raze/polymer/eduke32/source/jmact/control.c
terminx 95f7cf0982 "return" is not a function.
git-svn-id: https://svn.eduke32.com/eduke32@5803 1a8010ca-5511-0410-912e-c29ae57300e0
2016-06-21 00:34:41 +00:00

896 lines
24 KiB
C

/*
* control.c
* MACT library controller handling
*
* Derived from MACT386.LIB disassembly by Jonathon Fowler
*
*/
#include "compat.h"
#include "keyboard.h"
#include "mouse.h"
#include "joystick.h"
#include "control.h"
#include "_control.h"
#include "baselayer.h"
#include "osd.h"
#include "pragmas.h"
#ifdef __ANDROID__
#include "android.h"
#endif
int32_t CONTROL_JoyPresent = FALSE;
int32_t CONTROL_JoystickEnabled = FALSE;
int32_t CONTROL_MousePresent = FALSE;
int32_t CONTROL_MouseEnabled = FALSE;
uint64_t CONTROL_ButtonState = 0;
uint64_t CONTROL_ButtonHeldState = 0;
// static int32_t CONTROL_UserInputDelay = -1;
float CONTROL_MouseSensitivity = DEFAULTMOUSESENSITIVITY;
static int32_t CONTROL_NumMouseButtons = 0;
static int32_t CONTROL_NumMouseAxes = 0;
static int32_t CONTROL_NumJoyButtons = 0;
static int32_t CONTROL_NumJoyAxes = 0;
static controlflags CONTROL_Flags[CONTROL_NUM_FLAGS];
static controlbuttontype CONTROL_MouseButtonMapping[MAXMOUSEBUTTONS],
CONTROL_JoyButtonMapping[MAXJOYBUTTONS];
//static controlkeymaptype CONTROL_KeyMapping[CONTROL_NUM_FLAGS];
static controlaxismaptype CONTROL_MouseAxesMap[MAXMOUSEAXES], // maps physical axes onto virtual ones
CONTROL_JoyAxesMap[MAXJOYAXES];
static controlaxistype CONTROL_MouseAxes[MAXMOUSEAXES], // physical axes
CONTROL_JoyAxes[MAXJOYAXES];
static controlaxistype CONTROL_LastMouseAxes[MAXMOUSEAXES],
CONTROL_LastJoyAxes[MAXJOYAXES];
static int32_t CONTROL_MouseAxesScale[MAXMOUSEAXES], CONTROL_JoyAxesScale[MAXJOYAXES];
#ifndef __ANDROID__
static int32_t CONTROL_MouseButtonState[MAXMOUSEBUTTONS], CONTROL_JoyButtonState[MAXJOYBUTTONS];
static int32_t CONTROL_MouseButtonClickedTime[MAXMOUSEBUTTONS], CONTROL_JoyButtonClickedTime[MAXJOYBUTTONS];
static int32_t CONTROL_MouseButtonClickedState[MAXMOUSEBUTTONS], CONTROL_JoyButtonClickedState[MAXJOYBUTTONS];
static int32_t CONTROL_MouseButtonClicked[MAXMOUSEBUTTONS], CONTROL_JoyButtonClicked[MAXJOYBUTTONS];
static uint8_t CONTROL_MouseButtonClickedCount[MAXMOUSEBUTTONS], CONTROL_JoyButtonClickedCount[MAXJOYBUTTONS];
#endif
static int32_t(*ExtGetTime)(void);
int32_t CONTROL_Started = FALSE;
//static int32_t ticrate;
static int32_t CONTROL_DoubleClickSpeed;
int32_t CONTROL_OSDInput[CONTROL_NUM_FLAGS];
keybind CONTROL_KeyBinds[MAXBOUNDKEYS];
keybind CONTROL_MouseBinds[MAXMOUSEBUTTONS];
int32_t CONTROL_BindsEnabled = 0;
int32_t CONTROL_SmoothMouse = 0;
#define CONTROL_CheckRange(which) ((uint32_t)which >= (uint32_t)CONTROL_NUM_FLAGS)
#define BIND(x, s, r, k) do { Bfree(x.cmdstr); x.cmdstr = s; x.repeat = r; x.key = k; } while (0)
void CONTROL_ClearAllBinds(void)
{
int32_t i;
for (i=0; i<MAXBOUNDKEYS; i++)
CONTROL_FreeKeyBind(i);
for (i=0; i<MAXMOUSEBUTTONS; i++)
CONTROL_FreeMouseBind(i);
}
void CONTROL_BindKey(int32_t i, const char *cmd, int32_t repeat, const char *keyname)
{
BIND(CONTROL_KeyBinds[i], Bstrdup(cmd), repeat, keyname);
}
void CONTROL_BindMouse(int32_t i, const char *cmd, int32_t repeat, const char *keyname)
{
BIND(CONTROL_MouseBinds[i], Bstrdup(cmd), repeat, keyname);
}
void CONTROL_FreeKeyBind(int32_t i)
{
BIND(CONTROL_KeyBinds[i], NULL, 0, NULL);
}
void CONTROL_FreeMouseBind(int32_t i)
{
BIND(CONTROL_MouseBinds[i], NULL, 0, NULL);
}
#ifndef __ANDROID__
static void CONTROL_GetMouseDelta(void)
{
int32_t x,y;
MOUSE_GetDelta(&x, &y);
if (CONTROL_SmoothMouse)
{
static int32_t lastx = 0, lasty = 0;
CONTROL_MouseAxes[0].analog = (int32_t)(((x + lastx) / 2.0f) * 4.0f * CONTROL_MouseSensitivity);
CONTROL_MouseAxes[1].analog = (int32_t)((((y + lasty) / 2.0f) * 4.0f * CONTROL_MouseSensitivity) * 2.0f);
lastx = x;
lasty = y;
return;
}
CONTROL_MouseAxes[0].analog = (int32_t)(x * 4.0f * CONTROL_MouseSensitivity);
CONTROL_MouseAxes[1].analog = (int32_t)((y * 4.0f * CONTROL_MouseSensitivity) * 2.0f);
}
#endif
static int32_t CONTROL_GetTime(void)
{
static int32_t t = 0;
t += 5;
return t;
}
#ifndef __ANDROID__
static void CONTROL_SetFlag(int32_t which, int32_t active)
{
if (CONTROL_CheckRange(which)) return;
if (CONTROL_Flags[which].toggle == INSTANT_ONOFF)
{
CONTROL_Flags[which].active = active;
return;
}
if (active)
{
CONTROL_Flags[which].buttonheld = FALSE;
}
else if (CONTROL_Flags[which].buttonheld == FALSE)
{
CONTROL_Flags[which].buttonheld = TRUE;
CONTROL_Flags[which].active = (CONTROL_Flags[which].active ? FALSE : TRUE);
}
}
#endif
#if 0
int32_t CONTROL_KeyboardFunctionPressed(int32_t which)
{
int32_t key1 = 0, key2 = 0;
if (CONTROL_CheckRange(which)) return FALSE;
if (!CONTROL_Flags[which].used) return FALSE;
if (CONTROL_KeyMapping[which].key1 != KEYUNDEFINED && !KeyBindings[CONTROL_KeyMapping[which].key1].cmdstr)
key1 = KB_KeyDown[ CONTROL_KeyMapping[which].key1 ] ? TRUE : FALSE;
if (CONTROL_KeyMapping[which].key2 != KEYUNDEFINED && !KeyBindings[CONTROL_KeyMapping[which].key2].cmdstr)
key2 = KB_KeyDown[ CONTROL_KeyMapping[which].key2 ] ? TRUE : FALSE;
return key1 | key2;
}
void CONTROL_ClearKeyboardFunction(int32_t which)
{
if (CONTROL_CheckRange(which)) return;
if (!CONTROL_Flags[which].used) return;
if (CONTROL_KeyMapping[which].key1 != KEYUNDEFINED)
KB_KeyDown[ CONTROL_KeyMapping[which].key1 ] = 0;
if (CONTROL_KeyMapping[which].key2 != KEYUNDEFINED)
KB_KeyDown[ CONTROL_KeyMapping[which].key2 ] = 0;
}
#endif
void CONTROL_DefineFlag(int32_t which, int32_t toggle)
{
if (CONTROL_CheckRange(which)) return;
CONTROL_Flags[which].active = FALSE;
CONTROL_Flags[which].used = TRUE;
CONTROL_Flags[which].toggle = toggle;
CONTROL_Flags[which].buttonheld = FALSE;
CONTROL_Flags[which].cleared = 0;
}
int32_t CONTROL_FlagActive(int32_t which)
{
if (CONTROL_CheckRange(which)) return FALSE;
return CONTROL_Flags[which].used;
}
#if 0
void CONTROL_MapKey(int32_t which, kb_scancode key1, kb_scancode key2)
{
if (CONTROL_CheckRange(which)) return;
CONTROL_KeyMapping[which].key1 = key1 ? key1 : KEYUNDEFINED;
CONTROL_KeyMapping[which].key2 = key2 ? key2 : KEYUNDEFINED;
}
void CONTROL_PrintKeyMap(void)
{
int32_t i;
for (i=0; i<CONTROL_NUM_FLAGS; i++)
{
initprintf("function %2d key1=%3x key2=%3x\n",
i, CONTROL_KeyMapping[i].key1, CONTROL_KeyMapping[i].key2);
}
}
void CONTROL_PrintControlFlag(int32_t which)
{
initprintf("function %2d active=%d used=%d toggle=%d buttonheld=%d cleared=%d\n",
which, CONTROL_Flags[which].active, CONTROL_Flags[which].used,
CONTROL_Flags[which].toggle, CONTROL_Flags[which].buttonheld,
CONTROL_Flags[which].cleared);
}
void CONTROL_PrintAxes(void)
{
int32_t i;
initprintf("nummouseaxes=%d\n", CONTROL_NumMouseAxes);
for (i=0; i<CONTROL_NumMouseAxes; i++)
{
initprintf("axis=%d analog=%d digital1=%d digital2=%d\n",
i, CONTROL_MouseAxesMap[i].analogmap,
CONTROL_MouseAxesMap[i].minmap, CONTROL_MouseAxesMap[i].maxmap);
}
initprintf("numjoyaxes=%d\n", CONTROL_NumJoyAxes);
for (i=0; i<CONTROL_NumJoyAxes; i++)
{
initprintf("axis=%d analog=%d digital1=%d digital2=%d\n",
i, CONTROL_JoyAxesMap[i].analogmap,
CONTROL_JoyAxesMap[i].minmap, CONTROL_JoyAxesMap[i].maxmap);
}
}
#endif
void CONTROL_MapButton(int32_t whichfunction, int32_t whichbutton, int32_t doubleclicked, controldevice device)
{
controlbuttontype *set;
if (CONTROL_CheckRange(whichfunction)) whichfunction = BUTTONUNDEFINED;
switch (device)
{
case controldevice_mouse:
if ((uint32_t)whichbutton >= (uint32_t)MAXMOUSEBUTTONS)
{
//Error("CONTROL_MapButton: button %d out of valid range for %d mouse buttons.",
// whichbutton, CONTROL_NumMouseButtons);
return;
}
set = CONTROL_MouseButtonMapping;
break;
case controldevice_joystick:
if ((uint32_t)whichbutton >= (uint32_t)MAXJOYBUTTONS)
{
//Error("CONTROL_MapButton: button %d out of valid range for %d joystick buttons.",
// whichbutton, CONTROL_NumJoyButtons);
return;
}
set = CONTROL_JoyButtonMapping;
break;
default:
//Error("CONTROL_MapButton: invalid controller device type");
return;
}
if (doubleclicked)
set[whichbutton].doubleclicked = whichfunction;
else
set[whichbutton].singleclicked = whichfunction;
}
void CONTROL_MapAnalogAxis(int32_t whichaxis, int32_t whichanalog, controldevice device)
{
controlaxismaptype *set;
if ((uint32_t)whichanalog >= (uint32_t)analog_maxtype)
{
//Error("CONTROL_MapAnalogAxis: analog function %d out of valid range for %d analog functions.",
// whichanalog, analog_maxtype);
return;
}
switch (device)
{
case controldevice_mouse:
if ((uint32_t)whichaxis >= (uint32_t)MAXMOUSEAXES)
{
//Error("CONTROL_MapAnalogAxis: axis %d out of valid range for %d mouse axes.",
// whichaxis, MAXMOUSEAXES);
return;
}
set = CONTROL_MouseAxesMap;
break;
case controldevice_joystick:
if ((uint32_t)whichaxis >= (uint32_t)MAXJOYAXES)
{
//Error("CONTROL_MapAnalogAxis: axis %d out of valid range for %d joystick axes.",
// whichaxis, MAXJOYAXES);
return;
}
set = CONTROL_JoyAxesMap;
break;
default:
//Error("CONTROL_MapAnalogAxis: invalid controller device type");
return;
}
set[whichaxis].analogmap = whichanalog;
}
void CONTROL_SetAnalogAxisScale(int32_t whichaxis, int32_t axisscale, controldevice device)
{
int32_t *set;
switch (device)
{
case controldevice_mouse:
if ((uint32_t)whichaxis >= (uint32_t)MAXMOUSEAXES)
{
//Error("CONTROL_SetAnalogAxisScale: axis %d out of valid range for %d mouse axes.",
// whichaxis, MAXMOUSEAXES);
return;
}
set = CONTROL_MouseAxesScale;
break;
case controldevice_joystick:
if ((uint32_t)whichaxis >= (uint32_t)MAXJOYAXES)
{
//Error("CONTROL_SetAnalogAxisScale: axis %d out of valid range for %d joystick axes.",
// whichaxis, MAXJOYAXES);
return;
}
set = CONTROL_JoyAxesScale;
break;
default:
//Error("CONTROL_SetAnalogAxisScale: invalid controller device type");
return;
}
set[whichaxis] = axisscale;
}
void CONTROL_MapDigitalAxis(int32_t whichaxis, int32_t whichfunction, int32_t direction, controldevice device)
{
controlaxismaptype *set;
if (CONTROL_CheckRange(whichfunction)) whichfunction = AXISUNDEFINED;
switch (device)
{
case controldevice_mouse:
if ((uint32_t)whichaxis >= (uint32_t)MAXMOUSEAXES)
{
//Error("CONTROL_MapDigitalAxis: axis %d out of valid range for %d mouse axes.",
// whichaxis, MAXMOUSEAXES);
return;
}
set = CONTROL_MouseAxesMap;
break;
case controldevice_joystick:
if ((uint32_t)whichaxis >= (uint32_t)MAXJOYAXES)
{
//Error("CONTROL_MapDigitalAxis: axis %d out of valid range for %d joystick axes.",
// whichaxis, MAXJOYAXES);
return;
}
set = CONTROL_JoyAxesMap;
break;
default:
//Error("CONTROL_MapDigitalAxis: invalid controller device type");
return;
}
switch (direction) // JBF: this is all very much a guess. The ASM puzzles me.
{
case axis_up:
case axis_left:
set[whichaxis].minmap = whichfunction;
break;
case axis_down:
case axis_right:
set[whichaxis].maxmap = whichfunction;
break;
default:
break;
}
}
void CONTROL_ClearAssignments(void)
{
int32_t i;
memset(CONTROL_MouseButtonMapping, BUTTONUNDEFINED, sizeof(CONTROL_MouseButtonMapping));
memset(CONTROL_JoyButtonMapping, BUTTONUNDEFINED, sizeof(CONTROL_JoyButtonMapping));
// memset(CONTROL_KeyMapping, KEYUNDEFINED, sizeof(CONTROL_KeyMapping));
memset(CONTROL_MouseAxesMap, AXISUNDEFINED, sizeof(CONTROL_MouseAxesMap));
memset(CONTROL_JoyAxesMap, AXISUNDEFINED, sizeof(CONTROL_JoyAxesMap));
memset(CONTROL_MouseAxes, 0, sizeof(CONTROL_MouseAxes));
memset(CONTROL_JoyAxes, 0, sizeof(CONTROL_JoyAxes));
memset(CONTROL_LastMouseAxes, 0, sizeof(CONTROL_LastMouseAxes));
memset(CONTROL_LastJoyAxes, 0, sizeof(CONTROL_LastJoyAxes));
for (i=0; i<MAXMOUSEAXES; i++)
CONTROL_MouseAxesScale[i] = NORMALAXISSCALE;
for (i=0; i<MAXJOYAXES; i++)
CONTROL_JoyAxesScale[i] = NORMALAXISSCALE;
}
#ifndef __ANDROID__
static void DoGetDeviceButtons(
int32_t buttons, int32_t tm,
int32_t NumButtons,
int32_t *DeviceButtonState,
int32_t *ButtonClickedTime,
int32_t *ButtonClickedState,
int32_t *ButtonClicked,
uint8_t *ButtonClickedCount
)
{
int32_t i=NumButtons-1;
for (; i>=0; i--)
{
int32_t bs = (buttons >> i) & 1;
DeviceButtonState[i] = bs;
ButtonClickedState[i] = FALSE;
if (bs)
{
if (ButtonClicked[i] == FALSE)
{
ButtonClicked[i] = TRUE;
if (ButtonClickedCount[i] == 0 || tm > ButtonClickedTime[i])
{
ButtonClickedTime[i] = tm + CONTROL_DoubleClickSpeed;
ButtonClickedCount[i] = 1;
}
else if (tm < ButtonClickedTime[i])
{
ButtonClickedState[i] = TRUE;
ButtonClickedTime[i] = 0;
ButtonClickedCount[i] = 2;
}
}
else if (ButtonClickedCount[i] == 2)
{
ButtonClickedState[i] = TRUE;
}
continue;
}
if (ButtonClickedCount[i] == 2)
ButtonClickedCount[i] = 0;
ButtonClicked[i] = FALSE;
}
}
static void CONTROL_GetDeviceButtons(void)
{
int32_t t = ExtGetTime();
if (CONTROL_MouseEnabled)
{
DoGetDeviceButtons(
MOUSE_GetButtons(), t,
CONTROL_NumMouseButtons,
CONTROL_MouseButtonState,
CONTROL_MouseButtonClickedTime,
CONTROL_MouseButtonClickedState,
CONTROL_MouseButtonClicked,
CONTROL_MouseButtonClickedCount
);
}
if (CONTROL_JoystickEnabled)
{
int32_t buttons = JOYSTICK_GetButtons();
if (joynumhats > 0)
{
int32_t hat = JOYSTICK_GetHat(0);
if (hat != 0)
buttons |= hat << min(MAXJOYBUTTONS,joynumbuttons);
}
DoGetDeviceButtons(
buttons, t,
CONTROL_NumJoyButtons,
CONTROL_JoyButtonState,
CONTROL_JoyButtonClickedTime,
CONTROL_JoyButtonClickedState,
CONTROL_JoyButtonClicked,
CONTROL_JoyButtonClickedCount
);
}
}
static void CONTROL_DigitizeAxis(int32_t axis, controldevice device)
{
controlaxistype *set, *lastset;
switch (device)
{
case controldevice_mouse:
set = CONTROL_MouseAxes;
lastset = CONTROL_LastMouseAxes;
break;
case controldevice_joystick:
set = CONTROL_JoyAxes;
lastset = CONTROL_LastJoyAxes;
break;
default: return;
}
if (set[axis].analog > 0)
{
if (set[axis].analog > THRESHOLD || (set[axis].analog > MINTHRESHOLD && lastset[axis].digital == 1))
set[axis].digital = 1;
}
else
{
if (set[axis].analog < -THRESHOLD || (set[axis].analog < -MINTHRESHOLD && lastset[axis].digital == -1))
set[axis].digital = -1;
}
}
static void CONTROL_ScaleAxis(int32_t axis, controldevice device)
{
controlaxistype *set;
int32_t *scale;
switch (device)
{
case controldevice_mouse:
set = CONTROL_MouseAxes;
scale = CONTROL_MouseAxesScale;
break;
case controldevice_joystick:
set = CONTROL_JoyAxes;
scale = CONTROL_JoyAxesScale;
break;
default: return;
}
set[axis].analog = mulscale16(set[axis].analog, scale[axis]);
}
static void CONTROL_ApplyAxis(int32_t axis, ControlInfo *info, controldevice device)
{
controlaxistype *set;
controlaxismaptype *map;
switch (device)
{
case controldevice_mouse:
set = CONTROL_MouseAxes;
map = CONTROL_MouseAxesMap;
break;
case controldevice_joystick:
set = CONTROL_JoyAxes;
map = CONTROL_JoyAxesMap;
break;
default: return;
}
switch (map[axis].analogmap)
{
case analog_turning: info->dyaw += set[axis].analog; break;
case analog_strafing: info->dx += set[axis].analog; break;
case analog_lookingupanddown: info->dpitch += set[axis].analog; break;
case analog_elevation: info->dy += set[axis].analog; break;
case analog_rolling: info->droll += set[axis].analog; break;
case analog_moving: info->dz += set[axis].analog; break;
default: break;
}
}
static void CONTROL_PollDevices(ControlInfo *info)
{
memset(info, 0, sizeof(ControlInfo));
#ifdef __ANDROID__
CONTROL_Android_PollDevices(info);
#endif
if (CONTROL_MouseEnabled)
{
int32_t i = MAXMOUSEAXES-1;
Bmemcpy(CONTROL_LastMouseAxes, CONTROL_MouseAxes, sizeof(CONTROL_MouseAxes));
memset(CONTROL_MouseAxes, 0, sizeof(CONTROL_MouseAxes));
CONTROL_GetMouseDelta();
for (; i>=0; i--)
{
CONTROL_DigitizeAxis(i, controldevice_mouse);
CONTROL_ScaleAxis(i, controldevice_mouse);
LIMITCONTROL(&CONTROL_MouseAxes[i].analog);
CONTROL_ApplyAxis(i, info, controldevice_mouse);
}
}
if (CONTROL_JoystickEnabled)
{
int32_t i = joynumaxes-1;
Bmemcpy(CONTROL_LastJoyAxes, CONTROL_JoyAxes, sizeof(CONTROL_JoyAxes));
memset(CONTROL_JoyAxes, 0, sizeof(CONTROL_JoyAxes));
for (; i>=0; i--)
{
CONTROL_JoyAxes[i].analog = joyaxis[i];
CONTROL_DigitizeAxis(i, controldevice_joystick);
CONTROL_ScaleAxis(i, controldevice_joystick);
LIMITCONTROL(&CONTROL_JoyAxes[i].analog);
CONTROL_ApplyAxis(i, info, controldevice_joystick);
}
}
CONTROL_GetDeviceButtons();
}
static void CONTROL_AxisFunctionState(int32_t *p1)
{
if (CONTROL_NumMouseAxes)
{
int32_t j, i = CONTROL_NumMouseAxes-1;
do
{
if (!CONTROL_MouseAxes[i].digital) continue;
if (CONTROL_MouseAxes[i].digital < 0)
j = CONTROL_MouseAxesMap[i].minmap;
else
j = CONTROL_MouseAxesMap[i].maxmap;
if (j != AXISUNDEFINED)
p1[j] = 1;
}
while (i--);
}
if (CONTROL_NumJoyAxes)
{
int32_t j, i = CONTROL_NumJoyAxes-1;
do
{
if (!CONTROL_JoyAxes[i].digital) continue;
if (CONTROL_JoyAxes[i].digital < 0)
j = CONTROL_JoyAxesMap[i].minmap;
else
j = CONTROL_JoyAxesMap[i].maxmap;
if (j != AXISUNDEFINED)
p1[j] = 1;
}
while (i--);
}
}
static void CONTROL_ButtonFunctionState(int32_t *p1)
{
if (CONTROL_NumMouseButtons)
{
int32_t i = CONTROL_NumMouseButtons-1, j;
do
{
if (!CONTROL_MouseBinds[i].cmdstr)
{
j = CONTROL_MouseButtonMapping[i].doubleclicked;
if (j != KEYUNDEFINED)
p1[j] |= CONTROL_MouseButtonClickedState[i];
j = CONTROL_MouseButtonMapping[i].singleclicked;
if (j != KEYUNDEFINED)
p1[j] |= CONTROL_MouseButtonState[i];
}
if (!CONTROL_BindsEnabled)
continue;
if (CONTROL_MouseBinds[i].cmdstr && CONTROL_MouseButtonState[i])
{
if (CONTROL_MouseBinds[i].repeat || (CONTROL_MouseBinds[i].laststate == 0))
OSD_Dispatch(CONTROL_MouseBinds[i].cmdstr);
}
CONTROL_MouseBinds[i].laststate = CONTROL_MouseButtonState[i];
}
while (i--);
}
if (CONTROL_NumJoyButtons)
{
int32_t i=CONTROL_NumJoyButtons-1, j;
do
{
j = CONTROL_JoyButtonMapping[i].doubleclicked;
if (j != KEYUNDEFINED)
p1[j] |= CONTROL_JoyButtonClickedState[i];
j = CONTROL_JoyButtonMapping[i].singleclicked;
if (j != KEYUNDEFINED)
p1[j] |= CONTROL_JoyButtonState[i];
}
while (i--);
}
}
#endif
void CONTROL_ClearButton(int32_t whichbutton)
{
if (CONTROL_CheckRange(whichbutton)) return;
#ifdef __ANDROID__
CONTROL_Android_ClearButton(whichbutton);
#endif
BUTTONCLEAR(whichbutton);
CONTROL_Flags[whichbutton].cleared = TRUE;
}
void CONTROL_ProcessBinds(void)
{
int32_t i=MAXBOUNDKEYS-1;
if (!CONTROL_BindsEnabled)
return;
do
{
if (CONTROL_KeyBinds[i].cmdstr)
{
if (KB_KeyPressed(i) && (CONTROL_KeyBinds[i].repeat || (CONTROL_KeyBinds[i].laststate == 0)))
OSD_Dispatch(CONTROL_KeyBinds[i].cmdstr);
CONTROL_KeyBinds[i].laststate = KB_KeyPressed(i);
}
}
while (i--);
}
#ifndef __ANDROID__
static void CONTROL_GetFunctionInput(void)
{
int32_t periphs[CONTROL_NUM_FLAGS];
int32_t i = CONTROL_NUM_FLAGS-1;
memset(periphs, 0, sizeof(periphs));
CONTROL_ButtonFunctionState(periphs);
CONTROL_AxisFunctionState(periphs);
CONTROL_ButtonHeldState = CONTROL_ButtonState;
CONTROL_ButtonState = 0;
do
{
CONTROL_SetFlag(i, /*CONTROL_KeyboardFunctionPressed(i) | */periphs[i] | CONTROL_OSDInput[i]);
if (CONTROL_Flags[i].cleared == FALSE) BUTTONSET(i, CONTROL_Flags[i].active);
else if (CONTROL_Flags[i].active == FALSE) CONTROL_Flags[i].cleared = 0;
}
while (i--);
memset(CONTROL_OSDInput, 0, sizeof(CONTROL_OSDInput));
}
#endif
void CONTROL_GetInput(ControlInfo *info)
{
#ifdef __ANDROID__
CONTROL_Android_PollDevices(info);
#else
CONTROL_PollDevices(info);
CONTROL_GetFunctionInput();
inputchecked = 1;
#endif
}
int32_t CONTROL_Startup(controltype which, int32_t(*TimeFunction)(void), int32_t ticspersecond)
{
int32_t i;
UNREFERENCED_PARAMETER(which);
if (CONTROL_Started) return FALSE;
if (TimeFunction) ExtGetTime = TimeFunction;
else ExtGetTime = CONTROL_GetTime;
// ticrate = ticspersecond;
CONTROL_DoubleClickSpeed = (ticspersecond*57)/100;
if (CONTROL_DoubleClickSpeed <= 0)
CONTROL_DoubleClickSpeed = 1;
if (initinput()) return TRUE;
CONTROL_MousePresent = CONTROL_MouseEnabled = FALSE;
CONTROL_JoyPresent = CONTROL_JoystickEnabled = FALSE;
CONTROL_NumMouseButtons = CONTROL_NumJoyButtons = 0;
CONTROL_NumMouseAxes = CONTROL_NumJoyAxes = 0;
KB_Startup();
//switch (which) {
// case controltype_keyboard:
// break;
// case controltype_keyboardandmouse:
CONTROL_NumMouseAxes = MAXMOUSEAXES;
CONTROL_NumMouseButtons = MAXMOUSEBUTTONS;
CONTROL_MousePresent = Mouse_Init();
CONTROL_MouseEnabled = CONTROL_MousePresent;
// break;
// case controltype_keyboardandjoystick:
CONTROL_NumJoyAxes = min(MAXJOYAXES,joynumaxes);
CONTROL_NumJoyButtons = min(MAXJOYBUTTONS,joynumbuttons + 4*(joynumhats>0));
CONTROL_JoystickEnabled = CONTROL_JoyPresent = (inputdevices&4)>>2;
// break;
//}
#ifdef GEKKO
if (CONTROL_MousePresent)
initprintf("CONTROL_Startup: Mouse Present\n");
if (CONTROL_JoyPresent)
initprintf("CONTROL_Startup: Joystick Present\n");
#endif
CONTROL_ButtonState = 0;
CONTROL_ButtonHeldState = 0;
for (i=0; i<CONTROL_NUM_FLAGS; i++)
CONTROL_Flags[i].used = FALSE;
CONTROL_Started = TRUE;
return FALSE;
}
void CONTROL_Shutdown(void)
{
if (!CONTROL_Started)
return;
CONTROL_ClearAllBinds();
MOUSE_Shutdown();
uninitinput();
CONTROL_Started = FALSE;
}