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vcmi/client/gui/CGuiHandler.h
2023-05-01 17:59:20 +03:00

209 lines
6.8 KiB
C++

/*
* CGuiHandler.h, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
#pragma once
#include "MouseButton.h"
#include "../../lib/Point.h"
VCMI_LIB_NAMESPACE_BEGIN
template <typename T> struct CondSh;
class Rect;
VCMI_LIB_NAMESPACE_END
union SDL_Event;
struct SDL_MouseMotionEvent;
class ShortcutHandler;
class CFramerateManager;
class IStatusBar;
class CIntObject;
class IUpdateable;
class IShowActivatable;
class IShowable;
// TODO: event handling need refactoring
enum class EUserEvent
{
/*CHANGE_SCREEN_RESOLUTION = 1,*/
RETURN_TO_MAIN_MENU = 2,
//STOP_CLIENT = 3,
RESTART_GAME = 4,
RETURN_TO_MENU_LOAD,
FULLSCREEN_TOGGLED,
CAMPAIGN_START_SCENARIO,
FORCE_QUIT, //quit client without question
};
// A fps manager which holds game updates at a constant rate
class CFramerateManager
{
private:
double rateticks;
ui32 lastticks;
ui32 timeElapsed;
int rate;
int fps; // the actual fps value
ui32 accumulatedTime;
ui32 accumulatedFrames;
public:
CFramerateManager(); // initializes the manager with a given fps rate
void init(int newRate); // needs to be called directly before the main game loop to reset the internal timer
void framerateDelay(); // needs to be called every game update cycle
ui32 getElapsedMilliseconds() const {return this->timeElapsed;}
ui32 getFrameNumber() const { return accumulatedFrames; }
ui32 getFramerate() const { return fps; };
};
// Handles GUI logic and drawing
class CGuiHandler
{
public:
CFramerateManager * mainFPSmng; //to keep const framerate
std::list<std::shared_ptr<IShowActivatable>> listInt; //list of interfaces - front=foreground; back = background (includes adventure map, window interfaces, all kind of active dialogs, and so on)
std::shared_ptr<IStatusBar> statusbar;
private:
Point cursorPosition;
uint32_t mouseButtonsMask;
std::vector<std::shared_ptr<IShowActivatable>> disposed;
std::unique_ptr<ShortcutHandler> shortcutsHandlerInstance;
std::atomic<bool> continueEventHandling;
using CIntObjectList = std::list<CIntObject *>;
//active GUI elements (listening for events
CIntObjectList lclickable;
CIntObjectList rclickable;
CIntObjectList mclickable;
CIntObjectList hoverable;
CIntObjectList keyinterested;
CIntObjectList motioninterested;
CIntObjectList timeinterested;
CIntObjectList wheelInterested;
CIntObjectList doubleClickInterested;
CIntObjectList textInterested;
void handleMouseButtonClick(CIntObjectList & interestedObjs, MouseButton btn, bool isPressed);
void processLists(const ui16 activityFlag, std::function<void (std::list<CIntObject*> *)> cb);
void handleCurrentEvent(SDL_Event &current);
void handleMouseMotion(const SDL_Event & current);
void handleMoveInterested( const SDL_MouseMotionEvent & motion );
void convertTouchToMouse(SDL_Event * current);
void fakeMoveCursor(float dx, float dy);
void fakeMouseButtonEventRelativeMode(bool down, bool right);
public:
void handleElementActivate(CIntObject * elem, ui16 activityFlag);
void handleElementDeActivate(CIntObject * elem, ui16 activityFlag);
public:
//objs to blit
std::vector<std::shared_ptr<IShowActivatable>> objsToBlit;
/// returns current position of mouse cursor, relative to vcmi window
const Point & getCursorPosition() const;
ShortcutHandler & shortcutsHandler();
Point screenDimensions() const;
/// returns true if at least one mouse button is pressed
bool isMouseButtonPressed() const;
/// returns true if specified mouse button is pressed
bool isMouseButtonPressed(MouseButton button) const;
/// returns true if chosen keyboard key is currently pressed down
bool isKeyboardAltDown() const;
bool isKeyboardCtrlDown() const;
bool isKeyboardShiftDown() const;
void startTextInput(const Rect & where);
void stopTextInput();
/// moves mouse pointer into specified position inside vcmi window
void moveCursorToPosition(const Point & position);
IUpdateable *curInt;
Point lastClick;
unsigned lastClickTime;
bool multifinger;
bool isPointerRelativeMode;
float pointerSpeedMultiplier;
ui8 defActionsDef; //default auto actions
bool captureChildren; //all newly created objects will get their parents from stack and will be added to parents children list
std::list<CIntObject *> createdObj; //stack of objs being created
CGuiHandler();
~CGuiHandler();
void init();
void renderFrame();
void totalRedraw(); //forces total redraw (using showAll), sets a flag, method gets called at the end of the rendering
void simpleRedraw(); //update only top interface and draw background from buffer, sets a flag, method gets called at the end of the rendering
void pushInt(std::shared_ptr<IShowActivatable> newInt); //deactivate old top interface, activates this one and pushes to the top
template <typename T, typename ... Args>
void pushIntT(Args && ... args)
{
auto newInt = std::make_shared<T>(std::forward<Args>(args)...);
pushInt(newInt);
}
void popInts(int howMany); //pops one or more interfaces - deactivates top, deletes and removes given number of interfaces, activates new front
void popInt(std::shared_ptr<IShowActivatable> top); //removes given interface from the top and activates next
std::shared_ptr<IShowActivatable> topInt(); //returns top interface
void updateTime(); //handles timeInterested
void handleEvents(); //takes events from queue and calls interested objects
void fakeMouseMove();
void breakEventHandling(); //current event won't be propagated anymore
void drawFPSCounter(); // draws the FPS to the upper left corner of the screen
static bool amIGuiThread();
static void pushUserEvent(EUserEvent usercode);
static void pushUserEvent(EUserEvent usercode, void * userdata);
CondSh<bool> * terminate_cond; // confirm termination
};
extern CGuiHandler GH; //global gui handler
struct SObjectConstruction
{
CIntObject *myObj;
SObjectConstruction(CIntObject *obj);
~SObjectConstruction();
};
struct SSetCaptureState
{
bool previousCapture;
ui8 prevActions;
SSetCaptureState(bool allow, ui8 actions);
~SSetCaptureState();
};
#define OBJ_CONSTRUCTION SObjectConstruction obj__i(this)
#define OBJ_CONSTRUCTION_TARGETED(obj) SObjectConstruction obj__i(obj)
#define OBJECT_CONSTRUCTION_CAPTURING(actions) defActions = actions; SSetCaptureState obj__i1(true, actions); SObjectConstruction obj__i(this)
#define OBJECT_CONSTRUCTION_CUSTOM_CAPTURING(actions) SSetCaptureState obj__i1(true, actions); SObjectConstruction obj__i(this)
#define OBJ_CONSTRUCTION_CAPTURING_ALL_NO_DISPOSE defActions = 255 - DISPOSE; SSetCaptureState obj__i1(true, 255 - DISPOSE); SObjectConstruction obj__i(this)