
// Implementation should guarantee calls on timer id already canceled have no
// effects and do not crash. Also canceling negative id or 0 should always
// result in no-op.
virtual void CancelTimer(long long id) = 0;
virtual std::vector<INativeWindow*> GetAllWindow() = 0;
virtual std::shared_ptr<INativeWindowResolver> CreateWindow(
INativeWindow* parent) = 0;
virtual cru::platform::graph::IGraphFactory* GetGraphFactory() = 0;
virtual ICursorManager* GetCursorManager() = 0;
virtual IInputMethodManager* GetInputMethodManager() = 0;
};
class TimerAutoCanceler {
public:
TimerAutoCanceler() : id_(0) {}
explicit TimerAutoCanceler(long long id) : id_(id) {}
CRU_DELETE_COPY(TimerAutoCanceler)
TimerAutoCanceler(TimerAutoCanceler&& other) : id_(other.id_) {
other.id_ = 0;
}
TimerAutoCanceler& operator=(TimerAutoCanceler&& other) {
Reset(other.id_);
other.id_ = 0;
return *this;
}
~TimerAutoCanceler() { Reset(); }
long long Release() {
auto temp = id_;
id_ = 0;
return temp;
}
void Reset(long long id = 0) {
if (id_ > 0) IUiApplication::GetInstance()->CancelTimer(id_);
id_ = id;
}
private:
long long id_;
};
class TimerListAutoCanceler {
public:
TimerListAutoCanceler() = default;
CRU_DELETE_COPY(TimerListAutoCanceler)
CRU_DEFAULT_MOVE(TimerListAutoCanceler)
~TimerListAutoCanceler() = default;
TimerListAutoCanceler& operator+=(long long id) {
list_.push_back(TimerAutoCanceler(id));
return *this;
}
void Clear() { list_.clear(); }
bool IsEmpty() const { return list_.empty(); }
private:
std::vector<TimerAutoCanceler> list_;
};
// Bootstrap from this.
std::unique_ptr<IUiApplication> CreateUiApplication();
} // namespace cru::platform::native
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