barrier/client/CXWindowsSecondaryScreen.h
crs 504bfa2def checkpoint. adding screen saver support. only on X so far
and untested.  also some known problems:  not detecting an
xscreensaver started after us and not detecting built-in
screen saver activation (not sure if we can without using
ugly extensions).
2002-06-22 19:20:21 +00:00

121 lines
3.6 KiB
C++

#ifndef CXWINDOWSSECONDARYSCREEN_H
#define CXWINDOWSSECONDARYSCREEN_H
#include "CXWindowsScreen.h"
#include "ISecondaryScreen.h"
#include "stdmap.h"
#include "stdvector.h"
class CXWindowsSecondaryScreen : public CXWindowsScreen,
public ISecondaryScreen {
public:
CXWindowsSecondaryScreen();
virtual ~CXWindowsSecondaryScreen();
// ISecondaryScreen overrides
virtual void run();
virtual void stop();
virtual void open(CClient*);
virtual void close();
virtual void enter(SInt32 xAbsolute, SInt32 yAbsolute,
KeyModifierMask mask);
virtual void leave();
virtual void keyDown(KeyID, KeyModifierMask);
virtual void keyRepeat(KeyID, KeyModifierMask, SInt32 count);
virtual void keyUp(KeyID, KeyModifierMask);
virtual void mouseDown(ButtonID);
virtual void mouseUp(ButtonID);
virtual void mouseMove(SInt32 xAbsolute, SInt32 yAbsolute);
virtual void mouseWheel(SInt32 delta);
virtual void setClipboard(ClipboardID, const IClipboard*);
virtual void grabClipboard(ClipboardID);
virtual void screenSaver(bool activate);
virtual void getMousePos(SInt32& x, SInt32& y) const;
virtual void getShape(SInt32&, SInt32&, SInt32&, SInt32&) const;
virtual SInt32 getJumpZoneSize() const;
virtual void getClipboard(ClipboardID, IClipboard*) const;
protected:
// CXWindowsScreen overrides
virtual void onOpenDisplay(Display*);
virtual CXWindowsClipboard*
createClipboard(ClipboardID);
virtual void onCloseDisplay(Display*);
virtual void onLostClipboard(ClipboardID);
private:
enum EKeyAction { kPress, kRelease, kRepeat };
class KeyCodeMask {
public:
KeyCode m_keycode;
unsigned int m_keyMask;
unsigned int m_keyMaskMask;
};
class Keystroke {
public:
KeyCode m_keycode;
Bool m_press;
bool m_repeat;
};
typedef std::vector<Keystroke> Keystrokes;
typedef std::vector<KeyCode> KeyCodes;
typedef std::map<KeyID, KeyCodeMask> KeyCodeMap;
typedef std::map<KeyCode, unsigned int> ModifierMap;
void leaveNoLock(Display*);
unsigned int mapButton(ButtonID button) const;
unsigned int mapKey(Keystrokes&, KeyCode&, KeyID,
KeyModifierMask, EKeyAction) const;
bool findKeyCode(KeyCode&, unsigned int&,
KeyID id, unsigned int) const;
void doKeystrokes(const Keystrokes&, SInt32 count);
unsigned int maskToX(KeyModifierMask) const;
void updateKeys(Display* display);
void updateKeycodeMap(Display* display);
void updateModifiers(Display* display);
void updateModifierMap(Display* display);
void toggleKey(Display*, KeySym, unsigned int mask);
static bool isToggleKeysym(KeySym);
private:
CClient* m_client;
Window m_window;
// note toggle keys that toggles on up/down (false) or on
// transition (true)
bool m_numLockHalfDuplex;
bool m_capsLockHalfDuplex;
// set entries indicate keys that are pressed. indexed by keycode.
bool m_keys[256];
// current active modifiers (X key masks)
unsigned int m_mask;
// maps key IDs to X keycodes and the X modifier key mask needed
// to generate the right keysym
KeyCodeMap m_keycodeMap;
// the modifiers that have keys bound to them
unsigned int m_modifierMask;
// set bits indicate modifiers that toggle (e.g. caps-lock)
unsigned int m_toggleModifierMask;
// masks that indicate which modifier bits are for toggle keys
unsigned int m_numLockMask;
unsigned int m_capsLockMask;
unsigned int m_scrollLockMask;
// map X modifier key indices to the key codes bound to them
unsigned int m_keysPerModifier;
KeyCodes m_modifierToKeycode;
// maps keycodes to modifier indices
ModifierMap m_keycodeToModifier;
};
#endif