raze-gles/source/common/inputstate.h

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C
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#pragma once
#include <stdint.h>
#include "tarray.h"
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#include "scancodes.h"
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#include "c_bind.h"
#include "c_buttons.h"
#include "d_event.h"
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#include "osd.h"
extern char appactive;
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typedef uint8_t kb_scancode;
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extern bool GUICapture;
// This encapsulates the entire game-readable input state which previously was spread out across several files.
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enum
{
NUMKEYS = 256,
MAXMOUSEBUTTONS = 10,
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};
extern bool CONTROL_BindsEnabled;
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extern vec2_t g_mousePos;
extern vec2_t g_mouseAbs;
extern bool g_mouseGrabbed;
extern bool g_mouseEnabled;
extern bool g_mouseInsideWindow;
extern bool g_mouseLockedToWindow;
enum EMouseBits
{
LEFT_MOUSE = 1,
RIGHT_MOUSE = 2,
MIDDLE_MOUSE = 4,
THUMB_MOUSE = 8,
WHEELUP_MOUSE = 16,
WHEELDOWN_MOUSE= 32,
THUMB2_MOUSE = 64,
};
enum
{
MOUSE_IDLE = 0,
MOUSE_PRESSED,
MOUSE_HELD,
MOUSE_RELEASED,
};
class InputState
{
enum
{
KEYFIFOSIZ = 64,
};
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uint8_t KeyStatus[NUMKEYS];
char g_keyFIFO[KEYFIFOSIZ];
char g_keyAsciiFIFO[KEYFIFOSIZ];
uint8_t g_keyFIFOpos;
uint8_t g_keyFIFOend;
uint8_t g_keyAsciiPos;
uint8_t g_keyAsciiEnd;
kb_scancode KB_LastScan;
int g_mouseBits;
uint8_t g_mouseClickState;
public:
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uint8_t GetKeyStatus(int key)
{
return KeyStatus[key];
}
void SetKeyStatus(int key, int state = 1)
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{
KeyStatus[key] = (uint8_t)state;
}
void ClearKeyStatus(int key)
{
KeyStatus[key] = 0;
}
void ClearAllKeyStatus()
{
memset(KeyStatus, 0, sizeof(KeyStatus));
}
bool AltPressed()
{
return KeyStatus[sc_LeftAlt] || KeyStatus[sc_RightAlt];
}
bool CtrlPressed()
{
return KeyStatus[sc_LeftControl] || KeyStatus[sc_RightControl];
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}
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bool WinPressed()
{
return KeyStatus[sc_LeftWin] || KeyStatus[sc_RightWin];
}
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bool ShiftPressed()
{
return KeyStatus[sc_LeftShift] || KeyStatus[sc_RightShift];
}
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bool EscapePressed()
{
return !!KeyStatus[sc_Escape];
}
void SetBindsEnabled(bool on)
{
// This just forwards the setting
CONTROL_BindsEnabled = on;
}
bool keyBufferWaiting()
{
return (g_keyAsciiPos != g_keyAsciiEnd);
}
int keyBufferFull(void)
{
return ((g_keyAsciiEnd + 1) & (KEYFIFOSIZ - 1)) == g_keyAsciiPos;
}
void keyBufferInsert(char code)
{
g_keyAsciiFIFO[g_keyAsciiEnd] = code;
g_keyAsciiEnd = ((g_keyAsciiEnd + 1) & (KEYFIFOSIZ - 1));
}
void keySetState(int32_t key, int32_t state)
{
if (state && !GetKeyStatus(key))
{
KB_LastScan = key;
}
SetKeyStatus(key, state);
event_t ev = { (uint8_t)(state ? EV_KeyDown : EV_KeyUp), 0, (int16_t)key };
if (state)
{
g_keyFIFO[g_keyFIFOend] = key;
g_keyFIFO[(g_keyFIFOend + 1) & (KEYFIFOSIZ - 1)] = state;
g_keyFIFOend = ((g_keyFIFOend + 2) & (KEYFIFOSIZ - 1));
}
}
char keyGetScan(void)
{
if (g_keyFIFOpos == g_keyFIFOend)
return 0;
char const c = g_keyFIFO[g_keyFIFOpos];
g_keyFIFOpos = ((g_keyFIFOpos + 2) & (KEYFIFOSIZ - 1));
return c;
}
void keyFlushScans(void)
{
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memset(&g_keyFIFO, 0, sizeof(g_keyFIFO));
g_keyFIFOpos = g_keyFIFOend = 0;
}
//
// character-based input functions
//
char keyGetChar(void)
{
if (g_keyAsciiPos == g_keyAsciiEnd)
return 0;
char const c = g_keyAsciiFIFO[g_keyAsciiPos];
g_keyAsciiPos = ((g_keyAsciiPos + 1) & (KEYFIFOSIZ - 1));
return c;
}
void keySetChar(int key)
{
g_keyAsciiFIFO[g_keyAsciiEnd] = key;
g_keyAsciiEnd = ((g_keyAsciiEnd + 1) & (KEYFIFOSIZ - 1));
}
void keyFlushChars(void)
{
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memset(&g_keyAsciiFIFO, 0, sizeof(g_keyAsciiFIFO));
g_keyAsciiPos = g_keyAsciiEnd = 0;
}
inline bool UnboundKeyPressed(int scan)
{
return (GetKeyStatus(scan) != 0 && Bindings.GetBind(scan) == nullptr);
}
kb_scancode GetLastScanCode()
{
return (KB_LastScan);
}
void SetLastScanCode(kb_scancode scancode)
{
KB_LastScan = (scancode);
}
void ClearLastScanCode()
{
KB_LastScan = sc_None;
}
void ClearKeysDown(void)
{
KB_LastScan = 0;
ClearAllKeyStatus();
}
void mouseSetBit(int val, int state)
{
if (state) g_mouseBits |= val;
else g_mouseBits &=~val;
}
void handleevents_updatemousestate(uint8_t state)
{
g_mouseClickState = state == EV_KeyUp ? MOUSE_RELEASED : MOUSE_PRESSED;
}
void AddEvent(const event_t *ev)
{
// Set the old mouseBits. Yet another piece of cruft that needs to go away.
if (ev->type == EV_KeyDown || ev->type == EV_KeyUp)
{
switch (ev->data1)
{
case KEY_MOUSE1 : mouseSetBit(LEFT_MOUSE, ev->type == EV_KeyDown); handleevents_updatemousestate(ev->type); break;
case KEY_MOUSE2 : mouseSetBit(RIGHT_MOUSE, ev->type == EV_KeyDown); break;
case KEY_MOUSE3 : mouseSetBit(MIDDLE_MOUSE, ev->type == EV_KeyDown); break;
case KEY_MOUSE4 : mouseSetBit(THUMB_MOUSE, ev->type == EV_KeyDown); break;
case KEY_MWHEELUP: mouseSetBit(WHEELUP_MOUSE, ev->type == EV_KeyDown); break;
case KEY_MWHEELDOWN: mouseSetBit(WHEELDOWN_MOUSE, ev->type == EV_KeyDown); break;
case KEY_MOUSE5: mouseSetBit(THUMB2_MOUSE, ev->type == EV_KeyDown); break;
default: break;
}
}
keySetState(ev->data1, ev->type == EV_KeyDown);
if (ev->data2) keySetChar(ev->data2);
}
int32_t mouseReadButtons(void)
{
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return (!g_mouseEnabled || !appactive || !g_mouseInsideWindow || GUICapture) ? 0 : g_mouseBits;
}
int mouseClickState()
{
return g_mouseClickState;
}
void clearMouseClickState()
{
g_mouseClickState = MOUSE_IDLE;
}
int32_t mouseAdvanceClickState(void)
{
switch (g_mouseClickState)
{
case MOUSE_PRESSED: g_mouseClickState = MOUSE_HELD; return 1;
case MOUSE_RELEASED: g_mouseClickState = MOUSE_IDLE; return 1;
case MOUSE_HELD: return 1;
}
return 0;
}
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int32_t MouseGetButtons(void) { return mouseReadButtons(); }
inline void MouseClearButton(int32_t b) { g_mouseBits &= ~b; }
inline void MouseClearAllButtonss(void) { g_mouseBits = 0; }
};
extern InputState inputState;